CN110326638A - A kind of feedback calibration formula bilateral trace equalization fission weighs conveying device and its application - Google Patents
A kind of feedback calibration formula bilateral trace equalization fission weighs conveying device and its application Download PDFInfo
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- CN110326638A CN110326638A CN201910643519.4A CN201910643519A CN110326638A CN 110326638 A CN110326638 A CN 110326638A CN 201910643519 A CN201910643519 A CN 201910643519A CN 110326638 A CN110326638 A CN 110326638A
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- conveyer belt
- weighing
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- 230000002146 bilateral effect Effects 0.000 title claims abstract description 17
- 230000004992 fission Effects 0.000 title claims abstract description 15
- 238000005303 weighing Methods 0.000 claims abstract description 48
- 230000000712 assembly Effects 0.000 claims description 13
- 238000000429 assembly Methods 0.000 claims description 13
- 230000011218 segmentation Effects 0.000 claims description 12
- 230000032258 transport Effects 0.000 claims description 12
- 238000000034 method Methods 0.000 claims description 9
- 230000033001 locomotion Effects 0.000 claims description 8
- 238000009434 installation Methods 0.000 claims description 4
- 230000001360 synchronised effect Effects 0.000 claims description 4
- 238000002271 resection Methods 0.000 claims description 3
- 235000013305 food Nutrition 0.000 abstract description 2
- 230000000694 effects Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 230000009123 feedback regulation Effects 0.000 description 3
- 230000009471 action Effects 0.000 description 1
- 239000011324 bead Substances 0.000 description 1
- 230000008901 benefit Effects 0.000 description 1
- 230000033228 biological regulation Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 235000008429 bread Nutrition 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 230000014759 maintenance of location Effects 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000003908 quality control method Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
-
- A—HUMAN NECESSITIES
- A21—BAKING; EDIBLE DOUGHS
- A21C—MACHINES OR EQUIPMENT FOR MAKING OR PROCESSING DOUGHS; HANDLING BAKED ARTICLES MADE FROM DOUGH
- A21C3/00—Machines or apparatus for shaping batches of dough before subdivision
- A21C3/02—Dough-sheeters; Rolling-machines; Rolling-pins
-
- A—HUMAN NECESSITIES
- A21—BAKING; EDIBLE DOUGHS
- A21C—MACHINES OR EQUIPMENT FOR MAKING OR PROCESSING DOUGHS; HANDLING BAKED ARTICLES MADE FROM DOUGH
- A21C3/00—Machines or apparatus for shaping batches of dough before subdivision
- A21C3/10—Machines or apparatus for shaping batches of dough before subdivision combined with dough-dividing apparatus
-
- A—HUMAN NECESSITIES
- A21—BAKING; EDIBLE DOUGHS
- A21C—MACHINES OR EQUIPMENT FOR MAKING OR PROCESSING DOUGHS; HANDLING BAKED ARTICLES MADE FROM DOUGH
- A21C9/00—Other apparatus for handling dough or dough pieces
- A21C9/08—Depositing, arranging and conveying apparatus for handling pieces, e.g. sheets of dough
-
- A—HUMAN NECESSITIES
- A21—BAKING; EDIBLE DOUGHS
- A21C—MACHINES OR EQUIPMENT FOR MAKING OR PROCESSING DOUGHS; HANDLING BAKED ARTICLES MADE FROM DOUGH
- A21C9/00—Other apparatus for handling dough or dough pieces
- A21C9/08—Depositing, arranging and conveying apparatus for handling pieces, e.g. sheets of dough
- A21C9/085—Separating, spacing, orienting or aligning discrete dough pieces, e.g. after passing a cutting device
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- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Manufacturing And Processing Devices For Dough (AREA)
Abstract
The invention discloses a kind of feedback calibration formula bilateral trace equalization fissions to weigh conveying device and its application, it is related to technical field of food machinery, including main conveyor belt, it is additionally provided with cutting transfer device, after same strip face block can be divided into two seperated strip face blocks and transported, the two is opened by transhipment conveying device transport and is transported to cutting transfer device, and respectively enter primary weighing transfer device, reach setting weight or setting time, cutoff tool cuts off the two end, form two individual facet groups, and it is weighed again through a second weighing transfer device respectively, and judge weight difference between the two, according to the corresponding adjustment main conveyor belt output end offset direction of fed back difference, so that separating dough quality next time can reach balance;By above-mentioned setting, so that two dough weights generated realize effective balance, the drawback for causing product weight error big because of primary face block placement location difference is avoided.
