CN204473837U - Packing barrel upset pay-off and packing barrel production system - Google Patents

Packing barrel upset pay-off and packing barrel production system Download PDF

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Publication number
CN204473837U
CN204473837U CN201520025695.9U CN201520025695U CN204473837U CN 204473837 U CN204473837 U CN 204473837U CN 201520025695 U CN201520025695 U CN 201520025695U CN 204473837 U CN204473837 U CN 204473837U
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CN
China
Prior art keywords
turning rod
packing barrel
delivery platform
barrel
rotating shaft
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Expired - Fee Related
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CN201520025695.9U
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Chinese (zh)
Inventor
王奎
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Xinjiang Xin Wangda Packing Articles Co Ltd
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Xinjiang Xin Wangda Packing Articles Co Ltd
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Application filed by Xinjiang Xin Wangda Packing Articles Co Ltd filed Critical Xinjiang Xin Wangda Packing Articles Co Ltd
Priority to CN201520025695.9U priority Critical patent/CN204473837U/en
Application granted granted Critical
Publication of CN204473837U publication Critical patent/CN204473837U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a kind of packing barrel upset pay-off, comprise the first delivery platform, switching mechanism, band conveyor and the second delivery platform, switching mechanism comprises turnover bracket, rotating shaft, turning rod group and actuating device, rotating shaft is installed in rotation on turnover bracket, actuating device is connected with rotating shaft transmission, turning rod group comprises front and back turning rod, one end of front and back turning rod is all fixedly mounted in rotating shaft, distance between the turning rod of front and back is less than the diameter of packing barrel, turning rod group is 4 groups, band conveyor is arranged between rotating shaft and the second delivery platform, packing barrel can be delivered in turning rod group by the first delivery platform, packing barrel in turning rod group can be delivered on the second delivery platform by band conveyor.The steel drum of horizontal conveying can be converted to vertical conveying by this device, realizes the connection between adjacent operation, improves production efficiency.The utility model also relates to a kind of packing barrel production system.

Description

Packing barrel upset pay-off and packing barrel production system
Technical field
The utility model relates to packing barrel and manufactures field, particularly relates to a kind of packing barrel upset pay-off and packing barrel production system.
Background technology
Packing barrel is one of conventional container, occupies very consequence in conventional container.Packing barrel develops the industrial packaging, consumer package, transport package etc. of today from the function of temporarily storing in-built article; Circulating from producing to, consuming to be formed and always to flow container, become the means of the in-built article of long-term preservation, can say that packing barrel brings very large change and progress to the work of the mankind and life.Good mechanical performance, the intensity of packing barrel are high, and therefore packing barrel needs to make thin-walled, compressive resistance is high, not easily damaged packing container, make the safety of packaging product have failure-free guarantee, and are convenient to storage, transport, handling and use.
Packing barrel in process of production will through operations such as blanking, edging, roll barrel, welding line of barrel body, necking down flange, ladle body bulging tendons, seaming assemblings, need packing barrel to be transported to another operation station after an operation completes, when the charging of vertical paint line, need by the steel drum upset on horizontal stage casing tubbing manufacturing line for vertical, to be applicable to the charging of vertical paint line.
Utility model content
The utility model object is to provide a kind of packing barrel upset pay-off, the steel drum of horizontal conveying can be converted to vertical conveying, realize the connection between adjacent operation, improve production efficiency.
The utility model technical solution problem adopts following technical scheme: a kind of packing barrel upset pay-off, comprise the first delivery platform, switching mechanism, band conveyor and the second delivery platform, described first delivery platform is positioned at the left side of switching mechanism, second delivery platform is positioned at the right side of switching mechanism, described switching mechanism comprises turnover bracket, rotating shaft, turning rod group and actuating device, the front-end and back-end of described rotating shaft are all installed in rotation on turnover bracket, described actuating device is connected with rotating shaft transmission
Described turning rod group comprises front turning rod and rear turning rod, one end of described front turning rod and rear turning rod is all fixedly mounted in rotating shaft, front turning rod and rear turning rod are parallel to each other and at grade, the distance between front turning rod and rear turning rod is less than the diameter of packing barrel
The quantity of described turning rod group is 4 groups, and 4 groups of turning rod groups are uniform around the axis of rotating shaft, and the angle between two groups of adjacent turning rod groups is 90 °,
Described band conveyor is arranged between rotating shaft and the second delivery platform, and described band conveyor is between front turning rod and rear turning rod, the belt upper surface of band conveyor is positioned at the top of the second delivery platform, packing barrel can be delivered in turning rod group by described first delivery platform, and the packing barrel in turning rod group can be delivered on the second delivery platform by band conveyor.
Optionally, described front turning rod and rear turning rod are all in tabular.
Optionally, the height of the belt pulley in the left side of described band conveyor is higher than the height of the belt pulley on right side, and make the belt between two of band conveyor belt pulleys from left to right downward-sloping, angle of inclination is 2 °.
Optionally, described first delivery platform and the second delivery platform all adopt band conveyor.
Optionally, described first delivery platform comprises transfer gantry and some deflector rolls, the rear and front end of described deflector roll is fixedly mounted on transfer gantry, be parallel to each other between described deflector roll, the top of deflector roll is positioned at the top face of transfer gantry, and the structure of described second delivery platform is identical with the structure of the first delivery platform.
Optionally, described actuating device is reducing motor, and reducing motor is fixedly mounted on turnover bracket, and reducing motor is connected with rotating shaft by coupler.
The utility model additionally provides a kind of packing barrel production system, comprise punch forming device, seaming assembling device, packing barrel feedway, packing barrel direction-changing conveying device and packing barrel upset pay-off at the bottom of packing barrel barrel panel automatic blanking machine, packing barrel barrel panel edging device, packing barrel roll barrel device, ladle body welder, ladle body hemmer, ladle body corrugation forming apparatus, cylinder top punch forming device, cylinder, wherein said packing barrel upset pay-off is above-mentioned packing barrel upset pay-off.
The utility model has following beneficial effect: this device is by arranging switching mechanism, turning rod group is driven to rotate by its rotating shaft, because the angle between adjacent two turning rod groups is 90 °, thus the steel drum of horizontal conveying can be made to be converted to vertical conveying, realize the connection between adjacent operation, improve production efficiency.
