CN112758446A - Full-automatic glass mat paper machine and process - Google Patents

Abstract

The invention discloses a full-automatic glass mat paper machine and a process, wherein the full-automatic glass mat paper machine comprises a paper feeding device, a paper cutting device, a glass mat paper device and a discharging device; the paper cutting device comprises a traction mechanism for drawing and conveying paper and a cutting mechanism for cutting the paper; the cutting mechanism comprises a cutting piece and a cutting driving unit, and the cutting driving unit drives the cutting piece to cut paper; the cutting piece is positioned above the output end of the driving wheel; the glass packing paper device comprises a stacking area for stacking glass and paper, a jig for loading the glass, a material pushing mechanism for pushing the glass out of the jig, a material receiving mechanism for bearing the glass, and a material blocking mechanism for limiting and blocking the glass; therefore, the automatic glass packing machine has the advantages that the automation degree is improved, the production efficiency is improved, the stable positioning of glass is realized, the comprehensive covering of packing paper is ensured, and the phenomenon that the packing paper cannot be completed due to the overlapping of the glass is avoided.

Description

Full-automatic glass mat paper machine and process

Technical Field

The invention relates to the technical field of glass packaging equipment, in particular to a full-automatic glass mat paper machine and a process.

Background

Glass is an amorphous inorganic non-metallic material, and is generally prepared by using various inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash and the like) as main raw materials and adding a small amount of auxiliary raw materials. Its main components are silicon dioxide and other oxides. The chemical composition of the common glass is Na2SiO3, CaSiO3, SiO2 or Na 2O. CaO.6SiO 2, and the like, and the main component is a silicate double salt which is an amorphous solid with a random structure. The light-transmitting composite material is widely applied to buildings, is used for isolating wind and transmitting light, and belongs to a mixture. Colored glass in which an oxide or salt of a certain metal is mixed to develop a color, tempered glass produced by a physical or chemical method, and the like are also available. Some transparent plastics, such as polymethylmethacrylate, are sometimes also referred to as plexiglas.

In the glass packaging process, in order to improve the working efficiency, a piece of paper is generally required to be padded between two pieces of glass, and therefore, glass packaging equipment is required to be used. The existing glass packaging equipment mainly comprises a feeding device, a paving device, a paper cutting device and the like. The glass packaging equipment used at present has low automation degree, and many preparations need to be carried out by the aid of manpower in the working process, for example, the packing paper is packed on glass, the loading of the glass, the connection and the blanking among all mechanisms and the like need to be carried out by the participation of manpower, so that the working efficiency is low, in the stacking process of the glass and the paper, the phenomenon that the packing paper is not completely covered due to the deviation of the glass is easy to occur, and the phenomenon that the packing paper cannot be completed between two pieces of glass due to the overlapping loading of the two pieces of glass is easy to occur.

Therefore, a new technology needs to be developed to solve the above problems.

Disclosure of Invention

In view of the above, the present invention is directed to the defects in the prior art, and the main object of the present invention is to provide a full-automatic glass mat paper machine and process, which improve the degree of automation, improve the production efficiency, realize the stable positioning of glass, ensure the complete coverage of the mat paper, and avoid the phenomenon that the glass is overlapped and the mat paper cannot be completed.

In order to achieve the purpose, the invention adopts the following technical scheme:

a full-automatic glass mat paper machine comprises a paper feeding device, a paper cutting device, a glass mat paper device and a discharging device;

the paper feeding device comprises a material tray and a connecting wheel, wherein the input end and the output end of the connecting wheel are respectively connected with the material tray and the paper cutting device;

the paper cutting device comprises a traction mechanism for drawing and conveying paper and a cutting mechanism for cutting the paper; the traction mechanism comprises a driving wheel, a driven wheel and a traction driving unit for driving the driving wheel to rotate, wherein the driving wheel and the driven wheel are sequentially arranged side by side along the paper conveying direction, and the input end of the driving wheel is connected with the output end of the connecting wheel; the cutting mechanism comprises a cutting piece and a cutting driving unit, and the cutting driving unit drives the cutting piece to cut paper; the cutting piece is positioned above the output end of the driving wheel;

the glass packing paper device comprises a stacking area for stacking glass and paper, a jig for loading the glass, a material pushing mechanism for pushing the glass out of the jig, a material receiving mechanism for bearing the glass, and a material blocking mechanism for limiting and blocking the glass; the jig is positioned between the material pushing mechanism and the material receiving mechanism, the jig, the material receiving mechanism and the material blocking mechanism are arranged around the stacking area, the jig and the material blocking mechanism are respectively positioned on two opposite sides of the stacking area, the material receiving mechanism is positioned on one side of the material blocking mechanism, and the material blocking mechanism is connected with the output end of the driven wheel;

