CN112873997A

CN112873997A - Automatic tectorial membrane transportation equipment of tile type carton

Info

Publication number: CN112873997A
Application number: CN202110050760.3A
Authority: CN
Inventors: 陈克华
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-14
Filing date: 2021-01-14
Publication date: 2021-06-01

Abstract

The invention discloses automatic film-coating transportation equipment for tile-shaped paper boxes, which structurally comprises a conveying belt, a rotating roller, a film-coating box and a heating box, wherein the rotating roller is connected to the inner side of the conveying belt through a movable clamp, the bottom of the film-coating box is connected to the upper surface of the conveying belt through welding, and the heating box is embedded and fixed at the bottom of the conveying belt, and the automatic film-coating transportation equipment has the beneficial effects that: the tile-shaped carton pushes the carton door open through the rolling of the rotating roller to enter the film coating cavity, so that the top of the carton is attached to the bottom of the pressing block to move, the moving of the carton drives the guide wheel and the connecting rod to rotate around the fixed roller, the phenomenon that the carton is blocked and stopped when being coated is avoided, the film coating is prevented from being folded, the bottom of the tile-shaped carton is tightly attached to the surface of the film coating table from right to left, the film is attached to the bottom of the carton under the supporting force of the supporting spring, the extrusion block is upwards pushed by the ejector rod under the upward elastic force of the push rod, the film is prevented from being sunk into the surface of the tile-shaped carton by the extrusion block, and bubbles are prevented from existing between.

Description

Automatic tectorial membrane transportation equipment of tile type carton

Technical Field

The invention relates to the field of laminating equipment for paper boxes, in particular to automatic laminating and conveying equipment for tile-shaped paper boxes.

Background

The tile-shaped paper box is a paper box with the inside distributed in a tile shape, has a good damping effect, can be generally subjected to film coating processing on the surface of the tile-shaped paper box in order to improve the waterproofness of the tile-shaped paper box, and is heated by a hot-pressing roller during film coating so as to soften a film, and then the softened film is attached to the surface of the tile-shaped paper box, and then the film is cooled and integrated with the tile-shaped paper box.

At present, when the tile-shaped paper box is transported into the film laminating equipment, the surface of the tile-shaped paper box is in contact with a film softened by heating of a hot pressing roller, and the phenomenon of inward depression is inevitable during transportation due to the soft surface of the tile-shaped paper box, so that small bubbles are directly formed at the depression of the film and the surface of the tile-shaped paper box during film laminating, and the sealing performance of the film on the film laminating of the tile-shaped paper box is influenced.

Disclosure of Invention

Aiming at the defects that the sealing performance of a film on a tile-shaped paper box is affected by small bubbles directly formed at the concave parts of the surface of the tile-shaped paper box during film covering because the surface of the tile-shaped paper box is soft and the phenomenon of inward concave is inevitable during transportation when the tile-shaped paper box is transported into the film covering equipment by the existing automatic film covering transportation equipment for the tile-shaped paper box, the invention provides automatic film covering transportation equipment for the tile-shaped paper box to solve the technical problems.

The invention is realized by the following technical scheme: the utility model provides an automatic tectorial membrane transportation equipment of tile type carton, its structure includes the conveyer belt, changes roller, tectorial membrane case, heating cabinet, it is inboard that the roller passes through movable block to be connected in the conveyer belt, tectorial membrane bottom of the case portion is through welded connection in the conveyer belt upper surface, the heating cabinet inlays in the conveyer belt bottom, the tectorial membrane case includes chamber door, deflector roll, tectorial membrane chamber, lower depressor, tectorial membrane platform, the chamber door passes through hinged joint in tectorial membrane case right wall, the deflector roll passes through bolted connection in tectorial membrane incasement lower inner wall, the tectorial membrane chamber inlays locates the inside of tectorial membrane incasement portion, the depressor top passes through welded connection in tectorial membrane incasement inner wall, the tectorial membrane platform passes through gap junction in tectorial membrane incasement bottom, the chamber door can only be opened to the deflector roll anticlockwise rotation to tectorial membrane platform.