Accompanying drawing explanation
Fig. 1 is the front view of packing barrel barrel panel automatic blanking machine in the utility model;
Fig. 2 be packing barrel barrel panel automatic blanking machine in the utility model the first material guide device, hold material pond, the second material guide device front view;
Fig. 3 is the enlarged drawing at A place in Fig. 2;
Fig. 4 is the enlarged drawing at B place in Fig. 2;
Fig. 5 is the front view of the pressuring flat device of packing barrel barrel panel automatic blanking machine in the utility model;
Fig. 6 is the enlarged drawing at C place in Fig. 5;
Fig. 7 is the block diagram of packing barrel barrel panel edging device in the utility model;
Fig. 8 is the front view of packing barrel barrel panel edging device in the utility model;
Fig. 9 is the birds-eye view of Fig. 8;
Figure 10 is the left view of Fig. 8;
Figure 11 is the block diagram of the bottom base of packing barrel barrel panel edging device in the utility model;
Figure 12 is the structural representation of packing barrel roll barrel device in the utility model;
Figure 13 is the front sectional view of the arrangement for adjusting height of packing barrel roll barrel device in the utility model;
Figure 14 is the birds-eye view of packing barrel feedway in the utility model;
Figure 15 is the front view of the former rail ring of packing barrel feedway in the utility model;
Figure 16 is the block diagram of the front driving wheel of packing barrel feedway in the utility model;
Figure 17 is the block diagram of the connecting device of packing barrel feedway in the utility model;
Figure 18 is the block diagram of packing barrel direction-changing conveying device in the utility model;
Figure 19 is the block diagram of the deviator of packing barrel direction-changing conveying device in the utility model;
Figure 20 is the block diagram (the second roller is visible) of the deviator of packing barrel direction-changing conveying device in the utility model;
Figure 21 is the block diagram of the lifting apparatus of packing barrel direction-changing conveying device in the utility model;
Figure 22 is the front view of the lifting plate of packing barrel direction-changing conveying device in the utility model;
Figure 23 is the block diagram of the utility model packing barrel upset pay-off;
Figure 24 is the birds-eye view of the utility model packing barrel upset pay-off;
Figure 25 is the front view of the utility model packing barrel upset pay-off;
Figure 26 is the left view of the utility model packing barrel upset pay-off;
In figure, mark is illustrated as: 110-decoiling unit; 111-sheet material; 120-first material guide device; 121-first front frame; 122-first after poppet; 123-first deflector roll; 130-holds material pond; 140-second material guide device; 141-second front frame; 142-second after poppet; 143-second deflector roll; 150-pressuring flat device; 151-base; 152-upper bracket; 153-lower bracket; The left guide frame of 154-; The right guide frame of 155-; The left deflector roll of 156-; 157-lower compression roller; The right deflector roll of 158-; 159-first depression bar; 160-compact heap; The upper pressure roller of 161-; 162-first guideway; 163-compression indicator; 164-test platform; 165-second depression bar; 166-smooths block; 167-handwheel; 168-straightener roll; 169-stage clip; 170-second guideway; 180-shears;
200-barrel panel; 210-top base; 211-locating plate; 212-upper guide post; 213-block; 214-connecting panel; 215-guide rod; 216-emery wheel mount pad; 217-rotating shaft; 218-emery wheel; 219-first electrical motor; 220-bottom base; 221-pillar; Guide pillar under 222-; 223-hydraulic actuating cylinder; 224-screw mandrel; 225-second electrical motor; 226-first turbine; 227-transmission shaft; 228-the 3rd gear; 229-the 4th gear; 230-pressing plate; 231-second turbine; 240-stay bearing plate; 241-slot to make way; 242-deflector roll;
301-packing barrel barrel panel; 310-first support; 311-deflector roll; 312-central panel; 320-second support; The upper roller frame of 330-; The upper pressure roller of 331-; 340-presses down roll stand; 341-lower compression roller; 350-regulates roll stand; 351-regulates roll shaft; 352-dancer rools; 353-screw mandrel; 354-nut; 355-slide block; 356-guide rail; 357-handwheel; 358-is rotationally connected chamber; 359-mounting hole; 360-pipe link; 361-turning block; 362-oil hole; 363-set collar;
410-former rail ring; 411-fixed link; 412-first front-end bearing pedestal; 413-second front-end bearing pedestal; 414-strut bar; 420-rear rail ring; 430-locates thrust unit; 431-pipe link; Driving wheel after 432-; Driving wheel before 433-; 434-first circle baffle plate; 435-second circle baffle plate; 436-connection pipe; 440-imput shaft; 441-chain; 443-outer chain sheet; 450-driven shaft; 460-first connecting plate; 461-second connecting plate; 462-the 3rd connecting plate; 463-the 4th connecting plate; 464-first brace panel; 465-second brace panel;
510-first carriage; 511-deflector roll; 520-second carriage; 530-deviator; 531-outside track; 532-inner orbit; 533-bracket; 534-first rectangular channel; 535-second rectangular channel; 536-first fixed mount; 537-second fixed mount; 538-rotating shaft; 539-first roller; 540-second roller; 550-lifting apparatus; 551-lifting support; 552-hydraulic actuating cylinder; 553-lifting plate;
610-first delivery platform; 611-transfer gantry; 612-deflector roll; 620-second delivery platform; 630-band conveyor; 631-belt; 640-switching mechanism; 641-turnover bracket; 642-rotating shaft; 643-turning rod group; Turning rod before 644-; Turning rod after 645-.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the technical solution of the utility model is further elaborated.
Embodiment 1
As shown in Figure 23-26, present embodiments provide a kind of packing barrel upset pay-off, comprise the first delivery platform 610, switching mechanism 640, band conveyor 630 and the second delivery platform 620.First delivery platform 610 is positioned at the left side of switching mechanism 640, and the second delivery platform 620 is positioned at the right side of switching mechanism 640.In the present embodiment, the first delivery platform 610 comprises transfer gantry 611 and some deflector rolls 612, and the rear and front end of deflector roll 612 is fixedly mounted on transfer gantry 611, is parallel to each other between deflector roll 612, and the top of deflector roll 612 is positioned at the end face side of transfer gantry 611.The structure of the second delivery platform 620 is identical with the structure of the first delivery platform 610.Certainly, the first delivery platform 610 and the second delivery platform 620 also can adopt band conveyor.
Switching mechanism 640 comprises turnover bracket 641, rotating shaft 642, turning rod group 643 and actuating device (not shown), and the front-end and back-end of rotating shaft 642 are all installed in rotation on turnover bracket 641 by bearing.Actuating device and rotating shaft 642 are in transmission connection, and in the present embodiment, actuating device is reducing motor, and reducing motor is fixedly mounted on turnover bracket 641, and reducing motor is connected with rotating shaft 642 by coupler.