Description
Technical field
The present invention relates to technical field of food machinery, and in particular to one kind for conveying dough during to its piecemeal at
The conveying device of balanced surface block weight error after reason.
Background technique
During machinery preparation, key step includes rubbing big dough at elongate bar shaped face for bread, steamed bun etc.
Block, then cuts piecemeal to it, forms face block single one by one, and it is final it is toasted and etc. after, be prepared into edible surface
Packet or steamed bun.
By elongate bar shaped face block, therefrom portion's segmentation is in two pieces to equipment component, stripping and slicing is then synchronized, to improve preparation effect
Rate, but such method brings certain drawbacks, after a strip face block is divided into two, because the position of rounding knife is solid
Fixed, the position that interarea block is placed when inputting is different, and the weight for dividing the two face blocks generated also can be different, thus generate two
There is also differences for weight between the independent dough in part, are unfavorable for the quality control of product.
Meanwhile the weighing of face block weight is mostly after the completion of producing, to be sampled detection, i.e., weight information obtains in the prior art
The hysteresis quality taken leads to the underproof phenomenon of batch weight easily occur.
Therefore, how above-mentioned technical problem is solved, is urgent problem now.
Summary of the invention
It is seperated that it is an object of the invention to overcome the deficiencies of the prior art and provide a kind of feedback calibration formula bilateral trace equalizations
Conveying device and its application are weighed, to solve to weigh lag, the big technical problem of dough weight error in the prior art.
The present invention is achieved by the following technical solutions:
The present invention provides a kind of feedback calibration formula bilateral trace equalization fissions to weigh conveying device, including for conveying strip
The main conveyor belt of shape face block, being provided on the outside of the main conveyor belt can drive its whole or its output end to carry out and its side of extension
To the offset assembly of reciprocating motion vertical, in horizontal direction, it is additionally provided with immediately ahead of the output end of the main conveyor belt
Cutting transfer device for cutting into two strip facet blocks along main conveyor belt extending direction and transporting strip face block,
The transhipment that the two strip facet blocks that can be cut are pulled open and transported is provided on the outside of the cutting transfer device
Conveying device transports for two and is provided on the outside of conveying devices and the front end Synchronous resection of two strip facet blocks can be formed two
The cutting transfer device that a facet is rolled into a ball and transported is provided with and can be claimed to two facet groups on the outside of the cutting transfer device
The primary weighing transfer device measured and transported, two primary weigh one is respectively arranged on the outside of transfer devices can be in it points
The second weighing transfer device of dough progress second weighing transhipment.
Further, it is additionally provided with right above the main conveyor belt output end for flattening strip face block immediately below it
Pressure surface roller.
Further, the cutting transfer device is specifically made of rounding knife and tapered roller, and the tapered roller is specially level
Elliptic cylinder structure being arranged, thick between the detail of both ends, rotatable around its axis under the drive of external first driving device, cone
The rounding knife that the strip face block fallen on can be divided into two strip facet blocks is provided with right above shape roller.
Further, the transhipment conveying device includes vertical plane where vertical plane where center line and main conveyor belt center line
The top plate of coincidence and two transhipment conveying assemblies, two transhipment conveying assemblies are symmetricly set on about vertical plane where top plate middle line
The underface of top plate, each transhipment conveying assembly are offered the sliding block structure of arc groove by mast-up, transhipment conveyer belt, top
At transhipment conveyer belt is lifted on the bottom of mast-up, and the sliding block, the bottom installation of the top plate are equipped at the top of mast-up
There are two with two sliding blocks relative to sliding rail, each sliding rail is arranged in the arc groove of slider top corresponding thereto,
Be also provided with two arc notch corresponding with two transhipment conveying assemblies on the top plate, each arc notch just on
Side is provided with a clamping screw, the bottom end of each clamping screw pass through corresponding arc notch with and its is corresponding
Mast-up be threadedly coupled, and the center of circle of vertical line, sliding rail where the center of circle of the corresponding arc notch of each transhipment conveying assembly
Vertical line where place vertical line and transhipment conveyer belt input terminal inside edge is overlapped, the input terminal direction of two transhipment conveyer belts
It the output end of main conveyor belt and is symmetrical arranged about vertical plane where its center line.
Further, the cutting transfer device is specifically made of cutoff tool and cutting conveyer belt, the cutting conveyer belt
Input end transports the underface of conveyer belt in two, and surface is provided with can be in two strip facet blocks thereon
Synchronize the cutoff tool of cutting.
