CN210618608U - Packing bag stacking device - Google Patents
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- CN210618608U CN210618608U CN201921119215.XU CN201921119215U CN210618608U CN 210618608 U CN210618608 U CN 210618608U CN 201921119215 U CN201921119215 U CN 201921119215U CN 210618608 U CN210618608 U CN 210618608U
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Abstract
The application relates to the technical field of packaging bag manufacturing, in particular to a packaging bag stacking device which comprises a tail end mounting rack, a stacking rotating roller arranged on the tail end mounting rack and a rotating roller driving device for driving the stacking rotating roller to rotate; the stacking rotating roller is provided with a bag clamping mechanism for clamping packaging bags, and a stacking circulating conveying belt is arranged below the stacking rotating roller; the bag clamping mechanism clamps one side edge of the packaging bag from the upper part, then turns over to the lower part along with the stacking rotating roller and loosens the packaging bag, so that the packaging bag is stacked on the stacking circulating conveying belt, and the stacked packaging bag is conveyed backwards by the stacking circulating conveying belt. The application provides a wrapping bag pile device adopts the mode of rotating upset pile, realizes the automatic rapid pile of wrapping bag, and degree of automation is high, and the wrapping bag after the pile is neat orderly.
Description
[ technical field ] A method for producing a semiconductor device
The application relates to the technical field of packaging bag manufacturing, in particular to a packaging bag stacking device.
[ background of the invention ]
The manufacturing process of the woven packaging bag comprises wire drawing, circular weaving, film covering, punching, printing, cutting, folding, sewing, packaging and the like, for example, fig. 7 is a schematic view of the packaging bag 100 after a cutting process, after the cutting, a cut mark 10, an inward folding part 20 and a folded angle part 30 are formed on the semi-finished product 100 of the packaging bag, the packaging bag is of a thin film structure with an upper layer and a lower layer, the inward folding part 20 comprises an upper inward folding part and a lower inward folding part, the inward folding of the semi-finished product 100 of the packaging bag along the cut marks 10 arranged at intervals is realized in the folding process, and the folded angle part 30 is folded inwards by 45 degrees to strengthen the bottom strength of the packaging bag after the sewing.
At present, the packing procedure before packing is generally carried out by manual work to collect and stack the packing bags, and then packing is carried out, so that the efficiency is low, and the packing is easy to stack irregularly.
[ summary of the invention ]
For solving above-mentioned technical problem, the aim at of this application provides wrapping bag pile device, wrapping bag pile device adopts the mode of rotating upset pile, realizes the automatic rapid pile of wrapping bag, and degree of automation is high, and the wrapping bag after the pile is neat orderly.
The application is realized by the following technical scheme:
the packaging bag stacking device comprises a tail end mounting rack, a stacking rotating roller arranged on the tail end mounting rack and a rotating roller driving device for driving the stacking rotating roller to rotate;
the stacking rotating roller is provided with a bag clamping mechanism for clamping packaging bags, and a stacking circulating conveying belt is arranged below the stacking rotating roller;
the bag clamping mechanism clamps one side edge of the packaging bag from the upper part, then turns over to the lower part along with the stacking rotating roller and loosens the packaging bag, so that the packaging bag is stacked on the stacking circulating conveying belt, and the stacked packaging bag is conveyed backwards by the stacking circulating conveying belt.
According to the packaging bag stacking device, the tail end mounting rack is provided with the packaging bag guide plate which is obliquely arranged, the lower end of the guide plate is provided with the clamping gap, and the bag clamping mechanism is located in the clamping gap.
According to the packaging bag stacking device, the tail end mounting rack is provided with the suspension rod positioned at the upper part of the packaging bag guiding and conveying plate, and the suspension rod is provided with the flat disc.
According to the packaging bag stacking device, the packaging bag guiding and conveying plate is provided with the sensing hole, and the photoelectric sensor which can detect the in-place of the packaging bag through the sensing hole is arranged below the sensing hole.
