CN209306690U - A kind of film material stacking discharging device - Google Patents
A kind of film material stacking discharging device Download PDFInfo
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- CN209306690U CN209306690U CN201821781815.8U CN201821781815U CN209306690U CN 209306690 U CN209306690 U CN 209306690U CN 201821781815 U CN201821781815 U CN 201821781815U CN 209306690 U CN209306690 U CN 209306690U
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- 239000000463 material Substances 0.000 title claims abstract description 49
- 238000007599 discharging Methods 0.000 title claims abstract description 25
- 230000007246 mechanism Effects 0.000 claims abstract description 111
- 230000005540 biological transmission Effects 0.000 claims abstract description 38
- 230000001360 synchronised effect Effects 0.000 claims abstract description 11
- 230000000712 assembly Effects 0.000 claims description 63
- 238000000429 assembly Methods 0.000 claims description 63
- 230000008878 coupling Effects 0.000 claims description 54
- 238000010168 coupling process Methods 0.000 claims description 54
- 238000005859 coupling reaction Methods 0.000 claims description 54
- 230000003028 elevating effect Effects 0.000 claims description 41
- 238000009826 distribution Methods 0.000 claims description 6
- 230000002459 sustained effect Effects 0.000 claims description 3
- 239000010408 film Substances 0.000 description 49
- 230000009286 beneficial effect Effects 0.000 description 10
- 238000000034 method Methods 0.000 description 7
- 238000010586 diagram Methods 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 4
- 230000009471 action Effects 0.000 description 2
- 230000006872 improvement Effects 0.000 description 2
- 229920006280 packaging film Polymers 0.000 description 2
- 239000012785 packaging film Substances 0.000 description 2
- 238000003860 storage Methods 0.000 description 2
- 239000010409 thin film Substances 0.000 description 2
- 230000000007 visual effect Effects 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 230000009881 electrostatic interaction Effects 0.000 description 1
- 238000007373 indentation Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 238000007711 solidification Methods 0.000 description 1
- 230000008023 solidification Effects 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
- 239000005341 toughened glass Substances 0.000 description 1
- 230000007723 transport mechanism Effects 0.000 description 1
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Abstract
The utility model relates to a kind of film materials to stack discharging device, including rack, linear transmission mechanism, the first lifting clamping device, the second lifting clamping device and material receiving;Rack is hollow out bracket, and the first lifting clamping device is mounted on the front end of rack;Linear transmission mechanism is mounted on the rack, and the second lifting clamping device setting goes up and down clamping device rear first, and is sequentially connected with linear transmission mechanism;Linear transmission mechanism can drive the second lifting clamping device to be moved forward and backward close to or far from the first lifting clamping device;Material receiving is arranged in machine frame inside, and is located at the lower section of the first lifting clamping device and the second lifting clamping device;First lifting clamping device and the second lifting clamping device are respectively to clamp film, and film clamped by synchronous drive moves down, and being placed on film stacked on top on material receiving.Advantage: it is reasonable in design, effectively film neatly can be stacked on material receiving.
Description
Technical field
The utility model relates to thin film processing techniques, in particular to a kind of film material stacks discharging device.
Background technique
MWT photovoltaic module can be by tempered glass, battery pack, GPS, conductive core plate and backboard in certain temperature and pressure
Under, it is bonded by the solidification of eva film.When producing MWT photovoltaic module, it usually needs broken eva film coiled material
The processing such as hole, is then cut into the breadth of suitable size, and it is stand-by to stack storage.
In production process, after being cut to eva film, when carrying out blanking stacking storage, since desired EVA is thin
The breadth of film is larger, and when stacking, since there are electrostatic between eva film, is difficult to heap using the stacking method of the prior art
Folded neat, therefore, it is necessary to a kind of discharging devices that can be realized eva film and neatly stack.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of film materials to stack discharging device, effectively overcomes
The defect of the prior art.
The technical solution that the utility model solves above-mentioned technical problem is as follows: a kind of film material stacking discharging device, packet
Including rack, linear transmission mechanism, the first lifting clamping device, the second lifting clamping device and material receiving;
Above-mentioned rack is hollow out bracket, and above-mentioned first lifting clamping device is mounted on the front end of above-mentioned rack;
Above-mentioned linear transmission mechanism is mounted in above-mentioned rack, and above-mentioned second lifting clamping device is arranged at above-mentioned first liter
Clamping device rear is dropped, and is sequentially connected with above-mentioned linear transmission mechanism;
Above-mentioned linear transmission mechanism can drive above-mentioned second lifting clamping device to be moved forward and backward close to or far from above-mentioned first
Go up and down clamping device;
Above-mentioned material receiving is arranged in above-mentioned machine frame inside, and is located at above-mentioned first lifting clamping device and the second lifting folder
Hold the lower section of mechanism;
Above-mentioned first lifting clamping device and second goes up and down clamping device respectively to clamp film, and folded by synchronous drive
The film held moves down, and being placed on film stacked on top on above-mentioned material receiving.
The beneficial effects of the utility model are: it is reasonable in design, effectively film neatly can be folded on material receiving
It puts.
Based on the above technical solution, the utility model can also do following improvement.
Further, above-mentioned first lifting clamping device includes the first coupling beam, the first driving mechanism, two group of first elevating mechanism
With two group of first clamp assemblies, above-mentioned first coupling beam is horizontally disposed in left-right direction, the both ends left and right with above-mentioned rack respectively
Two sides connection, two groups of above-mentioned first elevating mechanisms are separately mounted to the left and right ends of above-mentioned first coupling beam, two groups of above-mentioned first folders
The lower section that component is separately positioned on above-mentioned first coupling beam left and right ends is held, and is connected respectively with two groups of above-mentioned first elevating mechanism transmissions
It connecing, above-mentioned first driving mechanism is mounted in above-mentioned first coupling beam, and is sequentially connected respectively with two groups of above-mentioned first elevating mechanisms,
Above-mentioned first driving mechanism can synchronize to be moved down on two groups of driving, two groups of above-mentioned first clamp assemblies of above-mentioned first elevating mechanism drive
Dynamic, two groups of above-mentioned first clamp assemblies are respectively to clamp the left and right sides of above-mentioned film front end.