the pushing mechanism comprises a pushing piece and a pushing driving unit, and the pushing driving unit drives the pushing piece to push the glass;

the material receiving mechanism comprises a transverse material receiving mechanism and a vertical material receiving mechanism, wherein the transverse material receiving mechanism is positioned on one side of the stacking area, and the vertical material receiving mechanism is positioned below the stacking area; the horizontal receiving mechanism comprises a horizontal receiving plate and a horizontal receiving driving unit for driving the horizontal receiving plate, and the vertical receiving mechanism comprises a vertical receiving plate and a vertical receiving driving unit for driving the vertical receiving plate;

the discharging device comprises a conveying belt and a discharging driving unit for driving the conveying belt, wherein one side of the conveying belt is located below the vertical material receiving plate.

As a preferred scheme, adsorption paper feeding device still includes vertical mounting panel, is used for carrying out the straining device of tensioning to paper, charging tray, linking wheel, straining device all install same one side on vertical mounting panel, the linking wheel has two, and two linking wheels are arranged side by side along paper direction of delivery in proper order, straining device is located between two linking wheels, and the output that is located the linking wheel of straining device's output links up in the input of action wheel.

As a preferred scheme, straining device includes last tensioning fixed plate, left side stand, right side stand, left side balancing weight, right side balancing weight and counter weight axle down, last tensioning fixed plate, tensioning fixed plate install respectively in the upper and lower both sides of vertical mounting panel, the upper and lower both ends of left side stand are connected respectively in the left end of last tensioning fixed plate, the left end of tensioning fixed plate down, the upper and lower both ends of right side stand are connected respectively in the right-hand member of last tensioning fixed plate, the right-hand member of tensioning fixed plate down, left side balancing weight, right side balancing weight slidingtype are located respectively on left side stand, right side stand from top to bottom, both ends are connected respectively in left side balancing weight, right side balancing weight about the counter weight.

As a preferred scheme, drive mechanism still including pull the installation riser and install in pulling the seat of pulling on the installation riser, action wheel, transversely install on pulling the seat from the equal rotary type of driving wheel, it still includes the vertical fixed plate that cuts to cut the mechanism, cut drive unit and cut connecting plate fixed connection on cutting vertical fixed plate through one, pull the seat and cut the connecting block through one and connect in cutting vertical fixed plate, it is located to pull the seat to cut.

As a preferred scheme, the cutting piece is a cutting knife, the cutting knife is connected to the cutting driving unit through a cutting connecting seat, and the cutting knife is located above the output end of the driving wheel.

As an optimal scheme, the tool includes the positioning seat and installs the carriage that is used for loading glass on the positioning seat, the carriage has the accommodation space that is used for loading glass, the equal uncovered setting in upper and lower both ends of accommodation space, the concave groove of stepping down that steps down for pushing away the material piece that is equipped with of upper surface of positioning seat, the groove of stepping down extends along pushing away the material direction, the groove of stepping down communicates in accommodation space, the carriage is provided with the logical groove that supplies glass to pass towards one side of piling up the district, lead to the inside and outside both sides that the groove link up the carriage, lead to the groove and communicate in accommodation space, the upper surface of positioning seat is equipped with the spacing post that is used for separating the glass of bottommost and positioning seat interval in the one side of the groove of stepping down of upwards protruding.

As a preferred scheme, the stock stop includes the dog, the dog has the perforation that the paper supply passed, the perforation link up the both sides of dog and communicate in piling up the district, the dog is formed with the spacing face that is used for carrying out spacing backstop to glass in the periphery of perforation towards one side of piling up the district.

As a preferred scheme, vertical receiving mechanism still includes vertical backup pad, guide rail, slider, vertical material drive unit, the guide rail of connecing is all installed in vertical backup pad, the slider adaptation is on the guide rail, vertical material receiving plate connects the material fixed block to connect in the slider through one, vertical material receiving drive unit's output is connected with the drive belt, connect the material fixed block to connect in the drive belt through a briquetting.

As a preferred scheme, the vertical material receiving plate is of an L-shaped structure and comprises a transverse plate part and a vertical plate part, the transverse plate part is used for bearing glass, the transverse plate part is connected to the upper end of the vertical plate part, and the vertical plate part is connected to the vertical material receiving driving unit.

