CN210100857U - Bubble removing device - Google Patents

Abstract

The utility model provides a bubble removing device, includes the board, its characterized in that: the multi-station rotary table is characterized by further comprising a multi-station rotary table, a second support frame arranged on the machine table, a pressing cylinder is arranged on a frame body of the second support frame, and a pressing plate is connected to an output shaft of the pressing cylinder. The utility model provides a pair of remove bubble device, through the quick carton that will wait to remove the bubble of multistation carousel transfer to from the carton make-up machine remove the bubble device in, reduce the lifespan of bubble, prevent that the binder on the facial tissue is dry, do not influence the bonding of removing bubble back hawk and facial tissue, make the shaping effect of carton better.

Description

Bubble removing device

Technical Field

The utility model relates to a carton processing technology field, concretely relates to remove bubble device.

Background

The paper box comprises a paper box body, a gift box and the like, the paper box body is formed in various modes, such as manual folding forming and mechanical folding forming, the mechanical folding forming mode is that after an ash plate and facial tissue are well bonded, the paper box body passes through a plurality of edge folding mechanisms from top to bottom to obtain the formed paper box, and in the paper box forming process, bubbles are formed between the ash plate and the facial tissue to affect the appearance and forming quality of the paper box, so that the bubbles of the paper box need to be removed. The existing bubble removing device is independently arranged and is separated from a paper box forming machine, a paper box to be subjected to bubble removal is transferred into the bubble removing device from the paper box forming machine, the required time is long, the adhesion of surface paper and an ash board is influenced, and the forming effect of the paper box is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention provides a defoaming device.

The utility model adopts the following technical scheme:

the utility model provides a bubble removing device, includes the board, its characterized in that: the multi-station rotary table is characterized by further comprising a multi-station rotary table, a second support frame arranged on the machine table, a pressing cylinder is arranged on a frame body of the second support frame, and a pressing plate is connected to an output shaft of the pressing cylinder.

Still including setting up the third mount on the board, setting up unipolar slip table and the horizontal cylinder of second on the third mount, the casing of the horizontal cylinder of second passes through slider sliding connection on unipolar slip table, be equipped with the second mould that supports the carton on the output shaft of the horizontal cylinder of second.

The shovel is characterized by further comprising a third support frame arranged on the machine platform and adjacent to the second support frame, a shovel edge cylinder and a shovel block are arranged on the third support frame, and an output shaft of the shovel edge cylinder is connected with the shovel block.

The utility model provides a pair of remove bubble device, through the quick carton that will wait to remove the bubble of multistation carousel transfer to from the carton make-up machine remove the bubble device in, reduce the lifespan of bubble, prevent that the binder on the facial tissue is dry, do not influence the bonding of removing bubble back hawk and facial tissue, make the shaping effect of carton better.

Drawings

FIG. 1 is a schematic structural view of a frame forming machine;

FIG. 2 is a schematic structural view of a pre-hemming mechanism;

FIG. 3 is a schematic structural view of a multi-station turntable and a top surface folding mechanism

FIG. 4 is a schematic structural view of a second positioning mechanism and a clamping mechanism;

FIG. 5 is a schematic view of the side folding mechanism;

FIG. 6 is a schematic structural view of the top surface folding mechanism;

FIG. 7 is a schematic view of the bubble removing device;

FIG. 8 is a schematic view of the structure of the eyelet nailing device;

FIG. 9 is a schematic structural view of a fifth fixing frame and its accessory parts;

fig. 10 is a partially enlarged view of fig. 9.