Further, the primary weighing transfer device and second weighing transfer device are by weighing device and miniature conveyer belt
It constitutes, miniature conveyer belt is fixedly mounted on the top of meausring apparatus.
Further, two facet blocks that the two exports can be carried out by being additionally provided on the outside of two secondary weighing devices
The feed conveyer belt of transhipment.
Further, the rounding knife is specifically by circular shear blade, the driving motor of driving circular shear blade rotation, drive circular knife
Piece and driving motor carry out the second driving device composition that uplink and downlink/move around axis and realize segmentation/does not divide strip face block.
Further, the cutoff tool specifically by lateral blade and drives lateral blade to carry out uplink and downlink or move around axis to realize
The third driving device for cut off/not cutting off strip facet block is constituted.
The present invention also provides a kind of methods using dough weight after the block slitting stripping and slicing of above-mentioned apparatus equilibrium strip face, should
Method the following steps are included:
The strip face block handled well is put into from the center of main conveyor belt input terminal and is incited somebody to action by main conveyor belt by step 1
It is transported to pressure surface roller direction;
After step 2, pressure surface roller flatten strip face block, flattened portion enters cutting transfer device;
Rounding knife in step 3, cutting transfer device moves under the drive of the second driving device can separate strip
Behind the position of face block, driving motor starting, rotation separates strip face block, two strip facet blocks is formed, in conjunction with tapered roller
Setting, two strip facet blocks after segmentation drive respectively to the inclination of the both sides of tapered roller to tentatively separated first
It is transported through under the drive of dynamic device;
Step 4, two strip facet blocks through cutting transhipment enter in transhipment conveying device, and transport respectively at one
It is transported through under the drive of conveyer belt, as needed, drives corresponding transhipment conveyer belt to slide by sliding rail by clamping screw,
Adjust the spacing between two transhipment conveyer belts;
It is defeated by the cutting in cutting transfer device after step 5, two strip facet blocks are exported by transhipment conveying device
Band is sent be transported on the corresponding primary miniature conveyer belt weighed in transfer device, corresponding weighing device weighs it respectively
The weight of block above after reaching setting weight or time of delivery, cuts off the cutoff tool starting in transfer device, cuts off two thereon
Strip facet block forms two independent facet groups;
Step 5, two facet groups enter under the corresponding primary miniature conveyer belt transhipment weighed in transfer device to be corresponded to
Second weighing transfer device in miniature conveyer belt on, and by second weighing;
Step 6 judges the weight difference that two facets of second weighing are rolled into a ball, if difference within the set range, is failure to actuate;If
Difference within the set range, does not then enable offset assembly drive the facet that main conveyor belt is whole or the progress of its output end is small towards weight
Group's side offset, stops after being offset to uncompensation distance;
Step 7 repeats step 1-7.
The present invention has the advantage that the present invention provides a kind of feedback calibration formula bilateral trace equalizations point compared with prior art
Body weighs conveying device and its application, and same strip face block is divided into two seperated strips by setting cutting transfer device
After shape face block and transhipment, the two is opened by transhipment conveying device transport and is transported to cutting transfer device, and respectively enters one
Secondary weighing transfer device, reaches setting weight or setting time, and cutoff tool cuts off the two end, forms two individual facets
Group, and weighed again through a second weighing transfer device respectively, and judge weight difference between the two, it is poor according to feeding back
The corresponding adjustment main conveyor belt output end offset direction of value, so that separating dough quality next time can reach balance;By above-mentioned setting,
So that two dough weights generated realize effective balance, avoid because primary face block placement location difference leads to product weight
Measure the big drawback of error;Its surface area is expanded, then again so that the face block tentatively inputted is crushed by setting pressure surface roller
After the secondary transfer device segmentation by cutting, convenient for the later period to the balance of two independent face block weight, balance quality is improved, is avoided
Because face block is excessively coarse, degree of regulation small problem.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of feedback calibration formula bilateral trace equalization fission weighing conveying device;
Fig. 2 is that embodiment transfer transport send apparatus structure schematic diagram.
