CN109571612A - A kind of demisting blade production line - Google Patents

A kind of demisting blade production line Download PDF

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Publication number
CN109571612A
CN109571612A CN201811400247.7A CN201811400247A CN109571612A CN 109571612 A CN109571612 A CN 109571612A CN 201811400247 A CN201811400247 A CN 201811400247A CN 109571612 A CN109571612 A CN 109571612A
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CN
China
Prior art keywords
block
demisting blade
fixed
demisting
pushing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201811400247.7A
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Chinese (zh)
Other versions
CN109571612B (en
Inventor
赵博
蔡学军
陆越刚
俞波
董鉴庆
蔡永涛
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Zhejiang Tuna Environmental Science and Technology Co Ltd
Original Assignee
Zhejiang Tuna Environmental Science and Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
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Priority to CN201811400247.7A priority Critical patent/CN109571612B/en
Publication of CN109571612A publication Critical patent/CN109571612A/en
Application granted granted Critical
Publication of CN109571612B publication Critical patent/CN109571612B/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/06Arrangements for feeding or delivering work of other than sheet, web, or filamentary form
    • B26D7/0625Arrangements for feeding or delivering work of other than sheet, web, or filamentary form by endless conveyors, e.g. belts
    • B26D7/0633Arrangements for feeding or delivering work of other than sheet, web, or filamentary form by endless conveyors, e.g. belts by grippers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/01Means for holding or positioning work
    • B26D7/02Means for holding or positioning work with clamping means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/27Means for performing other operations combined with cutting
    • B26D7/32Means for performing other operations combined with cutting for conveying or stacking cut product

Abstract

The invention discloses a kind of demisting blade production lines, it is related to demister production equipment, including fuselage, the upper conveyor belt being set in fuselage, lower conveyor belt, the cutter device being set in fuselage, it is set to the blanking device of fuselage discharge end, upper conveyor belt and lower conveyor belt include the supportive body that lifting is connected on fuselage, the transmission chain band being sheathed on supportive body, grip block is fixed on transmission chain band, grip block surface on upper conveyor belt offers upper profile slot, grip block surface on lower conveyor belt offers bottom profiled slot, and upper profile slot and bottom profiled slot respectively with demisting blade just, the shape on anti-two surfaces is identical;The transmission of demisting blade can be made more steady by way of clamping transmission, and grip block is adapted with the shape of demisting blade again, therefore upper and lower conveyer belt can preferably be fixed demisting blade, shaking of the demisting blade in cutting process is limited, to keep the section after demisting blade cuts more smooth.

Description

A kind of demisting blade production line
Technical field
The present invention relates to demister production equipment, in particular to a kind of demisting blade production line.
Background technique
Chemical company can generate a large amount of sulphur-containing exhaust gas during production, these exhaust gas are the main next of atmosphere pollution Source, under the supervision of environmental protection administration, enterprise requires to carry out harmless treatment to these exhaust gas.More the most commonly used is wet at present Method doctor treatment, and wet desulphurization requires to absorb the steam in exhaust gas in the final process stage, therefore wet desulfuration tower Interior usually also will be installed splices the demister formed by numerous demisting blades.
Currently, the production of demisting blade is extrusion molding again after being melted plastic master batch by extruder, formed Journey, which substantially first heats plastic master batch, to melt, and then pushes plastics to by the guiding role of screw rod to form mouth mold, final to mould Material passes through the continuous strip blade identical with the molding hole formed in mouth mold of solidification Formation cross-section shape after molding mouth mold.
Quantity-produced when being squeezed out out of extruder due to this demisting blade, and demisting blade need when in use into Row segmentation, is then mutually spliced to form demister for the demisting blade after segmentation, therefore when demisting blade discharges out of extruder It needs to cutting.It is horizontal and due to demisting blade in order to increase itself contact area between exhaust gas when in use Section is usually wave-shaped, so if cut using common cutting machine to demisting blade, then being difficult to removing Mist blade is fixed, and is very easy to generate shaking during cutting, causes convexity after demisting blade cuts whole.
Summary of the invention
The object of the present invention is to provide a kind of demisting blade production line, demisting blade can be carried out preferably to fix, made Demisting blade is not allowed to be also easy to produce shaking during cutting, to keep the fracture after demisting blade cuts more smooth.
Above-mentioned technical purpose of the invention has the technical scheme that a kind of demisting blade production line, Including fuselage, the upper conveyor belt being set in fuselage, lower conveyor belt, it is set in fuselage and height apart from ground is between upload The cutter device between band and lower conveyor belt is sent, fuselage discharge end is set to and for carrying out blanking to the demisting blade after cutting Blanking device, the upper conveyor belt and lower conveyor belt include lifting be connected on fuselage supportive body, be sheathed on support Transmission chain band in main body is fixed with grip block on transmission chain band, and the grip block surface on upper conveyor belt offers upper wheel Wide slot, the grip block surface on lower conveyor belt offer bottom profiled slot, and upper profile slot and bottom profiled slot respectively with demisting The shape on positive and negative two surfaces of blade is identical.