A glass packing paper process is provided with a paper feeding device, a paper cutting device, a glass packing paper device and a discharging device; the glass packing paper device comprises a stacking area, a jig, a material pushing mechanism, a material receiving mechanism and a material blocking mechanism; the material receiving mechanism comprises a transverse material receiving mechanism and a vertical material receiving mechanism; the method comprises the following steps:

step one, paper feeding: conveying the paper to a paper cutting device by a paper feeding device;

step two, cutting paper: cutting the paper by the paper cutting device;

step three, paper padding: pushing the glass out of the jig to a stacking area by a material pushing mechanism, receiving the glass by a transverse material receiving mechanism, stopping the glass by a material stopping mechanism, moving a vertical material receiving mechanism to the position below the glass towards the stacking area, releasing the glass by the transverse material receiving mechanism, receiving the glass by the vertical material receiving mechanism, and conveying the cut paper to the stacking area through the material stopping mechanism by a traction mechanism of a paper cutting device and filling the cut paper on the upper surface of the glass on the vertical material receiving mechanism;

step four, blanking: and the glass padded with paper is conveyed to a discharging device by a vertical material receiving mechanism.

Compared with the prior art, the glass pushing device has obvious advantages and beneficial effects, and particularly, according to the technical scheme, the glass pushing device has the advantages that the automation degree is improved and the production efficiency is improved mainly through the combined design of the paper feeding device, the paper cutting device, the glass paper backing device and the discharging device, particularly, through the combined design of the material blocking mechanism of the glass paper backing device, the transverse material receiving mechanism and the vertical material receiving mechanism of the material receiving mechanism, the glass can be effectively and stably positioned and limited after being pushed out from a jig through the material pushing mechanism, the glass deviation phenomenon cannot occur, so that the stable positioning of the glass is realized, the covering of the paper backing is comprehensive, and the combined design of the material pushing mechanism, the abdicating groove and the through groove of the jig ensures that only one piece of glass can be pushed out at one time, and the phenomenon that the glass cannot be overlapped to finish the paper backing is avoided; and through the process steps of paper feeding, paper cutting, paper packing and blanking in sequence, the paper can be smoothly arranged on the surface of the glass, and the glass and the paper can be stacked alternately in sequence to a set number and then blanked, so that the integral blanking after the glass and the paper are stacked alternately can be realized, and the glass and the paper are not required to be stacked additionally.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of the overall structure of an embodiment of the present invention;

FIG. 2 is another angular schematic view of the structure shown in FIG. 1;

FIG. 3 is a schematic perspective view of the machine with the lower portion removed according to the embodiment of the present invention;

FIG. 4 is another angular schematic view of the structure shown in FIG. 3;

FIG. 5 is a top view of an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a paper cutting device according to an embodiment of the present invention;

FIG. 7 is another angular schematic view of the structure shown in FIG. 6;

FIG. 8 is a schematic perspective view of a glass liner device according to an embodiment of the present invention;

FIG. 9 is another angular schematic view of the structure shown in FIG. 8;

FIG. 10 is an exploded view of a glassine apparatus according to an embodiment of the present invention;

FIG. 11 is a schematic perspective view of a fixture according to an embodiment of the present invention;

fig. 12 is another angular schematic of the structure shown in fig. 11.

The attached drawings indicate the following:

10. machine table 20 and paper feeding device

21. Charging tray 22, joining wheel

23. Vertical mounting plate 24 and tensioning mechanism

241. Upper tension fixing plate 242 and lower tension fixing plate

243. Left side column 244 and right side column

245. Left side counterweight block 246 and right side counterweight block

247. Counterweight shaft 30 and paper cutting device

31. Traction mechanism 311 and driving wheel

312. Driven wheel 313 and traction drive unit

314. Traction mounting vertical plate 315 and traction base

32. Cutting mechanism 321 and cutting drive unit

322. Cut vertical fixed plate 323, cut connecting plate

324. Cutting connecting block 325, cutting connecting seat

40. Glass packing paper device 41, stacking area

42. Tool 421, positioning seat

422. Bearing frame 423 and placing space

424. Abdicating groove 425 and through groove

426. Limiting column 427 and positioning hole

43. Pushing mechanism 431 and pushing piece

432. Material pushing driving unit 44 and material receiving mechanism

441. Transverse material receiving mechanism 4411 and transverse material receiving plate

4412. Horizontal material receiving driving unit 442 and vertical material receiving mechanism

4421. Vertical material receiving plate 4422 and vertical material receiving driving unit

4423. Guide rail 4424 and slider

4425. Material receiving fixing block 4426 and transmission belt

4427. Briquetting 45, stock stop

451. Stopper 452, through hole

453. Limiting surface 46 and workbench

461. Stacking hole 47, support rod

50. Discharging device 51 and conveyor belt

52. A discharging driving unit 60 and glass.

Detailed Description

Referring to fig. 1 to 12, specific structures of embodiments of the present invention are shown.