In figure: 1, main conveyor belt;2, offset assembly;3, transfer device is cut;4, conveying device is transported;5, cutting transhipment dress
It sets;6, transfer device is once weighed;7, second weighing transfer device;8, pressure surface roller;9, rounding knife;10, tapered roller;11, top plate;
12, mast-up;13, conveyer belt is transported;14, sliding block;15, sliding rail;16, arc notch;17, clamping screw;18, cutoff tool;19,
Cut off conveyer belt;20, it is fed conveyer belt.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Fig. 1 and Fig. 2 are please referred to, the key components and parts schematic diagram of this equipment is only depicted in Fig. 1, all components are equal
It is mounted on external frame etc. above, constitutes stable device structure, the invention is intended to external frames in order to which picture can be expressed clearly
The inessential component such as frame is omitted in Fig. 1;
Embodiment provided by the invention:
In conjunction with Fig. 1, the present embodiment provides a kind of feedback calibration formula bilateral trace equalization fissions to weigh conveying device, including is used for
Conveying the main conveyor belt 1 of strip face block, (main conveyor belt 1 is fixedly mounted in external frame, in Fig. 1 outer frame in order to scheme
Show that effect is omitted, main conveyor belt 1 is belt conveyer common in the art, by band body and multiple roll shaft structures
At roll shaft rotates under the drive of external motor, so as to drive the band body being set in outside roll shaft to be rotated, to realize
Will be in the purpose for being transported to output end by its input terminal with the material on body), external strip face block is defeated from main conveyor belt 1
Enter after end is put into, towards output end motion under its drive, the position that the input for being placed on main conveyor belt 1 of strip face block is brought out
Set the weight difference that facet is rolled into a ball after the segmentation of strong influence later period is cut off;
In the present embodiment, in order to which strip face block is divided into two pieces, the front of the output end of main conveyor belt 1 is also set
It is equipped with the cutting transhipment for strip face block to be cut into two strip facet blocks along 1 extending direction of main conveyor belt and is transported
Device 3;
By above-mentioned setting, the strip face block that main conveyor belt 1 exports can be transported by effectively cutting.
Particularly, in the present embodiment, cutting transfer device 3 is specifically made of rounding knife 9 and tapered roller 10, tapered roller 10
Elliptic cylinder structure specially horizontally disposed, thick between the detail of both ends (such structure of tapered roller 10 so that its from middle part to
Two sides form respectively the inclined surface of a taper, so as to form outside tilting force to the face block cut by its middle part, from
And can realize that the preliminary of two strip facet blocks separates, the cutting position of rounding knife 9 is the middle part of tapered roller 10, so as to reality
Existing aforesaid operations), in external first driving device, (first driving device is specially motor in embodiment, can drive its rotation
Turn, so as to be transported through to the face block on the tapered roller 10) drive under rotatable around its axis, the surface of tapered roller 10
It is provided with the rounding knife 9 that the strip face block fallen on can be divided into two strip facet blocks, particularly, tapered roller 10
Middle part be the lesser cylinder of width, to provide stable cutting support platform for rounding knife 9, be convenient for its division surface block;
The strip face block on tapered roller 10 can effectively be divided by the above-mentioned rounding knife 9 that sets, erected where rounding knife 9
Face directly, vertical plane where 1 middle line of vertical plane and main conveyor belt where the middle part of tapered roller 10 is same vertical plane, so as to be initial
When state, rounding knife can effectively divide middle line and 1 middle line of main conveyor belt is in the face block of same vertical plane;
In normal productive process, face block initial placement standard vertical plane and 1 middle line institute of main conveyor belt where its middle line
It is overlapped in vertical plane, to can guarantee segmentation uniformly, realizes that the facet group weight error being cut into is no more than setting value, but because of face
Group have certain flexibility, so its placement location may and 1 center line of main conveyor belt there are deviations, this is also to lead to the later period
The unbalanced main cause of weight;
In the present embodiment, even if because face block is cut, because itself has mobility and viscosity, therefore, if
If two strip facet blocks not being pulled open, after a certain period of time, the two can be stained with conglutinate again, therefore, in order to point
Two strip facet blocks after cutting are pulled open, and avoid it because the mobility and viscosity examined oneself are adhered to each other again, particularly,
The outside of cutting transfer device 3 is provided with the transhipment conveying that the two strip facet blocks that can be cut are pulled open and transported
Device 4;
By above-mentioned setting, it can be achieved that two the effective of strip facet block separate;
In the present embodiment, with reference to Fig. 2, transporting conveying device 4 includes vertical plane and 1 center of main conveyor belt where center line