The packaging bag stacking device further comprises a buffer strip located above the packaging bag guide and delivery plate, one end of the buffer strip is fixed to the suspension rod, the other end of the buffer strip extends towards the bag clamping mechanism, and the distance between the buffer strip and the packaging bag guide and delivery plate gradually decreases along the extending direction.
According to the packaging bag stacking device, the stacking rotating roller is fixedly provided with the mounting disc on one side of the bag clamping mechanism, and the partial periphery of the mounting disc is an arc edge used for abutting against the packaging bag during overturning.
According to the packaging bag stacking device, one side of the mounting disc is provided with the leveling pressing block, and the leveling pressing block can be overturned to the lower part along with the stacking rotating roller and is pressed downwards.
According to the packaging bag stacking device, the bag clamping mechanism comprises a movable chuck, a fixed chuck and a clamping driving mechanism connected with the movable chuck, the movable chuck is hinged with the fixed chuck, so that the clamping driving mechanism drives the movable chuck to rotate and is clamped or opened relatively to the fixed chuck.
According to the packaging bag stacking device, the clamping driving mechanism comprises the linkage shaft, the cam, the poking and rotating sleeve, the poking and rotating block and the poking rod driving cylinder;
the movable chuck is fixed on the linkage shaft so that the linkage shaft drives the movable chuck to rotate, one end of the poking and rotating block is connected with the linkage shaft so as to drive the linkage shaft to rotate, the other end of the poking and rotating block is a free end, the cam is sleeved on the linkage shaft, a concave part and an arc part are arranged on the cam, a poking and rotating spring is further arranged at one end of the poking and rotating block connected with the linkage shaft so that the free end of the poking and rotating block clings to the concave part and the arc part when the cam rotates, one end of the poking and rotating sleeve is connected with the cam, and the other end of the poking and rotating sleeve is hinged with the telescopic end of the poking and;
the driving lever drives the cylinder to drive the dial sleeve to rotate, drives the cam to rotate, enables the free end of the dial block to swing when falling into the concave part under the action of the dial spring, drives the universal driving shaft to rotate, simultaneously drives the movable chuck to rotate so as to clamp the fixed chuck on the packaging bag, and then the stacking rotating roller drives the clamping of the packaging bag and the movable chuck and the fixed chuck are opened after rotating to the lower part.
The above-described packing bag stacking apparatus may further include a stacking endless conveyor for conveying the stacked packing bags backward by a distance of at least one width of the packing bag.
Compared with the prior art, the method has the following advantages:
1. the packaging bag stacking device adopts a rotating and overturning stacking mode, automatic and rapid stacking of the packaging bags is realized, the automation degree is high, and the stacked packaging bags are orderly.
2. When the wrapping bag was carried in the former process, through leveling the disc, under the arc limit direction of leveling the disc, along the oblique below entering wrapping bag guide plate, simple structure easily makes, levels the effectual of direction.
3. Through the buffering strip, can be with the wrapping bag restriction flatly on wrapping bag air guide plate in transportation process, prevent that the wrapping bag from shifting even falling out outside wrapping bag air guide plate under the effect of other external force such as wind.
[ description of the drawings ]
In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a schematic structural view of a package bag bottom sealing and stacking apparatus according to an embodiment of the present disclosure;
FIG. 2 is an enlarged view of portion A of FIG. 1;
FIG. 3 is an enlarged view of portion B of FIG. 1;
fig. 4 and 5 are schematic structural views of the packaging bag stacking device at two different angles according to the embodiment of the present application;
FIG. 6 is an enlarged view of section C of FIG. 4;
fig. 7 is a schematic view of a semi-finished packaging bag after the cutting process according to the embodiment of the present application.
[ detailed description ] embodiments
In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
As shown in fig. 1 to 6, the present application provides a bottom sealing and stacking apparatus for packaging bags, which includes a conveying device 1 for conveying packaging bags, and a pre-opening device 2, an opening device 3, a folding device 4, a folding device 5, a flattening device 6, a sewing device 7 and a packaging bag stacking device 8 are sequentially arranged along a conveying direction of the conveying device 1, and respectively correspond to a pre-opening process, an opening process, a folding process, a flattening process, a sewing process and a stacking process.