A full-automatic glass mat paper machine comprises a machine table 10, and a paper feeding device 20, a paper cutting device 30, a glass mat paper device 40 and a discharging device 50 which are arranged on the machine table 10; the full-automatic glass mat paper machine further comprises a control device, and the control device is respectively and electrically connected with the paper feeding device 20, the paper cutting device 30, the glass mat paper device 40 and the discharging device 50.

Specifically, the paper feeding device 20 includes a tray 21 and a connecting wheel 22, and the input end and the output end of the connecting wheel 22 are respectively connected to the tray 21 and the paper cutting device 30; the adsorption paper feeding device 20 further comprises a vertical mounting plate 23, a tensioning mechanism 24 for tensioning paper, the vertical mounting plate 23 is mounted above the machine table 10, the material disc 21, the connecting wheels 22 and the tensioning mechanism 24 are mounted on the same side of the vertical mounting plate 23, the connecting wheels 22 are two, the two connecting wheels 22 are sequentially arranged side by side along the paper conveying direction, the tensioning mechanism 24 is positioned between the two connecting wheels 22, and the output end of the connecting wheel 22 at the output end of the tensioning mechanism 24 is connected with the input end of the driving wheel 311.

The tensioning mechanism 24 includes an upper tensioning fixing plate 241, a lower tensioning fixing plate 242, a left upright 243, a right upright 244, a left counterweight 245, a right counterweight 246 and a counterweight shaft 247, the upper tensioning fixing plate 241 and the lower tensioning fixing plate 242 are respectively installed on the upper and lower sides of the vertical mounting plate 23, the upper and lower ends of the left upright 243 are respectively connected to the left end of the upper tensioning fixing plate 241 and the left end of the lower tensioning fixing plate 242, the upper and lower ends of the right upright 244 are respectively connected to the right end of the upper tensioning fixing plate 241 and the right end of the lower tensioning fixing plate 242, the left counterweight 245 and the right counterweight 246 can be positioned on the left upright 243 and the right upright 244 in a vertically sliding manner, and the left and right ends of the counterweight shaft 247 are respectively connected to the left counterweight 245 and.

The paper cutting device 30 comprises a traction mechanism 31 for drawing and conveying paper and a cutting mechanism 32 for cutting the paper; the traction mechanism 31 includes a driving wheel 311, a driven wheel 312 and a traction driving unit 313 for driving the driving wheel 311 to rotate, the driving wheel 311 and the driven wheel 312 are arranged side by side in sequence along the paper conveying direction, and the input end of the driving wheel 311 is connected with the output end of the connecting wheel 22; the cutting mechanism 32 includes a cutting member and cutting drive unit 321, and the cutting drive unit 321 drives the cutting member to cut the paper; the cutting member is located above the output end of the driving wheel 311.

The traction mechanism 31 further comprises a traction mounting vertical plate 314 and a traction seat 315 mounted on the traction mounting vertical plate 314, the driving wheel 311 and the driven wheel 312 can be rotatably and transversely mounted on the traction seat 315, the cutting mechanism 32 further comprises a cutting vertical fixing plate 322, the cutting vertical fixing plate 322 is attached to the vertical mounting plate 23, the lower ends of the traction mounting vertical plate 314 and the cutting vertical fixing plate 322 are mounted on the machine table 10, the cutting driving unit 321 is fixedly connected to the cutting vertical fixing plate 322 through a cutting connecting plate 323, the traction driving unit 313 is fixed on the cutting vertical fixing plate 322, the traction seat 315 is connected to the cutting vertical fixing plate 322 through a cutting connecting block 324, and the cutting part is located in the traction seat 315. In this embodiment, the cutting member is a cutting knife, the cutting knife is connected to the cutting driving unit 321 through a cutting connecting seat 325, and the cutting knife is located above the output end of the driving wheel 311. A gap for a cutting knife to pass through is reserved between the driving wheel 311 and the driven wheel 312, and the cutting knife is located right above the gap. In this embodiment, the lower ends of the driving wheels 311 and the driven wheels 312 are both spaced from the inner bottom wall of the traction base 315, the driving wheels 311 and the driven wheels 312 are both provided in two rows, a gap for passing paper is formed between the upper driving wheel 311 and the lower driving wheel 311, and a gap for passing paper is formed between the upper driven wheel 312 and the lower driven wheel 312. With this, through drive mechanism 31 and the combination design of cutting mechanism 32, make its automation that has realized the paper cut and pull to make its paper carry and cut between linking closely, structural configuration is ingenious reasonable, and action wheel 311 and the combination design from driving wheel 312, make the paper can not appear when carrying after cutting around rolling up, perk, phenomenon such as jack-up, be favorable to the subsequence packing paper.

