CN113232079A - Production equipment and system for anti-seepage transfer paper - Google Patents

Abstract

The invention provides production equipment and a system of anti-seepage transfer paper, which comprise a rack, a paper placing roller, a paper collecting roller, a dividing knife and an anti-seepage transfer paper roll, wherein transparent dust-blocking glass is embedded on each surface of the rack, and a plurality of transparent dust collecting components capable of collecting dust are embedded in the vertical and vertical direction of each dust-blocking glass positioned on each side surface of the rack in an equal and adjacent row; each group of dust collection components comprises a pretreatment component capable of performing pretreatment on dust, a dust collection component capable of absorbing the dust and a dust collection groove. This kind of prevention of seepage passes through production facility and system of shifting paper can play and make the device of cutting possess the function of gathering dust, even if pass through the prevention of seepage and shift the scroll cutting in-process and produce the dust, the dust can not raise outward yet, has avoided the effect that the dust produced harmful effects to operating personnel is healthy.

Description

Production equipment and system for anti-seepage transfer paper

Technical Field

The invention relates to the technical field of transfer paper production, in particular to anti-seepage transfer paper production equipment and a system thereof.

Background

In the process of transporting the packaged product, if wet weather occurs, the packaging material in the prior art is easy to damage the packaged product due to the fact that external moisture is easy to contact the packaged product through the transfer paper.

In view of the above problems, a great deal of search has been conducted to find a process and equipment for producing impermeable transfer paper with patent No. CN201811521500.4, which comprises the following steps: the production equipment comprises S1 mixing, S2 filtering, S3 compounding and S4 slitting, and comprises the following steps: the device comprises a mixing device for preparing a mixture, a filtering device for filtering the mixture, a detecting device for measuring viscosity, a compounding device for compounding to form transfer paper and a slitting device for slitting the transfer paper; the transfer paper produced by the patent has the anti-seepage characteristic, and the anti-seepage performance of the transfer paper is obviously improved through the combination of the production equipment.

But the technical scheme that this patent provided does not possess the function of gathering dust to cutting device, produces more piece and dust easily in the transfer scroll cutting process of permeating to the prevention of seepage, and the dust is not in time handled and is raised outward easily, will produce the technical problem who harms operating personnel health.

Disclosure of Invention

The invention aims to solve the technical problems in the background technology and provides a production device and a system for anti-seepage transfer paper.

In order to achieve the purpose, the invention provides the following technical scheme: the production equipment of the anti-seepage transfer paper comprises a rack, a paper placing roller, a paper collecting roller, a dividing knife and the anti-seepage transfer paper roll, wherein transparent dust-proof glass is embedded on each surface of the rack, and a plurality of transparent dust collecting assemblies capable of collecting dust are embedded in vertically and equidistantly arranged on each dust-proof glass positioned on each side surface of the rack;

each group of dust collection assemblies comprises a pretreatment assembly capable of carrying out pretreatment on dust, a dust collection assembly capable of absorbing the dust and a dust collection groove.

Further preferred embodiments: every group the outward appearance of subassembly that gathers dust all is inside hollow whistle type form, every group the upper end, the middle-end and the lower extreme position of subassembly that gather dust are equallyd divide and are do not fixed mounting have preprocessing subassembly, dust absorption subassembly and dust collecting tank.

Further preferred embodiments: each group of pretreatment components comprises an inclined plate, a dust collection frame and a slide rail.

Further preferred embodiments: the inclined angle between each inclined plate and the horizontal plane is 60 degrees, the dust collection frame is fixedly installed at the bottom end of the outer surface of the bottom side of each inclined plate in the vertical direction, and a sliding rail is fixedly installed at the tail end of each inclined plate.

Further preferred embodiments: every the inside bottom position of slide rail all slidable mounting has the draw runner, every the outward appearance of draw runner all is the crescent hook shape of protruding concave up-down, every the draw runner all is located every under normal conditions the inside bottom position of slide rail.