Turning rod group 643 comprises front turning rod 644 and rear turning rod 645, and one end of front turning rod 644 and rear turning rod 645 is all fixedly mounted in rotating shaft 642, and front turning rod 644 and rear turning rod 645 are parallel to each other and at grade.Distance between front turning rod 644 and rear turning rod 645 is less than the diameter of packing barrel.Front turning rod 644 and rear turning rod 645 are all in tabular.In the present embodiment, the quantity of turning rod group 643 is 4 groups, and 4 groups of turning rod groups 643 are uniform around the axis of rotating shaft 642, and the angle between two groups of adjacent turning rod groups 643 is 90 °.
In the present embodiment, band conveyor 630 is arranged between rotating shaft 642 and the second delivery platform 620, and band conveyor 630 is between front turning rod 644 and rear turning rod 645.Belt 631 upper surface of band conveyor 630 is positioned at the top of the second delivery platform 620.
In the present embodiment, the outer end of turning rod group 643 is close to the first delivery platform 610 and the second delivery platform 620, namely current turning rod 644 and rear turning rod 645 nearest apart from the first delivery platform 610 time, the outer end of front turning rod 644 and rear turning rod 645 and the minor increment of the first delivery platform 610 are 5 millimeters; Namely current turning rod 644 and rear turning rod 645 nearest apart from the second delivery platform 620 time, the outer end of front turning rod 644 and rear turning rod 645 and the minor increment of the second delivery platform 620 are 10 millimeters.Thus packing barrel can be delivered in turning rod group 643 by the first delivery platform 610, the packing barrel in turning rod group 643 can be delivered on the second delivery platform 620 by band conveyor 630.
Preferably, the height of the belt pulley in the left side of band conveyor 630 is higher than the height of the belt pulley on right side, and make the belt between two of band conveyor 630 belt pulleys from left to right downward-sloping, angle of inclination is 2 °.
This device in use, horizontal package bucket is delivered to turning rod group 643 to the right by the first delivery platform 610, while packing barrel is close to rotating shaft 642, rotate clockwise under the driving of the reducing motor of rotating shaft 642, packing barrel close to rotating shaft 642 lifts by turning rod group 643, packing barrel 90-degree rotation under the driving of turning rod group 643, and walks around rotating shaft 642, drop on band conveyor 630, upset is delivered to the second delivery platform 620 for vertical packing barrel by band conveyor 630.
Embodiment 2
Present embodiments provide a kind of packing barrel production system, comprise packing barrel barrel panel automatic blanking machine, packing barrel barrel panel edging device, packing barrel roll barrel device, ladle body welder, ladle body hemmer, ladle body corrugation forming apparatus, cylinder top punch forming device, cylinder end punch forming device, seaming assembling device, packing barrel feedway, packing barrel direction-changing conveying device and packing barrel upset pay-off, packing barrel feedway and packing barrel direction-changing conveying device with the use of, for the packing barrel after welding is delivered to seaming assembling device, also the packing barrel of production is may be used for be transported to follow-up packing barrel spray station.
The packing barrel that wherein packing barrel upset pay-off adopts embodiment 1 to record overturns pay-off.
Packing barrel barrel panel automatic blanking machine in the present embodiment, as shown in Figure 1, comprises decoiling unit 110, first material guide device 120, holds material pond 130, second material guide device 140, pressuring flat device 150 and shears 180.First material guide device 120 is positioned at the left side of the second material guide device 140, hold material pond 130 between the first material guide device 120 and the second material guide device 140, and hold the below that material pond 130 is positioned at the first material guide device 120 and the second material guide device 140, pressuring flat device 150 is positioned at the right side of the second material guide device 140, and shears 180 is positioned at the right side of pressuring flat device 150.
As shown in Figure 2 and Figure 3, the first material guide device 120 comprises the first front frame 121, first after poppet 122 and several the first deflector rolls 123.First front frame 121 is parallel with before and after the first after poppet 122, between by connecting panel weld together.The rear and front end of the first deflector roll 123 is fixedly mounted on the first front frame 121 and the first after poppet 122, parallel mutually between each first deflector roll 123, several first deflector rolls 123 are in the circular arc arrangement of protruding to upper right side, and the height of the first deflector roll 123 from left to right reduces successively gradually.The part that each first deflector roll 123 contacts with sheet material 111 is all positioned at the outside of the first front frame 121 and the first after poppet 122.
As shown in Figure 2, Figure 4 shows, the second material guide device 140 comprises the second front frame 141, second after poppet 142 and several the second deflector rolls 143.Parallel before and after between second front frame 141 and the second after poppet 142, be fixedly connected with together by connecting panel, the rear and front end of the second deflector roll 143 is arranged on the second front frame 141 and the second after poppet 142, parallel mutually between each second deflector roll 143, several second deflector rolls 143 are in the circular arc arrangement of protruding to upper left side, the height of the second deflector roll 143 from left to right raises successively gradually, and the part that each second deflector roll 143 contacts with sheet material 111 is all positioned at the outside of the second front frame 141 and the second after poppet 142.
The sheet material 111 that the discharging opening of decoiling unit 110 is sent enters pressuring flat device 150 after the second deflector roll 143 on the first deflector roll 123 on the first material guide device 120, appearance material pond 130 and the second material guide device 140, sheet material 111 sends into shears 180 after pressuring flat device 150 flattens, sheet material 111 is cut into qualified plate by shears 180, and sheet material 111 is the circular arc protruded downwards holding in material pond 130.
This packing barrel barrel panel automatic blanking machine in use, the sheet material 111 that decoiling unit 110 is sent has reclinate trend, sheet material 111 rides on the first deflector roll 123, then ride on the second deflector roll 143 after bending in appearance material pond 130, sheet material 111 is after comparatively putting down for the first time, enter in pressuring flat device 150 and carry out secondary smoothing, the sheet material 111 after smoothing cuts into qualified plate by shears 180.