Beneficial effect using above-mentioned further scheme is that the design of the first lifting clamping device is reasonable, can be realized diaphragm
Good transport and clamping.
Further, above-mentioned first elevating mechanism includes the first screw rod and the first nut seat, and above-mentioned first nut seat is vertical
Setting, and it is rotatably mounted on the corresponding position of above-mentioned first coupling beam, above-mentioned first screw rod runs through above-mentioned first nut vertically
Seat, and screwed with above-mentioned first nut seat, the lower end of above-mentioned first screw rod is connected and fixed with corresponding above-mentioned first clamp assemblies,
And between two groups of above-mentioned first clamp assemblies by connecting rod connect, above-mentioned first driving mechanism respectively with two groups of above-mentioned first nuts
Seat transmission connection, and can synchronize driving two groups of above-mentioned first nut seats rotate in same direction, with drive two groups of above-mentioned first screw rods and
Two groups of above-mentioned first clamp assemblies are moved up and down with respect to it.
Beneficial effect using above-mentioned further scheme is that the design of the first elevating mechanism is simple, runs smoothly.
Further, above-mentioned first driving mechanism includes first motor, the first main drive belt wheel, two the first follower belts
Wheel, two the first tensioning wheels and the first belt, two groups of above-mentioned first nut seats extend through above-mentioned first coupling beam, and two above-mentioned the
One driven pulley is distinguished coaxial sleeve and is set to outside two groups of above-mentioned first screw rods, and is separately fixed at two groups of above-mentioned first nut seats
Upper end end, above-mentioned first motor are mounted on the upper center of above-mentioned first coupling beam, and straight down, above-mentioned first is main for drive shaft
Driving pulley is coaxially mounted in the drive shaft of above-mentioned first motor, and two above-mentioned first tensioning wheels are vertical respectively and can be rotated
Be mounted in above-mentioned first coupling beam, and be symmetrically distributed in the left and right sides of above-mentioned first tensioning wheel, above-mentioned first main transmission skin
The center of circle distribution triangular in shape of belt wheel and two above-mentioned first tensioning wheels, above-mentioned first belt bypass above-mentioned first main transmission respectively
Belt pulley, two above-mentioned first tensioning wheels and two above-mentioned first driven pulleies, above-mentioned first motor driving above-mentioned first are main
Driving pulley rotation, and drive two above-mentioned first driven pulleies and two group of first nut seat to turn in the same direction by the first belt
It is dynamic, so that two groups of above-mentioned first screw rods be driven to move up and down, and then two groups of above-mentioned first clamp assemblies is driven to move up and down.
Beneficial effect using above-mentioned further scheme is that the first driving mechanism is ingenious in design, can smoothly drive two
First elevating mechanism oscilaltion operation.
Further, above-mentioned first clamp assemblies include the first strap, first movement clamping plate and first driving device,
Above-mentioned first strap is rotatablely connected by first support with the lower end of corresponding above-mentioned first screw rod, two groups of above-mentioned first folders
It holds and is connected and fixed between the top of the above-mentioned first support of component by above-mentioned connecting rod, above-mentioned first movement clamping plate is horizontally set on
The top of above-mentioned first strap, above-mentioned first driving device are mounted in corresponding above-mentioned first support, and with above-mentioned
One mobile clamping plate transmission connection, above-mentioned first driving device can drive above-mentioned first movement clamping plate to move up and down close to or far from upper
The first strap is stated, it is mutually remote that the first support of two groups of above-mentioned first clamp assemblies is distributed in two groups of above-mentioned first straps
From one end, the left and right sides of above-mentioned film front end is clamped in respectively between above-mentioned first strap and first movement clamping plate.
Beneficial effect using above-mentioned further scheme is that the first clamp assemblies are reasonable in design, good can be clamped
Diaphragm.
Further, above-mentioned linear transmission mechanism includes two straight line mould groups, and two above-mentioned straight line Mo Zu are respectively along front and back
To being mounted at left and right sides of above-mentioned rack at sustained height, above-mentioned second lifting clamping device respectively with two above-mentioned straight line mould groups
The transmission connection of sliding executing agency, the above-mentioned second lifting clamping devices of two above-mentioned straight line mould group synchronous drives are moved forward and backward.
Beneficial effect using above-mentioned further scheme is before the design enables to the second lifting clamping device parallel
After move.
Further, above-mentioned second lifting clamping device includes the second coupling beam, the second driving mechanism, two group of second elevating mechanism
With the second clamp assemblies of at least two groups, above-mentioned second coupling beam is arranged in left-right direction, both ends respectively with two above-mentioned straight line moulds
The sliding executing agency transmission connection of group, two groups of above-mentioned second elevating mechanisms are separately mounted to the left and right two of above-mentioned second coupling beam
End, the second clamp assemblies of at least two groups are arranged at intervals on the lower section of above-mentioned second coupling beam in left-right direction respectively, and respectively with edge
The crossbeam of left and right directions setting is connected and fixed, and the both ends of above-mentioned crossbeam are sequentially connected with two above-mentioned second elevating mechanisms respectively,
Above-mentioned second driving mechanism is mounted in above-mentioned second coupling beam, and is sequentially connected respectively with two groups of above-mentioned second elevating mechanisms, on
The above-mentioned crossbeam of the above-mentioned second elevating mechanism drive of two groups of driving and above-mentioned second folder of at least two groups can be synchronized by stating the second driving mechanism
It holds component to move up and down, above-mentioned second clamp assemblies are respectively to clamp the rear end of above-mentioned film.
Beneficial effect using above-mentioned further scheme is that the design of the second lifting clamping device is reasonable, and design rationally, can
Realize the good transport of diaphragm and clamping.
