CN105058856A - Machine for manufacturing two-piece box through splicing and bonding - Google Patents

Abstract

The invention discloses a machine for manufacturing two-piece box through splicing and bonding. The machine for manufacturing two-piece box through splicing and bonding comprises a machine frame, a paper feeding assembly, a transmission assembly, a paper pressing assembly, a first glue spraying assembly, a splicing assembly, a first press-fitting assembly, a positioning assembly, a paper conveying assembly, a second glue spraying assembly, a beat-flat assembly, a second press-fitting assembly and a folding assembly. The machine for manufacturing two-piece box through splicing and bonding is simple in structure, can carry out bonding formation on two paper boards, and is applicable to formation of paper boards of different specifications. The universality of the equipment is greatly increased, and multi-aspect requirements of users are met.

Description

A kind of biplate connects paste punch-out equipment

Technical field

The present invention relates to a kind of paste case apparatus, particularly relate to a kind of biplate and connect paste punch-out equipment.

Background technology

At present, along with industrial expansion, the demand of paper packaging box also increases day by day, and the demand manufacturing paper packaging box also increases day by day, and traditional paste producing punch-out equipment can only be processed a single piece of cardboard, cannot carry out splicing be processed into carton to two blocks of cardboards.In view of above-mentioned defect, be necessary that designing a kind of biplate connects paste punch-out equipment in fact.

Summary of the invention

Technical problem to be solved by this invention is: provide a kind of biplate to connect paste punch-out equipment, and solving tradition paste punch-out equipment can not splice to two pieces of corrugated papers the problem being processed into carton.

For solving the problems of the technologies described above, technical scheme of the present invention is: a kind of biplate connects paste punch-out equipment, comprise frame, also comprise paper feeding assembly, transmission component, platen assembly, first glue spraying assembly, splicing component, first pressing assembly, positioning component, transfer assembly, second glue spraying assembly, clap homogeneous component, second pressing assembly, hatch arrangement, upper end on the right side of described paper feeding assembly frame, described paper feeding assembly is connected with housing slide, described transmission component is positioned in the middle part of frame inner wall, described transmission component is connected with housing slide, described platen assembly is positioned at directly over transmission component, described platen assembly is connected with housing slide, the first described glue spraying assembly is positioned at upper end on the right side of frame outer wall, the first described glue spraying assembly is connected with housing slide, described splicing component is positioned in the middle part of frame inner wall, described splicing component is connected with frame screw thread, the first described pressing assembly is positioned at upper end in the middle part of frame outer wall, the first described pressing assembly is connected with frame screw thread, described positioning component is positioned at frame inner wall center, described positioning component is connected with frame screw thread, described transfer assembly is positioned at positioning component right-hand member, described transfer assembly is connected with gantry rotation, the second described glue spraying assembly is positioned at lower end on the left of frame outer wall, the second described glue spraying assembly is connected with housing slide, described bat homogeneous component is positioned at frame Left-side center place, described bat homogeneous component is connected with frame screw thread, the second described pressing assembly is positioned at upper end on the left of frame, the second described pressing assembly is connected with frame screw thread, described hatch arrangement is positioned on the left of frame, described hatch arrangement is connected with frame screw thread.

Further, described transmission component also comprises the first motor, power transmission shaft, belt wheel, first riser, belt, first servomotor, first leading screw, semi-nut mechanism, the first described motor is positioned at frame outer wall, the first described motor is connected with frame screw thread, described power transmission shaft is positioned on the left of the first motor, described power transmission shaft is connected with the first motor close-fitting, described belt wheel runs through power transmission shaft, described belt wheel is connected with propeller shaft slip, the first described riser is positioned on the right side of belt wheel, the first described riser and belt wheel are rotatedly connected, the first described servomotor is positioned on the right side of frame outer wall, the first described servomotor is connected with frame screw thread, the first described leading screw to be positioned on the left of the first servomotor and to run through the first riser, the first described leading screw is connected with the first servomotor close-fitting, described semi-nut mechanism is positioned at first left and right sides, riser lower end and runs through the first leading screw, described semi-nut mechanism is connected with the first riser screw thread.