The figures are labeled as follows:

1. a machine platform; 2. a material taking device; 3. a multi-station turntable; 4. a surrounding frame edge folding device; 5. a bubble removal device; 6. a corn nail beating device; 7. semi-forming a paper box; 21. a pre-flanging mechanism; 211. a fourth support frame; 212. a first platen; 213. a second platen; 214. a fourth horizontal cylinder; 215. a fifth vertical cylinder; 216. a sixth vertical cylinder; 31. a first mold; 32. a telescopic claw; 33. a second positioning mechanism; 34. a chucking mechanism; 331. a moving block; 332. a fixing bolt; 333. an adjusting handle; 334. a spring; 341. a fourth fixing frame; 342. a baffle plate; 343. a brake cable; 344. a third horizontal cylinder; 41. a side edge folding mechanism; 42. a top surface edge folding mechanism; 43. a lifting platform; 411. a first fixing frame; 412. a first horizontal cylinder; 413. a first support frame; 414. a movable frame; 415. an L-shaped block; 416. a hemming plate; 421. a second fixing frame; 422. a conveyor belt; 423. a first vertical cylinder; 424. a drum; 425. a flanging block; 426. a stepping motor; 427. fine adjustment of the cylinder; 51. a third fixing frame; 52. a second support frame; 53. a single-shaft sliding table; 54. a second horizontal cylinder; 55. a third support frame; 56. a second mold; 57. a pressing cylinder; 58. a shovel edge cylinder; 59. shoveling blocks; 61. a fifth fixing frame; 62. a third vertical cylinder; 63. a fourth vertical cylinder; 64. a fixing plate; 65. a slideway; 66. a vibrating pan; 67. a first rocker; 68. a second rocker; 69. a first top pillar; 60. a second top pillar; 641. a strip-shaped hole; 642. a card slot; A. the face paper extends out of the first die.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments thereof.

As shown in fig. 1, an enclosing frame forming machine comprises a machine table 1, a conveying device 2, a multi-station turntable 3, a defoaming device 5, a corn nailing device 6 for firmly connecting an ash plate and facial tissue and an enclosing frame folding device 4 for folding and forming the ash plate and the facial tissue, wherein the enclosing frame folding device 4 comprises a first lifting table 43, side folding mechanisms 41 symmetrically arranged on the left side and the right side of the lifting table 43 and a top folding mechanism 42 connected to the multi-station turntable, and each station on the multi-station turntable 3 is provided with a first die 31 for supporting a paper box. The multi-station turntable 3 is provided with four stations, and the flanging station (corresponding to the frame flanging device 4), the defoaming station (corresponding to the defoaming device 5), the eyelet nailing station (corresponding to the eyelet nailing device 6) and the blanking station are respectively arranged along the anticlockwise direction. Through setting up side hem mechanism 41 and top surface hem mechanism 42 around the hem station, with the side folding forming of hawk and facial tissue, extrude the bubble between facial tissue and the hawk through bubble removal device 5, make the carton more pleasing to the eye, fixed hawk and facial tissue of rethread corn beating nail device 6 make the carton more firm. In the process of folding and forming the facial tissue and the gray board, the facial tissue and the gray board are fixed on the first die 31 and fixed, and the side surface folding mechanism 41 and the top surface folding mechanism 42 fold and form the facial tissue and the gray board around the first die 31.

The initial state of the gray board and the facial tissue is as follows: place the hawk on the rectangular shape facial tissue of coating glue, the hawk is also rectangular shape, and the length and the width of hawk all are less than the facial tissue, and hawk one end, and the length and width all aligns with the facial tissue tip, the utility model discloses a purpose is exactly to enclose the frame with the hawk to enclose frame package facial tissue.

As shown in fig. 1 and 2, the conveying device 2 is an air suction assembly line, and a paper box pre-flanging mechanism 21 and a first positioning mechanism for positioning the facial tissue and the gray board are arranged on the air suction assembly line.

For better realization, the utility model discloses can be earlier with the long limit of facial tissue slightly upwards jack-up, carry out hem in advance. The air suction assembly line conveys the surface paper and the gray board to the position right below the pre-edge folding mechanism 21, and the gray board and the surface paper are fixed at proper positions through the first positioning mechanism. The first positioning mechanism comprises an air cylinder and a push plate, the push plate is arranged at the end part of an output shaft of the air cylinder, the air cylinder acts, and the ash plate and the facial tissue are fixed at proper positions through the push plate.