Further, above-mentioned second elevating mechanism includes the second screw rod and the second nut seat, and above-mentioned second nut seat is vertical
Setting, and it is rotatably mounted on the corresponding position of above-mentioned second coupling beam, above-mentioned second screw rod runs through above-mentioned second nut vertically
Seat, and screws with above-mentioned second nut seat, and the lower end of above-mentioned second screw rod and the corresponding end of above-mentioned crossbeam are connected and fixed, and above-mentioned the
Two driving mechanisms are sequentially connected with two groups of above-mentioned second nut seats respectively, and it is in the same direction to synchronize two groups of above-mentioned second nut seats of driving
Rotation, to drive two groups of above-mentioned second screw rods and above-mentioned crossbeam to move up and down with respect to it, so that at least two groups above-mentioned second
Clamp assemblies move up and down.
Beneficial effect using above-mentioned further scheme is that the design of the second elevating mechanism is simple, runs smoothly.
Further, above-mentioned second driving mechanism includes the second motor, the second main drive belt wheel, two the second follower belts
Wheel, two the second tensioning wheels and the second belt, two groups of above-mentioned second nut seats extend through above-mentioned second coupling beam, and two above-mentioned the
Two driven pulleies are distinguished coaxial sleeve and are set to outside two groups of above-mentioned second screw rods, and are separately fixed at two groups of above-mentioned second nut seats
Upper end end, above-mentioned second motor are mounted on the upper center of above-mentioned second coupling beam, and straight down, above-mentioned second is main for drive shaft
Driving pulley is coaxially mounted in the drive shaft of above-mentioned second motor, and two above-mentioned second tensioning wheels are vertical respectively and can be rotated
Be mounted in above-mentioned second coupling beam, and be symmetrically distributed in the left and right sides of above-mentioned second tensioning wheel, above-mentioned second main transmission skin
The center of circle distribution triangular in shape of belt wheel and two above-mentioned second tensioning wheels, above-mentioned second belt bypass above-mentioned second main transmission respectively
Belt pulley, two above-mentioned second tensioning wheels and two above-mentioned second driven pulleies, above-mentioned second motor driven above-mentioned second are main
Driving pulley rotation, and drive two above-mentioned second driven pulleies and two group of second nut seat to turn in the same direction by the second belt
It is dynamic, so that two groups of above-mentioned second screw rods be driven to move up and down, and then above-mentioned crossbeam is driven to drive above-mentioned second clamping of at least two groups
Component moves up and down.
Beneficial effect using above-mentioned further scheme is and driving mechanism is ingenious in design, can smoothly drive two
Second elevating mechanism oscilaltion operation.
Further, above-mentioned second clamp assemblies include the second strap, the second mobile clamping plate and the second driving device,
Above-mentioned second strap is horizontally arranged at the front side of above-mentioned crossbeam by second support, and the above-mentioned second mobile clamping plate is horizontally disposed
In the top of above-mentioned second strap, above-mentioned second driving device is mounted in corresponding above-mentioned second support, and with it is above-mentioned
Second mobile clamping plate transmission connection, above-mentioned second driving device can drive the above-mentioned second mobile clamping plate move up and down close to or far from
Above-mentioned second strap, the back end grip of above-mentioned film front end is between above-mentioned second strap and the second mobile clamping plate.
Beneficial effect using above-mentioned further scheme is that second level clamp assemblies are reasonable in design, good can be pressed from both sides
Hold diaphragm.
Detailed description of the invention
Fig. 1 is the structural schematic diagram that the film material of the utility model stacks a visual angle of discharging device;
Fig. 2 is the structural schematic diagram that the film material of the utility model stacks other visual angles of discharging device;
Fig. 3 is the structural schematic diagram that the film material of the utility model stacks the first lifting clamping device in discharging device;
Fig. 4 is the structural schematic diagram that the film material of the utility model stacks the second lifting clamping device in discharging device.
In attached drawing, parts list represented by the reference numerals are as follows:
1, rack, 2, straight line mould group, the 3, first lifting clamping device, the 4, second lifting clamping device, 5, material receiving,
31, the first coupling beam, the 32, first driving mechanism, the 33, first elevating mechanism, the 34, first clamp assemblies, 35, connecting rod, 41, second connects
Beam, the 42, second driving mechanism, the 43, second elevating mechanism, the 44, second clamp assemblies, 45, crossbeam, 321, first motor, 322,
First main drive belt wheel, the 323, first driven pulley, the 324, first tensioning wheel, the 325, first belt, the 331, first screw rod,
332, the first nut seat, the 341, first strap, 342, first movement clamping plate, 343, first driving device, the 421, second electricity
Machine, the 422, second main drive belt wheel, the 423, second driven pulley, the 424, second tensioning wheel, the 425, second belt, 431,
Two screw rods, the 432, second nut seat, the 441, second strap, the 442, second mobile clamping plate, the 443, second driving device.
Specific embodiment
The principles of the present invention and feature are described below in conjunction with attached drawing, example is served only for explaining that this is practical
It is novel, it is not intended to limit the scope of the utility model.
Embodiment: as shown in Figures 1 to 4, it includes rack 1, Linear transmission that the film material of the present embodiment, which stacks discharging device,
Mechanism, the first lifting clamping device 3, second go up and down clamping device 4 and material receiving 5;
Above-mentioned rack 1 is hollow out bracket (bracket is strip, and is arranged along the longitudinal direction), above-mentioned first lifting clamping
Mechanism 3 is mounted on the front end of above-mentioned rack 1;
Above-mentioned linear transmission mechanism is mounted in above-mentioned rack 1, and above-mentioned second lifting clamping device 4 is arranged above-mentioned first
3 rear of clamping device is gone up and down, and is sequentially connected with above-mentioned linear transmission mechanism;
Above-mentioned linear transmission mechanism can drive above-mentioned second lifting clamping device 4 to be moved forward and backward close to or far from above-mentioned first
Go up and down clamping device 3;
Above-mentioned material receiving 5 is arranged inside above-mentioned rack 1, and is located at above-mentioned first lifting clamping device 3 and second liter
The lower section of clamping device 4 drops;
Above-mentioned first lifting clamping device 3 and the second lifting clamping device 4 are respectively to clamp film, and synchronous drive institute
The film of clamping moves down, and being placed on film stacked on top on above-mentioned material receiving 5.