Further, the first described riser is also provided with the first lead, and the first described lead runs through the first riser, and the first described lead and the first riser slide and be connected and be connected with frame screw thread.

Further, described platen assembly also comprises the second servomotor, second leading screw, second lead, second riser, depression bar, the second described servomotor is positioned at frame outer wall, the second described servomotor is connected with frame screw thread, the second described leading screw is positioned on the left of the second servomotor, the second described leading screw is connected with the second servomotor close-fitting, the second described lead is positioned at frame inner wall, the second described lead is connected with frame screw thread, described riser runs through the second lead and runs through the second leading screw, described riser slides with the second lead and is connected, described depression bar is positioned at lower end on the left of the second riser, described depression bar is connected with the second riser screw thread.

Further, the second described riser is also provided with semi-nut mechanism, and described right semi-nut mechanism runs through leading screw, and described semi-nut mechanism is connected with the second riser screw thread.

Further, described pressing plate lower end is also provided with connecting rod, and described connecting rod is connected with press plate rotary.

Further, described connecting rod lower end is also provided with pinch roller, and described pinch roller and connecting rod are rotatedly connected.

Further, described semi-nut mechanism is used for engaging with the first leading screw or the second leading screw or disconnecting engaging.

Compared with prior art, this biplate connects paste punch-out equipment, during work, two panels cardboard is by paper feeding assembly continuous paper-feeding, cardboard is mobile by transmission component walking, cardboard is pressed on the belt of transmission component by platen assembly, cardboard glue spraying assembly in moving process carries out glue spraying to cardboard glue spraying position, undertaken spacing by positioning component during the cardboard spraying glue moved, through splicing component, the two panels cardboard having sprayed glue is spliced again, pipe sensitive adhesion is carried out at the splicing position of the first pressing assembly to cardboard, cardboard after pressing is by carrying out glue spraying through glue spraying assembly to cardboard glue spraying position again after the walking of transfer assembly, the cardboard of secondary glue spraying is mobile by transmission component walking again, secondary is carried out spacing by positioning component, clap homogeneous component cardboard position is adjusted, adjust rear hatch arrangement cardboard is carried out turning down to make the mutual secondary splicing of the position of cardboard secondary glue spraying, pipe sensitive adhesion is carried out again through the splicing position of the second pressing assembly to cardboard, the carton that pressing is good flows out through transfer assembly, two panels cardboard is made to be shaped to a carton, by programme-control first motor movement, the first motor is made to drive belt to rotate by belt wheel, thus drive cardboard to do rectilinear motion forward along belt, when needing the relative position changing transmission component, programme-control semi-nut mechanism engages with the first leading screw, programme-control subsequently first servomotor rotates, first servo drives the first riser to do linear slide on the first lead by the first leading screw, thus change traditional components relative position, complete the transmission of different size cardboard, when needs change platen assembly relative position, the semi-nut mechanism that programme-control is positioned on the second riser engages with the second leading screw, after having engaged, programme-control second servomotor rotates, second servo drives the second riser to do linear slide on the second lead by the second leading screw, thus change platen assembly relative position, be arranged on the pinch roller on connecting rod, due to the gravity of connecting rod and pinch roller, cardboard is made to be positioned at belt surface all the time, and can rotate with belt.This apparatus structure is simple, can carry out bonding forming to two panels cardboard, and uses with the cardboard of different size shaping, greatly increases the versatility of equipment, meets the needs that user is multi-faceted.

