CN114275243A - Antibacterial package production equipment and method thereof - Google Patents

Abstract

The invention provides an antibacterial package production device and a method thereof, the antibacterial package production device comprises a workbench, the workbench is sequentially provided with a film sticking mechanism, a pressing and drying mechanism, a discharging mechanism, a sealing mechanism, a die cutting mechanism and a residual material winding mechanism from left to right, a wrapping paper on a first paper roll passes through a supporting roll set, a supporting frame, the pressing and drying mechanism, the discharging mechanism, the sealing mechanism and the die cutting mechanism by bypassing a first guide roll set and is fixed on a winding roll, a film on the film roll passes through a second guide roll set, the supporting frame near one side of the pressing and drying mechanism, the discharging mechanism, the sealing mechanism and the die cutting mechanism and is fixed on the winding roll, the wrapping paper on the second paper roll or the wrapping paper with the film is passed through a third guide roll set and is fixed on the winding roll, a driving motor is started to realize the antibacterial bag production, the whole process reduces the workload of workers, reduces the working strength of the workers and greatly improves the working efficiency.

Description

Antibacterial package production equipment and method thereof

Technical Field

The invention relates to the technical field of charcoal production and preparation, in particular to antibacterial packaging production equipment and a method thereof.

Background

The raw material of the mildew-proof antibacterial bag is natural mineral and is aluminium silicate with stable chemical property. The product takes natural plant fiber as a moisture absorption carrier, can be naturally degraded by 100 percent, and belongs to an environment-friendly drying agent. It is made up by using pure natural mineral, and does not contain any additive, corrosive material and chloride. The pH value of the paint is neutral, and the paint has no corrosion to any metal. Can be widely used for moisture prevention of high-grade products such as textiles, shoes, clothes, electronics, electrical appliances, machinery, medicines, food and the like.

The antibacterial packages are small in size and low in mass production efficiency during production, the interiors of most of the antibacterial packages need to be coated with films, and production enterprises purchase coated packages for production, so that the investment cost of the enterprises is increased, and the antibacterial package production equipment and the method are provided for reducing the investment cost of the enterprises.

Disclosure of Invention

The embodiment of the invention provides an antibacterial package production device and an antibacterial package production method.

In view of the above problems, the technical solution proposed by the present invention is:

an antibacterial package production apparatus comprising:

the production equipment of the antibacterial bag comprises a workbench, and the workbench is sequentially provided with a film sticking mechanism, a pressing and drying mechanism, a discharging mechanism, a sealing mechanism, a die cutting mechanism and a residual material winding mechanism from left to right;

the film sticking mechanism comprises a first fixing frame, a second fixing frame and a third fixing frame, a first paper roller and a first guide roller set are mounted on the first fixing frame through a bearing, a glue storage box, a glue distribution pipe and a support roller set are mounted on the second fixing frame, the bottom surface of the glue storage box is communicated with an electromagnetic valve, the center of the top surface of the glue distribution pipe is communicated with the electromagnetic valve, and a film roller and a second guide roller set are arranged on the third fixing frame;

the pressing and drying mechanism comprises a first pressing group, a second pressing group, a third pressing group, a dryer and an outer shell, the outer shell is in an arch shape, the first pressing group, the second pressing group and the third pressing group are identical in structure and are sequentially arranged inside the outer shell from left to right, the first pressing group, the second pressing group and the third pressing group respectively comprise a first pressing roller and a second pressing roller, the first pressing roller is arranged under the second pressing roller, the dryer is arranged on the top surface of the outer shell, and an air outlet of the dryer is communicated with the inside of the outer shell;

the discharging mechanism comprises a fourth fixing frame, a fifth fixing frame, a sixth fixing frame and a discharging base, the discharging base is arranged on the top surface of the workbench and is positioned on the right side of the pressing and drying mechanism, a material storage box is arranged on the fourth fixing frame, the bottom surface of the material storage box is communicated with a plurality of material feeding pipes through the electromagnetic valve, a second paper roller and a third guide roller set are arranged on the fifth fixing frame in a bearing mode, a first connecting plate is arranged at the top end of the sixth fixing frame, first hydraulic rods are arranged at positions, close to two ends, of the bottom surface of the first connecting plate, a first hot melting mechanism is arranged at the pushing end of each first hydraulic rod, a plurality of through grooves are formed in the surface of the discharging base, fixing plates are arranged at positions, close to two ends, of the top surface of the discharging base is fixed to the positions, through bolts, pressing strips are arranged inside the through grooves, the number of the pressing strips in each through groove is two, the pressing strips are vertically arranged, and two ends of each pressing strip are fixedly arranged on the bottom surfaces of the two fixing plates respectively;