In production process, sheet film is entered by 1 front end of rack, and its rear end is first clamped on the second lifting clamping device 4,
Linear transmission mechanism drives rearward mobile far from the first lifting clamping device 3 on the second lifting clamping device 4 later, until thin
Film full wafer enters in rack 1, and later, the first lifting clamping device 3 clamps film again, so that film is firm to be clamped in the first lifting
On clamping device 3 and the second lifting clamping device 4, in next step, the first lifting clamping device 3 and the second lifting clamping device 4 are same
When drive film drop to lower section material receiving 5 on, later, first lifting clamping device 3 and second lifting clamping device 4 solve
Except the clamping to film, film is lain on material receiving 5, next, the first lifting clamping device 3 and the second lifting clamping machine
Structure 4 rises return simultaneously, and linear transmission mechanism drives the second lifting clamping device 4 to move forward close to the first lifting clamping device
3, aforesaid operations are repeated, lower one sheet of film is clamped and neatly overlays on lower film, whole operation is fairly simple, and standard is turned into
Industry, the complete stacked on top for enabling diaphragm neat, when avoiding using prior art stacked film, between film material
Static electrification material between electrostatic interaction caused by draw material phenomenon.
Preferably, above-mentioned rack 1 is the cuboid bracket of hollow out, its rear end has notch, and above-mentioned material receiving 5 can be by
Indentation, there pulls out outside rack 1, or is put into rack 1.
Above-mentioned 5 upper end of material receiving is plane, and lower end is equipped with traveling wheel, conducive to the movement of entire material receiving 5, traveling wheel
It is most preferably taken turns using good fortune horse, adjustable walking and fixed two states are very convenient.
Preferably, above-mentioned first lifting clamping device 3 includes the first coupling beam 31,32, two groups first liter of the first driving mechanism
Descending mechanism 33 and two group of first clamp assemblies 34, above-mentioned first coupling beam 31 are horizontally disposed in left-right direction, both ends respectively with it is upper
The left and right sides connection of rack 1 is stated, two groups of above-mentioned first elevating mechanisms 33 are separately mounted to the left and right two of above-mentioned first coupling beam 31
End, two groups of above-mentioned first clamp assemblies 34 are separately positioned on the lower section of above-mentioned first coupling beam, 31 left and right ends, and respectively with two groups
Above-mentioned first elevating mechanism 33 is sequentially connected, and above-mentioned first driving mechanism 32 is mounted in above-mentioned first coupling beam 31, and respectively with
Two groups of above-mentioned first elevating mechanisms 33 are sequentially connected, and above-mentioned first driving mechanism 32 can synchronize two groups of above-mentioned first elevators of driving
Structure 33 drives two groups of above-mentioned first clamp assemblies 34 to move up and down, and two groups of above-mentioned first clamp assemblies 34 are above-mentioned to clamp respectively
The left and right sides of film front end, for diaphragm when being entered by 1 front end of rack, the left and right sides is each passed through two group of first clamping group
Part 34, at this point, two group of first clamp assemblies 34 plays the guiding role to diaphragm, it is above-mentioned into two groups in the rear end of diaphragm
When rear between the first clamp assemblies 34, linear transmission mechanism drives the second lifting clamping device 4 to move close to the first lifting
Clamping device 3 (is just proximate to the rear end of diaphragm), and the back end grip of diaphragm is lived, and linear transport mechanism drives later
Second lifting clamping device 4 moves backward, and pulls film and move backward along two groups of above-mentioned first clamp assemblies 34, until film
Front end enter in rack 1, later, two group of first clamp assemblies 34 is clamped respectively at left and right sides of the front end of film, at this point, thin
Diaphragm is in horizontality, and in next step, the first driving mechanism 32 drives two group of first elevating mechanism 33 to drive two group of first clamping
Component 34 moves down, synchronous, and the second lifting clamping device 4 moves downward simultaneously, so that diaphragm holding level is displaced downwardly to and connects
Expect on platform 5, finally, two group of first clamp assemblies 34 and the second lifting clamping device 4 release the clamping to diaphragm simultaneously, it is thin
Diaphragm lies against 5 upper end of material receiving, later, a piece of diaphragm in the case where lower film on piece repeats to fold, whole operation mark
Standardization, it is neat to stack comparison, is conducive to subsequent processing, and the first lifting clamping device 3 designs rationally, simple, convenient,
It is stable, preferable packaging film feeding and clamping action can be played.
Preferably, above-mentioned first elevating mechanism 33 includes the first screw rod 331 and the first nut seat 332, above-mentioned first spiral shell
Base 332 is vertically arranged, and is rotatably mounted on the corresponding position of above-mentioned first coupling beam 31, and above-mentioned first screw rod 331 is vertical
Screwed through above-mentioned first nut seat 332, and with above-mentioned first nut seat 332, the lower end of above-mentioned first screw rod 331 with it is corresponding
Above-mentioned first clamp assemblies 34 are connected and fixed, and are connected between two groups of above-mentioned first clamp assemblies 34 by connecting rod 35, and above-mentioned the
One driving mechanism 32 is sequentially connected with two groups of above-mentioned first nut seats 332 respectively, and can synchronize two groups of above-mentioned first nuts of driving
Seat 332 rotates in same direction, to drive two groups of above-mentioned first screw rods 331 and two groups of above-mentioned first clamp assemblies 34 to move down thereon relatively
Dynamic, the first elevating mechanism 33 is in such a way that the first nut seat 332 is rotated by driving and then the first lead screw 331 is driven to move up and down
It drives the first clamp assemblies 34 to move up and down, operates fairly simple, running and comparing is steady.