The glass packing paper device 40 comprises a stacking area 41 for stacking glass 60 and paper, a jig 42 for loading the glass 60, a material pushing mechanism 43 for pushing the glass 60 out of the jig 42, a material receiving mechanism 44 for bearing the glass 60, and a material blocking mechanism 45 for limiting and stopping the glass 60; the jig 42 is located between the material pushing mechanism 43 and the material receiving mechanism 44, the jig 42, the material receiving mechanism 44 and the material blocking mechanism 45 are arranged around the stacking area 41, the jig 42 and the material blocking mechanism 45 are respectively located on two opposite sides of the stacking area 41, the material receiving mechanism 44 is located on one side of the material blocking mechanism 45, and the material blocking mechanism 45 is connected to the output end of the driven wheel 312; the pushing mechanism 43 includes a pushing member 431 and a pushing driving unit 432, and the pushing driving unit 432 drives the pushing member 431 to push the glass 60; the material receiving mechanism 44 includes a transverse material receiving mechanism 441 and a vertical material receiving mechanism 442, the transverse material receiving mechanism 441 is located at one side of the stacking area 41, and the vertical material receiving mechanism 442 is located below the stacking area 41; the horizontal receiving mechanism 441 includes a horizontal receiving plate 4411 and a horizontal receiving driving unit 4412 for driving the horizontal receiving plate 4411, and the vertical receiving mechanism 442 includes a vertical receiving plate 4421 and a vertical receiving driving unit 4422 for driving the vertical receiving plate 4421.

Tool 42 includes positioning seat 421 and installs the carriage 422 that is used for loading glass 60 on positioning seat 421, carriage 422 has the accommodation space 423 that is used for loading glass 60, the equal uncovered setting in upper and lower both ends of accommodation space 423, the concave groove 424 of stepping down that offers for pushing away material 431 that is equipped with of upper surface of positioning seat 421, the groove 424 of stepping down extends along pushing away the material direction, the groove 424 of stepping down communicates in accommodation space 423, carriage 422 is provided with logical groove 425 that supplies glass 60 to pass towards one side of piling up district 41, lead to groove 425 and link up the inside and outside both sides of carriage 422, lead to groove 425 and communicate in accommodation space 423, the upper surface of positioning seat 421 upwards protruding be equipped with in one side of the groove 424 of stepping down and be used for spacing post 426 with the glass 60 of bottommost and positioning seat 421 interval apart.

The bottom of the positioning seat 421 is concavely provided with a plurality of positioning holes 427 for integrally positioning the jig 42, and the positioning holes 427 are used for being matched and positioned with positioning columns on a workbench 46 of the following glass liner device 40, so that the jig 42 can be detachably positioned on the workbench 46, and the jig 42 can be integrally replaced and positioned, so that the jig 42 can be directly and integrally removed after the glass 60 loaded on the jig 42 is used up, and a new jig 42 full of glass 60 is positioned on the positioning columns for continuous processing.

The material blocking mechanism 45 comprises a block 451, the block 451 is provided with a through hole 452 for paper to pass through, the through hole 452 penetrates through two sides of the block 451 and is communicated with the stacking area 41, and a limiting surface 453 for limiting and blocking the glass 60 is formed on one side of the block 451 facing the stacking area 41 and on the periphery of the through hole 452. The through hole 452 is engaged with the output end of the driven wheel 312, so that the paper can pass through the through hole 452 through the driven wheel 312 and enter the stacking area 41. In this embodiment, there are two transverse material receiving mechanisms 441, and the two transverse material receiving mechanisms 441 are symmetrically arranged on the left side and the right side of the stacking area 41, so as to receive two ends of the glass 60 at the same time, and avoid the phenomenon that the glass 60 is not stably positioned and is inclined.