the sealing mechanism comprises a seventh fixing frame, a second connecting plate, a second hot melting mechanism and a hot melting base, the second connecting plate is horizontally arranged at the top end of the seventh fixing frame, second hydraulic rods are arranged at the bottom surface of the second connecting plate close to two ends of the second connecting plate, the pushing end of each second hydraulic rod is fixedly connected with the top surface of the second hot melting mechanism, and the hot melting base is arranged right below the second hot melting mechanism;

the die-cutting mechanism comprises an eighth fixing frame, a third connecting plate, a fixing block and a die-cutting base, the third connecting plate is arranged at the top end of the eighth fixing frame, third hydraulic rods are arranged at the positions, close to the two ends, of the bottom surface of the third connecting plate, the pushing ends of the third hydraulic rods are fixedly connected with the fixing block, a plurality of die-cutting blocks are arranged on the bottom surface of the fixing block, and the die-cutting base is arranged right below the fixing block;

excess material winding mechanism includes ninth mount, wind-up roll and driving motor, the wind-up roll bearing install in on the ninth mount, driving motor fixed mounting in one side of ninth mount, just driving motor's output pass through transmission group with the wind-up roll transmission is connected.

In an embodiment of the invention, the first fixing frame is arranged on the left side of the workbench, the second fixing frame and the third fixing frame are sequentially arranged on the top surface of the workbench from left to right, the top surface of the workbench is provided with supporting frames at the left side and the right side of the third fixing frame, the glue distribution pipe is horizontally arranged, the central axis of the glue distribution pipe is parallel to the central axis of the first paper roll and the central axis of the film roll, and the bottom end of the glue distribution pipe is provided with a plurality of glue outlet heads.

In an embodiment of the invention, the first press-fit group, the second press-fit group and the third press-fit group each include an upright post, a top plate and a bottom plate, two ends of the three groups of the first press-fit rollers and the second press-fit rollers are respectively provided with a fixture block, two sides of each fixture block are respectively clamped between the corresponding upright posts and are in sliding connection with the upright posts, one end of each of the three groups of the first press-fit rollers and one end of each of the three groups of the second press-fit rollers penetrate through the corresponding fixture block and are sleeved with a gear, the two gears in the same press-fit group are mutually meshed, the top surfaces of the fixture blocks at two ends of the second press-fit rollers in the three groups of the press-fit groups are respectively provided with a threaded pin in a bearing manner, the top ends of the threaded pins respectively penetrate through the top plate and are fixedly connected with a rotating handle, and the inner wall of a hole through which the top plate is penetrated by the threaded pin is provided with an internal thread which is matched with the threaded pin.

In one embodiment of the invention, the fourth fixing frame is disposed at the right side of the pressing and drying mechanism, the number of the feeding pipes is the same as that of the through grooves, each feeding pipe is arranged right above each through groove, the bottom end of each feeding pipe extends to the inside of the corresponding through groove and is close to one end of the pressing and drying mechanism, the second paper roll is arranged right above the feeding base and close to the center, the first hot melting mechanism is arranged on the top surface of the feeding base and far away from one end of the storage box, the bottom surface of the first hot melting mechanism is provided with first hot melting strips, the number of the first hot melting strips is one more than that of the through grooves, and each hot melting strip is respectively arranged right above the surface of the discharging base where the through groove is not formed, and the central shaft of each first hot melting strip is vertical to the central shaft of the second paper roll.

In an embodiment of the invention, first springs are arranged on the bottom surface of the second hot melting mechanism close to the four corners, a first pressing plate is arranged at the bottom end of each first spring, a first avoidance groove is formed in the surface of each first pressing plate, a second hot melting strip is arranged in the center of the bottom surface of the second hot melting mechanism, the second hot melting strip is arranged right above the first avoidance groove and can penetrate through the first avoidance groove, and the central axes of the first avoidance groove and the second hot melting strip are parallel to the central axis of the second paper roll.