Further preferred embodiments: the left end head of the outer surface of the bottom side of each sliding strip is fixedly connected with a thin rope, each thin rope is fixedly provided with an air bag in a surrounding mode, and clear water is pre-installed in the inner position of each air bag.

Further preferred embodiments: each group of dust collection assemblies comprises an arc plate and a dust control assembly capable of controlling dust to enter, and each group of dust control assembly comprises a rotating shaft and a balance plate.

Further preferred embodiments: every the equal fixed mounting in bottom afterbody position of slide rail has the inside arc board that is the cavity form, every the right-hand central point of arc board puts all to be the rotation of front and back horizontal direction and installs the pivot, every the surface of pivot all encircles fixed mounting and has the balance plate, every the static balanced state of level about the balance plate all is under normal conditions the equal fixed mounting in bottom afterbody position of arc board has the ash collecting groove.

Further preferred embodiments: every the equal fixed mounting in inside top prelude position of arc board has the stopper, every the equal fixed mounting in inside position of arc board has the gasbag, every the right-hand member bottom position of gasbag is in every the intercommunication has the pipe all to run through on the arc board, every the inside head end entry position fixed mounting of pipe has the baffle, every the central point of baffle puts and has seted up the export and inlay in this exit activity and be equipped with the sheet metal, every the thickness of sheet metal all is less than every the thickness of baffle.

Further preferred embodiments: a system for producing an impermeable transfer paper, said system comprising the steps of:

s1: putting an anti-seepage transfer paper roll to be cut, and connecting a cutting knife with an external power supply to perform cutting operation;

s2: analyzing whether dust is raised in the rack in real time, if so, performing S3, and if not, continuously cutting the paper roll;

s3: the dust enters the dust collecting assembly of each dust blocking glass;

s4: the right end of the balance plate of the dust pressing and controlling assembly rotates clockwise and slides into the dust collecting groove;

s5: the left end of the balance plate pushes the sliding strip to slide upwards in the sliding rail, and meanwhile, the thin rope is pulled;

s6: the thin rope presses the clean water in the air bag to be led out to the dust collecting groove through the guide pipe so as to be wetted with dust and prevent the dust from rising outwards.

Has the advantages that:

1. the production equipment of the anti-seepage transfer paper is provided with the dust collection assembly, utilizes the lever and the negative pressure principle, and can fully prevent dust from overflowing through the rack under the combined action of a plurality of dust collection assemblies;

2. according to the production equipment of the anti-seepage transfer paper, the pretreatment assembly is arranged, and by utilizing the negative pressure principle, when no dust is generated in the rack, the slide bar in the slide rail of the pretreatment assembly is positioned at the bottom end of the slide rail, the string on the slide bar is in a natural extension state, and the air bag surrounded by the string is naturally expanded and does not deform; when dust is generated in the rack, the state can be gradually broken, namely, after the dust floats into the rack through the right end of the inclined plate of the pretreatment assembly, the dust is firstly pre-collected by the dust collection rack of the pretreatment assembly and then continuously falls into the dust collection assembly triggering the dust collection assembly to move (the dust finally falls into the dust collection groove of the dust collection assembly), so that the sliding strip slides upwards in the sliding rail, the sliding strip pulls the thin rope upwards to extrude the air in the air bag to deform, and further, clear water in the air bag is outwards guided into the dust collection groove to wet the previously collected dust, and the dust is prevented from being continuously lifted outwards;