The vertical material receiving mechanism 442 further comprises a vertical supporting plate, a guide rail 4423 and a slide block 4424, the vertical material receiving driving unit 4422 and the guide rail 4423 are both mounted on the vertical supporting plate, the slide block 4424 is adapted to the guide rail 4423, the vertical material receiving plate 4421 is connected to the slide block 4424 through a material receiving fixing block 4425, the output end of the vertical material receiving driving unit 4422 is connected with a transmission belt 4426, and the material receiving fixing block 4425 is connected to the transmission belt 4426 through a pressing block 4427. In this embodiment, the vertical supporting plate is the traction mounting vertical plate 314 of the traction mechanism 31, that is, the vertical material receiving driving unit 4422 and the guide rail 4423 are both mounted on the traction mounting vertical plate 314, so that the structural layout is more ingenious and reasonable, and structural materials can be reduced; of course, the vertical support plate and the traction mounting vertical plate 314 can be separately arranged.

The vertical material receiving plate 4421 is of an L-shaped structure, the vertical material receiving plate 4421 comprises a transverse plate part and a vertical plate part, the transverse plate part is used for bearing the glass 60, the transverse plate part is integrally connected to the upper end of the vertical plate part, and the vertical plate part is connected to the vertical material receiving driving unit 4422. The vertical plate portion is connected to the receiving fixing block 4425.

The discharging device 50 includes a conveyer belt 51 and a discharging driving unit 52 for driving the conveyer belt 51, and one side of the conveyer belt 51 is located below the vertical material receiving plate 4421.

The glass mat paper device 40 further comprises a workbench 46 and a support rod 47 supported below the workbench 46, the lower end of the support rod 47 is connected above the machine table 10, the discharging device 50 is located below the workbench 46, a conveying belt 51 of the discharging device 50 extends out of the machine table 10, the stacking area 41, the jig 42, the pushing mechanism 43, the receiving mechanism 44 and the material stopping mechanism 45 are all arranged on the workbench 46, the workbench 46 is provided with stacking holes 461 penetrating through the upper side and the lower side of the workbench 46, the stacking holes 461 are located in the stacking area 41, and the jig 42, the receiving mechanism 44 and the material stopping mechanism 45 are arranged around the stacking holes 461; the transverse plate portion of the vertical material receiving plate 4421 may selectively pass upward or downward through the stacking hole 461 to be close to or far from the stacking area 41.

And, in this embodiment, there are two conveyer belts 51 of the discharging device 50, and the two conveyer belts 51 are spaced apart from each other, so that the vertical material receiving plate 4421 can move down between the two conveyer belts 51, and the glass 60 carried by the vertical material receiving plate 4421 can be smoothly placed between the two conveyer belts 51.

In addition, the driving units are selected from motor driving or air cylinder driving according to actual conditions.

A glass packing paper process comprises the following steps:

step one, paper feeding: the paper is conveyed to the paper cutting device 30 by the paper feeding device 20;

step two, cutting paper: the driving wheel 311 of the traction mechanism 31 of the paper cutting device 30 operates to convey the paper towards the driven wheel 312, and then the cutting driving unit 321 of the cutting mechanism 32 of the paper cutting device 30 drives the cutting piece to cut the paper;

step three, paper padding: the pushing driving unit 432 of the pushing mechanism 43 drives the pushing member 431 to push the glass 60 out of the jig 42 to the stacking area 41, the transverse receiving driving unit 4412 of the transverse receiving mechanism 441 drives the transverse receiving plate 4411 to receive the glass 60, the blocking mechanism 45 stops the glass 60, then the vertical receiving driving unit 4422 of the vertical receiving mechanism 442 drives the vertical receiving plate 4421 to move towards the stacking area 41 to the position below the glass 60, the transverse receiving plate 4411 of the transverse receiving mechanism 441 releases the glass 60, the vertical receiving plate 4421 of the vertical receiving mechanism 442 receives the glass 60, and the traction mechanism 31 of the paper cutting device 30 conveys the cut paper to the stacking area 41 through the blocking mechanism 45 and pads on the upper surface of the glass 60 on the vertical receiving mechanism 442; here, after the glass 60 in the jig 42 is used up, the empty jig 42 is pulled out, and a new jig 42 carrying the glass 60 is inserted into the original position to continue the paper packing;

step four, blanking: repeating the second step and the third step (in this process, the lower surface of the lowest layer of glass 60 is attached to the upper surface of the vertical material receiving plate 4421, the lower surface of the upper layer of glass 60 is attached to the upper surface of the paper positioned on the upper surface of the lower layer of glass 60, and the vertical material receiving plate 4421 can be displaced relatively downwards along with the stacking of the glass 60, so that the stacked glass 60 does not affect the stacking of the glass 60 and the paper in the stacking area 41), until the number of the glass 60 received by the vertical material receiving plate 4421 of the vertical material receiving mechanism 442 reaches a set value (at this time, the paper is filled between two adjacent glass 60), then, the glass 60 padded with paper is conveyed to the discharging device 50 by the vertical material receiving mechanism 442, and the conveying belt 51 is driven by the discharging driving unit 52 of the discharging device 50 to convey and discharge the glass 60 padded with paper stacked up and down (here, the discharging device 50 can control the conveying belt 51 to convey intermittently).