By using above scheme, when demisting blade is squeezed out out of extruder, initially enter upper and lower two conveyer belts it Between, latter two right conveyer belt, which moves toward one another, clamps demisting blade, and demisting blade is conveyed to cutting and filled by subsequent conveyer belt operating It sets, since upper profile slot and bottom profiled slot are identical as the shape on positive and negative two surfaces of demisting blade respectively, and has upper and lower transmission The clamping action of band, therefore the two conveyer belts can limit the movement of demisting blade all directions, cut demisting blade During be not easy to shake, to keep the fracture after demisting blade cuts more smooth;And blanking device can be right Demisting blade after segmentation carries out blanking, makes demisting blade be not easy to accumulate in fuselage, to make the demisting leaf in extruder Piece can persistently be cut.
The further setting of the present invention are as follows: be provided on the supportive body for the adjusting with elasticity that adjusts transmission chain Mechanism, the regulating mechanism include the support plate for being fixed on supportive body both ends, the tensioning wheel hanging in support plate, turning set Connecting bushing in the rotation axis of tensioning wheel is fixed on supporting stops, being threadedly connected on connecting bushing in support plate Adjusting screw rod offers the slide slot that length direction is parallel to supportive body length direction, the tensioning wheel in the support plate Rotation axis be held in slide slot, the stops that supports is located between two tensioning wheels, and the adjusting screw rod passes through connecting shaft One end of set is pushed against on stops.
By using above scheme, when needing to adjust the elasticity of transmission chain band, adjusting screw rod is rotated, due to supporting stops Between two tensioning wheels, and adjusting screw rod passes through one end of connecting bushing and is pushed against on stops, therefore adjusts in rotation During screw rod, the tensioning wheel at supportive body both ends can be driven close to each other or separate, two tensioning wheels are in relative motion During can be pushed against or be loosened on the inside of transmission chain band, thus achieve the purpose that adjust transmission chain with elasticity.
The further setting of the present invention are as follows: each grip block includes the sole piece being fixed on transmission chain band, one Change the central block being set on sole piece, the adaptation block for being slidably connected on sole piece and being located at central block two sides, the upper wheel Wide slot or bottom profiled slot are distributed on central block and two adaptation blocks, and are arranged between the central block and two adaptation blocks useful In the self-regulated component for enabling adaptation block to set back.
By using above scheme, after grip block is divided into three parts, sole piece is used for and transmission chain band as supportive body It is connected, centered on central block, limit is formed to two adaptation blocks together with self-regulated component, makes two adaptation blocks towards far It will not fall off with from sole piece during side movement from central block;When demisting blade dimensions to be cut change When, during contacting with grip block, two adaptation blocks can be slided under the pushing of demisting blade towards both sides, make to clamp The width of block becomes larger, and since the profile slot on grip block is identical as the shape of demisting blade, adapts to block and removes in insertion After trough on mist blade, demisting blade, which can limit, adapts to block continuation and central block relative motion, keeps grip block more preferable Demisting blade is fixed in ground, to increase the scope of application of grip block;And after demisting blade has conveyed, two adaptations Block can generate reset under the driving of self-regulated component again, thus the convenient fixation to subsequent demisting blade.
The further setting of the present invention are as follows: the self-regulated component include the prick post hole being opened on central block, be fixed on it is suitable Answer on block and be arranged in prick post hole adaptation column, be opened in central block back to adapt to column side surface on and with prick post hole phase The reseting groove of connection is sheathed on the return springs that adaptation column is located on one end in reseting groove, and the diameter of the reseting groove is big Diameter in prick post hole, and be fixed on adapting to one end that column is located in reseting groove for limiting return springs from adaptation column On the gear nut that falls off.
By using above scheme, when the biggish demisting blade of width is clamped, two adaptation blocks can be towards two sides It slips off, is penetrated into central block due to adapting to column, and across central block between return springs and adaptation block, therefore adapting to block Return springs can be made to generate compression during sliping off to two sides, so that resetting after the upper and lower conveyer belt of demisting leaf abscission Elastic component can drive adaptation block close towards central block during discharging elastic potential energy, make to adapt to block reset, to make to fit Answer block that can carry out again self adjustment during the subsequent blade to demisting.
The further setting of the present invention are as follows: the central block is similar with the structure of block is adapted to, and is split type, adaptation block packet Include the sliding block being slidably connected on sole piece, the elastomer block being telescopically installed in sliding block, to connect sliding block and bullet Property block connection bolt, buffering blind hole and connection screw thread hole are offered in the sliding block, buffering diameter of blind hole is greater than connection The diameter of threaded hole, and connection screw thread hole is located at the bottom of buffering blind hole, offers perforative counter sink, institute in the elastomer block It states connection bolt to be connected in connection screw thread hole across counter sink rear thread, and is located at one section in buffering blind hole in connection bolt On be arranged with snubber elastomeric part.
Demisting blade is other than width dimensions are possible to generate variation, between the wave crest and trough of structure wave-shaped Amplitude may also be different, by using above scheme, after setting split type for central block and adaptation block, so that central block Variation can be generated with the thickness for adapting to block, the advantages of this arrangement are as follows, wave crest and central block joint when demisting blade When, extruding can be generated to central block, so that its thickness is become smaller and be more preferably bonded with demisting blade, and the adaptation block on central block both sides exists When to the trough of upper demisting blade, then elongation can be generated under the driving of snubber elastomeric part, contradict to trough on demisting blade Bottom, thus make grip block preferably with demisting blade generation contact, thus enable grip block preferably to demisting blade into Row clamping.