Furthermore, the presser includes fixed block, dead lever, briquetting, the fixed block upper surface inlays admittedly in lower depressor upper inner wall, welded connection is passed through in the fixed block upper surface on the dead lever top, the briquetting upper surface welds with the dead lever end mutually, and briquetting and depressor bottom structure as an organic whole, the fixed block is big end down on the round platform shape, and the dead lever is perpendicular downwards to the briquetting left and right sides is the arc bending, and the briquetting surface is the rubber material.

Further say, the briquetting comprises cushion chamber, fixed plate, rubber spring, clamp plate, the fixed plate horizontal welding is inside the cushion chamber, rubber spring connects between two fixed plates through perpendicular the set, the clamp plate upper surface is connected with tectorial membrane case lower surface, the fixed plate is solid material, and rubber spring has decurrent thrust for compression state.

Further say, the clamp plate includes fixed roll, guide pulley, connecting rod, spacing groove, the fixed roll passes through welded connection between the clamp plate left and right sides inner wall, the guide pulley nestification is in the fixed roll outer wall, the connecting rod passes through welded connection between two guide pulleys, the spacing groove inlays to be located between two guide pulleys, the guide pulley is hugged closely in the carton upper surface, and the guide pulley is the smooth soft material in surface to the connecting rod has three groups.

Furthermore, the laminating platform includes dead slot, supporting spring, tectorial membrane board, compression roller, the dead slot inlays to be located inside the laminating platform, the supporting spring bottom is through inlaying solid connection in dead slot bottom, the tectorial membrane board lower surface passes through welded connection in the supporting spring top, the compression roller passes through bolted connection in the inside of tectorial membrane board, supporting spring's elasticity is greater than the gravity of tectorial membrane board, and the tectorial membrane board upper surface is equipped with the film to compression roller top and tectorial membrane board upper surface are located same horizontal plane.

Furthermore, the compression roller comprises a fixed shaft, a rotating bead, a rotating drum, a supporting rod and an extrusion block, wherein the rotating bead is connected to the outer surface of the fixed shaft through a movable clamping manner, the rotating drum is nested outside the rotating bead, one end of the supporting rod is embedded in the outer surface of the rotating drum, the extrusion block is connected to the other end of the supporting rod through welding, the extrusion block is made of rubber and has elasticity, the supporting rod is annularly distributed on the outer surface of the rotating drum, and the supporting force of the supporting rod is greater than the gravity of the extrusion block.

Furthermore, the supporting rod comprises a bottom plate, a push rod and a limiting ring, the bottom plate is fixedly embedded in the bottom of the supporting rod, the bottom of the push rod is connected to the upper surface of the bottom plate through welding, the bottom of the push rod is connected with the top end of the push rod, the limiting ring is embedded in the outer surface of the push rod, the push rod has upward thrust, and the top of the push rod is arc-shaped and concave.

Advantageous effects

Compared with the prior art, the automatic film-coating transportation equipment for the tile-shaped paper boxes has the following advantages:

1. the invention has the beneficial effects that: the tile-shaped paper box pushes the box door away through the rolling of the rotating roller to enter the film coating cavity, so that the top of the paper box is moved along the bottom of the pressing block, the moving of the paper box drives the guide wheel and the connecting rod to rotate around the fixed roller, the phenomenon that the paper box is blocked and stopped when the film is coated is avoided, and the film coating is prevented from being folded.

2. The invention has the beneficial effects that: the tile-shaped paper box bottom is tightly attached to the surface of the film covering table and moves from right to left, the film is attached to the bottom of the paper box under the supporting force of the supporting spring, and the ejector rod upwards pushes the extrusion block under the upward elastic force of the push rod, so that the extrusion block can push the film to sink into the concave part on the surface of the tile-shaped paper box, bubbles are prevented from existing between the film and the paper box, and the influence on the waterproofness of the paper box is avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an automatic film-covering and conveying device for tile-shaped paper boxes.

FIG. 2 is an enlarged view of the interior of the lamination box of the present invention.

Fig. 3 is a schematic diagram of the internal structure of the depressor of the present invention.

FIG. 4 is a structural diagram of a table starting point of the briquette of the present invention.

FIG. 5 is a right enlarged view of the platen of the present invention.

FIG. 6 is an enlarged view of the interior of the laminating station according to the present invention.

FIG. 7 is an enlarged view of the inside of the roll of the present invention.