The conveying device 1 comprises a bag conveying belt 11 and a support frame 12 positioned above the bag conveying belt 11, wherein a front clutch pressure wheel set 121 and a front driving cylinder 122 are arranged at the front end of the support frame 12, the clutch pressure wheel 121 is hinged to the telescopic end of the front driving cylinder 122, so that the front driving cylinder 122 drives the front clutch pressure wheel set 121 to downwards press the upper surface of the bag conveying belt 11; the support frame 12 is further provided with a pressing column 123 vertically opposite to the bag conveying belt 11 and a pressing column cylinder 124 for driving the pressing column 123 to press downwards, and the lower end of the pressing column 123 is provided with a plurality of rolling rollers. Send bag conveyer belt 11 to be many belt synchronous conveyor belt that the interval set up side by side, the placing of other equipment can be convenient for in its interval department, adopt the mode of intermittent type start, in operation, will push down through separation and reunion pinch roller 121 on sending bag conveyer belt 11 with the wrapping bag, the wrapping bag tiling input is sent on the bag conveyer belt 11, when cooperation compression leg 123 cooperation sent the synchronous start-up of bag conveyer belt 11 to push down in step, the gyro wheel on the compression leg 123 compresses tightly the wrapping bag with sending bag conveyer belt 11 and carries out intermittent type formula transport to send the wrapping bag to each process in proper order and process. So that the conveying process of the packaging bags is orderly, smooth and controllable.
Because the packaging bag is composed of double-layer films, the upper layer and the lower layer are easy to adhere, the following edge folding process is influenced to be smoothly carried out, and the problem can be solved through the pre-opening device 2. The pre-opening device 2 comprises an upper pulling mechanism 21 and a lower pulling mechanism 22, the upper pulling mechanism 21 and the lower pulling mechanism 22 can be relatively close to or far away from each other, in this embodiment, the upper pulling mechanism 21 is close to or far away from the lower pulling mechanism 22, and the opposite surfaces of the upper pulling mechanism 21 and the lower pulling mechanism 22 can respectively move in opposite horizontal directions to open the opening of the packaging bag; specifically, the upper shifting mechanism 21 is an upper shifting roller, the lower shifting mechanism 22 is a lower shifting roller with the rotation direction opposite to that of the upper shifting roller, and rubber layers are covered on the surfaces of the upper shifting roller and the lower shifting roller. Of course, the upper stirring roller and the lower stirring roller can be respectively arranged in a plurality of rows. 2 departments of pre-opening device are equipped with the layer board that is used for the bearing wrapping bag, dial the cylinder protrusion in the upper surface of this layer board a little down, in operation, this layer board department is transported to the wrapping bag, upward dial cylinder downstream to supporting the upper surface of pressing the wrapping bag opening part, at this moment, dial the cylinder down and support the lower surface of pressing the wrapping bag opening part, trigger through devices such as pressure sensor or travel switch and dial the cylinder and dial next action of cylinder down on, move towards opposite direction respectively promptly, for example, it rotates clockwise to dial the cylinder on, dial cylinder anticlockwise rotation down, dial cylinder and wrapping bag upper surface on, dial cylinder and wrapping bag lower surface down under the effect of the friction force opposite respectively, can separate upper and lower two-layer in advance of wrapping bag bottom opening part, be convenient for going on smoothly of follow-up hem process.
The folding device 4 comprises an upper folding sheet 41 and a lower folding sheet 42 which can be opened or closed relatively, an opening and closing driving device 43 which drives the upper folding sheet 31 and the lower folding sheet 42 to be opened or closed relatively, and a pushing driving device 44 which drives the upper folding sheet 31 and the lower folding sheet 42 to move back and forth towards the conveying device 1. The opening and closing driving device 43 is an air cylinder with a telescopic end connected with the upper folding edge sheet 31, and the propelling device 44 is an air cylinder with a telescopic end connected with the opening and closing driving device 43 and the lower folding edge sheet 42.