Top plate 11 (top plate 11 is horizontally arranged in external frame, and external frame is not shown in Fig. 1) that vertical plane where line is overlapped and
Two transhipment conveying assemblies, two transhipment conveying assemblies are being symmetricly set on top plate 11 just about vertical plane where 11 middle line of top plate
Lower section, by mast-up 12, transhipment conveyer belt 13, (structure of transhipment conveyer belt 13 has main conveyor belt 1 to each transhipment conveying assembly
Structure it is identical, it is only of different sizes), top offer arc groove sliding block 14 constitute, transhipment conveyer belt 13 be lifted on
12 bottom is shelved, the top of mast-up 12 is equipped with sliding block 14, and there are two the bottom installations of top plate 11 and two 14 phases of sliding block
For sliding rail 15, (according to actual needs, each sliding rail 15 is arranged in the arc groove at the top of sliding block 14 corresponding thereto
In order to avoid sliding rail 15 falls off from arc groove, card slot can be set in arc groove, be arranged on sliding rail 15 corresponding
Retention bead avoids disengaging so that sliding rail 15 can be effectively fastened on thereon), in order to realize to two transhipment conveying assemblies
Limit, so that it is fixed on setting position, two arcs corresponding with two transhipment conveying assemblies be also provided on top plate 11
V notch v 16, the surface of each arc notch 16 are provided with a clamping screw 17, and the bottom end of each clamping screw 17 is worn
Cross corresponding arc notch 16 with and its corresponding mast-up 12 be threadedly coupled (can be effectively by locking clamping screw 17
Connect top plate 11 and corresponding transhipment conveying assembly), and where the center of circle of the corresponding arc notch 16 of each transhipment conveying assembly
Vertical line, the center of circle place vertical line of sliding rail 15 and vertical line where transhipment 13 input terminal inside edge of conveyer belt are overlapped, and two
Transport the input terminal of conveyer belt 13 be symmetrical arranged towards the output end of main conveyor belt 1 and about vertical plane where its center line (and
Two inclined surface that the input terminal of two transhipment conveyer belts 13 is formed respectively close to tapered roller 10, so as to effectively to two strips
Shape facet block is transported through, and is pulled open).
By above-mentioned setting, two transhipment conveying assemblies can be respectively in the effect of arc notch 16, sliding rail 15 and sliding block 14
Under, it carries out the respective transfer that rotates in horizontal direction and 13 input terminal inside edge of band is sent to carry out sector reciprocating motion, so as to have
The distance between two transhipment conveying assemblies of effect ground adjustment, meanwhile, and the inclination that the two is formed without departing from tapered roller 10
Face is realized and two the effective of strip facet block is transported and pulled open.
Need to adjust before two transhipment conveying assemblies apart from when, corresponding transhipment conveying is dragged by clamping screw 17
Then component carries out locking.
In order to be transported through and cut off its end to the two strip facet blocks pulled open, in this embodiment, two transhipments
The outside of conveying device 4 is provided with and the front end Synchronous resection of two strip facet blocks can be formed to two facets roll into a ball and transport
Cut off transfer device 5;
Particularly, in the present embodiment, specifically by cutoff tool 18 and cutting conveyer belt 19, (cutter is defeated for cutting transfer device 5
Send the structure of band 19 similar with the structure of main conveyor belt 1, in conjunction with Fig. 1, it can be seen that it is by after the belt of multiple rollers and peripheral hardware
Side, multiple rollers can carry out tensioner to it, form the support to cutoff tool 18, be convenient for its section block) it constitutes, cut off conveyer belt
19 input end transports the underface of conveyer belt 13 in two, and surface is provided with can be in two strips thereon
Facet block synchronizes the cutoff tool 18 of cutting;
Effectively two strip facet blocks can be cut off by above-mentioned setting cutoff tool 18, form independent facet
Group.
The outside of cutting transfer device 5 is provided with the primary weighing transhipment dress that can two facet groups weighed and be transported
6 are set, two primary outsides for weighing transfer device 6, which are respectively arranged with one, to carry out second weighing transhipment to facet group in it
Second weighing transfer device 7;
When two strip facet blocks are not cut off, two strip facet blocks divide the two in cutting conveyer belt 19
It is not transported on corresponding primary weighing transfer device 6 and is transported through and weighs;What is weighed at this time turns in two primary weigh
The end of strip facet block on shipping unit 6, because not cutting off also, therefore, there may be errors for weighing result, need to cutting
Facet group afterwards carries out second weighing to achieve the purpose that precisely to weigh;
After the end of two strip facet blocks moves on corresponding side weighing transfer device 6, reach setting
After time or weight, two strip facet blocks are distinguished to crosscutting, two individual facet groups of formation, continuation using cutoff tool 18
It is transported on corresponding second weighing transfer device 6, carries out second weighing, realize the purpose of accurate weighing.