Fig. 8 is a front enlarged structural schematic view of the support rod of the present invention.

In the figure: the device comprises a conveying belt 1, a rotating roller 2, a film coating box 3, a heating box 4, a box door 31, a guide roller 32, a film coating cavity 33, a press 34, a film coating table 35, a fixing block 341, a fixing rod 342, a pressing block 343, a buffer cavity a1, a fixing plate a2, a rubber spring a3, a pressing plate a4, a fixing roller a41, a guide wheel a42, a connecting rod a43, a limiting groove a44, an empty groove 351, a supporting spring 352, a film coating plate 353, a pressing roller 354, a fixing shaft b1, a rotating ball b2, a rotating drum b3, a supporting rod b4, a pressing block 5, a bottom plate b41, a push rod b42, a push rod b43 and a limiting ring b 44.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Please refer to fig. 1-8:

example 1:

the invention provides tile-shaped carton automatic film-coating transportation equipment which structurally comprises a conveying belt 1, a rotating roller 2, a film-coating box 3 and a heating box 4, wherein the rotating roller 2 is connected to the inner side of the conveying belt 1 through movable clamping, the bottom of the film-coating box 3 is connected to the upper surface of the conveying belt 1 through welding, the heating box 4 is embedded and fixed at the bottom of the conveying belt 1, the film-coating box 3 comprises a box door 31, a guide roller 32, a film-coating cavity 33, a lower press 34 and a film-coating platform 35, the box door 31 is connected to the right wall of the film-coating box 3 through a hinge, the guide roller 32 is connected to the lower inner wall of the film-coating box 3 through a bolt, the film-coating cavity 33 is embedded and arranged in the film-coating box 3, the top of the lower press 34 is connected to the upper inner wall of the film-coating box 3 through welding, the film-coating platform 35 is connected to the inner bottom of the film-coating box 3 through a gap, do benefit to the processing of tectorial membrane in tile type carton gets into tectorial membrane case 3 from right side left to improve the waterproof nature of tile type carton.

In the figure, the lower press 34 includes a fixed block 341, a fixed rod 342, and a pressing block 343, the upper surface of the fixed block 341 is embedded and fixed on the upper inner wall of the lower press 34, the top end of the fixed rod 342 is connected to the upper surface of the fixed block 341 by welding, the upper surface of the pressing block 343 is welded to the end of the fixed rod 342, the pressing block 343 and the bottom of the lower press 34 are integrated, the fixed block 341 is in a truncated cone shape with a large upper part and a small lower part, the fixed rod 342 is vertically downward, the left and right sides of the pressing block 343 are curved in an arc shape, the surface of the pressing block 343 is made of rubber, the pressing block 343 is favorably supported by the fixed block 341 and the fixed rod 342, and the bottom of the tile-shaped carton after entering.

In the figure, the pressing block 343 is composed of a buffering cavity a1, a fixing plate a2, a rubber spring a3 and a pressing plate a4, the fixing plate a2 is horizontally welded inside the buffering cavity a1, the rubber spring a3 is connected between the two fixing plates a2 through vertical embedding, the upper surface of the pressing plate a4 is connected with the lower surface of the film laminating box 3, the fixing plate a2 is made of solid material, and the rubber spring a3 has downward thrust in a compressed state, so that the fixing of the rubber spring a3 through the fixing plate a2 is facilitated, the bottom of the pressing plate a4 is attached to the upper surface of the tile-shaped paper box, and pressure is applied to the tile-shaped paper box conveniently.

In the drawing, the pressing plate a4 includes a fixed roller a41, guide wheels a42, a connecting rod a43 and a limiting groove a44, the fixed roller a41 is connected between the left and right inner walls of the pressing plate a4 by welding, the guide wheels a42 are nested on the outer wall of the fixed roller a41, the connecting rods a43 are connected between the two guide wheels a42 by welding, the limiting groove a44 is nested between the two guide wheels a42, the guide wheels a42 are tightly attached to the upper surface of the carton, the guide wheels a42 are made of a soft material with a smooth surface, and the three groups of connecting rods a43 are used for driving the guide wheels a42 and the connecting rods a43 to rotate around the fixed roller a41 by the movement of the carton, so that the phenomenon that the carton is stuck and stopped during film covering is avoided, and the.