As shown in Figure 5, Figure 6, in the present embodiment, pressuring flat device 150 comprises base 151, upper bracket 152, lower bracket 153, left guide frame 154 and right guide frame 155.Left guide frame 154, lower bracket 153 and right guide frame 155 are all fixedly mounted on base 151, left guide frame 154 is provided with several left deflector roll 156, lower bracket 153 is provided with several lower compression rollers 157, right guide frame 155 is provided with several right deflector rolls 158, left deflector roll 156, to be parallel to each other between lower compression roller 157 and right deflector roll 158, and to be positioned in same level.Upper bracket 152 is fixedly mounted on lower bracket 153, and upper bracket 152 is in inverted U-shaped.Compact heap 160 is connected with by the first depression bar 159 in the below of upper bracket 152, the upper end of the first depression bar 159 is installed in rotation on upper bracket 152 by bearing, the lower end of the first depression bar 159 is connected with the tapped bore that compact heap 160 upper surface is offered by screw thread, by rotating the first depression bar 159, the up-down adjustment of compact heap 160 position can be realized.The lower end of compact heap 160 be provided with some on pressure roller 161, each upper pressure roller 161 is all parallel with lower compression roller 157, and each upper pressure roller 161 is all in same level.Upper pressure roller 161 and lower compression roller 157 are in left and right directions alternative arrangement, the sheet material 111 that second material guide device 140 is sent into enters shears 180 after left deflector roll 156, lower compression roller 157, upper pressure roller 161 and right deflector roll 158, the lower surface of sheet material 111 contacts with lower compression roller 157, and the upper surface of sheet material 111 contacts with upper pressure roller 161.
In the present embodiment, the quantity of the first depression bar 159 is two, and two first depression bars 159 lay respectively at left part and the right part of compact heap 160.The two ends of compact heap 160 are connected with upper bracket 152 by the first guideway 162.Compression indicator 163 is also installed with in the lower end of compact heap 160, the quantity of compression indicator 163 is two, be positioned at the two ends, left and right of compact heap 160, lower bracket 153 be installed with two test platform 164, the probe of each compression indicator 163 all contacts with a test platform 164.
In order to submit smoothing effect to, upper bracket 152 is also connected with smoothing block 166 by the second depression bar 165, smoothing block 166 is positioned at the right side of compact heap 160.The upper end of the second depression bar 165 can slide up and down to through upper bracket 152, be installed with handwheel 167 on the top of the second depression bar 165, the lower end of the second depression bar 165 is fixedly connected with the upper surface of smoothing block 166.The lower end of smoothing block 166 is provided with a straightener roll 168, and straightener roll 168 is positioned at directly over a lower compression roller 157, and the second depression bar 165 is positioned at the middle part of smoothing block 166.Second depression bar 165 is set with stage clip 169, and the upper end of stage clip 169 is pressed on upper bracket 152, and the lower end of stage clip 169 is pressed on the upper surface of smoothing block 166.Sheet material 111 passes between straightener roll 168 and the lower compression roller below straightener roll 157, and straightener roll 168 is pressed on described sheet material 111.Smoothing block 166 two ends are connected with upper bracket 152 by the second guideway 170.In the present embodiment, the first guideway and the second guideway are formed by guide rail and slide block.
Packing barrel barrel panel edging device in the present embodiment as is seen in figs 7-10, comprises top base 210, bottom base 220, pressing plate 230 and stay bearing plate 240.The cross sectional shape of bottom base 220 is U-shaped, the cross sectional shape of top base 210 is rectangle, top base 210 is fixedly mounted on bottom base 220 by pillar 221, the quantity of the present embodiment B-C post 221 is 4, rectangular distribution, the lower end of pillar 221 is fixedly mounted on bottom base 220, and the upper end of pillar 221 is fixedly connected with top base 210, there is spacing between top base 210 and bottom base 220.Be installed with the locating plate 211 for determining barrel panel 200 (as shown in Figure 10) position in the upper rear end of bottom base 220, the quantity of locating plate 211 is two, uniform in left-right direction.
Shown in Figure 11, be provided with some deflector rolls 242 be arranged in parallel at the opening part of bottom base 220, in the present embodiment, the quantity of deflector roll 242 is 10.The top of deflector roll 242 is positioned at the top of bottom base 220, and namely deflector roll 242 part exposes the upper surface of bottom base 220.
Stay bearing plate 240 is slidably mounted in bottom base 220 by lower guide pillar 222, the lower end of lower guide pillar 222 is fixedly mounted in the lower plate of bottom base 220, the upper end of lower guide pillar 222 is slidably through stay bearing plate 240, in the present embodiment, the quantity of lower guide pillar 222 is four, and four lower guide pillars 222 are positioned at the corner place of stay bearing plate 240.Stay bearing plate 240 is horizontally disposed with, hydraulic actuating cylinder 223 is provided with between the lower surface of stay bearing plate 240 and the lower plate of bottom base 220, the cylinder body of hydraulic actuating cylinder 223 is fixedly mounted in the lower plate of bottom base 220, and the piston rod outer end of hydraulic actuating cylinder 223 is fixedly connected on the lower surface of stay bearing plate 240.Stay bearing plate 240 is positioned at the below of deflector roll 242, stay bearing plate 240 offers some slots to make way 241, a slot to make way 241 is provided with immediately below each deflector roll 242, the groove width of slot to make way 241 is greater than the external diameter of deflector roll 242, thus when stay bearing plate 240 upward movement, deflector roll 242 can enter in slot to make way 241.
Pressing plate 230 is slidably mounted in the below of top base 210 by upper guide post 212, and pressing plate 230 is horizontally disposed with, and pressing plate 230 is positioned at directly over stay bearing plate 240.The lower end of every root upper guide post 212 is fixedly mounted on pressing plate 230, and upper end can slide up and down to the via hole through top base 210 is offered.In the present embodiment, the quantity of upper guide post 212 is four, and four upper guide posts 212 are fixedly mounted on the corner of pressing plate 230.All be fixedly connected with block 213 at the top of every root upper guide post 212, the diameter of block 213 is greater than the diameter of via hole on top base 210, and block 213 can play position-limiting action.Every root upper guide post 212 is all set with spring (not shown), and the upper end of spring is pressed on the bottom surface of top base 210, and the lower end of spring is pressed on the upper surface of pressing plate 230.
In the present embodiment, be all installed with guide rod 215 by connecting panel 214 in the rear and front end of top base 210.Guide rod 215 is horizontally disposed with, and what guide rod 215 can horizontally slip is set with emery wheel mount pad 216.Emery wheel mount pad 216 is rotatably mounted with two rotating shafts 217, one end of every root rotating shaft 217 is all installed with emery wheel 218, two emery wheels about 218 are symmetrical arranged, and axis is parallel to each other, and the gap between two emery wheels 218 is less than the thickness of barrel panel 200.In the present embodiment, the angle between the axis of emery wheel 218 and the axis of guide rod 215 is 30 degree.
Output shaft and two rotating shafts 217 that emery wheel mount pad 216 is also installed with the first electrical motor 219, first electrical motor 219 are in transmission connection.In the present embodiment, the output shaft of the first electrical motor 219 is installed with the first turbine 226, two described rotating shafts 217 are all fixedly connected with a worm screw, the worm mesh in the first turbine 226 and two rotating shafts 217, realize being in transmission connection of the first electrical motor 219 and rotating shaft 217.Being in transmission connection of first electrical motor 219 and rotating shaft 217 also can in the following ways: the output shaft of the first electrical motor is installed with the first gear, two described rotating shafts are all installed with second gear, described first gear and two the second gears meshing.