Accompanying drawing explanation

Fig. 1 illustrates axonometric drawing of the present invention

Fig. 2 illustrates axonometric drawing partial view of the present invention

Fig. 3 illustrates transmission component side view of the present invention

Fig. 4 illustrates platen components side view of the present invention

Frame 1 paper feeding assembly 2

Transmission component 3 platen assembly 4

First glue spraying assembly 5 splicing component 6

First pressing assembly 7 positioning component 8

Transfer assembly 9 second glue spraying assembly 10

Clap homogeneous component 11 second pressing assembly 12

Hatch arrangement 13 first motor 301

Power transmission shaft 302 belt wheel 303

First riser 304 belt 305

First servomotor 306 first leading screw 307

Semi-nut mechanism 308 first lead 309

Second servomotor 401 second leading screw 402

Second lead 403 second riser 404

Depression bar 405 connecting rod 406

Pinch roller 407

Detailed description of the invention

As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4, a kind of biplate connects paste punch-out equipment, comprise frame 1, also comprise paper feeding assembly 2, transmission component 3, platen assembly 4, first glue spraying assembly 5, splicing component 6, first pressing assembly 7, positioning component 8, transfer assembly 9, second glue spraying assembly 10, clap homogeneous component 11, second pressing assembly 12, hatch arrangement 13, upper end on the right side of described paper feeding assembly 2 frame 1, described paper feeding assembly 2 slides with frame 1 and is connected, described transmission component 3 is positioned in the middle part of frame 1 inwall, described transmission component 3 slides with frame 1 and is connected, described platen assembly 4 is positioned at directly over transmission component 3, described platen assembly 4 slides with frame 1 and is connected, the first described glue spraying assembly 5 is positioned at upper end on the right side of frame 1 outer wall, the first described glue spraying assembly 5 slides with frame 1 and is connected, described splicing component 6 is positioned in the middle part of frame 1 inwall, described splicing component 6 is connected with frame 1 screw thread, the first described pressing assembly 7 is positioned at upper end in the middle part of frame 1 outer wall, the first described pressing assembly 7 is connected with frame 1 screw thread, described positioning component 8 is positioned at frame 1 inwall center, described positioning component 8 is connected with frame 1 screw thread, described transfer assembly 9 is positioned at positioning component 8 right-hand member, described transfer assembly 9 is rotatedly connected with frame 1, the second described glue spraying assembly 10 is positioned at lower end on the left of frame 1 outer wall, the second described glue spraying assembly 10 slides with frame 1 and is connected, described bat homogeneous component 11 is positioned at frame 1 Left-side center place, described bat homogeneous component 11 is connected with frame 1 screw thread, the second described pressing assembly 12 is positioned at upper end on the left of frame 1, the second described pressing assembly 12 is connected with frame 1 screw thread, described hatch arrangement 13 is positioned on the left of frame 1, described hatch arrangement 13 is connected with frame 1 screw thread, described transmission component 3 also comprises the first motor 301, power transmission shaft 302, belt wheel 303, first riser 304, belt 305, first servomotor 306, first leading screw 307, semi-nut mechanism 308, the first described motor 301 is positioned at frame 1 outer wall, the first described motor 301 is connected with frame 1 screw thread, described power transmission shaft 302 is positioned on the left of the first motor 301, described power transmission shaft 302 is connected with the first motor 301 close-fitting, described belt wheel 303 runs through power transmission shaft 302, described belt wheel 303 slides with power transmission shaft 302 and is connected, the first described riser 304 is positioned on the right side of belt wheel 303, the first described riser 304 is rotatedly connected with belt wheel 303, the first described servomotor 306 is positioned on the right side of frame 1 outer wall, the first described servomotor 306 is connected with frame 1 screw thread, the first described leading screw 307 to be positioned on the left of the first servomotor 306 and to run through the first riser 304, the first described leading screw 307 is connected with the first servomotor 306 close-fitting, described semi-nut mechanism 308 is positioned at first left and right sides, riser 304 lower end and runs through the first leading screw 307, described semi-nut mechanism 308 is connected with the first riser 304 screw thread, the first described riser 304 is also provided with the first lead 309, the first described lead 309 runs through the first riser 304, the first described lead 309 slides with the first riser 304 and is connected and is connected with frame 1 screw thread, described platen assembly 4 also comprises the second servomotor 401, second leading screw 402, second lead 403, second riser 404, depression bar 405, the second described servomotor 401 is positioned at frame 1 outer wall, the second described servomotor 401 is connected with frame 1 screw thread, the second described leading screw 402 is positioned on the left of the second servomotor 401, the second described leading screw 402 is connected with the second servomotor 401 close-fitting, the second described lead 403 is positioned at frame 1 inwall, the second described lead 403 is connected with frame 1 screw thread, described riser runs through the second lead 403 and runs through the second leading screw 402, described riser slides with the second lead 403 and is connected, described depression bar 405 is positioned at lower end on the left of the second riser 404, described depression bar 405 is connected with the second riser 404 screw thread, the second described riser 404 is also provided with semi-nut mechanism 308, described right semi-nut mechanism 308 runs through leading screw, described semi-nut mechanism 308 is connected with the second riser 404 screw thread, described pressing plate lower end is also provided with connecting rod 406, described connecting rod 406 is connected with press plate rotary, described connecting rod 406 lower end is also provided with pinch roller 407, described pinch roller 407 is rotatedly connected with connecting rod 406, described semi-nut mechanism 308 is for engaging with the first leading screw 307 or the second leading screw 402 or disconnect engagement.