During operation, under the effect of preceding process, the wrapping bag base is opened, and the last inflection portion of wrapping bag hangs down under the action of gravity, opening device 3 one side is equipped with the device of blowing, and the air-blower for example can upwards blow the upwarp with the lower inflection portion of wrapping bag, then go up hem piece 31 with lower hem piece 42 stretches into the in-process of open wrapping bag base, will go up the inflection portion and push into in the wrapping bag with lower inflection portion, accomplishes the hem process after reseing.
Specifically, the opening and closing driving device 43 drives the upper folding blade 31 and the lower folding blade 42 to be gradually opened during the movement toward the conveying device 1 and to be gradually closed during the retraction. The success rate of the edge folding process is high, and the edge folding process is more reliable and smooth.
More specifically, the upper folding piece 31 has a flat edge and oblique edges disposed on both sides of the flat edge, the oblique edges are in a horn shape gradually enlarged from the flat edge to the opening and closing driving device 43, and the lower folding piece 42 is identical to the upper folding piece 31 in shape. The opening aperture of the flat edge is smaller than that of the packaging bag, and the flat edge can more accurately stretch into the bottom edge of the packaging bag and stretch the bottom edge by matching with the horn-shaped upper folding piece structure and the horn-shaped lower folding piece structure.
The angle folding device 5 comprises an angle folding sheet 51 and an angle folding driving device 52, the angle folding driving device 52 drives the angle folding sheet 51 to move back and forth towards the conveying device 1, and the moving direction of the angle folding sheet 51 and the conveying direction of the conveying device 1 form a first preset included angle of 30-60 degrees, preferably 45 degrees. Specifically, the bevel driving device 52 is a cylinder with a telescopic end connected with the bevel sheet 51, and the bevel sheet 51 has a vertical top bag edge and a horizontal top bag edge that are perpendicular to each other. When the folding angle machine works, the bottom edge of the packaging bag is opened in the previous process, the folding angle piece 51 is pushed towards the folding angle part of the packaging bag to form a folding angle of 45 degrees, the folding angle is used for filling materials after sewing, and the strength of the filling position of the packaging bag can be enhanced through the folding angle process.
More specifically, the direction of movement of the upper and lower gussets 31 and 42 forms an angle of 60 ° to 120 °, preferably 90 °, with the direction of movement of the gusset 51. This technical scheme can make hem device 4 and dog-ear device 5 arrange more rationally, avoids causing the interference.
Flattening device 6 is located 5 backs of dog-ear device, flattening device 6 drives actuating cylinder 62 and back clutch pinch roller set 63 including flattening support frame 61, back, flattening support frame 61 erects conveyor 1 top, back drives actuating cylinder 62 and fixes on flattening support frame 61, back clutch pinch roller set 63 articulates drive actuating cylinder 62's flexible serving after, so that back drive actuating cylinder 62 drives back clutch pinch roller set 63 pushes down conveyor 1 upper surface. When the packaging bag folding and corner folding device works, the rear clutch pressing wheel set 63 moves downwards in the process that the packaging bag passes through the flattening device 6, the bottom edge of the packaging bag which passes through the folding and corner folding processes is flattened, and the processing of the subsequent processes is facilitated.
The pre-opening device 2, the opening device 3, the edge folding device 4, the angle folding device 5 and the flattening device 6 form packaging bag bottom edge folding equipment together. The bottom edge folding equipment for the packaging bag realizes the pre-opening process, the edge folding process, the corner folding process and the flattening process of the packaging bag through running-water type operation, the automation degree is high, and the processing quality and the efficiency of the packaging bag are stable and high.