In summary, the design of the invention is characterized in that the degree of automation is improved and the production efficiency is improved mainly by the combined design of the paper feeding device, the paper cutting device, the glass packing device and the discharging device, and especially, the glass can be effectively and stably positioned and limited after being pushed out from the jig by the material pushing mechanism through the combined design of the material blocking mechanism of the glass packing device, the transverse material receiving mechanism and the vertical material receiving mechanism of the material receiving mechanism, and the glass can not be deviated, so that the stable positioning of the glass is realized, the comprehensive covering of the packing paper is ensured, and the combined design of the material pushing mechanism, the abdicating groove and the through groove of the jig can only push out a single piece of glass at one time, and the phenomenon that the packing paper cannot be completed due to the overlapping of the glass can not occur; and through the process steps of paper feeding, paper cutting, paper packing and blanking in sequence, the paper can be smoothly arranged on the surface of the glass, and the glass and the paper can be stacked alternately in sequence to a set number and then blanked, so that the integral blanking after the glass and the paper are stacked alternately can be realized, and the glass and the paper are not required to be stacked additionally.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic glass mat paper machine which characterized in that: comprises a paper feeding device, a paper cutting device, a glass packing paper device and a discharging device;

the paper feeding device comprises a material tray and a connecting wheel, wherein the input end and the output end of the connecting wheel are respectively connected with the material tray and the paper cutting device;

the paper cutting device comprises a traction mechanism for drawing and conveying paper and a cutting mechanism for cutting the paper; the traction mechanism comprises a driving wheel, a driven wheel and a traction driving unit for driving the driving wheel to rotate, wherein the driving wheel and the driven wheel are sequentially arranged side by side along the paper conveying direction, and the input end of the driving wheel is connected with the output end of the connecting wheel; the cutting mechanism comprises a cutting piece and a cutting driving unit, and the cutting driving unit drives the cutting piece to cut paper; the cutting piece is positioned above the output end of the driving wheel;

the glass packing paper device comprises a stacking area for stacking glass and paper, a jig for loading the glass, a material pushing mechanism for pushing the glass out of the jig, a material receiving mechanism for bearing the glass, and a material blocking mechanism for limiting and blocking the glass; the jig is positioned between the material pushing mechanism and the material receiving mechanism, the jig, the material receiving mechanism and the material blocking mechanism are arranged around the stacking area, the jig and the material blocking mechanism are respectively positioned on two opposite sides of the stacking area, the material receiving mechanism is positioned on one side of the material blocking mechanism, and the material blocking mechanism is connected with the output end of the driven wheel;

the pushing mechanism comprises a pushing piece and a pushing driving unit, and the pushing driving unit drives the pushing piece to push the glass;

the material receiving mechanism comprises a transverse material receiving mechanism and a vertical material receiving mechanism, wherein the transverse material receiving mechanism is positioned on one side of the stacking area, and the vertical material receiving mechanism is positioned below the stacking area; the horizontal receiving mechanism comprises a horizontal receiving plate and a horizontal receiving driving unit for driving the horizontal receiving plate, and the vertical receiving mechanism comprises a vertical receiving plate and a vertical receiving driving unit for driving the vertical receiving plate;

the discharging device comprises a conveying belt and a discharging driving unit for driving the conveying belt, wherein one side of the conveying belt is located below the vertical material receiving plate.

2. The full-automatic glass mat paper machine according to claim 1, characterized in that: the adsorption paper feeding device further comprises a vertical mounting plate and a tensioning mechanism used for tensioning paper, wherein the material tray, the connecting wheels and the tensioning mechanism are arranged on the same side of the vertical mounting plate, the connecting wheels are two, the two connecting wheels are arranged side by side in sequence along the paper conveying direction, the tensioning mechanism is positioned between the two connecting wheels, and the output end of the connecting wheel positioned at the output end of the tensioning mechanism is connected to the input end of the driving wheel.