3. according to the production equipment of the anti-seepage transfer paper, the dust collection assembly is arranged, and by utilizing the lever and negative pressure principle, when no dust is generated in the rack, the balance plate of the dust control assembly of the dust collection assembly is in a horizontal static balance state, and the thin plate in the guide pipe on the air bag in the arc plate of the dust collection assembly is not deformed; when dust is generated in the rack, the state can be gradually broken, namely when the dust falls into the right end of the balance plate, the balance plate can rotate clockwise under the action of a lever principle (the dust collection frame of the pretreatment assembly can prevent the balance plate from moving excessively), the dust on the right end of the balance plate can slide into the dust collection groove, the left end of the balance plate can simultaneously push a slide bar in a slide rail of the pretreatment assembly to slide, the air bag is pulled through a thin rope, the gas in the air bag flows towards the outlet direction of the baffle plate of the guide pipe under the action of a negative pressure principle, and the thin plate is thinner than the baffle plate, so that after being pushed by the gas in the air bag, the outward convex deformation is easy to occur, a gap is generated between the thin plate and the baffle plate, and at the moment, the clean water in the air bag can be guided out to the dust collection groove through the guide pipe along the gap to be wetted with the dust; after the dust on the right end of the balance plate falls off, the balance plate can rotate anticlockwise to return to the original position, the balance plate can keep horizontal to prevent the dust in the dust collecting groove from rising outwards, clear water flowing down through the inner wall of the arc plate can be fully mixed with the dust in the dust collecting groove to be wetted, and the balance plate collects and treats the dust after the next dust amount enters, so that the dust is convenient to absorb;

4. to sum up, this kind of prevention of seepage passes through production facility of transfer paper through the combined action of subassembly, preliminary treatment subassembly and dust absorption subassembly etc. of gathering dust, can make the device of cutting possess the function of gathering dust, even if pass through the prevention of seepage and shift the scroll cutting in-process and produce the dust, the dust can not raise outward yet, has avoided the dust to the healthy harmful effects that produces of operating personnel.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 3B according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 3 at C according to the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5;

FIG. 7 is an enlarged view of E of FIG. 6 according to the present invention;

FIG. 8 is a schematic flow chart of the system of the present invention;

in FIGS. 1-8: 1-a frame; 101-a paper discharge roller; 102-a paper collecting roller; 103-a cutting knife; 2-anti-infiltration transfer paper roll; 3-dust-proof glass;

4-dust collecting assembly; 401-a pre-processing component; 402-a dust extraction assembly; 403-ash collecting groove;

4011-an inclined plate; 4012-dust rack; 4013-slide rail;

4021-arc plate; 4022-a dust control assembly;

40221-a rotating shaft; 40222-a balance plate;

40131-a slider; 40132-string;

40211-a limiting block; 40212-balloon; 40213-clear water;

40214-a catheter; 40215-baffle plate; 40216-thin plate.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 8 in the embodiment of the present invention.

Example 1

Referring to fig. 1-3, in the embodiment of the present invention, an apparatus for producing anti-seepage transfer paper includes a frame 1, a paper discharge roller 101, a paper collection roller 102, a dividing knife 103, and an anti-seepage transfer paper roll 2, wherein transparent dust-blocking glass 3 is embedded on each surface of the frame 1, and the apparatus is characterized in that: each dust-blocking glass 3 positioned on each side surface of the frame 1 is embedded with a plurality of transparent dust collecting components 4 capable of collecting dust in an up-down vertical direction in an equal adjacent and separated manner;

the dust blocking glass 3 and the dust collecting component 4 are both transparent, so that the cutting operation and the dust flying condition of the anti-seepage transfer paper roll 2 in the rack 1 can be observed conveniently outside;

each dust collecting assembly 4 comprises a pretreatment assembly 401 capable of performing pretreatment on dust, a dust collecting assembly 402 capable of collecting dust, and a dust collecting groove 403.

In the embodiment of the invention, the appearance of each group of dust collection assemblies 4 is in a whistle shape with a hollow interior, and the positions of the upper end, the middle end and the lower end of each group of dust collection assemblies 4 are respectively and fixedly provided with a pretreatment assembly 401, a dust collection assembly 402 and a dust collection groove 403;

here, the dust collecting unit 4 is designed to have a whistle-like shape with a hollow interior, so that dust is introduced from the upper portion of the right end of the whistle tail of the whistle-like dust collecting unit 4 and finally falls into the whistle-like dust collecting groove 403 of the dust collecting unit 4.