In an embodiment of the invention, the bottom surface of the fixed block is provided with second springs near four corners, the bottom end of each second spring is provided with a second pressing plate, the surface of each second pressing plate is provided with a plurality of second avoiding grooves, the number of the second avoiding grooves is the same as that of the die cutting blocks, the second avoiding grooves and the die cutting blocks are square, the surface of the die cutting base is provided with die cutting grooves, the number of the die cutting grooves is the same as that of the die cutting blocks, and the die cutting blocks can penetrate through the second avoiding grooves and extend into the die cutting grooves.

In one embodiment of the invention, the top surface of the workbench is provided with a blanking hole, the blanking hole is arranged right below the die cutting base, and a collecting frame is arranged right below the blanking hole.

A process for upgrading a biomass poly-generation combined carbonization furnace comprises the following steps:

s1: preparing, passing one end of the wrapping paper on a first paper roll through a supporting roller set, a supporting frame, a pressing and drying mechanism, a discharging mechanism, a sealing mechanism and a die cutting mechanism around a first guide roller set, fixing the end of the film on a film roll on a winding roll, passing one end of the film on a second guide roller set, the supporting frame close to one side of the pressing and drying mechanism, the discharging mechanism, the sealing mechanism and the die cutting mechanism around the end of the film, fixing the film on the film roll on the winding roll, passing one end of the wrapping paper or the wrapping paper pasted with the film on the second paper roll through a third guide roller set, fixing the end of the wrapping paper or the wrapping paper pasted with the film on the winding roll, limiting the wrapping paper, the film and the wrapping paper or the wrapping paper pasted with the film on the second paper roll in a through groove by using a pressing strip when the wrapping paper on the first paper roll passes through the discharging mechanism, and rotating a rotating handle when the wrapping paper passes through the pressing and drying mechanism, the second pressing roller is lifted, the packaging paper on the first paper roller and the film on the film roller pass through the pressing and drying mechanism and then reversely rotate the handle, so that the two gears are meshed, and the driving motor is started to synchronously rotate the first paper roller, the second paper roller and the film roller;

s2: the packaging paper gluing method comprises the following steps that glue is poured into a glue storage box, flows out of a glue outlet head through an electromagnetic valve and a glue distribution pipe, flows to the surface of packaging paper from the glue outlet head quantitatively through the electromagnetic valve, and passes through a driving motor;

s3: laminating, wherein the first paper roller and the film roller are driven by a driving motor to rotate so that the packaging paper subjected to the step S2 is in contact with the film;

s4: pressing and drying, wherein the laminated packaging paper is compacted through the first pressing group, the second pressing group and the third pressing group, and the glue is dried through a dryer;

s5: placing antibacterial particles in a storage box, quantitatively and regularly placing the antibacterial particles through an electromagnetic valve, stacking a pile of antibacterial particles on the surface of the coated packing paper at intervals, enabling a first hot melting mechanism to move downwards through the work of a first hydraulic rod, and enabling the packing paper on a second paper roll and the coated packing paper to be welded together through a first hot melting bar in the first hot melting mechanism;

s6: sealing, wherein the second hydraulic rod works to enable the second hot melting mechanism to move downwards, the first pressure plate compresses the packaging paper passing through the S5, and the position of each pile of antibacterial particles is sealed through the second hot melting strip to finish the sealing of the antibacterial bag;

s7: and D, die cutting, wherein the third hydraulic rod works to enable the fixing block to move downwards, the second pressing plate tightly presses the packaging bag subjected to the step S6, the die cutting block penetrates through the second avoiding groove and the die cutting groove, so that the antibacterial packaging bag is cut out and falls into the collecting frame from the blanking hole.