The further setting of the present invention are as follows: the cutter device includes the first portal frame being fixed in fuselage, is fixed on Press cylinder on first portal frame is fixed on binder block of the press cylinder on one end of the first portal frame, is fixed on machine The second portal frame in body, the cutting cylinder being fixed on the second portal frame are fixed on cutting cylinder and pass through the second portal frame Cutting motor on one end and the saw blade being fixed on the output shaft of cutting motor, extend from one end of fuselage to the other end In the process, it is sequentially distributed upper and lower conveyer belt, the first portal frame and the second portal frame, and blanking device is located at fuselage far from upper and lower One end of conveyer belt.
By using above scheme, when demisting blade is sent to cutter device position, press cylinder starts first, drives Demisting blade is pressed against on the workbench of fuselage by binder block, then cuts cylinder starting, and saw blade is pushed towards demisting blade, Demisting blade is cut, blanking finally is carried out to demisting blade via blanking device again, to realize the defeated of demisting blade It send, cut and the automation process of blanking.
The further setting of the present invention are as follows: under the blanking device includes the blanking rack for being set to fuselage side, is fixed on On material frame and it is formed with the striker plate in backgauge space between each other, is set in blanking rack and the lower surface phase with two striker plates The loading plate of fitting, side and the blanking rack of the loading plate are hinged, and the other side is supported by tumble cylinder, described to turn over The cylinder body of rotaring cylinder is hinged with blanking rack, and piston rod is hinged with loading plate, in the blanking rack and is located at striker plate overturning The obliquely downward of side is provided with the temporary platform for accepting the demisting blade slid from loading plate.
By using above scheme, demisting blade is initially entered between striker plate and loading plate during conveying and is wrapped It encloses in the backgauge space to be formed, then by after the cutting of demisting blade, tumble cylinder starting pulls down loading plate, then saw blade Demisting blade is slipped on temporary platform along the surface of loading plate, to realize the automatic blanking of demisting blade.
The further setting of the present invention are as follows: the blanking device further includes for guiding the demisting blade on loading plate to slide Connecing on to temporary platform draws component, it is described connect draw component include the connecting plate being articulated on temporary platform, be fixed in blanking rack and Support rod, one end between connecting plate and loading plate are articulated in the upset end of loading plate and the other end is contradicted in connecting plate The interlocking bar of lower surface, offers arc groove in the interlocking bar, the connecting column on the support rod be arranged in arc groove with Interlocking bar forms the relationship that is slidably connected.
By using above scheme, when loading plate downwardly turns under the pulling of tumble cylinder, interlocking bar can be generated It squeezes, interlocking bar is pushed to be upturned far from one end of loading plate, draw since interlocking bar is contradicted far from one end of loading plate connecing The lower surface of plate, therefore interlocking bar will push connecting plate during being upturned and dig upwards, and at this time loading plate to Lower overturning, therefore two boards can be close to each other, until being mutually butted, keeps in form slide between platform and backgauge space at this time, remove Mist blade can be slipped on temporary platform along this slide, therefore demisting blade is not easy because between loading plate and temporary platform Height fall there is collision phenomenon, thus achieve the purpose that reduce demisting blade breakage rate.
The further setting of the present invention are as follows: the blanking device further include for by the demisting blade in connecting plate to separate The pushing material component that loading plate side pushes, the pushing material component include the rotary shaft being rotationally connected in blanking rack, are fixed on rotation Material pushing wheel in shaft is fixed on the circumferential side wall of material pushing wheel and around the charging ram of material pushing wheel distribution, the temporary platform and The pusher mouthful being interconnected and for being pushed after passing through for charging ram to demisting blade is offered in connecting plate, and is being linked The pushing component for driving material pushing wheel to rotate is provided between bar and material pushing wheel.
Demisting blade is during downward slide, it is possible to which the angle between temporary platform and connecting plate generates heap Product, by using above scheme, material pushing wheel will drive charging ram and rotate together, charging ram is in rotation during rotation In the process, when it, which passes through pusher mouthful, is turned to the top of temporary platform, demisting blade can be pushed to be directed away from the one of loading plate Side movement, clears up the demisting blade of temporary platform and connecting plate joint, to enable the demisting blade on loading plate Smooth blanking.
The further setting of the present invention are as follows: the pushing component include be fixed in rotary shaft and with the concentric rotation axis heart Ratchet, one end are articulated in interlocking bar and the other end and interlocking bar form the pushing block of the relationship that is slidably connected, in the interlocking bar Offer the arc of motion slot that the center of circle falls in pushing block center of rotation, arc of motion slot position in the center of rotation of ratchet and pushing block it Between, gear column is fixed on the pushing block, the gear column is arranged in arc of motion slot, and pushing block is meshed with ratchet.
By using above scheme, when interlocking bar is upturned far from one end of loading plate, because of the promotion in interlocking bar Block is meshed with ratchet, therefore interlocking bar is other than it can jack up connecting plate, additionally it is possible to push ratchet to rotate, ratchet is rotating While, and material pushing wheel rotation is driven, and then charging ram rotation is caused to push demisting blade;And due to there is arc of motion The presence of slot, during interlocking bar resets, pushing block can be directed away from the side deflection of ratchet along arc of motion slot, make Interlocking bar can retract, and after interlocking bar is retracted, and pushing block can expose from interlocking bar under the effect of gravity again, When so that interlocking bar tilting again up far from one end of loading plate, ratchet can be headed on and push material pushing wheel rotation, to realize The linkage of loading plate, connecting plate and material pushing wheel.