Particularly, in the present embodiment, transfer device 6 and second weighing transfer device 7 are once weighed by weighing device
It is constituted with miniature conveyer belt (structure of miniature conveyer belt is similar with 1 structure of main conveyor belt), miniature conveyer belt is fixedly mounted on title
Measure the top of device (meausring apparatus is common weight sensor, is fixedly mounted in external frame, forms stable structure)
Portion.
Rounding knife 9 is specifically by circular shear blade, the driving motor of driving circular shear blade rotation, drive circular shear blade and driving electricity
Machine carries out uplink and downlink/move around axis and realize segmentation/and does not divide the second driving device of strip face block (the second driving device can be with
Motor drives the cantilever being pivoted, and is equipped with corresponding driving motor and circular shear blade on cantilever, to be formed corresponding dynamic
Make, circular shear blade is driven to be split strip face block or without segmentation, far from strip face block, may be set to be up and down
Capable linear type cylinder drives circular shear blade, need to only realize above-mentioned function) it constitutes.
Cutoff tool 18 specifically by lateral blade and drives lateral blade to carry out uplink and downlink or realize around axis movement cut off/not cut
(structure of third driving device is similar with the structure of the second driving device, only needs for the third driving device of disconnected strip facet block
Realize above-mentioned function) it constitutes.
By above-mentioned setting, circular shear blade can be effectively driven, lateral blade opposite block is cut accordingly, while
It when not needing, can be lifted accordingly, opposite block does not generate operation.
In order to realize the mass balance between the block of feedback regulation face, in the present embodiment, the outside of main conveyor belt 1 is set
It is equipped with the offset dress that its whole or its output end can be driven to carry out reciprocating motion vertical with its extending direction, in horizontal direction
Set 2;
By offset assembly 2, (offset assembly 2 in the present embodiment, is linear air cylinder, can effectively drive main conveyor belt
1 output end carries out front and back offset, is mounted in external frame, in actual application, can be changed to and other drive master
The equipment that 1 entirety of conveyer belt or/output end carry out horizontal reciprocating movement) drive the output end of main conveyor belt 1 to be deviated, so that
Strip face block is dividing the facet group direction offset small to weight of duration strip-shaped surface block by circular shear blade, thus adjustable segmentation
Weight between two seperated strip face blocks afterwards, and then increase the weight of next facet group, to realize feedback regulation
Purpose.
Regulative mode is simple, when offset assembly 2 drives 1 overall offset of main conveyor belt, can effectively avoid because end is adjusted
The drawbacks of leading to belt deviation.
Particularly, in the present embodiment, the weight balancing rolled into a ball in order to more accurate realization feedback regulation facet,
In the present embodiment, the pressure surface for flattening strip face block immediately below it is additionally provided with right above 1 output end of main conveyor belt
Roller 8.
It is thick when compared to not flattening after pressure surface roller 8 is flattened the strip face block of input by above-mentioned setting
Degree becomes smaller, so that the quality of the face block of its offset of same offset distance can become smaller, in offset so as to avoid because only deviating
The drawback that some distances cause regulated quantity excessive occurs, and then realizes the purpose accurately adjusted.
In the present embodiment, a kind of dough weight after utilizing the block slitting stripping and slicing of embodiment equipment equilibrium strip face is also provided
Method, method includes the following steps:
The strip face block handled well is put into and by main conveyor belt 1 by step 1 from the center of 1 input terminal of main conveyor belt
It is transported to 8 direction of pressure surface roller;
After step 2, pressure surface roller 8 flatten strip face block, flattened portion enters cutting transfer device 3;
Rounding knife 9 in step 3, cutting transfer device 3 moves under the drive of the second driving device can separate strip
Behind the position of shape face block, driving motor starting, rotation separates strip face block, two strip facet blocks is formed, in conjunction with taper
The setting of roller 10, two strip facet blocks after segmentation tilt respectively to the both sides of tapered roller 10 to tentatively separated, and
It is transported through under the drive of first driving device;
Step 4, two strip facet blocks through cutting transhipment enter in transhipment conveying device 4, and turn respectively at one
It is transported through under the drive of conveyor belt 13, as needed, drives corresponding transhipment conveyer belt 13 to pass through by clamping screw 17
Sliding rail 15 slides, and adjusts the spacing between two transhipment conveyer belts 13;
After step 5, two strip facet blocks are exported by transhipment conveying device 4, pass through the cutting in cutting transfer device 5
Conveyer belt 19 is transported through to the corresponding primary miniature conveyer belt weighed in transfer device 6, corresponding weighing device difference
The weight for weighing its block above, after reaching setting weight or time of delivery, the cutoff tool 18 cut off in transfer device 5 starts, and cuts
Disconnected two strip facet blocks thereon, form two independent facet groups;
Step 5, two facet groups enter under the corresponding primary miniature conveyer belt transhipment weighed in transfer device 6 to be corresponded to
Second weighing transfer device 7 in miniature conveyer belt on, and by second weighing;
Step 6 judges the weight difference that two facets of second weighing are rolled into a ball, if difference within the set range, is failure to actuate;If
Difference within the set range, does not then enable point that offset assembly 2 drives main conveyor belt 1 whole or the progress of its output end is small towards weight
The offset of dough side, stops after being offset to uncompensation distance;
Step 7 repeats step 1-7.