The connecting panel 214 of the rear and front end of top base 210 is all rotatably mounted with screw mandrel 224, screw mandrel 224 is parallel with guide rod 215, emery wheel mount pad 216 is installed with nut, nut is arranged on screw mandrel 224, top base 210 is also installed with the second electrical motor 225, second electrical motor 225 and two rhizoid bars 224 are in transmission connection.
In the present embodiment top base 210 left side on be rotatably mounted with transmission shaft 227 by bearing, transmission shaft 227 is installed with the 3rd gear 228, the output shaft of the second electrical motor 225 is installed with the 4th gear 229,4th gear 229 engages with the 3rd gear 228, the two ends of transmission shaft 227 are all installed with second turbine 231, the end of two rhizoid bars 224 is all fixedly connected with a worm screw, each second turbine 231 all with the worm mesh on a rhizoid bar 224.
This device in use, first barrel panel 200 is placed on deflector roll 242, promote barrel panel 200 backward, its rear end is made to be resisted against on locating plate 211, then hydraulic control cylinder, its piston rod is stretched out, by stay bearing plate 240 jack-up, stay bearing plate 240 upward movement, barrel panel 200 is lifted and is pressed on pressing plate 230, pressing plate 230 moves up thereupon, holddown spring, thus barrel panel 200 is compressed, then controlling the first electrical motor 219 drives emery wheel to rotate, start the both sides, front and back of grinding barrel panel 200, second electrical motor 225 rotates simultaneously, drive emery wheel mount pad 216 sway, complete the edging of barrel panel.
Packing barrel roll barrel device in the present embodiment, as shown in figure 12, comprises the first support 310 and the second support 320.The upper surface of the first support 310 is installed with some deflector rolls 311 be parallel to each other, there is spacing between each deflector roll 311, the size of this spacing is 1/3 to 1/5 of packing barrel barrel panel length.Can conveying barrel body easily by arranging deflector roll 311.
In the present embodiment, the second support 320 is positioned at the right abaft of the first support 310, and the front side of the second support 320 is installed with roller frame 330, presses down roll stand 340 and regulate roll stand 350.Be rotatably mounted with upper pressure roller shaft by bearing in upper roller frame 330, upper pressure roller shaft is horizontally disposed with.In upper pressure roller shaft, fixed cover is equipped with pressure roller 331, and when upper pressure roller shaft is rotated, upper pressure roller 331 can rotate thereupon together.The rear end of upper pressure roller shaft is connected with electric motor drive, and electrical motor is fixedly mounted on the second support 320, and electrical motor can drive pressure roller shaft to drive upper pressure roller 331 to rotate.
Press down in roll stand 340 to be rotatably mounted with by bearing and press down roll shaft, in upper pressure roller shaft, fixed cover is equipped with lower compression roller 341.Upper pressure roller 331 and lower compression roller 341 are parallel to each other, and upper pressure roller 331 is positioned at directly over lower compression roller 341, and the gap between the bottom of upper pressure roller 331 and the top of lower compression roller 341 equals or slightly larger than the thickness of slab of packing barrel barrel panel.The top of lower compression roller 341 and the top of described deflector roll 311, on sustained height, make the packing barrel barrel panel 301 of conveying on deflector roll 311 can enter between pressure roller 331 and lower compression roller 341.
Adjustment roll stand 350 is provided with and regulates roll shaft 351, regulating the front-end and back-end of roll shaft 351 to be all fixedly mounted on by arrangement for adjusting height regulates in roll stand 350, regulate on roll shaft 351 and be set with dancer rools 352 rotationally, namely dancer rools 352 can rotate on adjustment roll shaft 351.Dancer rools 352 is parallel with upper pressure roller 331, and dancer rools 352 is positioned at the right side of pressure roller 331, and the axis of dancer rools 352 is positioned at the below of the axis of pressure roller 331.
As shown in figure 13, in the present embodiment, arrangement for adjusting height comprises screw mandrel 353, nut 354, slide block 355 and guide rail 356.Nut 354 is fixedly mounted on and regulates in roll stand 350, and screw mandrel 353 is arranged in nut 354, and screw mandrel 353 is threaded with nut 354.Screw mandrel 353 is vertically arranged, and the top of screw mandrel 353 is installed with handwheel 357.The bottom of screw mandrel 353 offers and is rotationally connected chamber 358, and the bottom of screw mandrel 353 offers and the mounting hole 359 being rotationally connected chamber 358 and being communicated with, and mounting hole 359 is with to be rotationally connected chamber 358 coaxial, and the diameter of mounting hole 359 is less than the diameter being rotationally connected chamber 358.In the present embodiment, the bottom surface of screw mandrel 353 now can process and be rotationally connected chamber 358, and then at the bottom surface of screw mandrel 353 welding base plate, mounting hole 359 is opened on base plate, thus realize being rotationally connected the setting of chamber 358 and mounting hole 359.
Guide rail 356 is fixedly mounted on and regulates in roll stand 350, and slide block 355 is arranged on guide rail 356, and slide block 355 can slide up and down along guide rail 356.Be installed with pipe link 360 in the upper end of slide block 355, turning block 361 is positioned at and is rotationally connected chamber 358, the axis of turning block 361 and the dead in line being rotationally connected chamber 358, and turning block 361 can rotate around its axis being rotationally connected in chamber 358.The upper end of pipe link 360 is fixedly connected with turning block 361 through after mounting hole 359.The rear and front end of roll shaft 351 is regulated to be fixedly connected on respectively on the slide block 355 of the arrangement for adjusting height of both sides, front and back.
Avoid damaging barrel panel in order to the friction force that increases between upper pressure roller and barrel panel, in the present embodiment, on the outer circumference surface of upper pressure roller 331, be coated with wear-resisting rubber offset plate.
The quantity of the present embodiment middle guide 356 is two, and slide block 355 is between two guide rails 356.By arranging two guide rails 356, the force-bearing situation of slide block 355 can be improved, ensureing the operation that slide block is stable.
In the present embodiment, offer oil hole 362 on the top of screw mandrel 353, oil hole 362 be rotationally connected chamber 358 and be communicated with.By arranging oil hole 362, turning block 361 can be improved being rotationally connected the rotation condition in chamber 358.The upper end face of turning block 361 is circular conical surface, and the shape being rotationally connected chamber 358 is identical with the shape of turning block 361.