In conclusion the invention has the following advantages:
1. clamping transmission by way of the transmission of demisting blade can be made more steady, and grip block again with demisting blade Shape is adapted, therefore upper and lower conveyer belt can preferably be fixed demisting blade, limits demisting blade in cutting process In shaking, to keep the section after demisting blade cuts more smooth;
2. the blanking device for being set to fuselage side can carry out blanking to the demisting blade after cutting, and in demisting blade blanking During it can also connect drawing, make demisting blade be not easy with temporary platform generate collision, to reduce demisting blade Breakage rate;
3. the pushing material component on blanking device can clear up the demisting blade for being deposited in temporary platform and connecting plate connecting place, So that the demisting blade on loading plate is smoothly slipped on temporary platform, and pushing component can by loading plate, connecting plate and Material pushing wheel linkage is got up, and achievees the purpose that improve transmission efficiency.
Detailed description of the invention
Fig. 1 is overall structure figure of the invention;
Fig. 2 is the structural schematic diagram of fuselage of the present invention;
Fig. 3 is the partial enlarged view being located at A in Fig. 2;
Fig. 4 is the diagrammatic cross-section of grip block of the present invention, wherein reseting groove is dislocation with connection screw thread hole, here for side Just the structure for showing grip block, is placed on section view in same view for the two;
Fig. 5 is the partial enlarged view being located at B in Fig. 4;
Fig. 6 is the structural schematic diagram of blanking device of the present invention, wherein connecting plate does hiding processing;
Fig. 7 is the partial enlarged view being located at C in Fig. 6.
In figure: 1, fuselage;2, upper conveyor belt;21, supportive body;22, transmission chain band;23, regulating mechanism;231, it supports Plate;2311, slide slot;232, tensioning wheel;233, connecting bushing;234, stops is supported;235, adjusting screw rod;3, lower conveyor belt;4, Cutter device;41, the first portal frame;42, press cylinder;43, binder block;44, the second portal frame;45, cylinder is cut;46, it cuts Cut motor;47, saw blade;5, blanking device;51, blanking rack;511, platform is kept in;52, striker plate;521, backgauge space;53, it carries Plate;531, tumble cylinder;54, it connects and draws component;541, connecting plate;542, support rod;543, interlocking bar;5431, arc groove;55, Pushing material component;551, rotary shaft;552, material pushing wheel;553, charging ram;56, pushing component;561, ratchet;562, pushing block; 563, arc of motion slot;564, gear column;6, grip block;61, sole piece;62, central block;63, block is adapted to;631, sliding block;6311, Buffer blind hole;6312, connection screw thread hole;632, elastomer block;6321, counter sink;633, bolt is connected;634, snubber elastomeric part; 7, turn trough is limited;8, rotary column is limited;9, upper profile slot;10, bottom profiled slot;11, self-regulated component;111, prick post hole;112, column is adapted to; 113, reseting groove;114, return springs;115, gear nut;12, pusher mouthful.
Specific embodiment
Below in conjunction with attached drawing, invention is further described in detail.
As shown in Figure 1, a kind of demisting blade production line, including fuselage 1, upper conveyor belt 2, lower conveyor belt 3, cutter device 4, Blanking device 5, fuselage 1 are in tetragonal body shape, and four sides are obstructed by transparency glass plate as shield;Upper conveyor belt 2, lower transmission Band 3 is liftably installed in fuselage 1, and the two is in distribution, and the driving that upper conveyor belt 2 and lower conveyor belt 3 pass through screw rod up and down Effect can be done while close to or far from movement.
As shown in Figures 2 and 3, upper conveyor belt 2 and lower conveyor belt 3 include supportive body 21, transmission chain band 22, adjust machine Structure 23, supporting body of the supportive body 21 as transmission chain band 22 and regulating mechanism 23, and be connected as gantry with fuselage 1;It adjusts Mechanism 23 includes support plate 231, tensioning wheel 232, connecting bushing 233, supports stops 234, adjusting screw rod 235, and support plate 231 is being propped up There are two the both ends of support main body 21 are respectively set, two support plates 231 of the same end are located at opposite two of supportive body 21 Side, and offer in support plate 231 slide slot 2311 that length direction is parallel to 21 length direction of supportive body;Tensioning wheel 232 rotation axis is held on respectively in the slide slot 2311 in two support plates 231 on 21 the same end of supportive body;Connecting shaft 233 turning sets are covered in the rotation axis of tensioning wheel 232;It is fixed in support plate 231 to stops 234, and is located at supportive body Between two tensioning wheels 232 at 21 both ends;Adjusting screw rod 235 is threadedly connected on rotary axle box, and adjusting screw rod 235 passes through and turns One end of moving axis set is pushed against on stops 234.
Transmission chain band 22 is sheathed on two tensioning wheels 232, and by adjusting screw rod 235 come adjusting elasticity, when needs When tight, adjusting screw rod 235 is twisted, adjusting screw rod 235 is made to be located at rotary axle box and increase to the segment length between stops 234, Then the distance between two tensioning wheels 232 increase, and transmission chain band 22 is tensioned at this time;When needing to adjust loose transmission chain band 22, instead To rotation adjusting screw rod 235, adjusting screw rod 235 is made to be located at rotary axle box and reduce to the distance between stops 234, then two The distance between bearing up pulley 232 reduces, and transmission chain band 22 is relaxed at this time.