This kind of production facility of prevention of seepage transmission transfer paper, through being provided with subassembly 4 that gathers dust, utilize lever and negative pressure principle, in the in-process is cut to prevention of seepage transmission transfer scroll 2 to cutting knife 103, the dust of production can firstly fly into through the upper right end entrance of subassembly 4 that gathers dust in frame 1, the preliminary treatment subassembly 401 of subassembly 4 that gathers dust carries out primary absorption treatment to the dust, make the dust absorption subassembly 402 of subassembly 4 that gathers dust take place to remove and fall into to the dust collecting tank 403 of subassembly 4 that gathers dust under the lever principle effect after that, wherein dust absorption subassembly 402 can trigger the material that can prevent the dust and raise outward under the in-process of removal principle of negative pressure and flow into the dust collecting tank 403 in, so under a plurality of dust absorption subassembly 4's combined action, can fully stop the dust and spill over in frame 1 again.

Example 2

Referring to fig. 3-5, the embodiment of the present invention differs from embodiment 1 in that: each set of pretreatment modules 401 comprises a sloping plate 4011, a dust collection rack 4012 and a slide rail 4013.

In the embodiment of the invention, the included angle between each inclined plate 4011 and the horizontal plane is 60 degrees, the bottom position of the outer surface of the bottom side of each inclined plate 4011 is fixedly provided with a dust collection frame 4012 in the vertical direction, and the tail end position of each inclined plate 4011 is fixedly provided with a slide rail 4013;

here, setting the angle between the sloping plate 4011 and the horizontal plane to 60 ° is to increase the range of the dust entering the dust collecting assembly 4 and increase the dust collecting amount.

In the embodiment of the invention, the bottom end position inside each sliding rail 4013 is slidably provided with a sliding strip 40131, the appearance of each sliding strip 40131 is in a sickle shape with a convex lower part and a concave upper part, and each sliding strip 40131 is positioned at the bottom end position inside each sliding rail 4013 under the normal condition;

the slide 40131 is designed to have a sickle shape with a concave-convex shape, so that the sickle head of the slide 40131 can slide in the slide rail 4013, and the sickle with the concave-convex shape is pushed by the dust collection assembly 402 outside the slide rail 4013 so that the sickle head can slide upwards.

In the embodiment of the invention, the head of the left end of the outer surface of the bottom side of each slide bar 40131 is fixedly connected with a string 40132, each string 40132 is fixedly provided with an air bag 40212 in a surrounding manner, and the inner position of each air bag 40212 is pre-filled with clear water 40213;

the air bag 40212 guides the clean water 40213 in the air bag to the dust collecting tank 403 by using the negative pressure principle to prevent dust from wetting and flying out.

According to the production equipment of the anti-seepage transfer paper, the pretreatment assembly 401 is arranged, and by utilizing the negative pressure principle, when no dust is generated in the frame 1, the slide bar 40131 in the slide rail 4013 of the pretreatment assembly 401 is positioned at the bottom end of the slide rail 4013, the string 40132 on the slide bar 40131 is in a natural extension state, and the air bag 40212 surrounded by the string 40132 is naturally expanded and does not deform; however, when dust is generated in the machine frame 1, the state is gradually broken, that is, after the dust drifts in through the right end of the inclined plate 4011 of the pretreatment module 401, the dust is firstly pre-collected by the dust collection rack 4012 of the pretreatment module 401, and then continuously falls into the dust collection module 402 of the trigger dust collection module 4 to move (the dust finally falls into the dust collection groove 403 of the dust collection module 4), so that the slide bar 40131 slides upwards in the slide rail 4013, the slide bar 40131 pulls the string 40132 upwards, the air in the air bag 40212 is squeezed to deform, and the clean water 40213 in the air bag 40212 is led out to the dust collection groove 403 to wet the dust collected previously, and the dust is prevented from further flying outwards.