As shown in fig. 2, the pre-hemming mechanism 21 is disposed on the conveying device 2, and includes a fourth supporting frame 211 disposed on the air suction assembly line, the fourth supporting frame 211 is disposed with a first pressing plate 212 and a second pressing plate 213 capable of moving up and down, the first pressing plate 212 and the second pressing plate 213 are two independent parts, and are controlled by using dotted lines as a boundary, the first pressing plate 212 is disposed on the left side of the dotted line in fig. 2, the fourth supporting frame 211 is disposed with a fourth horizontal cylinder 214 and a fifth vertical cylinder 215, output shafts of the fourth horizontal cylinder 241 and the fifth vertical cylinder 215 are connected to the first pressing plate 212, so that the first pressing plate 212 can move left and right under the driving of the fourth horizontal cylinder 214, and can move up and down under the driving of the fifth vertical cylinder 215. On the right side of the dotted line in fig. 2, a sixth vertical cylinder 216 is provided on the fourth supporting frame 211, and an output shaft of the sixth vertical cylinder 216 is connected to the second presser plate 213 through a link (the link is not shown in fig. 2). The action process of the pre-hemming mechanism 21 is as follows: the ash plate and the surface paper are conveyed to the position right below the pre-flanging mechanism 21, the sixth vertical cylinder 216 drives the second pressing plate 213 to descend, the ash plate and the surface paper on the right side are compressed tightly, the output shaft of the fourth horizontal cylinder 214 extends to drive the first pressing plate 212 to move towards the second pressing plate 213, the first pressing plate 212 is located below the ash plate and the surface paper at the moment, the fifth vertical cylinder 215 drives the first pressing plate 212 to move upwards and contact with the second pressing plate 213, the surface paper is bent upwards along the ash plate by a small amplitude, the pre-flanging process of the ash plate and the surface paper is completed, and the forming of a subsequent process paper box is facilitated.

After passing through the pre-hemming mechanism 21, the facial tissue and the gray board are conveyed to the multi-station turntable 3 together by the conveying device 2. As shown in fig. 3, the multi-station rotary table 3 includes a central fixed table and peripheral rotary tables to which the face paper and the gray board are fed. The fixed disc and the rotating disc are concentric, and the rotating disc is driven by the motor to rotate. Set up a plurality of first moulds 31 on the multistation carousel 3, the quantity of first mould is the same with the station number, like this, can carry out the work of enclosing the frame of a plurality of box bodys simultaneously.

The first mold 31 can freely extend and retract at each station, and the freely extending and retracting mode is as follows: a station cylinder and a first die 31 are arranged at each station, a telescopic claw 32 matched with the first die 31 is fixedly connected to an output shaft of the station cylinder, and a second positioning mechanism 33 and a telescopic clamping mechanism 34 for clamping the side edge of the paper box are arranged on each first die 31. The first mold 31 is a three-dimensional square with the same shape as the inner part of the box body, and the grey board paper surrounds a rectangular frame along the outer surface of the first mold. The number of the second positioning mechanisms 33 and the number of the clamping mechanisms 34 are two, the second positioning mechanisms 33 are installed on one side of the first die 31, the clamping mechanisms 34 are installed on the other side of the first die 31, when the telescopic claws 32 extend out, the two side edges of the half-formed paper box 7 are pushed, the half-formed paper box 7 is separated from the first die 31 and moves to the next process, and the second fixing mechanisms 33 and the clamping mechanisms 34 are used for fixing the surface paper and the gray board or the half-formed paper box 7, so that the accuracy in the surface paper and gray board processing is guaranteed.