As shown in Figure 3 and Figure 4, be fixed with numerous grip blocks 6 on transmission chain band 22, each grip block 6 include sole piece 61, Central block 62 and two adaptation blocks 63, sole piece 61 are fixed with 22 phase of transmission chain band, and centered on block 62 and sole piece 61 with passing The bridge being connected between dynamic chain belt 22;Central block 62 is similar with the structure of block 63 is adapted to, and in split type, is to adapt to block 63 Example, adaptation block 63 include sliding block 631, elastomer block 632 and connection bolt 633, central block 62 and the difference place for adapting to block 63 It is, the sliding block 631 and sole piece 61 of central block 62 are fixed in one, so that the shape of sole piece 61 seems to " convex " shape; The sliding block 631 for adapting to block 63 is slidably connected on sole piece 61 by the cooperation of dovetails and dovetail groove, and two adaptation blocks 63 Sliding block 631 be located at the two sides of central block 62.
Such as Fig. 4 and Fig. 5, buffering blind hole 6311 is offered in the sliding block 631 of central block 62 and adaptation block 63 and is connected Threaded hole 6312 is connect, the diameter of buffering blind hole 6311 is greater than connection screw thread hole 6312, and connection screw thread hole 6312 is opened in buffering The bottom of blind hole 6311;Perforative counter sink 6321 is offered in the elastomer block 632 of central block 62 and adaptation block 63, is connected Bolt 633 passes through 6321 rear thread of counter sink and is connected in connection screw thread hole 6312, thus by elastomer block 632 and sliding block 631 It links together, and is arranged with snubber elastomeric part 634 on one end that connection bolt 633 is located in buffering blind hole 6311;Buffering Elastic component 634 is spring, and snubber elastomeric part 634 is in compressive state, so as to drive elastomer block 632 and sliding block 631 It is spaced.
Limited turn trough 7 is opened up on the surface of 632 face sliding block of elastomer block, 631 side, is fixed in sliding block 631 limited Rotary column 8, limit rotary column 8 are embedded in limit turn trough 7, to limit elastomer block 632 and sliding block 631 generates opposite deflection;Work as clamping After block 6 is installed on transmission chain band 22, in central block 62 and the opening simultaneously on the surface back to 22 side of transmission chain band of block 63 is adapted to If profile slot mutually continuous and identical with the outer shape of demisting blade is known as upper profile slot 9 on upper conveyor belt 2, It is known as bottom profiled slot 10 on lower conveyor belt 3, and upper and lower profile slot 10 respectively corresponds positive and negative two surfaces of demisting blade Shape.
It is adapting to be additionally provided between block 63 and central block 62 for limiting the self-regulated for adapting to block 63 and falling off from sole piece 61 Component 11, self-regulated component 11 include prick post hole 111, adapt to column 112, reseting groove 113, return springs 114, and prick post hole 111 is opened In the sliding block 631 of central block 62 and the surface of adaptation 63 opposite side of block;It adapts to column 112 and is fixed on the cunning for adapting to block 63 In row block 631;The diameter of reseting groove 113 is greater than the diameter in prick post hole 111, is opened in the sliding block 631 for adapting to block 63 back to wearing On the surface of 111 side of post holes, and it is connected with prick post hole 111;It adapts to column 112 to be arranged in prick post hole 111, and adapts to column 112 penetrate into reseting groove 113;Return springs 114 are spring, are sheathed on and adapt to one end that column 112 is located in reseting groove 113 On, and be fixed on adapting to one end that column 112 is located in reseting groove 113 for limiting return springs 114 from adaptation column 112 On the gear nut 115 that falls off;When adaptation block 63 is directed away from the side movement of central block 62 under the pushing of demisting blade, Return springs 114 can be formed by gear nut 115 and be squeezed, so that after demisting blade and grip block 6 disengage, it is multiple Position elastic component 114 can will adapt to block 63 by adaptation column 112 during discharging elastic potential energy and pull towards central block 62, It is resetted to make to adapt to block 63.
As shown in Fig. 2, cutter device 4 include the first portal frame 41, press cylinder 42, binder block 43, the second portal frame 44, Cylinder 45, cutting motor 46, saw blade 47 are cut, the first portal frame 41 and the second portal frame 44 are both secured to the workbench of fuselage 1 On, and the first portal frame 41 is located between the second portal frame 44 and upper and lower conveyer belt 3;Press cylinder 42 is fixed on first gantry The top of frame 41, and the piston rod of press cylinder 42 passes through the top plate of the first portal frame 41;Binder block 43 is fixed on press cylinder On 42 piston rod, enable binder block 43 that demisting blade is pressed against to the work of fuselage 1 under the promotion of press cylinder 42 On platform.
Cutting cylinder 45 is fixed on the second portal frame 44, and the piston rod for cutting cylinder 45 passes through the second portal frame 44 Top plate;Cutting motor 46 is fixed on the piston rod of cutting cylinder 45, and saw blade 47 is fixed on the output shaft of cutting motor 46, from And saw blade 47 is enable to cut to the demisting blade on 1 workbench of fuselage downwards.