Example 3

Referring to fig. 3 and fig. 6 to 7, the embodiment of the present invention is different from embodiment 1 in that: each dust collection assembly 402 comprises an arc plate 4021 and a dust control assembly 4022 capable of controlling dust to enter, and each dust control assembly 4022 comprises a rotating shaft 40221 and a balance plate 40222.

In the embodiment of the invention, the tail position of the bottom end of each sliding rail 4013 is fixedly provided with an arc plate 4021 with a hollow interior, the right central position of each arc plate 4021 is rotatably provided with a rotating shaft 40221 in the front-back horizontal direction, the outer surface of each rotating shaft 40221 is fixedly provided with a balance plate 40222 in a surrounding manner, each balance plate 40222 is in a left-right horizontal static balance state under a normal condition, and the tail position of the bottom end of each arc plate 4021 is fixedly provided with a dust collecting groove 403;

here, the arc plate 4021 having a hollow inside is used for the pre-filled air bag 40212, and the balance plate 40222 is used for controlling the dust to enter and be collected and preventing the dust from being raised by using the lever principle.

In the embodiment of the invention, a limiting block 40211 is fixedly installed at the head part of the top end inside each arc plate 4021, an air bag 40212 is fixedly installed at the inside position inside each arc plate 4021, the bottom part of the right end of each air bag 40212 is communicated with a guide pipe 40214 through each arc plate 4021, a baffle 40215 is fixedly installed at the inlet position of the front end inside each guide pipe 40214, an outlet is formed in the center of each baffle 40215, a thin plate 40216 is movably embedded at the outlet, and the thickness of each thin plate 40216 is smaller than that of each baffle 40215;

the thickness of the sheets 40216 is smaller than that of the baffles 40215, so that the sheets 40216 are easier to deform than the baffles 40215 under the negative pressure principle to form a gap to guide out the clean water 40213 in the air bag 40212.

According to the production equipment of the anti-seepage transfer paper, the dust collection assembly 402 is arranged, and by utilizing the lever and negative pressure principle, when no dust is generated in the frame 1, the balance plate 40222 of the dust control assembly 4022 of the dust collection assembly 402 is in a horizontal static balance state, and the thin plate 40216 in the guide pipe 40214 on the air bag 40212 in the arc plate 4021 of the dust collection assembly 402 is not deformed; however, when dust is generated in the housing 1, such a state is gradually broken, that is, when dust falls on the right end of the balance plate 40222 as described above, under the action of a lever principle, the balance plate 40222 rotates clockwise (the dust collecting rack 4012 of the pretreatment assembly 401 can prevent the balance plate 40222 from moving over), dust on the right end of the balance plate 40222 slides into the dust collecting groove 403, the left end of the balance plate 40222 can push the slide bar 40131 in the slide rail 4013 of the pretreatment assembly 401 to slide, the air bag 40212 is pulled through the string 40132, the gas in the air bag 40212 flows toward the outlet of the baffle 40215 of the conduit 40214 under the negative pressure principle, and the sheet 40216 is thinner than the baffle 40215, so that it is likely to be deformed outwardly when pushed by the gas in the air bag 40212, so as to form a gap with the baffle 40215, and at this time, the clean water 40213 in the air bag 40212 is guided out to the dust collecting tank 403 through the guide pipe 40214 along the gap; after the dust on the right end of the balance plate 40222 falls off, the balance plate 40222 rotates counterclockwise to return, at this time, the balance plate 40222 can be kept horizontal to prevent the dust in the dust collecting groove 403 from rising, the clean water 40213 flowing down through the inner wall of the arc plate 4021 can be fully mixed with the dust in the dust collecting groove 403 to wet, the balance plate 4022 collects the dust after the next dust amount enters, and the dust is convenient to absorb.