Compared with prior art, this biplate connects paste punch-out equipment, during work, two panels cardboard is by paper feeding assembly 2 continuous paper-feeding, cardboard is walked mobile by transmission component 3, cardboard is pressed on the belt 305 of transmission component 3 by platen assembly 4, cardboard glue spraying assembly in moving process carries out glue spraying to cardboard glue spraying position, undertaken spacing by positioning component 8 during the cardboard spraying glue moved, through splicing component 6, the two panels cardboard having sprayed glue is spliced again, pipe sensitive adhesion is carried out at the splicing position of the first pressing assembly 7 pairs of cardboards, cardboard after pressing carries out glue spraying through glue spraying assembly to cardboard glue spraying position after being walked by transfer assembly 9 again, the cardboard of secondary glue spraying is walked mobile again by transmission component 3, secondary is carried out spacing by positioning component 8, clap homogeneous component 11 cardboard position is adjusted, adjust rear hatch arrangement 13 cardboard is carried out turning down to make the mutual secondary splicing of the position of cardboard secondary glue spraying, pipe sensitive adhesion is carried out again through the splicing position of the second pressing assembly 12 pairs of cardboards, the carton that pressing is good flows out through transfer assembly 9, two panels cardboard is made to be shaped to a carton, moved by programme-control first motor 301, the first motor 301 is made to drive belt 305 to rotate by belt wheel 303, thus drive cardboard to do rectilinear motion forward along belt 305, when needing the relative position changing transmission component 3, programme-control semi-nut mechanism 308 engages with the first leading screw 307, programme-control subsequently first servomotor 306 rotates, first servo drives the first riser 304 to do linear slide on the first lead 309 by the first leading screw 307, thus change traditional components relative position, complete the transmission of different size cardboard, when needs change platen assembly 4 relative position, the semi-nut mechanism 308 that programme-control is positioned on the second riser 404 engages with the second leading screw 402, after having engaged, programme-control second servomotor 401 rotates, second servo drives the second riser 404 to do linear slide on the second lead 403 by the second leading screw 402, thus change platen assembly 4 relative position, be arranged on the pinch roller 407 on connecting rod 406, due to connecting rod 406 and the gravity of pinch roller 407, cardboard is made to be positioned at belt 305 surface all the time, and can rotate with belt 305.This apparatus structure is simple, can carry out bonding forming to two panels cardboard, and uses with the cardboard of different size shaping, greatly increases the versatility of equipment, meets the needs that user is multi-faceted.

The present invention is not limited to above-mentioned concrete embodiment, and those of ordinary skill in the art is from above-mentioned design, and without performing creative labour, all conversion made, all drop within protection scope of the present invention.