Preferably, above-mentioned first driving mechanism 32 includes first motor 321, the first main drive belt wheel 322, two the
One the first tensioning wheel 324 of driven pulley 323, two and the first belt 325, two groups of above-mentioned first nut seats 332 extend through
Above-mentioned first coupling beam 31, two above-mentioned first driven pulleies 323 are distinguished coaxial sleeve and are set to outside two groups of above-mentioned first screw rods 331,
And it is separately fixed at the upper end end of two groups of above-mentioned first nut seats 332, above-mentioned first motor 321 is mounted on above-mentioned first coupling beam
31 upper center, straight down, above-mentioned first main drive belt wheel 322 is coaxially mounted to above-mentioned first motor to drive shaft
In 321 drive shaft, two above-mentioned first tensioning wheels 324 are vertical respectively and are rotatably mounted in above-mentioned first coupling beam 31,
And it is symmetrically distributed in the left and right sides of above-mentioned first tensioning wheel 324, above-mentioned first main drive belt wheel 322 and two above-mentioned first
The distribution triangular in shape of the center of circle of tensioning wheel 324, above-mentioned first belt 325 bypass above-mentioned first main drive belt wheel 322, two respectively
A above-mentioned first tensioning wheel 324 and two above-mentioned first driven pulleies 323, above-mentioned first motor 321 drive above-mentioned first master
Driving pulley 322 rotates, and drives two above-mentioned first driven pulleies 323 and two group of first spiral shell by the first belt 325
Base 332 rotates in same direction, so that two groups of above-mentioned first screw rods 331 be driven to move up and down, and then drives two groups of above-mentioned first clampings
Component 34 moves up and down, and entire first driving mechanism 32 is novel in design, rationally, by 321 drive belt transmission of first motor, into
And two group of first nut seat 332 is driven to rotate, to reach the mesh that opposite first nut seat 332 of the first screw rod 331 moves up and down
, and then realize that the first clamp assemblies 34 drive diaphragm steadily to move up and down and carry out transport and discharging, whole process operating ratio
It is relatively steady, it is stacked conducive to effective, standardized discharging of diaphragm.
Preferably, above-mentioned first clamp assemblies 34 include the first strap 341, first movement clamping plate 342 and first
Driving device 343, above-mentioned first strap 341 are rotated by first support with the lower end of corresponding above-mentioned first screw rod 331
It connects, is connected and fixed between the top of the above-mentioned first support of two groups of above-mentioned first clamp assemblies 34 by above-mentioned connecting rod 35, on
The top that first movement clamping plate 342 is horizontally set on above-mentioned first strap 341 is stated, above-mentioned first driving device 343 is installed
It is sequentially connected in corresponding above-mentioned first support, and with above-mentioned first movement clamping plate 342, above-mentioned first driving device 343 can
Above-mentioned first movement clamping plate 342 is driven to move up and down close to or far from above-mentioned first strap 341, two groups of above-mentioned first clampings
The first support of component 34 is distributed in one end that two groups of above-mentioned first straps 341 are located remotely from each other, a left side for above-mentioned film front end
Right two sides are clamped in respectively between above-mentioned first strap 341 and first movement clamping plate 342, and entire design comparison is reasonable, when
When diaphragm enters the front end of rack 1, first movement clamping plate 342 is in the top of the first strap 341, the left and right of diaphragm
Two sides are each passed through between first movement clamping plate 342 and the first strap 341, to film by second lifting clamping device 4 to
After pull and enter rack 1 to diaphragm front end after, first driving device 343 drives first movement clamping plate 342 to move down folder again
The two sides of tight diaphragm, moved down under the drive for finally going up and down clamping device at two carry out diaphragm move down and it is subsequent
Removal operates, and is automatically brought into operation in whole process, operation or work standard, and diaphragm stacking is more neat, and it is subsequent good to be conducive to diaphragm
Production and processing.
Preferably, above-mentioned linear transmission mechanism includes two straight line mould groups 2, two above-mentioned straight line mould groups 2 are respectively along front and back
Direction is mounted at above-mentioned 1 left and right sides sustained height of rack, it is above-mentioned second lifting clamping device 4 respectively with two above-mentioned straight lines
The sliding executing agency 21 of mould group 2 is sequentially connected, the above-mentioned second lifting clamping device 4 of two 2 synchronous drives of above-mentioned straight line mould group
It is moved forward and backward, the design of two straight line mould groups 2 can ensure the steady movement of the second lifting clamping device 4.
The sliding executing agency 21 of above-mentioned straight line mould group 2 is exactly that can move linearly along its length in straight line mould group 2
Sliding block.