Compared with the prior art, the invention has the beneficial effects that: one end of the wrapping paper on the first paper roll passes through the supporting roller set, the supporting frame, the pressing and drying mechanism, the discharging mechanism, the sealing mechanism and the die cutting mechanism by bypassing the first guide roller set and is fixed on the winding roller, one end of the film on the film roller passes through the second guide roller set, the supporting frame, the pressing and drying mechanism, the discharging mechanism, the sealing mechanism and the die cutting mechanism are arranged on one side of the pressing and drying mechanism and are fixed on the winding roller, one end of the wrapping paper or the wrapping paper pasted with the film on the second paper roll passes through the third guide roller set and is fixed on the winding roller, the wrapping paper on the first paper roll, the film on the film roller and the wrapping paper or the wrapping paper pasted with the film on the second paper roll are limited in the through groove by using a pressing strip when passing through the discharging mechanism, and the wrapping paper, the film and the wrapping paper or the wrapping paper pasted with the film on the second paper roll are rotated when passing through the pressing and drying mechanism, the second press-fit roller is lifted, the wrapping paper on the first paper roller and the film on the film roller pass through the press-fit drying mechanism and then reversely rotate the handle, the two gears are meshed, the driving motor is started, the first paper roller, the second paper roller and the film roller synchronously rotate, glue is poured into the glue storage box, the glue flows out from the glue outlet head through the electromagnetic valve and the glue distribution pipe, the glue quantitatively flows to the surface of the wrapping paper from the glue outlet head through the electromagnetic valve, the first paper roller and the film roller are in contact with the film through the rotation of the driving motor, the wrapping paper coated with the film is compacted through the first press-fit group, the second press-fit group and the third press-fit group, the glue is dried through the drying machine, antibacterial particles are placed in the storage box, the material is discharged quantitatively and regularly through the electromagnetic valve, a pile of antibacterial particles are stacked at intervals on the surface of the wrapping paper coated with the film, and the first hot melting mechanism moves downwards through the work of the first hydraulic rod, the first hot melting bar in the first hot melting mechanism enables the wrapping paper on the second paper roll and the wrapping paper coated with the film to be welded together, the second hydraulic rod works to enable the second hot melting mechanism to move downwards, the first pressing plate presses the wrapping paper tightly, sealing the position of each pile of antibacterial particles through a second hot melt strip to finish the sealing of the antibacterial bag, enabling the fixing block to move downwards by the work of a third hydraulic rod, tightly pressing the packaging bag by a second pressing plate, the die cutting block passes through the second avoiding groove and the die cutting groove to cut the antibacterial packaging bag and drop the antibacterial packaging bag into the collecting frame from the blanking hole so as to complete the production and collection of the antibacterial bag, this kind of fungi-proofing package production facility makes the wrapping paper from pad pasting, pressfitting stoving, feed and cross cutting, realizes the production of single antibiotic bag, and the overall process has reduced staff's work load, has reduced worker's working strength, has improved work efficiency greatly.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

FIG. 1 is a schematic perspective view of an antibacterial package production apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a film sticking mechanism according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a pressing and drying mechanism disclosed in the embodiment of the present invention;

FIG. 4 is a schematic perspective view of a discharging mechanism disclosed in the embodiment of the present invention;

fig. 5 is a schematic perspective view of a sealing mechanism according to an embodiment of the present invention;

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

FIG. 7 is a schematic perspective view of a workbench according to an embodiment of the present invention;

fig. 8 is a schematic process flow diagram of an antibacterial package production apparatus disclosed in the embodiment of the present invention.

Reference numerals: 100. a bacteria-proof pack production facility; 101. a film pasting mechanism; 10101. a first paper roll; 10102. a first guide roller set; 10103. a support roller set; 10104. distributing rubber pipes; 10105. a glue storage box; 10106. an electromagnetic valve; 10107. discharging the rubber head; 10108. a film roll; 10109. a second guide roller set; 10110. a support frame; 10111. a first fixing frame; 10112. a second fixing frame; 10113. a third fixing frame; 102. a pressing and drying mechanism; 10201. a first press-fit group; 10202. a second press fit group; 10203. a third press fit group; 10204. a column; 10205. a base plate; 10206. a top plate; 10207. a first press-fit roller; 10208. a second press-fit roller; 10209. a gear; 10210. a clamping block; 10211. turning a handle; 10212. a dryer; 10213. an outer housing; 103. a discharging mechanism; 10301. a discharge base; 10302. a through groove; 10303. a fixing plate; 10304. layering; 10305. a material storage box; 10306. a second paper roll; 10307. a first hot-melt mechanism; 10308. a first hydraulic lever; 10309. a first connecting plate; 10310. a feeding pipe; 10311. a fourth fixing frame; 10312. a fifth fixing frame; 10313. a sixth fixing frame; 104. a sealing mechanism; 10401. a second connecting plate; 10402. a second hydraulic rod; 10403. a second hot-melting mechanism; 10404. a first spring; 10405. a first platen; 10406. an avoidance groove; 10407. a second hot melt strip; 10408. hot melting the base; 10409. a seventh fixing frame; 105. a die-cutting mechanism; 10501. a third connecting plate; 10502. a third hydraulic lever; 10503. a fixed block; 10504. die cutting; 10505. a second platen; 10506. a second spring; 10507. a second avoidance slot; 10508. die cutting the base; 10509. cutting a groove by a die; 10510. an eighth fixing frame; 106. a remainder winding mechanism; 10601. a ninth fixing frame; 10602. a wind-up roll; 10603. a drive motor; 200. a work table; 2001. a blanking hole; 2002. and (5) collecting the frame.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to FIGS. 1-8, an antibacterial package manufacturing apparatus includes