Claims (8)

1. a biplate connects paste punch-out equipment, comprise frame, characterized by further comprising paper feeding assembly, transmission component, platen assembly, first glue spraying assembly, splicing component, first pressing assembly, positioning component, transfer assembly, second glue spraying assembly, clap homogeneous component, second pressing assembly, hatch arrangement, upper end on the right side of described paper feeding assembly frame, described paper feeding assembly is connected with housing slide, described transmission component is positioned in the middle part of frame inner wall, described transmission component is connected with housing slide, described platen assembly is positioned at directly over transmission component, described platen assembly is connected with housing slide, the first described glue spraying assembly is positioned at upper end on the right side of frame outer wall, the first described glue spraying assembly is connected with housing slide, described splicing component is positioned in the middle part of frame inner wall, described splicing component is connected with frame screw thread, the first described pressing assembly is positioned at upper end in the middle part of frame outer wall, the first described pressing assembly is connected with frame screw thread, described positioning component is positioned at frame inner wall center, described positioning component is connected with frame screw thread, described transfer assembly is positioned at positioning component right-hand member, described transfer assembly is connected with gantry rotation, the second described glue spraying assembly is positioned at lower end on the left of frame outer wall, the second described glue spraying assembly is connected with housing slide, described bat homogeneous component is positioned at frame Left-side center place, described bat homogeneous component is connected with frame screw thread, the second described pressing assembly is positioned at upper end on the left of frame, the second described pressing assembly is connected with frame screw thread, described hatch arrangement is positioned on the left of frame, described hatch arrangement is connected with frame screw thread.

2. biplate as claimed in claim 1 connects paste punch-out equipment, it is characterized in that described transmission component also comprises the first motor, power transmission shaft, belt wheel, first riser, belt, first servomotor, first leading screw, semi-nut mechanism, the first described motor is positioned at frame outer wall, the first described motor is connected with frame screw thread, described power transmission shaft is positioned on the left of the first motor, described power transmission shaft is connected with the first motor close-fitting, described belt wheel runs through power transmission shaft, described belt wheel is connected with propeller shaft slip, the first described riser is positioned on the right side of belt wheel, the first described riser and belt wheel are rotatedly connected, the first described servomotor is positioned on the right side of frame outer wall, the first described servomotor is connected with frame screw thread, the first described leading screw to be positioned on the left of the first servomotor and to run through the first riser, the first described leading screw is connected with the first servomotor close-fitting, described semi-nut mechanism is positioned at first left and right sides, riser lower end and runs through the first leading screw, described semi-nut mechanism is connected with the first riser screw thread.

3. biplate as claimed in claim 2 connects paste punch-out equipment, and it is characterized in that the first described riser is also provided with the first lead, the first described lead runs through the first riser, and the first described lead and the first riser slide and be connected and be connected with frame screw thread.

4. biplate as claimed in claim 3 connects paste punch-out equipment, it is characterized in that described platen assembly also comprises the second servomotor, second leading screw, second lead, second riser, depression bar, the second described servomotor is positioned at frame outer wall, the second described servomotor is connected with frame screw thread, the second described leading screw is positioned on the left of the second servomotor, the second described leading screw is connected with the second servomotor close-fitting, the second described lead is positioned at frame inner wall, the second described lead is connected with frame screw thread, described riser runs through the second lead and runs through the second leading screw, described riser slides with the second lead and is connected, described depression bar is positioned at lower end on the left of the second riser, described depression bar is connected with the second riser screw thread.

5. biplate as claimed in claim 4 connects paste punch-out equipment, and it is characterized in that the second described riser is also provided with semi-nut mechanism, described right semi-nut mechanism runs through leading screw, and described semi-nut mechanism is connected with the second riser screw thread.

6. biplate as claimed in claim 5 connects paste punch-out equipment, and it is characterized in that described pressing plate lower end is also provided with connecting rod, described connecting rod is connected with press plate rotary.

7. biplate as claimed in claim 6 connects paste punch-out equipment, and it is characterized in that described connecting rod lower end is also provided with pinch roller, described pinch roller and connecting rod are rotatedly connected.

8. biplate as claimed in claim 7 connects paste punch-out equipment, it is characterized in that described semi-nut mechanism engages for engaging with the first leading screw or the second leading screw or disconnect.