Preferably, above-mentioned second lifting clamping device 4 includes the second coupling beam 41,42, two groups second liter of the second driving mechanism
Descending mechanism 43 and the second clamp assemblies of at least two groups 44, above-mentioned second coupling beam 41 are arranged in left-right direction, and both ends are respectively with two
The sliding executing agency 21 of a above-mentioned straight line mould group 2 is sequentially connected, and two groups of above-mentioned second elevating mechanisms 43 are separately mounted to above-mentioned
The left and right ends of second coupling beam 41, the second clamp assemblies of at least two groups 44 are arranged at intervals on above-mentioned second in left-right direction respectively and connect
The lower section of beam 41, and being connected and fixed respectively with the crossbeam 45 being arranged in left-right direction, the both ends of above-mentioned crossbeam 45 respectively with two
Above-mentioned second elevating mechanism 43 is sequentially connected, and above-mentioned second driving mechanism 42 is mounted in above-mentioned second coupling beam 41, and respectively with
Two groups of above-mentioned second elevating mechanisms 43 are sequentially connected, and above-mentioned second driving mechanism 42 can synchronize above-mentioned second lifting of two groups of driving
Mechanism 43 drives above-mentioned crossbeam 45 and above-mentioned second clamp assemblies 44 of at least two groups to move up and down, and above-mentioned second clamp assemblies 44 divide
Not to the rear end for clamping above-mentioned film, for diaphragm when being entered by 1 front end of rack, the left and right sides is each passed through two group first
Clamp assemblies 34, at this point, the second lifting clamping device 4 moves close to the first lifting clamping under the drive of two straight line mould groups 2
Mechanism 3, in next step, two group of second clamp assemblies 44 of at least two groups respectively clamp diaphragm rear end, in next step, two straight line moulds
Group 2 drives the second lifting clamping device 4 rearward mobile until diaphragm is entirely drawn into rack 1, at this point, diaphragm front end
The left and right sides be respectively placed at two group of first clamp assemblies 34, two group of first clamp assemblies 34 distinguish clamping films piece front end
The left and right sides, at this point, diaphragm is in horizontality, in next step, the second driving mechanism 42 drives two group of second elevating mechanism 43
Two group of second clamp assemblies 44 is driven to move down, synchronous, the first lifting clamping device 3 moves downward simultaneously, so that diaphragm
Holding level is displaced downwardly on material receiving 5, finally, two group of second clamp assemblies 44 and the first lifting clamping device 3 release simultaneously
Clamping to diaphragm, diaphragm lie against 5 upper end of material receiving, later, repeat folded lower one sheet of film in lower film on piece
Piece, whole operation standardization, it is neat to stack comparison, is conducive to subsequent processing, and the second lifting design of clamping device 4 is closed
Reason, it is simple, convenient, it is stable, preferable packaging film feeding and clamping action can be played.
Preferably, above-mentioned second elevating mechanism 43 includes the second screw rod 431 and the second nut seat 432, above-mentioned second spiral shell
Base 432 is vertically arranged, and is rotatably mounted on the corresponding position of above-mentioned second coupling beam 41, and above-mentioned second screw rod 431 is vertical
It is screwed through above-mentioned second nut seat 432, and with above-mentioned second nut seat 432, the lower end of above-mentioned second screw rod 431 and above-mentioned cross
The corresponding end of beam 45 is connected and fixed, and above-mentioned second driving mechanism 42 is sequentially connected with two groups of above-mentioned second nut seats 432 respectively, and
Two groups of above-mentioned second nut seats 432 of driving can be synchronized to rotate in same direction, to drive two groups of above-mentioned second screw rods 431 and above-mentioned crossbeam 45
Opposite its moves up and down, so that above-mentioned second clamp assemblies 44 of at least two groups move up and down, the second elevating mechanism 43 is used
Second nut seat 432 drives the second clamp assemblies 44 by the mode that driving rotates and then the second lead screw 431 is driven to move up and down
It moves up and down, operation is fairly simple, and running and comparing is steady.
Preferably, above-mentioned second driving mechanism 42 includes the second motor 421, the second main drive belt wheel 422, two the
Two the second tensioning wheels 424 of driven pulley 423, two and the second belt 425, two groups of above-mentioned second nut seats 432 extend through
Above-mentioned second coupling beam 41, two above-mentioned second driven pulleies 423 are distinguished coaxial sleeve and are set to outside two groups of above-mentioned second screw rods 431,
And it is separately fixed at the upper end end of two groups of above-mentioned second nut seats 432, above-mentioned second motor 421 is mounted on above-mentioned second coupling beam
41 upper center, straight down, above-mentioned second main drive belt wheel 422 is coaxially mounted to above-mentioned second motor to drive shaft
In 421 drive shaft, two above-mentioned second tensioning wheels 424 are vertical respectively and are rotatably mounted in above-mentioned second coupling beam 41,
And it is symmetrically distributed in the left and right sides of above-mentioned second tensioning wheel 424, above-mentioned second main drive belt wheel 422 and two above-mentioned second
The distribution triangular in shape of the center of circle of tensioning wheel 424, above-mentioned second belt 425 bypass above-mentioned second main drive belt wheel 422, two respectively
A above-mentioned second tensioning wheel 424 and two above-mentioned second driven pulleies 423, above-mentioned second motor 421 drive above-mentioned second master
Driving pulley 422 rotates, and drives two above-mentioned second driven pulleies 423 and two group of second spiral shell by the second belt 425
Base 432 rotates in same direction, so that two groups of above-mentioned second screw rods 431 be driven to move up and down, and then above-mentioned crossbeam 45 is driven to drive extremely
Few two groups of above-mentioned second clamp assemblies 44 move up and down, and entire second driving mechanism 42 is novel in design, reasonable, pass through the second motor
421 drive belt transmissions, and then two group of second nut seat 432 is driven to rotate, to reach opposite second nut of the second screw rod 431
The purpose that seat 432 moves up and down, and then realize that the second clamp assemblies 44 drive diaphragm steadily to move up and down and transported and unloaded
Material, whole process running and comparing is steady, stacks conducive to effective, standardized discharging of diaphragm.
Preferably, above-mentioned second clamp assemblies 44 include the mobile clamping plate 442 and second of the second strap 441, second
Driving device 443, above-mentioned second strap 441 are horizontally arranged at the front side of above-mentioned crossbeam 45 by second support, and above-mentioned
Two mobile clamping plates 442 are horizontally placed on the top of above-mentioned second strap 441, and above-mentioned second driving device 443 is mounted on pair
It in the above-mentioned second support answered, and is sequentially connected with the above-mentioned second mobile clamping plate 442, above-mentioned second driving device 443 can drive
Above-mentioned second mobile clamping plate 442 is moved up and down close to or far from above-mentioned second strap 441, and the rear end of above-mentioned film front end presss from both sides
It holds between above-mentioned second strap 441 and the second mobile clamping plate 442, entire design comparison is reasonable, when diaphragm enters machine
When the front end of frame 1, the second mobile clamping plate 442 be in the top of the second strap 441, the rear end of diaphragm into the and move
Between clamping plate 442 and the second strap 441, the second driving device 443 drives the second mobile clamping plate 442 to move down clamping again
The rear end of diaphragm, later, two straight line mould groups 2 are moved after driving the second lifting 4 phase of clamping device, and by diaphragm along two
It is pullled after first clamp assemblies, 34 phase to rack 1 is entirely entered, later, the first clamp assemblies 34 distinguish clamping films piece front end
The left and right sides, last diaphragm two go up and down clamping device drive under move down carry out diaphragm move down and it is subsequent
Removal operates, and is automatically brought into operation in whole process, operation or work standard, and diaphragm stacking is more neat, and it is subsequent good to be conducive to diaphragm
Production and processing.