As shown in fig. 4, the second positioning mechanism 33 includes a moving block 331, a fixing bolt 332, an adjusting handle 333 and a spring 334, the fixing bolt 332 penetrates through the moving block 331 and is connected to one side of the first mold 31, the adjusting handle 333 is connected to the center of the moving block 331, the spring 334 is sleeved on the adjusting handle 333, one end of the spring abuts against the moving block 331, and the other end of the spring abuts against the end of the adjusting handle 333. The moving block 331 in the second positioning mechanism 33 can move along the axial direction of the fixing bolt, so that the distance between the moving block and the first die is adjusted, and the movable block is suitable for the surface paper and the gray board with different widths. The wide surface paper gray board firstly loosens the fixed bolt 332, screws the adjusting handle 333, compresses the spring 334, increases the distance, moves the moving block 331 outwards along the fixed bolt 332, increases the distance between the moving block 331 and the second die 56, and finally fixes the position by using the fixed bolt 332; the fixing bolt 332 is firstly loosened, the adjusting handle 333 is loosened, the spring 334 extends, the distance is shortened, the moving block 331 is pushed to move towards the first die 31 along the fixing bolt 332, the distance between the moving block 331 and the first die 31 is reduced, and finally the fixing bolt 332 is used for fixing the position of the paper ash board with small width.

As shown in fig. 4, the chucking mechanism 34 includes a fourth holder 341, a stopper 342, a gate line 343, and a third horizontal cylinder 344, a housing of the third horizontal cylinder 344 is fixed to the bottom of the first mold 31, one end of the gate line 343 is connected to the stopper 342, the other end is connected to an output shaft of the third horizontal cylinder 344, and the stopper 342 is slidably disposed in a groove of the fourth holder 341. The output shaft of the third horizontal cylinder 344 is extended (outward in the figure), and the brake wire 343 is tightened to drive the baffle 342 to slide downwards from the fourth fixing frame 341, so that the height of the baffle 342 is lower than that of the first mold 31, and the clamping mechanism 34 does not generate obstruction when the ash plate and the facial tissue are separated from or placed on the first mold 31. The output shaft of the third horizontal cylinder 344 retracts (inward in the figure), the gate wire 343 pushes the baffle 342 to slide upwards from the fourth fixing frame 341 under the action of its own elasticity, so that the height of the baffle 342 is higher than that of the first die 31, and the clamping mechanism is placed on the first die 31 to prevent the ash plate and the facial tissue or the semi-formed paper box 7 from being separated.

After entering the multi-station turntable 3, the tissue ash plate firstly enters a side edge folding station, and the side edge folding station comprises a lifting table 43 arranged in the middle and side edge folding mechanisms 41 symmetrically arranged on two sides of the lifting table 43.

As shown in fig. 5, the side folding mechanism 41 includes a first fixing frame 411, a first horizontal cylinder 412 and a first supporting frame 413 fixedly connected to the first fixing frame 411, a moving frame 414 slidably connected to a guide rail of the first fixing frame 411, and an L-shaped block 415 having two ends respectively hinged to the moving frame 414 and the first supporting frame 413. The output shaft of the first horizontal cylinder 412 is connected to the moving frame 414, and since the first supporting frame 413 is fixed, the distance between the moving frame 414 and the first supporting frame 413 is adjusted, so that the L-shaped block 415 can rotate. And a folding plate 416 is arranged on the side edge of the L-shaped block 415 hinged on the first support frame and used for folding the ash plate. When the ash plate and the facial tissue rotate the flanging station, the lifting platform 43 rises to abut against the lower bottom surfaces of the ash plate and the facial tissue, the ash plate and the facial tissue are clamped together with the first die 31 and fixed, the output shaft of the first horizontal cylinder 412 retracts to drive the movable frame 414 to be far away from the first support frame, further the L-shaped blocks 415 hinged on the movable frame 414 and the first support frame 413 rotate around respective hinge points, the flanging plates 416 are driven to rotate vertical positions from horizontal positions, the ash plate and the facial tissue are bent along two vertical edges of the first die 31, and the side edge forming of the paper box is completed. The conveying device 2 is provided with a hole which is larger than the folding plate 416 in shape, and when the folding plate 416 is in a horizontal position, the folding plate 416 is positioned in the hole and is slightly lower than the upper surface of the hole. The side folding mechanism 41 folds the gray board surface paper on the two sides upwards.