In the present embodiment, nut 354 is fixedly mounted on by set collar 363 and regulates roll stand 350.
In order to make the barrel panel that is bent easier from spiral between upper pressure roller and lower compression roller, be the inclined-plane be tilted to the left from top to bottom in the central panel 312 of the right flank of the first support 310 in the present embodiment.
Packing barrel feedway in the present embodiment, as shown in figure 14, comprises support, former rail ring 410, rear rail ring 420, some location thrust unit 430, imput shaft 440, driven shaft 450 and actuating device.
Shown in Figure 13, former rail ring 410, in Long Circle, is installed with by fixed link 411 left side that first front-end bearing pedestal 412 and the second front-end bearing pedestal 413, first front-end bearing pedestal 412 are positioned at the second front-end bearing pedestal 413 in former rail ring 410.Rear rail ring 420 is identical with the structure of former rail ring 410, rear rail ring 420 is in Long Circle, the first rear bearing block and the second rear bearing block is installed with by fixed link in rear rail ring 420, first rear bearing block is positioned at the left side of the second rear bearing block, all be fixedly mounted on support by fixed link 411 at former rail ring 410 and rear rail ring 420, former rail ring 410 and rear rail ring 420 are parallel to each other.
Imput shaft 440 is arranged on the first front-end bearing pedestal 412 and the first rear bearing block by bearing, and driven shaft 450 is arranged on the second front-end bearing pedestal 413 and the second rear bearing block by bearing, and imput shaft 440 and driven shaft 450 are parallel to each other.Imput shaft 440 is installed with drive sprocket, driven shaft 450 is installed with driven sprocket, drive sprocket and driven sprocket are provided with chain 441.In the present embodiment, drive sprocket is positioned at the middle part of imput shaft 440, and driven sprocket is also positioned at the middle part of driven shaft 450.
Actuating device and imput shaft 440 are in transmission connection, and in the present embodiment, actuating device is reducing motor, and the output shaft of reducing motor is connected by shaft coupling transmission with the rear end of imput shaft 440, and reducing motor is fixedly mounted on support.
Location thrust unit 430 comprises front driving wheel 433, rear driving wheel 432 and pipe link 431, and front driving wheel 433 and rear driving wheel 432 are fixedly mounted on the rear and front end of pipe link 431 respectively.Shown in Figure 16, front driving wheel 433 comprises the first circle baffle plate 434, second circle baffle plate 435 and connection pipe 436, first circle baffle plate 434 and the second circle baffle plate 435 are fixedly mounted on the two ends of connection pipe 436, and the external diameter of the first circle baffle plate 434 and the second circle baffle plate 435 is greater than the external diameter of connection pipe 436.In the present embodiment, the inside face of the first circle baffle plate 434 and the second circle baffle plate 435 is circular conical surface.Shape, the structure of rear driving wheel 432 and front driving wheel 433 are identical, and front and back are symmetrical arranged.The outer circumference surface of the connection pipe of front driving wheel 433 is pressed on the outer peripheral face of former rail ring 410, the outer circumference surface of the connection pipe of rear driving wheel 432 is pressed on the outer circumference surface of rear rail ring 420, pipe link 431 is fixed on chain 441 by connecting device, and packing barrel is stuck between two adjacent location thrust units 430.
As shown in figure 13, be provided with some strut bars 414 in former rail ring 410, the two ends up and down of strut bar 414 are fixedly connected on the lower surface on the top of former rail ring 410 and the upper surface of bottom respectively; In rear rail ring 420, be also provided with some strut bars, the two ends up and down of strut bar are fixedly connected on the lower surface on the top of rear rail ring and the upper surface of bottom respectively.Strut bar 414 in former rail ring 410 and the strut bar in rear rail ring 420 are all vertically arranged.
As shown in figure 17, in the present embodiment, connecting device comprises the first connecting plate 460, second connecting plate 461, the 3rd connecting plate 462 and the 4th connecting plate 463.The inner of first connecting plate 460 and the second connecting plate 461 is fixedly mounted on the two ends, left and right of an outer chain sheet 443 of chain 441 respectively, and one end of the 3rd connecting plate 462 and the 4th connecting plate 463 is fixedly mounted on the two ends, left and right of the another one outer chain sheet 443 of chain 441 respectively.Be symmetrical arranged before and after first connecting plate 460 and the 3rd connecting plate 462, be symmetrical arranged before and after the second connecting plate 461 and the 4th connecting plate 463, the other end of the first connecting plate 460, second connecting plate 461, the 3rd connecting plate 462 and the 4th connecting plate 463 is all fixedly connected on pipe link 431.Wherein the length of outer chain sheet 443 can be determined according to the diameter of pipe link 431, and make the first connecting plate 460 and the 3rd connecting plate 462 be fixedly connected on the left side of pipe link 431, the second connecting plate 461 and the 4th connecting plate 463 are fixedly connected on the right side of pipe link 431.
In order to improve the structural stability of connecting device, connecting device also comprises the first brace panel 444 and the second brace panel 445.First brace panel 444 is between the first connecting plate 460 and the 3rd connecting plate 462, the front end face of the first brace panel 444 and aft end face are welded on the first connecting plate 460 and the 3rd connecting plate 462 respectively, second brace panel 445 is between the second connecting plate 461 and the 4th connecting plate 463, and the front end face of the second brace panel 445 and aft end face are welded on the second connecting plate 461 and the 4th connecting plate 463 respectively.
This device drives location thrust unit 430 to rotate around rotation front and back guide rail ring by chain 441, block packing barrel by two location thrust units 430 that left and right is adjacent simultaneously, thus realize packing barrel stablize fast speed transport, provide powerful support for for subsequent handling provides.
Packing barrel direction-changing conveying device in the present embodiment, as shown in figure 18, comprises the first carriage 510, second carriage 520 and deviator 530.In the present embodiment the first carriage 510 and the second carriage 520 arranged in a crossed manner in 90 degree.First carriage 510 and the second carriage 520 are all installed with some deflector rolls 511 be parallel to each other, with the transport of instant packed bucket.
Shown in Figure 19, deviator 530 comprises outside track 531, inner orbit 532, bracket 533 and lifting apparatus 550.Outside track 531 and inner orbit 532 are all in circular arc, and inner orbit 532 is positioned at the inner side of outside track 531, and outside track 531 and inner orbit 532 are all fixedly mounted on ground by support, and outside track 531 and inner orbit 532 have the identical center of circle and highly identical.One end of the positive inner tracks 532 of first carriage 510 and outside track 531, the other end of the positive inner tracks 532 of the second carriage 520 and outside track 531, the first carriage 510 and the second carriage 520 are all higher than inner orbit 532 and outside track 531.Outside track 531 offers the first rectangular channel 534, inner orbit 532 offers the second rectangular channel 535, shown in Figure 20, the bottom land of the second rectangular channel 535 is higher than the bottom land of the first rectangular channel 534.