The specific principle of the embodiment is as follows: the tile-shaped paper boxes are placed on the rotating rollers 2 on the inner side of the conveying belt 1, the tile-shaped paper boxes push the box door 31 from right to left to enter the film coating cavity 33 inside the film coating box 3 through the rolling of the rotating rollers 2, the tops of the paper boxes move along the bottom of the pressing device 34, the moving of the paper boxes drives the guide wheel a42 and the connecting rod a43 to rotate around the fixed roller a41, the phenomenon that the paper boxes are stuck and stopped when being coated is avoided, so that the coated films are prevented from being folded, meanwhile, the pressing plate a4 downwards extrudes the upper surfaces of the paper boxes under the pushing force of the rubber spring a3, the bottoms of the paper boxes are tightly attached to the upper surfaces of the film coating platforms 35, the film coating is facilitated for the tile-shaped.

Example 2:

In the figure, the laminating table 35 comprises an empty groove 351, a supporting spring 352, a laminating plate 353 and a pressing roller 354, wherein the empty groove 351 is embedded inside the laminating table 35, the bottom of the supporting spring 352 is fixedly connected to the bottom of the empty groove 351, the lower surface of the laminating plate 353 is connected to the top end of the supporting spring 352 through welding, the pressing roller 354 is connected inside the laminating plate 353 through bolts, the elastic force of the supporting spring 352 is greater than the gravity of the laminating plate 353, a film is arranged on the upper surface of the laminating plate 353, and the top of the pressing roller 354 and the upper surface of the laminating plate 353 are located on the same horizontal plane, so that the laminating plate 353 has upward supporting force under the support of the supporting spring 352, and the surface of the laminating plate 353 is tightly attached to the lower surface of a tile-type paper box.

In the figure, the pressing roller 354 is composed of a fixed shaft b1, a rotating ball b2, a rotating drum b3, a supporting rod b4 and a pressing block b5, the rotating ball b2 is connected to the outer surface of the fixed shaft b1 through movable clamping, the rotating drum b3 is nested outside the rotating ball b2, one end of the supporting rod b4 is embedded in the outer surface of the rotating drum b3, the pressing block b5 is connected to the other end of the supporting rod b4 through welding, the pressing block b5 is made of rubber materials and has elasticity, the supporting rod b4 is distributed on the outer surface of the rotating drum b3 in an annular shape, the supporting force of the supporting rod b4 is greater than the gravity of the pressing block b5, and the pressing block b5 is favorably provided with outward pushing force through the supporting rod b4 on the surface of the rotating drum b3, so that the pressing block b5 can push the film to be sunk into the.

In the drawing, the supporting rod b4 comprises a bottom plate b41, a push rod b42, a push rod b43 and a limit ring b44, the bottom plate b41 is embedded at the bottom of the supporting rod b4, the bottom of the push rod b42 is connected to the upper surface of the bottom plate b41 through welding, the bottom of the push rod b43 is connected with the top end of the push rod b42, the limit ring b44 is embedded on the outer surface of the push rod b43, the push rod b42 has upward thrust, and the top of the push rod b43 is arc-shaped and concave, so that the push rod b43 pushes the extrusion block b5 outwards under the thrust of the push rod b42, and the extrusion block b5 is convenient to sink into the concave position on the.

The specific principle of the embodiment is as follows: the tile-shaped carton entering the film coating cavity 33 clings to the surface of the film coating table 35 to move from right to left under the extrusion of the lower press 34, so that the film coating plate 353 downwards extrudes the supporting spring 352, the film on the film coating plate 353 after being heated and softened by the hot pressing roller is attached to the bottom of the carton under the supporting force of the supporting spring 352, meanwhile, the press roller 354 is driven to rotate under the movement of the carton, so that the pressing block b5 drives the supporting rod b4 and the rotary cylinder b3 to rotate around the fixed shaft b1, the push rod b43 upwards pushes the pressing block b5 under the upward elastic force of the push rod b42, so that the pressing block b5 can push the film to sink into the concave part on the surface of the tile-shaped carton, bubbles are prevented from existing between the film and the.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims

1. The utility model provides an automatic tectorial membrane transportation equipment of tile type carton, its structure includes conveyer belt (1), changes roller (2), tectorial membrane case (3), heating cabinet (4), it connects in conveyer belt (1) inboard through movable block to change roller (2), tectorial membrane case (3) bottom is through welded connection in conveyer belt (1) upper surface, heating cabinet (4) are built in conveyer belt (1) bottom, its characterized in that:

tectorial membrane case (3) are including chamber door (31), deflector roll (32), tectorial membrane chamber (33), depressor (34), tectorial membrane platform (35), hinged joint is passed through in tectorial membrane case (3) right wall in chamber door (31), deflector roll (32) are through bolted connection inner wall under tectorial membrane case (3), tectorial membrane chamber (33) are inlayed and are located inside tectorial membrane case (3), inner wall on tectorial membrane case (3) is passed through welded connection in bottom in depressor (34) top down, tectorial membrane platform (35) are through bottom in tectorial membrane case (3) through the clearance connection.

2. The automatic laminating and transporting equipment for tile-shaped cartons as claimed in claim 1, wherein: the lower pressing device (34) comprises a fixed block (341), a fixed rod (342) and a pressing block (343), the upper surface of the fixed block (341) is embedded and fixed on the upper inner wall of the lower pressing device (34), the top end of the fixed rod (342) is connected to the upper surface of the fixed block (341) through welding, the upper surface of the pressing block (343) is welded with the tail end of the fixed rod (342), and the bottoms of the pressing block (343) and the lower pressing device (34) are of an integrated structure.

3. The automatic laminating and transporting equipment for tile-shaped cartons as claimed in claim 2, wherein: the pressing block (343) consists of a buffer cavity (a1), fixing plates (a2), rubber springs (a3) and a pressing plate (a4), the fixing plates (a2) are horizontally welded inside the buffer cavity (a1), the rubber springs (a3) are vertically embedded and fixedly connected between the two fixing plates (a2), and the upper surface of the pressing plate (a4) is connected with the lower surface of the film coating box (3).

4. The automatic laminating and transporting equipment for tile-shaped cartons as claimed in claim 3, wherein: the pressing plate (a4) comprises a fixed roller (a41), guide wheels (a42), a connecting rod (a43) and a limiting groove (a44), the fixed roller (a41) is connected between the left inner wall and the right inner wall of the pressing plate (a4) through welding, the guide wheels (a42) are nested on the outer wall of the fixed roller (a41), the connecting rod (a43) is connected between the two guide wheels (a42) through welding, and the limiting groove (a44) is embedded between the two guide wheels (a 42).

5. The automatic laminating and transporting equipment for tile-shaped cartons as claimed in claim 1, wherein: the film coating platform (35) comprises an empty groove (351), a supporting spring (352), a film coating plate (353) and a pressing roller (354), wherein the empty groove (351) is embedded in the film coating platform (35), the bottom of the supporting spring (352) is fixedly connected to the inner bottom of the empty groove (351), the lower surface of the film coating plate (353) is connected to the top end of the supporting spring (352) through welding, and the pressing roller (354) is connected to the inner portion of the film coating plate (353) through a bolt.

6. The automatic laminating and transporting equipment for tile-shaped cartons as claimed in claim 5, wherein: the pressing roller (354) is composed of a fixed shaft (b1), a rotating ball (b2), a rotating drum (b3), a supporting rod (b4) and a pressing block (b5), wherein the rotating ball (b2) is connected to the outer surface of the fixed shaft (b1) through movable clamping, the rotating drum (b3) is nested on the outer side of the rotating ball (b2), one end of the supporting rod (b4) is embedded and fixed on the outer surface of the rotating drum (b3), and the pressing block (b5) is connected to the other end of the supporting rod (b4) through welding.

7. The automatic laminating and transporting equipment for tile-shaped cartons as claimed in claim 6, wherein: the supporting rod (b4) comprises a bottom plate (b41), a push rod (b42), a top rod (b43) and a limiting ring (b44), the bottom plate (b41) is embedded at the inner bottom of the supporting rod (b4), the bottom of the push rod (b42) is connected to the upper surface of the bottom plate (b41) through welding, the bottom of the top rod (b43) is connected with the top end of the push rod (b42), and the limiting ring (b44) is nested on the outer surface of the top rod (b 43).