As shown in figures 1 to 6, blanking device 5 includes blanking rack 51, striker plate 52, loading plate 53, connects and draw component 54, push away Expect component 55, blanking rack 51 is in frame-like, is placed in fuselage 1 and is arranged close to one end of the second portal frame 44, and in blanking rack 51 There is temporary platform 511;There are two the settings of striker plate 52, is fixed in blanking rack 51, and the height of two striker plates 52 is greater than temporary platform 511, and be separated by between two striker plates 52 and be formed with backgauge space 521;The side of loading plate 53 is articulated in blanking rack 51, and Close to the downside of one of striker plate 52, the other side is supported by tumble cylinder 531, so that loading plate 53 is empty by backgauge Between 521 lower opening block;The cylinder body of tumble cylinder 531 is articulated in blanking rack 51, and its piston rod is articulated with loading plate 53 turnover side, so that the piston rod of tumble cylinder 531 can cause loading plate 53 to generate overturning during flexible.
Include connecting plate 541, support rod 542, interlocking bar 543 as shown in fig. 7, connecing and drawing component 54, connecting plate 541(is shown in figure 1) temporary platform 511 is articulated with close to the side of loading plate 53;Support rod 542 is fixed in blanking rack 51, and is located at connecting plate 541 Between loading plate 53;Interlocking bar 543 is in arc-shaped, offers the center of circle and 543 center of circle of interlocking bar weight at the middle part of interlocking bar 543 The arc groove 5431 of conjunction, one end of interlocking bar 543 are articulated with the lower surface of 53 turnover side of loading plate, and arc groove 5431 is socketed on branch Be slidably connected on connecting column on strut 542 with the formation of support rod 542 relationship, and the one end of interlocking bar 543 far from loading plate 53 It contradicts on the lower surface of connecting plate 541.
When downwardly turning under the action of loading plate 53 is in tumble cylinder 531, connecting plate 541 can be pushed to dig upwards, Until loading plate 53 with connecting plate 541 to connecting, to realize the linkage between loading plate 53 and connecting plate 541.
Pushing material component 55 includes rotary shaft 551, material pushing wheel 552, charging ram 553, and rotary shaft 551 is rotatablely connected and blanking rack On 51;Material pushing wheel 552 is fixed in rotary shaft 551;Charging ram 553 is provided with more, is fixed on the circumferential side wall of material pushing wheel 552 On, more charging rams 553 are distributed around material pushing wheel 552, and offer interconnected pusher in connecting plate 541 and temporary set Mouth 12, then for material pushing wheel 552 during rotation, charging ram 553 is driven through pusher mouthful 12 for demisting blade towards far Side from connecting plate 541 pushes.
Pushing component 56 is provided between interlocking bar 543 and material pushing wheel 552, pushing component 56 includes ratchet 561, pushes Block 562,561 integrated solid of ratchet schedule on material pushing wheel 552, and concentric with material pushing wheel 552;Pushing block 562 is in triangular shape, hinge Interlocking bar 543 is connected on one end of connecting plate 541;The center of circle is offered in interlocking bar 543 falls in pushing block 562 and linkage Arc of motion slot 563 on hinge joint between bar 543, arc of motion slot 563 is between arc groove 5431 and ratchet 561;It pushes Gear column 564 is fixed on block 562, gear column 564 is arranged in arc of motion slot 563, and interlocking bar 543 is close to connecting plate 541 One end when being upturned, pushing block 562 is meshed with ratchet 561, pushes ratchet 561 to the sidespin far from connecting plate 541 Turn, and in 543 return of interlocking bar, pushing block 562 can be along court in arc of motion slot 563, ratchet surface court of ratchet 561 It is rotated to the side far from ratchet 561, and after disengaging with ratchet 561, pushing block 562 again can be in the work of self gravity Expose from interlocking bar 543 under, to can constantly drive ratchet 561 to the same side when interlocking bar 543 being made to swing back and forth To intermittent rotation.
Specific implementation process: when demisting blade is squeezed out out of extruder, initially entering between upper and lower two conveyer belts, Latter two right conveyer belt, which moves toward one another, clamps demisting blade, and subsequent conveyer belt operating conveys demisting blade to cutter device 4, since upper profile slot 9 and bottom profiled slot 10 are identical as the shape on positive and negative two surfaces of demisting blade respectively, and there is upper and lower biography The clamping action of band 3 is sent, therefore the two conveyer belts can limit the movement of demisting blade all directions, is cutting demisting blade It is not easy to shake during cutting, to keep the fracture after demisting blade cuts more smooth.
Demisting blade after severance, initially enters in blanking rack 51, and by 53 support of loading plate;Subsequent loading plate 53 is turning over It downwardly turning under the action of rotaring cylinder 531, while loading plate 53 downwardly turns over, connecting plate 541 is flipped up, until with Loading plate 53 docks, and material pushing wheel 552 is simultaneously rotated, after demisting blade is slipped to temporary platform 511, on material pushing wheel 552 The side that demisting blade can be directed away from connecting plate 541 by charging ram 553 pushes, and is not easy demisting blade in connecting plate 541 Joint accumulation between temporary platform 511, so that demisting blade be enable to go on smoothly blanking.