Bracket 533 is rectangular frame, and the bucket that the length on the long limit of bracket 533 is greater than packing barrel is high, and the length of the minor face of bracket 533 is less than the diameter of packing barrel, is stably placed on bracket 533 to enable packing barrel.Two minor faces of bracket 533 are installed with respectively the first fixed mount 536 and the second fixed mount 537, first fixed mount 536 and the second fixed mount 537 are rotatably mounted with rotating shaft 538, i.e. the two ends of rotating shaft 538 are installed in rotation on the first fixed mount 536 and the second fixed mount 537 respectively.In the present embodiment, the first fixed mount 536 and the second fixed mount 537 are all in the U-shaped under shed.Be installed with the first roller 539 and the second roller 540, first roller 539 to be respectively positioned at the first fixed mount 536, second roller 540 to be positioned at the second fixed mount 537 at the two ends of rotating shaft 538.First roller 539 is arranged on outside track 531, and the first roller 539 can roll along outside track 531 at the first rectangular channel 534, and the second roller 540 is arranged on inner orbit 532, and the second roller 540 can roll along inner orbit 532 at the second rectangular channel 535.The diameter of the second roller 540 is less than the diameter of the first roller 539, thus when rotating shaft 538 is rotated, its axis, all the time through the center of circle of outside track 531, ensures that the first roller 539 and the second roller 540 normally can roll in rail groove.In the present embodiment, the radius ratio of the first roller 539 and the second roller 540 equals the radius ratio of inner orbit 532 and outside track 531.Bracket 533 is installed with actuating device, and actuating device and rotating shaft 538 are in transmission connection.In the present embodiment, actuating device adopts reducing motor.The output shaft of reducing motor is installed with driving gear, rotating shaft is installed with driven gear, driving gear engages with driven gear.
As shown in figure 21, lifting apparatus 550 comprises lifting support 551, hydraulic actuating cylinder 552 and lifting plate 553.Lifting support 551 is fixedly mounted on ground, and lifting support 551 is between inner orbit 532 and outside track 531, and lifting support 551 is positioned at one end that inner orbit 532 and outside track 531 are abutted against described second carriage 520.The cylinder body of hydraulic actuating cylinder 552 is fixedly mounted on lifting support 551, the piston rod outer end of hydraulic actuating cylinder 552 is fixedly connected with lifting plate 553, lifting plate 553 is positioned at the top of hydraulic actuating cylinder 552, lifting plate 553 is in circular arc, lifting plate 553 can be fitted with the outer circumference surface of packing barrel, shown in Figure 22, the height of lifting plate 553 near second carriage 520 one end is lower than the height of lifting plate 553 other end.
Be more prone to make packing barrel drop on the second carriage 520, in the present embodiment, piston rod second carriage 520 direction of hydraulic actuating cylinder 552 tilts, when lifting plate 553 is fitted with packing barrel outer circumference surface, the axis of the piston rod of hydraulic actuating cylinder 552 and the intersect vertical axis of packing barrel.The angle of inclination of the piston rod of hydraulic actuating cylinder 552 is 5 °.
In the present embodiment, the upper surface of lifting support 551 is arc surface, and when packing barrel is delivered to outside track 531 and inner orbit 532 near second carriage 520 one end by bracket 533, the arc surface of the upper end of lifting support 551 and the outer circumference surface of packing barrel are fitted.
The utility model packing barrel direction-changing conveying device, by arranging outside track 531 and inner orbit 532, is that bracket 533 moves in orbit, and can easily by packing barrel lifting by lifting apparatus 550, thus realizes packing barrel conveying and turn to.
The sequencing of above embodiment, only for ease of describing, does not represent the quality of embodiment.
Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (7)

1. a packing barrel upset pay-off, it is characterized in that, comprise the first delivery platform (610), switching mechanism (640), band conveyor (630) and the second delivery platform (620), described first delivery platform (610) is positioned at the left side of switching mechanism (640), second delivery platform (620) is positioned at the right side of switching mechanism (640), described switching mechanism (640) comprises turnover bracket (641), rotating shaft (642), turning rod group (643) and actuating device, the front-end and back-end of described rotating shaft (642) are all installed in rotation on turnover bracket (641), described actuating device and rotating shaft (642) are in transmission connection,
Described turning rod group (643) comprises front turning rod (644) and rear turning rod (645), one end of described front turning rod (644) and rear turning rod (645) is all fixedly mounted in rotating shaft (642), front turning rod (644) and rear turning rod (645) are parallel to each other and at grade, distance between front turning rod (644) and rear turning rod (645) is less than the diameter of packing barrel
The quantity of described turning rod group (643) is 4 groups, and 4 groups of turning rod groups (643) are uniform around the axis of rotating shaft (642), and the angle between two groups of adjacent turning rod groups (643) is 90 °,
Described band conveyor (630) is arranged between rotating shaft (642) and the second delivery platform (620), and described band conveyor (630) is positioned between front turning rod (644) and rear turning rod (645), belt (631) upper surface of band conveyor (630) is positioned at the top of the second delivery platform (620), packing barrel can be delivered in turning rod group (643) by described first delivery platform (610), packing barrel in turning rod group (643) can be delivered on the second delivery platform (620) by band conveyor (630).
2. packing barrel upset pay-off according to claim 1, it is characterized in that, described front turning rod (644) and rear turning rod (645) are all in tabular.
3. packing barrel upset pay-off according to claim 2, it is characterized in that, the height of the belt pulley in the left side of described band conveyor (630) is higher than the height of the belt pulley on right side, make the belt between two belt pulleys of band conveyor (630) from left to right downward-sloping, angle of inclination is 2 °.
4. packing barrel upset pay-off according to claim 3, it is characterized in that, described first delivery platform (610) and the second delivery platform (620) all adopt band conveyor.
5. packing barrel upset pay-off according to claim 3, it is characterized in that, described first delivery platform (610) comprises transfer gantry (611) and some deflector rolls (612), the rear and front end of described deflector roll (612) is fixedly mounted on transfer gantry (611), described deflector roll is parallel to each other between (612), the top of deflector roll (612) is positioned at the end face side of transfer gantry (611), and the structure of described second delivery platform (620) is identical with the structure of the first delivery platform (610).