The sewing device 7 comprises a hemming mechanism 71 and a sewing mechanism 72, the hemming mechanism 71 is gradually turned up along the conveying direction of the conveying device 1 to form a hemming groove, and the rear part of the hemming mechanism 71 is connected with a sewing part of the sewing mechanism 72. Specifically, the sewing mechanism 72 is an automatic sewing machine, and when the packaging bag passes through the sewing device 7, the bottom edge portion of the packaging bag is turned up along the hemming mechanism 71 and then turned down to form a turned-up edge, and then the sewing of the bottom edge of the packaging bag is completed through the sewing mechanism 72.
The packaging bag stacking device comprises a tail end mounting rack 80, a stacking rotating roller 81 arranged on the tail end mounting rack 80 and a rotating roller driving device for driving the stacking rotating roller 81 to rotate, wherein the rotating roller driving device is a driving motor; the stacking rotating roller 81 is provided with a bag clamping mechanism 82 for clamping packaging bags, and a stacking circulating conveying belt 83 is arranged below the stacking rotating roller 81.
During operation, wrapping bag transports to pile commentaries on classics roller 81 department from the process, press from both sides bag mechanism 82 from top centre gripping wrapping bag one side back, follow pile commentaries on classics roller 81 upset to the below and loosen the wrapping bag makes the wrapping bag stacks on the pile endless conveyor belt 83, and works as the wrapping bag stacks to predetermineeing quantity after, the wrapping bag that pile endless conveyor belt 83 will stack is carried backward. Specifically, the stacking endless belt 83 conveys the stacked packaging bags backward by a distance of at least one width of the packaging bag. To form a plurality of stacked packages for subsequent further packaging.
The packaging bag stacking device adopts a rotating and overturning stacking mode, automatic and rapid stacking of the packaging bags is realized, the automation degree is high, and the stacked packaging bags are orderly.
Correspondingly, the terminal installation rack 80 is provided with a packaging bag guide plate 801 obliquely arranged, the lower end of the guide plate 801 is provided with a clamping gap 8012, and the bag clamping mechanism 82 is located in the clamping gap 8012. By the guide conveyance of the packaging bag guide plate 801, the packaging bag can more accurately reach the clamping position of the bag clamping mechanism 82.
Preferably, the end mounting frame 80 is provided with a suspension rod 802 positioned on the upper portion of the packaging bag guiding plate 801, and the suspension rod 802 is provided with a flat disc 803. When the packaging bag is conveyed from the previous process, the packaging bag passes through the leveling disc 803, enters the packaging bag guide plate 801 obliquely below under the guidance of the arc-shaped edge of the leveling disc 803, and the packaging bag guide plate is simple in structure, easy to manufacture and good in leveling and guiding effects.
In this embodiment, the package bag guiding plate 801 is provided with a sensing hole 8011, and a photoelectric sensor capable of detecting the in-place state of the package bag through the sensing hole 8011 is arranged below the sensing hole 8011. When the information that the packaging bag is guided in place is detected, the information can be used for the hair-touching bag mechanism 82 and the stacking roller 81 to act to complete the stacking operation, and in addition, a counter can be arranged at the sensing hole for counting.
Wrapping bag pile device is still including being located the buffering strip 804 of wrapping bag deflector 801 top, buffering strip 804 one end is fixed on the hanging rod 802, the other end to press from both sides bag mechanism 82 and extend, and follow extending direction buffering strip 804 with distance between the wrapping bag deflector 801 diminishes gradually. Through buffering strip 804, can restrict the flatly spread on wrapping bag deflector 801 with the wrapping bag in transportation process, prevent that the wrapping bag from shifting even falling out of wrapping bag deflector 801 under the effect of other external force such as wind.
The stacking roller 81 is fixed with a mounting plate 811 on the side of the bag clamping mechanism 82, and part of the outer periphery of the mounting plate 811 is an arc edge for abutting against the packaging bag when turning over. The degree of deformation of the packing bag can be reduced.