The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all practical at this
Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model
Within the scope of shield.
Claims (10)
1. a kind of film material stacks discharging device, it is characterised in that: including rack (1), linear transmission mechanism, the first lifting folder
Hold mechanism (3), the second lifting clamping device (4) and material receiving (5);
The rack (1) is hollow out bracket, and first lifting clamping device (3) is mounted on the front end of the rack (1);
The linear transmission mechanism is mounted on the rack (1), and second lifting clamping device (4) is arranged described first
Clamping device (3) rear is gone up and down, and is sequentially connected with the linear transmission mechanism;
The linear transmission mechanism can drive second lifting clamping device (4) to be moved forward and backward close to or far from described first liter
It drops clamping device (3);
Material receiving (5) setting is internal in the rack (1), and is located at first lifting clamping device (3) and second
Go up and down the lower section of clamping device (4);
First lifting clamping device (3) and the second lifting clamping device (4) are respectively to clamp film, and synchronous drive institute
The film of clamping moves down, and being placed on film stacked on top on the material receiving (5).
2. a kind of film material according to claim 1 stacks discharging device, it is characterised in that: the first lifting clamping
Mechanism (3) includes the first coupling beam (31), the first driving mechanism (32), two group of first elevating mechanism (33) and two group of first clamping group
Part (34), first coupling beam (31) are horizontally disposed in left-right direction, and both ends connect at left and right sides of the rack (1) respectively
It connects, the first elevating mechanism (33) described in two groups is separately mounted to the left and right ends of first coupling beam (31), first described in two groups
Clamp assemblies (34) are separately positioned on the lower section of the first coupling beam (31) left and right ends, and go up and down respectively with described in two groups first
Mechanism (33) transmission connection, first driving mechanism (32) is mounted on first coupling beam (31), and respectively with two groups of institutes
The first elevating mechanism (33) transmission connection is stated, first driving mechanism (32) can synchronize the first elevating mechanism described in two groups of driving
(33) the first clamp assemblies (34) described in two groups of drive move up and down, and the first clamp assemblies (34) are respectively to clamp described in two groups
The left and right sides of the film front end.
3. a kind of film material according to claim 2 stacks discharging device, it is characterised in that: first elevating mechanism
It (33) include the first screw rod (331) and the first nut seat (332), first nut seat (332) is vertically arranged, and can be rotated
The corresponding position for being mounted on first coupling beam (31), first screw rod (331) vertically run through first nut seat
(332), it and with first nut seat (332) screws, the lower end of first screw rod (331) is clamped with corresponding described first
Component (34) is connected and fixed, and is connected between the first clamp assemblies (34) described in two groups by connecting rod (35), first driving
Mechanism (32) is sequentially connected with the first nut seat (332) described in two groups respectively, and can synchronize the first nut seat described in two groups of driving
(332) it rotates in same direction, relatively thereon with the first clamp assemblies (34) described in the first screw rod (331) described in two groups of drive and two groups
Lower movement.
4. a kind of film material according to claim 3 stacks discharging device, it is characterised in that: first driving mechanism
It (32) include first motor (321), the first main drive belt wheel (322), two the first driven pulleies (323), two first
Tensioning wheel (324) and the first belt (325), the first nut seat (332) described in two groups extend through first coupling beam (31), and two
A first driven pulley (323) respectively coaxial sleeve be set to two groups described in the first screw rod (331) outside, and be separately fixed at two
The upper end end of group first nut seat (332), the first motor (321) are mounted on the upper end of first coupling beam (31)
Middle part, straight down, the first main drive belt wheel (322) is coaxially mounted to the first motor (321) to drive shaft
In drive shaft, two first tensioning wheels (324) are vertical respectively and are rotatably mounted on first coupling beam (31), and
It is symmetrically distributed in the left and right sides of first tensioning wheel (324), the first main drive belt wheel (322) and two described
The center of circle distribution triangular in shape of one tensioning wheel (324), first belt (325) bypass the first main drive belt wheel respectively
(322), two first tensioning wheels (324) and two first driven pulleies (323), the first motor (321)
It drives the first main drive belt wheel (322) to rotate, and drives two first follower belts by the first belt (325)
Wheel (323) and two group of first nut seat (332) rotate in same direction, so that the first screw rod (331) described in driving two groups moves up and down, into
And the first clamp assemblies (34) described in driving two groups move up and down.
5. a kind of film material according to claim 3 stacks discharging device, it is characterised in that: first clamp assemblies
It (34) include the first strap (341), first movement clamping plate (342) and first driving device (343), described first is fixed
Clamping plate (341) is rotatablely connected by first support with the lower end of corresponding first screw rod (331), the first clamping described in two groups
It is connected and fixed between the top of the first support of component (34) by the connecting rod (35), the first movement clamping plate
(342) it is horizontally set on the top of first strap (341), the first driving device (343) is mounted on corresponding
It in the first support, and is sequentially connected with the first movement clamping plate (342), the first driving device (343) can drive
The first movement clamping plate (342) moves up and down the first clamping described in two groups close to or far from first strap (341)
The first support of component (34) be distributed in two groups described in one end for being located remotely from each other of the first strap (341), the film front end
The left and right sides be clamped between first strap (341) and first movement clamping plate (342) respectively.