3. The full-automatic glass mat paper machine according to claim 2, characterized in that: straining device includes last tensioning fixed plate, lower tensioning fixed plate, left side stand, right side stand, left side balancing weight, right side balancing weight and counter weight axle, go up the tensioning fixed plate, install respectively in the upper and lower both sides of vertical mounting panel down the tensioning fixed plate, the upper and lower both ends of left side stand are connected respectively in the left end of last tensioning fixed plate, the left end of lower tensioning fixed plate, the upper and lower both ends of right side stand are connected respectively in the right-hand member of last tensioning fixed plate, the right-hand member of lower tensioning fixed plate, left side balancing weight, right side balancing weight slidingtype are located respectively on left side stand, right side stand from top to bottom, both ends are connected respectively in left side balancing weight, right side balancing.

4. The full-automatic glass mat paper machine according to claim 1, characterized in that: the traction mechanism further comprises a traction mounting vertical plate and a traction seat mounted on the traction mounting vertical plate, the driving wheel and the driven wheel can be transversely mounted on the traction seat in a rotating mode, the cutting mechanism further comprises a vertical fixing plate, the cutting driving unit is fixedly connected onto the vertical fixing plate through a cutting connecting plate, the traction seat is connected onto the vertical fixing plate through a cutting connecting block, and the cutting part is located in the traction seat.

5. The full-automatic glass mat paper machine according to claim 4, characterized in that: the cutting piece is a cutting knife which is connected to the cutting driving unit through a cutting connecting seat, and the cutting knife is located above the output end of the driving wheel.

6. The full-automatic glass mat paper machine according to claim 1, characterized in that: the tool includes the positioning seat and installs the carriage that is used for loading glass on the positioning seat, the carriage has the accommodation space that is used for loading glass, the equal uncovered setting in upper and lower both ends in accommodation space, the concave groove of stepping down that steps down for pushing away the material piece that is equipped with of upper surface of positioning seat, the groove of stepping down extends along pushing away the material direction, the groove of stepping down communicates in accommodation space, one side that the carriage orientation piles up the district is provided with the logical groove that supplies glass to pass, lead to the inside and outside both sides that the groove link up the carriage, lead to the groove and communicate in accommodation space, the upper surface of positioning seat is equipped with the spacing post that is used for separating the glass of bottommost and positioning seat interval in one side of the groove of stepping down to the epi.

7. The full-automatic glass mat paper machine according to claim 1, characterized in that: the stock stop includes the dog, the dog has the perforation that the paper supply passed, the perforation link up the both sides of dog and communicate in piling up the district, the dog is formed with in the fenestrate periphery towards one side of piling up the district and is used for carrying out spacing face of backstop to glass.

8. The full-automatic glass mat paper machine according to claim 1, characterized in that: vertical receiving mechanism still includes vertical backup pad, guide rail, slider, vertical material drive unit, the guide rail of connecing is all installed in vertical backup pad, the slider adaptation is on the guide rail, vertical material receiving plate connects the material fixed block to connect in the slider through one, vertical output that connects material drive unit is connected with the drive belt, connect the material fixed block to connect in the drive belt through a briquetting.

9. The full-automatic glass mat paper machine according to claim 1, characterized in that: the vertical flitch that connects is L shape structure, the vertical flitch that connects is including horizontal board and the vertical board that is used for bearing glass, horizontal board is connected in the upper end of vertical board, the vertical board even connects in the vertical material drive unit that connects.

10. A glass packing paper process is characterized in that: the device is provided with a paper feeding device, a paper cutting device, a glass packing paper device and a discharging device; the glass packing paper device comprises a stacking area, a jig, a material pushing mechanism, a material receiving mechanism and a material blocking mechanism; the material receiving mechanism comprises a transverse material receiving mechanism and a vertical material receiving mechanism; the method comprises the following steps:

step one, paper feeding: conveying the paper to a paper cutting device by a paper feeding device;

step two, cutting paper: cutting the paper by the paper cutting device;

step three, paper padding: pushing the glass out of the jig to a stacking area by a material pushing mechanism, receiving the glass by a transverse material receiving mechanism, stopping the glass by a material stopping mechanism, moving a vertical material receiving mechanism to the position below the glass towards the stacking area, releasing the glass by the transverse material receiving mechanism, receiving the glass by the vertical material receiving mechanism, and conveying the cut paper to the stacking area through the material stopping mechanism by a traction mechanism of a paper cutting device and filling the cut paper on the upper surface of the glass on the vertical material receiving mechanism;

step four, blanking: and the glass padded with paper is conveyed to a discharging device by a vertical material receiving mechanism.

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