Preferably, a leveling pressing block 8110 is arranged on one side of the mounting plate 811, and the leveling pressing block 8110 can be turned to the lower side along with the stacking rotating roller 81 and pressed downward. Specifically, the leveling pressing block 8110 is L-shaped, one end of which is used for being fixed on the mounting plate 811, and the other end of which is used for pressing the packaging bag during turning, so as to press and compact the stacked packaging bag.
In this embodiment, the bag clamping mechanism 82 includes a movable clamping head 821, a fixed clamping head 822, and a clamping driving mechanism 823 connected to the movable clamping head 821, where the movable clamping head 821 is hinged to the fixed clamping head 822, so that the clamping driving mechanism 823 drives the movable clamping head 821 to clamp or open relative to the fixed clamping head 822 when rotating.
Further, the clamping driving mechanism 823 comprises a linkage shaft 8231, a cam 8232, a toggle sleeve 8233, a toggle block 8234 and a toggle rod driving cylinder 8235; the movable chuck 821 is fixed on the linkage shaft 8231 so that the linkage shaft 8231 drives the movable chuck 821 to rotate, one end of a poking and rotating block 8234 is connected with the linkage shaft 8231 to drive the linkage shaft 8231 to rotate, the other end of the poking and rotating block 8234 is a free end, the cam 8232 is sleeved on the linkage shaft 8231, a concave portion 232a and an arc portion 232b are arranged on the cam 8232, a poking and rotating spring is further arranged at one end, connected with the linkage shaft 8231, of the poking and rotating block 8234, so that the free end of the poking and rotating block 8234 is tightly attached to the concave portion 232a and the arc portion 232b when the cam 8232 rotates, one end of a poking and rotating sleeve 8233 is connected with the cam 8232, and the other end of the poking and the telescopic end of the poking and rotating cylinder 8235 are hinged. The movable chuck 821 can be provided with a plurality of chucks, and linkage clamping is realized when the linkage shaft 8231 rotates.
The during operation, driving lever driving cylinder 8235 drives dial cover 8233 rotates, drives cam 8232 rotates, makes dial piece 8234's free end dial spring effect and fall into down take place the swing during concave part 232a, drive universal driving shaft 8231 rotates, drives simultaneously move chuck 821 rotate with decide chuck 822 clamp the wrapping bag, then pile commentaries on classics roller 81 drives the centre gripping the wrapping bag move chuck 821 with decide chuck 822 and rotate to the below after, dial piece 8234's free end is driven and is reset to circular arc portion 232b, thereby drive it is relative to move chuck 821 decide chuck 822 to open.
The clamping driving mechanism 823 is used for driving the movable clamping head 821 and the fixed clamping head 822 to clamp the packaging bag and realize overturning stacking, and is high in stacking efficiency and high in automation degree.
It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present application. Furthermore, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.
The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.
Claims (10)
1. The packaging bag stacking device is characterized by comprising a tail end mounting rack (80), a stacking rotating roller (81) arranged on the tail end mounting rack (80) and a rotating roller driving device for driving the stacking rotating roller (81) to rotate;
a bag clamping mechanism (82) for clamping the packaging bags is arranged on the stacking rotating roller (81), and a stacking circulating conveying belt (83) is arranged below the stacking rotating roller (81);
press from both sides bag mechanism (82) and follow behind top centre gripping wrapping bag one side pile roller (81) upset below and loosen the wrapping bag, make the wrapping bag stacks on pile endless conveyor belt (83), pile endless conveyor belt (83) are carried the wrapping bag that stacks backward.
2. The packaging bag stacking device according to claim 1, wherein the end mounting frame (80) is provided with a packaging bag guiding plate (801) which is obliquely arranged, a clamping notch (8012) is formed in the lower end of the guiding plate (801), and the bag clamping mechanism (82) is located in the clamping notch (8012).
3. The bag stacking apparatus according to claim 2, wherein the end mounting frame (80) is provided with a hanging bar (802) at an upper portion of the bag guide plate (801), and the hanging bar (802) is provided with a flat disc (803).