6. a kind of film material according to claim 1 stacks discharging device, it is characterised in that: the linear transmission mechanism
Including two straight line mould groups (2), two straight line mould groups (2) are mounted on the rack (1) left and right two along the longitudinal direction respectively
At the sustained height of side, described second goes up and down clamping device (4) sliding executing agency with two straight line mould groups (2) respectively
(21) it is sequentially connected, the second lifting clamping device (4) described in two straight line mould group (2) synchronous drives is moved forward and backward.
7. a kind of film material according to claim 6 stacks discharging device, it is characterised in that: the second lifting clamping
Mechanism (4) includes that the second coupling beam (41), the second driving mechanism (42), two group of second elevating mechanism (43) and at least two groups second are pressed from both sides
It holds component (44), second coupling beam (41) is arranged in left-right direction, the both ends cunning with two straight line mould groups (2) respectively
Dynamic executing agency (21) transmission connection, the second elevating mechanism (43) described in two groups are separately mounted to a left side for second coupling beam (41)
Right both ends, the second clamp assemblies of at least two groups (44) are arranged at intervals in left-right direction respectively under second coupling beam (41)
Side, and be connected and fixed respectively with the crossbeam (45) being arranged in left-right direction, the both ends of the crossbeam (45) are respectively and described in two
Second elevating mechanism (43) transmission connection, second driving mechanism (42) are mounted on second coupling beam (41), and respectively
It is sequentially connected with the second elevating mechanism (43) described in two groups, second driving mechanism (42) can synchronize second described in two groups of driving
Elevating mechanism (43) drives the second clamp assemblies (44) described in the crossbeam (45) and at least two groups to move up and down, second folder
Component (44) is held respectively to clamp the rear end of the film.
8. a kind of film material according to claim 7 stacks discharging device, it is characterised in that: second elevating mechanism
It (43) include the second screw rod (431) and the second nut seat (432), second nut seat (432) is vertically arranged, and can be rotated
The corresponding position for being mounted on second coupling beam (41), second screw rod (431) vertically run through second nut seat
(432), it and with second nut seat (432) screws, the lower end of second screw rod (431) is corresponding with the crossbeam (45)
End is connected and fixed, and second driving mechanism (42) is sequentially connected with the second nut seat (432) described in two groups respectively, and can synchronize
Second nut seat (432) described in driving two groups rotates in same direction, with the second screw rod (431) and the crossbeam (45) described in two groups of drive
Opposite its moves up and down, so that the second clamp assemblies (44) described at least two groups move up and down.
9. a kind of film material according to claim 8 stacks discharging device, it is characterised in that: second driving mechanism
It (42) include the second motor (421), the second main drive belt wheel (422), two the second driven pulleies (423), two second
Tensioning wheel (424) and the second belt (425), the second nut seat (432) described in two groups extend through second coupling beam (41), and two
A second driven pulley (423) respectively coaxial sleeve be set to two groups described in the second screw rod (431) outside, and be separately fixed at two
The upper end end of group second nut seat (432), second motor (421) are mounted on the upper end of second coupling beam (41)
Middle part, straight down, the second main drive belt wheel (422) is coaxially mounted to second motor (421) to drive shaft
In drive shaft, two second tensioning wheels (424) are vertical respectively and are rotatably mounted on second coupling beam (41), and
It is symmetrically distributed in the left and right sides of second tensioning wheel (424), the second main drive belt wheel (422) and two described
The center of circle distribution triangular in shape of two tensioning wheels (424), second belt (425) bypass the second main drive belt wheel respectively
(422), two second tensioning wheels (424) and two second driven pulleies (423), second motor (421)
It drives the second main drive belt wheel (422) to rotate, and drives two second follower belts by the second belt (425)
Wheel (423) and two group of second nut seat (432) rotate in same direction, so that the second screw rod (431) described in driving two groups moves up and down, into
And drive the crossbeam (45) that the second clamp assemblies (44) described at least two groups is driven to move up and down.
10. a kind of film material according to any one of claims 7 to 9 stacks discharging device, it is characterised in that: described the
Two clamp assemblies (44) include the second strap (441), second mobile clamping plate (442) and the second driving device (443), institute
State the front side that the second strap (441) is horizontally arranged at the crossbeam (45) by second support, the described second mobile clamping plate
(442) it is horizontally placed on the top of second strap (441), second driving device (443) is mounted on corresponding
It in the second support, and is sequentially connected with described second mobile clamping plate (442), second driving device (443) can drive
Second mobile clamping plate (442) are moved up and down close to or far from second strap (441), behind the film front end
End is clamped between second strap (441) and second mobile clamping plate (442).
Priority Applications (1)
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CN201821781815.8U CN209306690U (en) | 2018-10-31 | 2018-10-31 | A kind of film material stacking discharging device |
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CN201821781815.8U CN209306690U (en) | 2018-10-31 | 2018-10-31 | A kind of film material stacking discharging device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110950158A (en) * | 2019-11-22 | 2020-04-03 | 盐城市华森机械有限公司 | Pulling and stacking mechanism for automatic abrasive paper cutting production line |
CN115254551A (en) * | 2022-08-12 | 2022-11-01 | 广州思而特科技有限公司 | Automatic rubber coating equipment of glass side |
-
2018
- 2018-10-31 CN CN201821781815.8U patent/CN209306690U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110950158A (en) * | 2019-11-22 | 2020-04-03 | 盐城市华森机械有限公司 | Pulling and stacking mechanism for automatic abrasive paper cutting production line |
CN115254551A (en) * | 2022-08-12 | 2022-11-01 | 广州思而特科技有限公司 | Automatic rubber coating equipment of glass side |
CN115254551B (en) * | 2022-08-12 | 2023-06-13 | 广州思而特科技有限公司 | Automatic gluing equipment for glass side edges |
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