Example 4

Referring to fig. 8, the embodiment of the present invention is different from embodiment 1 in that: a system for producing an impermeable transfer paper, said system comprising the steps of:

s1: putting the anti-seepage transfer paper roll 2 to be cut, and connecting the cutting knife 103 with an external power supply to perform cutting operation;

s2: analyzing whether dust is raised in the rack 1 in real time, if so, performing S3, and if not, continuously cutting the paper roll;

s3: dust enters the dust collection assembly 4 of each dust blocking glass 3;

s4: the right end of the balance plate 40222 of the dust pressing and controlling assembly 4022 rotates clockwise and slides into the dust collecting groove 403;

s5: the left end of the balance plate 40222 pushes the slide bar 40131 to slide upwards in the slide rail 4013, and meanwhile, the string 40132 is pulled;

s6: the string 40132 presses the clean water 40213 in the air bag 40212 out of the dust collecting tank 403 through the conduit 40214 to wet the dust and prevent the dust from flying out.

Claims (10)

1. The utility model provides a production facility that prevention of seepage passed transfer paper, includes frame (1), puts paper roll (101), delivery roll (102), cut apart sword (103) and prevention of seepage and pass transfer scroll (2), transparent dust glass (3), its characterized in that are all installed to each side of frame (1): each dust-blocking glass (3) positioned on each side surface of the rack (1) is embedded with a plurality of transparent dust collecting components (4) capable of collecting dust in an up-down vertical direction in an equal adjacent and separated manner;

each group of dust collection assemblies (4) comprises a pretreatment assembly (401) capable of performing pretreatment on dust, a dust collection assembly (402) capable of absorbing dust and a dust collection groove (403).

2. The apparatus for producing a transfer impermeable paper as claimed in claim 1, wherein: the appearance of each group of dust collection components (4) is in a whistle shape with a hollow interior.

3. The apparatus for producing a transfer impermeable paper as claimed in claim 1, wherein: each group of pretreatment components (401) comprises inclined plates (4011), and the included angle between each inclined plate (4011) and the horizontal plane is 60 degrees.

4. The apparatus for producing a transfer impermeable paper as claimed in claim 1, wherein: the pretreatment component (401) further comprises a sliding rail (4013).

5. The apparatus for producing a transfer impermeable paper as claimed in claim 4, wherein: each slide rail (4013) is provided with a slide bar (40131), and the appearance of each slide bar (40131) is in the shape of a sickle with a convex lower part and a concave upper part.

6. The apparatus for producing a transfer impermeable paper as claimed in claim 1, wherein: each group of dust collection components (402) comprises an arc plate (4021) with a hollow interior.

7. The apparatus for producing a transfer impermeable paper as claimed in claim 1, wherein: each group of dust collection assembly (402) also comprises a balance plate (40222), and each balance plate (40222) is in a left-right horizontal static balance state under normal conditions.

8. The apparatus for producing an impermeable transfer paper according to claim 7, wherein: each arc plate (4021) is provided with an air bag (40212), and each air bag (40212) is pre-filled with clear water (40213).

9. The apparatus for producing an impermeable transfer paper according to claim 8, wherein: each air bag (40212) is provided with a baffle (40215) and a thin plate (40216), and the thickness of each thin plate (40216) is smaller than that of each baffle (40215).

10. A production system of anti-seepage transfer paper is characterized in that: the system comprises the following steps:

s1: putting an anti-seepage transfer paper roll (2) to be cut, and connecting a cutting knife (103) with an external power supply to perform cutting operation;

s2: analyzing whether dust is raised in the rack (1) in real time, if so, performing S3, and if not, continuously cutting the paper roll;

s3: dust enters the dust collection assembly (4) of each dust blocking glass (3);

s4: the right end of a balance plate (40222) of the dust pressing and controlling assembly (4022) rotates clockwise and slides into the dust collecting groove (403);

s5: the left end of the balance plate (40222) pushes the sliding strip (40131) to slide upwards in the sliding rail (4013), and meanwhile, the string (40132) is pulled;

s6: the string (40132) presses the clean water (40213) in the air bag (40212) to be guided out to the dust collecting groove (403) through the conduit (40214) to be wetted with dust and prevented from rising.

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