As shown in fig. 6, the top folding mechanism 42 is fixed on the fixed disk in the middle of the multi-station turntable 3 and does not rotate with the multi-station turntable 3. The top surface folding mechanism 42 comprises a second fixing frame 421 connected to a fixing disc in the multi-station rotating disc 3, and a conveyor belt 422 arranged on the second fixing frame 421 and forming an acute angle with the second fixing frame 421, wherein a folding block 425 is connected to the conveyor belt 422, and the conveyor belt 422 is powered by a stepping motor 426. Taking the direction as an example, the conveyor belt 422 drives the folding block 425 to move obliquely downward to bend the gray board and the facial tissue along the top surface of the first mold 31, thereby completing the enclosing of the gray board. Meanwhile, the step further comprises a mechanism for folding the width-direction facial tissue, the mechanism comprises a first vertical cylinder 423 arranged on the second fixing frame 421 and a roller 424 connected with an output shaft of the first vertical cylinder 423, and the first vertical cylinder 423 is positioned at the tail end of the conveyor belt 422, namely, behind the enclosing frame, above the width-direction redundant facial tissue. The first vertical cylinder 423 drives the roller 424 to move downwards, so that the facial tissue extends out of the part a of the first die 31, and is bent and formed along the left side edge of the first die 31, and the process of forming the top surface of the carton is completed. A trimming cylinder 427 may be added between the roller 424 and the first vertical cylinder 423 to adjust the lateral position of the roller 424.

The surface paper of the ash board after the enclosing frame is conveyed to a defoaming station along with the multi-station turntable 3. As shown in fig. 7, the bubble removing device 5 includes a third fixing frame 51 and a second supporting frame 52 which are arranged on the machine table 1, and a third supporting frame 55 which is arranged on the machine table 1 and adjacent to the second supporting frame 52, wherein a single-shaft sliding table 53 is fixed on the third fixing frame 51, a housing of the second horizontal cylinder 54 is arranged on the single-shaft sliding table 53 in a sliding manner through a slider, a driving mechanism is arranged on the single-shaft sliding table 53 to drive the second horizontal cylinder 54 to move integrally, a second die 56 for supporting a paper box is arranged on an output shaft of the second horizontal cylinder 54, a pressing cylinder 57 is arranged on a frame body of the second supporting frame 52, and an output shaft of the pressing cylinder 57 is connected with a. A shovel edge cylinder 58 is arranged on the third supporting frame 55, and an output shaft of the shovel edge cylinder 58 is connected with a shovel block 59. The process of this station is as follows: the grey board facial tissue behind the enclosing frame is transported to this station along with multistation carousel 3, and at this moment, half-formed carton 7 is still on first mould 31, and shovel limit cylinder 58 that is located on third support frame 55 drives shovel piece 59 and removes to half-formed carton 7, and the facial tissue that stretches out first mould 31 with half-formed carton 7 is inwards bent, and after bending, shovel piece 59 leaves half-formed carton 7 under the drive of shovel limit cylinder 58. Then, the driving mechanism is operated to move the second horizontal cylinder 54 to the left, the front end of the second horizontal cylinder 54 carries the second die 56 (at this time, the output shaft of the second horizontal cylinder 54 does not extend), and after passing through the second supporting frame 52, the second horizontal cylinder 54 moves to a position abutting against the half-formed carton 7, at this time, the telescopic claw on the multi-station turntable 3 extends, and the half-formed carton 7 is transferred to the second die 56. Then, the driving mechanism acts to drive the second horizontal cylinder 54 to move right on the single-shaft sliding table 53 integrally, so as to drive the second die 56 and the half-formed paper box 7 positioned on the second die 56 to return to the second support frame 52, and the pressing cylinder 57 positioned on the second support frame 52 drives the pressing plate to extrude the half-formed paper box 7, so as to extrude air bubbles between the gray plate and the facial tissue, so that the gray plate and the facial tissue are bonded more firmly, and the appearance is more attractive. After the bubbles are removed, the driving mechanism moves again to drive the second horizontal cylinder 54 to move to the left integrally to the multi-station turntable, the output shaft of the second horizontal cylinder 54 extends out, and the semi-formed paper box 7 is pushed onto the first die 31 of the multi-station turntable 3.