This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (10)

1. a kind of demisting blade production line, it is characterised in that: including fuselage (1), the upper conveyor belt (2) being set in fuselage (1), Lower conveyor belt (3) is set in fuselage (1) and the height apart from ground is between upper conveyor belt (2) and lower conveyor belt (3) Cutter device (4) is set to fuselage (1) discharge end and the blanking device (5) for carrying out blanking to the demisting blade after cutting, The upper conveyor belt (2) and lower conveyor belt (3) include going up and down the supportive body (21) being connected on fuselage (1), being sheathed on branch The transmission chain band (22) on main body (21) is supportted, is fixed with grip block (6) on transmission chain band (22), is located on upper conveyor belt (2) Grip block (6) surface offers profile slot (9), and grip block (6) surface being located on lower conveyor belt (3) offers bottom profiled slot (10), and upper profile slot (9) and bottom profiled slot (10) are identical as the shape on positive and negative two surfaces of demisting blade respectively.
2. a kind of demisting blade production line according to claim 2, it is characterised in that: be arranged on the supportive body (21) There is the regulating mechanism (23) for adjusting transmission chain band (22) elasticity, the regulating mechanism (23) includes being fixed on supportive body (21) support plate (231) at both ends, the tensioning wheel (232) hanging on support plate (231), turning set are set to tensioning wheel (232) Rotation axis on connecting bushing (233), be fixed on support plate (231) support stops (234), be threadedly connected to connecting bushing (233) adjusting screw rod (235) on offers length direction on the support plate (231) and is parallel to supportive body (21) length The slide slot (2311) in direction, the rotation axis of the tensioning wheel (232) are held in slide slot (2311), described to support stops (234) it is located between two tensioning wheels (232), and the adjusting screw rod (235) is pushed against across the one end of connecting bushing (233) To on stops (234).
3. a kind of demisting blade production line according to claim 1, it is characterised in that: each grip block (6) is wrapped Include the sole piece (61) being fixed on transmission chain band (22), integrated setting on sole piece (61) central block (62), be slidably connected In on sole piece (61) and being located at the adaptation block (63) of central block (62) two sides, the upper profile slot (9) or bottom profiled slot (10) it is distributed on central block (62) and two adaptation blocks (63), and is set between the central block (62) and two adaptation blocks (63) It is equipped with the self-regulated component (11) for making grip block (6) that different size demisting blades can be adapted to.
4. a kind of demisting blade production line according to claim 3, it is characterised in that: the self-regulated component (11) includes opening The adaptation column for adapting on block (63) and be arranged in prick post hole (111) is fixed in prick post hole (111) on central block (62) (112), central block (62) is opened in back on the surface for adapting to column (112) side and the reset that is connected with prick post hole (111) Slot (113) is sheathed on the return springs (114) that adaptation column (112) is located on one end in reseting groove (113), the reset The diameter of slot (113) is greater than the diameter of prick post hole (111), and is located on one end in reseting groove (113) admittedly adapting to column (112) Surely have for limiting return springs (114) from the gear nut (115) for adapting to fall off on column (112).
5. a kind of demisting blade production line according to claim 3, it is characterised in that: the central block (62) and adaptation block (63) structure is similar, be it is split type, adapt to block (63) include be slidably connected on sole piece (61) sliding block (631), can The elastomer block (632) that is telescopically installed on sliding block (631), the connection to connect sliding block (631) and elastomer block (632) Bolt (633) offers buffering blind hole (6311) and connection screw thread hole (6312), buffering blind hole on the sliding block (631) (6311) diameter is greater than the diameter of connection screw thread hole (6312), and connection screw thread hole (6312) is located at buffering blind hole (6311) Bottom offers perforative counter sink (6321) on the elastomer block (632), and the connection bolt (633) passes through counter sink (6321) rear thread is connected in connection screw thread hole (6312), and is located in buffering blind hole (6311) in connection bolt (633) Snubber elastomeric part (634) are arranged on one section.
6. a kind of demisting blade production line according to claim 1, it is characterised in that: the cutter device (4) includes solid Due in fuselage (1) the first portal frame (41), be fixed on the first portal frame (41) press cylinder (42), be fixed on binder Cylinder (42) passes through binder block (43) on the one end of the first portal frame (41), the cutting gas that is fixed on the second portal frame (44) Cylinder (45) is fixed on the cutting motor (46) cut cylinder (45) on the one end of the second portal frame (44) and is fixed on and cuts The saw blade (47) on the output shaft of motor (46) is cut, during extending from one end of fuselage (1) to the other end, is sequentially distributed Upper and lower conveyer belt (3), the first portal frame (41) and the second portal frame (44), and blanking device (5) be located at fuselage (1) it is separate it is upper, One end of lower conveyor belt (3).
7. a kind of demisting blade production line according to claim 1, it is characterised in that: the blanking device (5) includes setting It is placed in the blanking rack (51) of fuselage (1) side, is fixed on blanking rack (51) and is formed with backgauge space (521) between each other Striker plate (52), the loading plate (53) for being set on blanking rack (51) and fitting with the lower surface of two striker plates (52), institute The side and blanking rack (51) for stating loading plate (53) are hinged, and the other side is supported by tumble cylinder (531), the overturning The cylinder body of cylinder (531) is hinged with blanking rack (51), and piston rod is hinged with loading plate (53), on the blanking rack (51) and It is provided with positioned at the obliquely downward of striker plate (52) turnover side for accepting the temporary of the demisting blade slid from loading plate (53) Platform (511).