6. packing barrel upset pay-off according to claim 5, it is characterized in that, described actuating device is reducing motor, and reducing motor is fixedly mounted on turnover bracket (641), and reducing motor is connected with rotating shaft (642) by coupler.
7. a packing barrel production system, comprise punch forming device, seaming assembling device, packing barrel feedway, packing barrel direction-changing conveying device and packing barrel upset pay-off at the bottom of packing barrel barrel panel automatic blanking machine, packing barrel barrel panel edging device, packing barrel roll barrel device, ladle body welder, ladle body hemmer, ladle body corrugation forming apparatus, cylinder top punch forming device, cylinder, it is characterized in that, wherein said packing barrel upset pay-off is the packing barrel upset pay-off described in any one of claim 1-6.
CN201520025695.9U 2015-01-15 2015-01-15 Packing barrel upset pay-off and packing barrel production system Expired - Fee Related CN204473837U (en)

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CN105173651A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Wheel-type automatic turnover equipment with hydraulically-driven clamping mechanism
CN105173649A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Novel wheel-type turnover equipment with lifting mechanism
CN105173650A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Wheel-type automatic turnover equipment with lifting mechanism
CN105173653A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Wheel-type automatic goods turnover equipment
CN105197552A (en) * 2015-10-15 2015-12-30 广运机电(苏州)有限公司 Wheel type goods automatic turnover equipment with clamping mechanism
CN105197551A (en) * 2015-10-15 2015-12-30 广运机电(苏州)有限公司 Novel wheel type automatic turnover equipment with lifting mechanism
CN105253598A (en) * 2015-10-15 2016-01-20 广运机电(苏州)有限公司 Wheel type overturning device with lifting mechanism
CN105584818A (en) * 2016-03-18 2016-05-18 浙江安吉双虎竹木业有限公司 Automatic turnover device for plates
CN105600391A (en) * 2015-10-15 2016-05-25 广运机电(苏州)有限公司 Novel wheel type cargo automatic overturning equipment with lifting mechanism
CN105600390A (en) * 2015-10-15 2016-05-25 广运机电(苏州)有限公司 Wheel type cargo automatic overturning equipment with lifting mechanism
CN105600392A (en) * 2015-10-15 2016-05-25 广运机电(苏州)有限公司 Novel wheel type cargo automatic turning equipment
CN105836435A (en) * 2016-06-01 2016-08-10 海宁永力电子陶瓷有限公司 PTC thermistor ceramic aluminum spraying carrier plate turnover device and aluminum spraying equipment
CN106044138A (en) * 2016-06-30 2016-10-26 王云 Hydraulic plate overturning machine with stop rods
CN106241313A (en) * 2016-08-30 2016-12-21 滁州艾普机电科技有限公司 A kind of continuous overturning machine of large-scale refrigerator
CN107187843A (en) * 2017-07-01 2017-09-22 汕头市澄海区正益设备有限公司 Metal drum posture collator and metal drum posture method for sorting
CN107380992A (en) * 2017-08-15 2017-11-24 天津中辰自动化设备有限公司 A kind of packaging line turning device
CN109018943A (en) * 2018-09-01 2018-12-18 戴宗璋 The automation of betel nut is put and conveying equipment
CN110844520A (en) * 2019-12-18 2020-02-28 萨驰华辰机械(苏州)有限公司 Tire cylinder conveying device and method
CN112551105A (en) * 2020-12-24 2021-03-26 湖州众强肥料制造有限公司 Transformer overturning and forming device

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CN105600392A (en) * 2015-10-15 2016-05-25 广运机电(苏州)有限公司 Novel wheel type cargo automatic turning equipment
CN105173650A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Wheel-type automatic turnover equipment with lifting mechanism
CN105173651A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Wheel-type automatic turnover equipment with hydraulically-driven clamping mechanism
CN105173653A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Wheel-type automatic goods turnover equipment
CN105197552A (en) * 2015-10-15 2015-12-30 广运机电(苏州)有限公司 Wheel type goods automatic turnover equipment with clamping mechanism
CN105197551A (en) * 2015-10-15 2015-12-30 广运机电(苏州)有限公司 Novel wheel type automatic turnover equipment with lifting mechanism
CN105253598A (en) * 2015-10-15 2016-01-20 广运机电(苏州)有限公司 Wheel type overturning device with lifting mechanism
CN105600391A (en) * 2015-10-15 2016-05-25 广运机电(苏州)有限公司 Novel wheel type cargo automatic overturning equipment with lifting mechanism
CN105173649A (en) * 2015-10-15 2015-12-23 广运机电(苏州)有限公司 Novel wheel-type turnover equipment with lifting mechanism
CN105600390A (en) * 2015-10-15 2016-05-25 广运机电(苏州)有限公司 Wheel type cargo automatic overturning equipment with lifting mechanism
CN105584818A (en) * 2016-03-18 2016-05-18 浙江安吉双虎竹木业有限公司 Automatic turnover device for plates
CN105584818B (en) * 2016-03-18 2018-10-30 浙江安吉双虎竹木业有限公司 A kind of plank automatic turn-over device
CN105836435A (en) * 2016-06-01 2016-08-10 海宁永力电子陶瓷有限公司 PTC thermistor ceramic aluminum spraying carrier plate turnover device and aluminum spraying equipment
CN106044138A (en) * 2016-06-30 2016-10-26 王云 Hydraulic plate overturning machine with stop rods
CN106241313A (en) * 2016-08-30 2016-12-21 滁州艾普机电科技有限公司 A kind of continuous overturning machine of large-scale refrigerator
CN107187843A (en) * 2017-07-01 2017-09-22 汕头市澄海区正益设备有限公司 Metal drum posture collator and metal drum posture method for sorting
CN107187843B (en) * 2017-07-01 2018-10-30 汕头市澄海区正益设备有限公司 Metal drum posture collator and metal drum posture method for sorting
CN107380992A (en) * 2017-08-15 2017-11-24 天津中辰自动化设备有限公司 A kind of packaging line turning device
CN109018943A (en) * 2018-09-01 2018-12-18 戴宗璋 The automation of betel nut is put and conveying equipment
CN110844520B (en) * 2019-12-18 2021-07-20 萨驰智能装备股份有限公司 Tire cylinder conveying device and method
CN110844520A (en) * 2019-12-18 2020-02-28 萨驰华辰机械(苏州)有限公司 Tire cylinder conveying device and method
CN112551105A (en) * 2020-12-24 2021-03-26 湖州众强肥料制造有限公司 Transformer overturning and forming device

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Granted publication date: 20150715

Termination date: 20170115