4. The packaging bag stacking device as claimed in claim 2, wherein a sensing hole (8011) is formed in the packaging bag guide plate (801), and a photoelectric sensor capable of detecting the in-place position of the packaging bag through the sensing hole (8011) is arranged below the sensing hole (8011).
5. The bag stacking apparatus according to claim 3, further comprising a buffer strip (804) located above the bag guide plate (801), wherein one end of the buffer strip (804) is fixed to the suspension rod (802), the other end of the buffer strip extends toward the bag clamping mechanism (82), and a distance between the buffer strip (804) and the bag guide plate (801) is gradually reduced along the extending direction.
6. The packaging bag stacking apparatus according to any one of claims 1 to 4, wherein a mounting plate (811) is fixed to the stacking roller (81) on the side of the bag clamping mechanism (82), and a part of the outer periphery of the mounting plate (811) is a curved edge for abutting against the packaging bag when turning.
7. The packaging bag stacking device according to claim 6, wherein a leveling press block (8110) is provided at one side of the mounting plate (811), and the leveling press block (8110) can be turned downward by the stacking roller (81) and pressed downward.
8. The packaging bag stacking device according to any one of claims 1 to 4, wherein the bag clamping mechanism (82) comprises a movable clamping head (821), a fixed clamping head (822) and a clamping driving mechanism (823) connected with the movable clamping head (821), and the movable clamping head (821) is hinged to the fixed clamping head (822) so that the clamping driving mechanism (823) drives the movable clamping head (821) to clamp or open relative to the fixed clamping head (822) when rotating.
9. The packaging bag stacking device according to claim 8, wherein the clamping driving mechanism (823) comprises a linkage shaft (8231), a cam (8232), a poking sleeve (8233), a poking block (8234) and a poking rod driving cylinder;
the movable chuck (821) is fixed on the linkage shaft (8231) so that the linkage shaft (8231) drives the movable chuck (821) to rotate, one end of the poking and rotating block (8234) is connected with the linkage shaft (8231) so as to drive the linkage shaft (8231) to rotate, the other end of the poking and rotating block (8234) is a free end, the cam (8232) is sleeved on the linkage shaft (8231), a concave portion (232a) and an arc portion (232b) are arranged on the cam (8232), a poking and rotating spring is further arranged at one end, connected with the linkage shaft (8231), of the poking and rotating block (8234) when the cam (8232) rotates, the free end of the poking and rotating block (8234) is tightly attached to the concave portion (232a) and the arc portion (232b), one end of the poking and rotating sleeve (8233) is connected with the cam (8232), and the other end of the poking and rotating end of the poking and telescopic end of the;
the driving lever drives the cylinder drive dial and changes cover (8233) and rotate, drive cam (8232) rotate, make it is in to dial the free end of changeing piece (8234) dial the spring action of changeing and fall into take place the swing when concave part (232a), drive universal driving shaft (8231) rotate, drive simultaneously move chuck (821) rotate with decide chuck (822) clamping the wrapping bag, then pile commentaries on classics roller (81) drive the centre gripping the wrapping bag move chuck (821) with decide chuck (822) and rotate and open after the below.
10. The bag stacking apparatus according to any one of claims 1 to 4, wherein the stacking endless conveyor (83) conveys the stacked bags backward by a distance of at least one bag width.
Priority Applications (1)
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CN201921119215.XU CN210618608U (en) | 2019-07-16 | 2019-07-16 | Packing bag stacking device |
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CN201921119215.XU CN210618608U (en) | 2019-07-16 | 2019-07-16 | Packing bag stacking device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116986100A (en) * | 2023-09-07 | 2023-11-03 | 常州市飞利达医用制品有限公司 | Automatic production conveying line for medical packaging bags |
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2019
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116986100A (en) * | 2023-09-07 | 2023-11-03 | 常州市飞利达医用制品有限公司 | Automatic production conveying line for medical packaging bags |
CN116986100B (en) * | 2023-09-07 | 2024-01-16 | 常州市飞利达医用制品有限公司 | Automatic production conveying line for medical packaging bags |
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