Through the above steps, the adjustment of weight between two independent doughs can be effectively realized, avoids dough quality not
Uniform drawback.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention
Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.
Claims (10)
1. a kind of feedback calibration formula bilateral trace equalization fission weighs conveying device, including the main conveying for conveying strip face block
Band (1), which is characterized in that being provided on the outside of the main conveyor belt (1) can drive its whole or its output end progress to prolong with it
Stretch the offset assembly (2) of vertical, in horizontal direction the reciprocating motion in direction, the output end of the main conveyor belt (1) just before
Side be additionally provided with for by strip face block along main conveyor belt (1) extending direction cut into two strip facet blocks and transport
Cut transfer device (3), be provided on the outside of cutting transfer device (3) two strip facet blocks being cut into
The row transhipment conveying device (4) pulling open and transport is provided with and can divide two strips on the outside of two transhipment conveying devices (4)
The front end Synchronous resection of face block forms the cutting transfer device (5) that two facets are rolled into a ball and transported, cutting transfer device (5)
Outside is provided with the primary weighing transfer device (6) that can two facet groups weighed and be transported, and two primary weigh are transported
The second weighing transfer device that second weighing transhipment can be carried out to facet group in it is respectively arranged on the outside of device (6)
(7)。
2. a kind of feedback calibration formula bilateral trace equalization fission according to claim 1 weighs conveying device, which is characterized in that
The pressure surface roller (8) for flattening strip face block immediately below it is additionally provided with right above main conveyor belt (1) output end.
3. a kind of feedback calibration formula bilateral trace equalization fission according to claim 2 weighs conveying device, which is characterized in that
The cutting transfer device (3) is specifically made of rounding knife (9) and tapered roller (10), and the tapered roller (10) is specially that level is set
Elliptic cylinder structure set, thick between the detail of both ends, rotatable around its axis under the drive of external first driving device, taper
The rounding knife that the strip face block fallen on can be divided into two strip facet blocks is provided with right above roller (10)
(9)。
4. a kind of feedback calibration formula bilateral trace equalization fission according to claim 3 weighs conveying device, which is characterized in that
Transhipment conveying device (4) includes the top that vertical plane where center line is overlapped with vertical plane where main conveyor belt (1) center line
Plate (11) and two transhipment conveying assemblies, two transhipment conveying assemblies are symmetricly set on about vertical plane where top plate (11) middle line
The underface of top plate (11), each transhipment conveying assembly offer arc by mast-up (12), transhipment conveyer belt (13), top
The sliding block (14) of groove is constituted, and transhipment conveyer belt (13) is lifted on the bottom of mast-up (12), the top installation of mast-up (12)
Have the sliding block (14), the installation of the bottom of the top plate (11) there are two with two sliding blocks (14) relative to sliding rail (15), often
A sliding rail (15) is arranged in the arc groove at the top of sliding block (14) corresponding thereto, is also provided on the top plate (11)
Two arc notch (16) corresponding with two transhipment conveying assemblies are provided with one right above each arc notch (16)
A clamping screw (17), the bottom end of each clamping screw (17) pass through corresponding arc notch (16) with and its is corresponding
Mast-up (12) be threadedly coupled, and vertical line, cunning where the center of circle of the corresponding arc notch (16) of each transhipment conveying assembly
Vertical line where vertical line where the center of circle of rail (15) and transhipment conveyer belt (13) input terminal inside edge is overlapped, and two transhipments are defeated
The input terminal of band (13) is sent to be symmetrical arranged towards the output end of main conveyor belt (1) and about vertical plane where its center line.