8. a kind of demisting blade production line according to claim 7, it is characterised in that: the blanking device (5) further includes Draw component (54) for guiding the demisting blade on loading plate (53) to be slipped to connecing on temporary platform (511), described connect draws component (54) include the connecting plate (541) being articulated on temporary platform (511), be fixed on blanking rack (51) and be located at connecting plate (541) Support rod (542) between loading plate (53), one end are articulated in the upset end of loading plate (53) and other end conflict is connecing The interlocking bar (543) of corbel back slab (541) lower surface offers arc groove (5431), the support rod on the interlocking bar (543) (542) connecting column on is arranged in arc groove (5431) and forms the relationship that is slidably connected with interlocking bar (543).
9. a kind of demisting blade production line according to claim 8, it is characterised in that: the blanking device (5) further includes Pushing material component (55) for pushing from the demisting blade on connecting plate (541) to separate loading plate (53) side, the pusher Component (55) includes the rotary shaft (551) being rotationally connected on blanking rack (51), the material pushing wheel being fixed on rotary shaft (551) (552), it is fixed on the circumferential side wall of material pushing wheel (552) and surrounds the charging ram (553) of material pushing wheel (552) distribution, it is described temporary It deposits to offer in platform (511) and connecting plate (541) and be interconnected and for being carried out after being passed through for charging ram (553) to demisting blade The pusher mouthful (12) of promotion, and be provided between interlocking bar (543) and material pushing wheel (552) for driving material pushing wheel (552) to revolve The pushing component (56) turned.
10. a kind of demisting blade production line according to claim 9, it is characterised in that: the pushing component (56) includes Be fixed on the ratchet (561) concentric on rotary shaft (551) and with rotary shaft (551), one end is articulated on interlocking bar (543) and The other end and interlocking bar (543) form the pushing block (562) for the relationship that is slidably connected, and offer the center of circle on the interlocking bar (543) The arc of motion slot (563) of pushing block (562) center of rotation is fallen in, arc of motion slot (563) is located at ratchet (561) and pushing block (562) it between center of rotation, is fixed with gear column (564) on the pushing block (562), the gear column (564) is arranged in In arc of motion slot (563), and pushing block (562) is meshed with ratchet (561).
CN201811400247.7A 2018-11-22 2018-11-22 Defogging blade production line Active CN109571612B (en)

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Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1378329A2 (en) * 2002-07-06 2004-01-07 Achim Holz Apparatus for feeding edible products to a cutting device and cutting device for edible products
DE102006062880A1 (en) * 2006-11-07 2008-08-07 Holac Maschinenbau Gmbh Method and device for cutting food from a product strand, in particular for cutting chops
CN204354189U (en) * 2015-01-04 2015-05-27 芜湖悠派卫生用品有限公司 A kind of cotton core cutting conveying appliance
CN105345890A (en) * 2015-11-30 2016-02-24 天津市华之阳特种线缆有限公司 Full-automatic heating and cutting device for dacron sleeves
CN205766316U (en) * 2016-05-28 2016-12-07 东莞市仁达机械设备有限公司 A kind of synchronous cutting equipment of fiberglass
CN107199584A (en) * 2017-05-24 2017-09-26 江苏海川新材料科技有限公司 Fiberglass processing traction cutting integration apparatus
CN107553192A (en) * 2017-07-18 2018-01-09 中原内配集团安徽有限责任公司 A kind of cylinder jacket cutter device of automatic loading/unloading
CN206985070U (en) * 2017-07-19 2018-02-09 常州日月机械有限公司 Copper bar continuous tin plating production line turns over row's conveying, material stocking device with blanking
CN108789572A (en) * 2017-04-28 2018-11-13 大族激光科技产业集团股份有限公司 Blanking device

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1378329A2 (en) * 2002-07-06 2004-01-07 Achim Holz Apparatus for feeding edible products to a cutting device and cutting device for edible products
DE102006062880A1 (en) * 2006-11-07 2008-08-07 Holac Maschinenbau Gmbh Method and device for cutting food from a product strand, in particular for cutting chops
CN204354189U (en) * 2015-01-04 2015-05-27 芜湖悠派卫生用品有限公司 A kind of cotton core cutting conveying appliance
CN105345890A (en) * 2015-11-30 2016-02-24 天津市华之阳特种线缆有限公司 Full-automatic heating and cutting device for dacron sleeves
CN205766316U (en) * 2016-05-28 2016-12-07 东莞市仁达机械设备有限公司 A kind of synchronous cutting equipment of fiberglass
CN108789572A (en) * 2017-04-28 2018-11-13 大族激光科技产业集团股份有限公司 Blanking device
CN107199584A (en) * 2017-05-24 2017-09-26 江苏海川新材料科技有限公司 Fiberglass processing traction cutting integration apparatus
CN107553192A (en) * 2017-07-18 2018-01-09 中原内配集团安徽有限责任公司 A kind of cylinder jacket cutter device of automatic loading/unloading
CN206985070U (en) * 2017-07-19 2018-02-09 常州日月机械有限公司 Copper bar continuous tin plating production line turns over row's conveying, material stocking device with blanking

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