As shown in fig. 8-10, the eyelet nailing device 6 includes a fifth fixing frame 61, a third vertical cylinder 62 disposed on the upper portion of the fifth fixing frame 61, a fourth vertical cylinder 63 disposed on the lower portion of the fifth fixing frame 61, and a fixing plate 64 disposed in the middle portion of the fifth fixing frame 61 and used for placing eyelet nails, wherein the fixing plate 64 is connected to a vibration tray 66 used for placing eyelet nails through a slideway 65, the fixing plate 64 is provided with a strip-shaped hole 641 used for placing eyelet nails and a clamping groove 642 on the upper side of the fixed paper box, and the eyelet nails in the vibration tray 66 enter the strip-shaped hole 641 along the slideway 65. Moreover, the fifth fixing frame 61 is further hinged with a first rocker 67 and a second rocker 68, one end of the first rocker 67 is hinged with a first jacking column 69, the other end of the first rocker is hinged with an output shaft of the third vertical cylinder 62, one end of the second rocker 68 is hinged with a second jacking column 60, the other end of the second rocker is hinged with an output shaft of the fourth vertical cylinder 63, and the first jacking column 69 and the second jacking column 60 are coaxial. The process of making the corn nail is as follows: remove half-formed carton 7 after the bubble and rotate to beating corn nail station under the effect of multistation carousel 3, flexible claw stretches out, puts half-formed carton 7 into draw-in groove 642, and simultaneously, the corn nail in the vibration dish 66 gets into bar hole 641 along slide 65, and at this moment, the corn nail just in time is located the position that needs the nailing on half-formed carton 7, then begins to beat corn nail. Under the control of the controller, the fourth vertical cylinder 63 retracts to drive one end, connected with the second top pillar 60, of the second warping plate 68 to rotate upwards along a hinge point, the second top pillar 60 jacks up eyelet nails to be placed into eyelet nail holes in the semi-formed paper box 7, the third vertical cylinder 62 retracts to drive one end, connected with the first top pillar 69, of the first warping plate 67 to rotate downwards along the hinge point, the eyelet nails are placed into the eyelet nail holes in the semi-formed paper box 7 through the first top pillar 69, and then the paper box with the eyelet nails is fed to the next working procedure under the action of the multi-station turntable 3.

In the invention, all the cylinders are connected with the controller.

While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the general inventive concept, and it is intended to cover all such changes and modifications as fall within the true spirit and scope of the invention.

Claims (2)

1. The utility model provides a bubble removing device, includes the board, its characterized in that: the multi-station rotary table is characterized by further comprising a multi-station rotary table, a second support frame arranged on the table, and a third support frame arranged on the table and adjacent to the second support frame, wherein a compression cylinder is arranged on a frame body of the second support frame, a pressing plate is connected to an output shaft of the compression cylinder, a shovel edge cylinder and a shovel block are arranged on the third support frame, and an output shaft of the shovel edge cylinder is connected with the shovel block.

2. The bubble removal device of claim 1, wherein: still including setting up the third mount on the board, setting up unipolar slip table and the horizontal cylinder of second on the third mount, the casing of the horizontal cylinder of second passes through slider sliding connection on unipolar slip table, be equipped with the second mould that supports the carton on the output shaft of the horizontal cylinder of second.

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