5. a kind of feedback calibration formula bilateral trace equalization fission according to claim 4 weighs conveying device, which is characterized in that
The cutting transfer device (5) is specifically made of cutoff tool (18) and cutting conveyer belt (19), cutting conveyer belt (19)
Input end transports the underface of conveyer belt (13) in two, and surface is provided with can be in two strips point thereon
Face block synchronizes the cutoff tool (18) of cutting.
6. a kind of feedback calibration formula bilateral trace equalization fission according to claim 5 weighs conveying device, which is characterized in that
The primary weighing transfer device (6) and second weighing transfer device (7) are made of weighing device and miniature conveyer belt, miniature
Conveyer belt is fixedly mounted on the top of meausring apparatus.
7. a kind of feedback calibration formula bilateral trace equalization fission according to claim 6 weighs conveying device, which is characterized in that
The feed that two facet blocks that the two can be exported by being additionally provided on the outside of two secondary weighing devices are transported through conveys
Band (20).
8. a kind of feedback calibration formula bilateral trace equalization fission according to claim 7 weighs conveying device, which is characterized in that
The rounding knife (9) is specifically by circular shear blade, driving motor, drive circular shear blade and the driving motor of driving circular shear blade rotation
Carry out the second driving device composition that uplink and downlink/move around axis and realize segmentation/does not divide strip face block.
9. a kind of feedback calibration formula bilateral trace equalization fission according to claim 8 weighs conveying device, which is characterized in that
The cutoff tool (18) specifically by lateral blade and drives lateral blade to carry out uplink and downlink or realize around axis movement cut off/not cut off
The third driving device of strip facet block is constituted.
10. the method for dough weight, feature after a kind of face block slitting stripping and slicing using claim 9 described device equilibrium strip
It is, method includes the following steps:
The strip face block handled well is put into and by main conveyor belt (1) by step 1 from the center of main conveyor belt (1) input terminal
It is transported to pressure surface roller (8) direction;
After step 2, pressure surface roller (8) flatten strip face block, flattened portion enters cutting transfer device (3);
Rounding knife (9) in step 3, cutting transfer device (3) moves under the drive of the second driving device can separate strip
Behind the position of shape face block, driving motor starting, rotation separates strip face block, two strip facet blocks is formed, in conjunction with taper
The setting of roller (10), two strip facet blocks after segmentation tilt respectively to the both sides of tapered roller (10) to tentatively separated,
And it is transported through under the drive of first driving device;
Step 4, two strip facet blocks through cutting transhipment enter in transhipment conveying device (4), and transport respectively at one
It is transported through under the drive of conveyer belt (13), as needed, drives corresponding transhipment conveyer belt (13) by clamping screw (17)
It is slided by sliding rail (15), adjusts the spacing between two transhipments conveyer belt (13);
After step 5, two strip facet blocks are exported by transhipment conveying device (4), pass through the cutting in cutting transfer device (5)
Conveyer belt (19) is transported through to the corresponding primary miniature conveyer belt weighed in transfer device (6), corresponding weighing device
The weight for weighing its block above respectively, the cutoff tool (18) after reaching setting weight or time of delivery, in cutting transfer device (5)
Two strip facet blocks thereon are cut off in starting, form two independent facet groups;
Step 5, two facet groups enter corresponding under the corresponding primary miniature conveyer belt transhipment weighed in transfer device (6)
On miniature conveyer belt in second weighing transfer device (7), and by second weighing;
Step 6 judges the weight difference that two facets of second weighing are rolled into a ball, if difference within the set range, is failure to actuate;If difference
Not within the set range, then it enables offset assembly (2) to drive main conveyor belt (1) whole or its output end carries out point small towards weight
The offset of dough side, stops after being offset to uncompensation distance;
Step 7 repeats step 1-7.
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JP2003304799A (en) * | 2002-04-15 | 2003-10-28 | Rheon Autom Mach Co Ltd | Method and apparatus of conveying and forming food dough piece |
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EP0029551A1 (en) * | 1979-11-12 | 1981-06-03 | Mayfran GmbH | Hinged-belt-conveyor and method for its manufacture |
US5286185A (en) * | 1992-03-30 | 1994-02-15 | Rheon Automatic Machinery Co., Ltd. | Method and apparatus for continuously shaping bar-shaped bread |
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