The production equipment 100 for the antibacterial bags comprises a workbench 200, wherein the workbench 200 is sequentially provided with a film sticking mechanism 101, a pressing and drying mechanism 102, a discharging mechanism 103, a sealing mechanism 104, a die cutting mechanism 105 and a surplus material winding mechanism 106 from left to right;

the film sticking mechanism 101 comprises a first fixing frame 10111, a second fixing frame 10112 and a third fixing frame 10113, a first paper roller 10101 and a first guide roller set 10102 are mounted on the first fixing frame 10111 through bearings, a glue storage box 10105, a glue distribution pipe 10104 and a support roller set 10103 are mounted on the second fixing frame 10112, the bottom surface of the glue storage box 10105 is communicated with an electromagnetic valve 10106, the center of the top surface of the glue distribution pipe 10104 is communicated with the electromagnetic valve 10106, and a film roller 10108 and a second guide roller set 10109 are arranged on the third fixing frame 10113;

the pressing and drying mechanism 102 includes a first pressing group 10201, a second pressing group 10202, a third pressing group 10203, a dryer 10212 and an outer shell 10213, the outer shell 10213 is in an arch shape, the first pressing group 10201, the second pressing group 10202 and the third pressing group 10203 have the same structure and are all sequentially arranged inside the outer shell 10213 from left to right, the first pressing group 10201, the second pressing group 10202 and the third pressing group 10203 include a first pressing roller 10207 and a second pressing roller 10208, the first pressing roller 10207 is arranged right below the second pressing roller 10208, the dryer 10212 is arranged on the top surface of the outer shell 10213, and an air outlet of the dryer 10212 is communicated with the inside of the outer shell 10213;

the discharging mechanism 103 comprises a fourth fixing frame 10311, a fifth fixing frame 10312, a sixth fixing frame 10313 and a discharging base 10301, the discharging base 10301 is arranged on the top surface of the workbench 200 and positioned on the right side of the pressing and drying mechanism 102, a storage tank 10305 is arranged on the fourth fixing frame 10311, the bottom surface of the storage tank 10305 is communicated with a plurality of discharging pipes 10310 through electromagnetic valves 10106, a second paper roller 10306 and a third guide roller group are bearing-mounted on the fifth fixing frame 10312, a first connecting plate 10309 is arranged at the top end of the sixth fixing frame 10313, first hydraulic rods 10308 are respectively arranged at the bottom surface of the first connecting plate 10309 and close to two ends, a first hot melting mechanism 10307 is arranged at the pushing end of each first hydraulic rod 10308, a plurality of through grooves 10302 are arranged on the surface of the discharging base 10301, fixing plates 10303 are respectively arranged at the top surface of the discharging base 10301 and close to two ends, the fixing plates 10303 are fixed at the top surface of the discharging base 10301 and close to two ends through bolts, and a pressing strip 10304 is respectively arranged inside the through grooves 10302, the number of the pressing strips 10304 in each through groove 10302 is two, the pressing strips 10304 are vertically arranged, and two ends of each pressing strip 10304 are fixedly installed on the bottom surfaces of the two fixing plates 10303 respectively;

the sealing mechanism 104 comprises a seventh fixing frame 10409, a second connecting plate 10401, a second hot melting mechanism 10403 and a hot melting base 10408, the second connecting plate 10401 is horizontally arranged at the top end of the seventh fixing frame 10409, the bottom surface of the second connecting plate 10401, which is close to the two ends, is provided with a second hydraulic rod 10402, the pushing end of the second hydraulic rod 10402 is fixedly connected with the top surface of the second hot melting mechanism 10403, and the hot melting base 10408 is arranged right below the second hot melting mechanism 10403;

the die-cutting mechanism 105 comprises an eighth fixing frame 10510, a third connecting plate 10501, a fixing block 10503 and a die-cutting base 10508, the third connecting plate 10501 is arranged at the top end of the eighth fixing frame 10510, third hydraulic rods 10502 are arranged at the bottom surface of the third connecting plate 10501 close to the two ends, the pushing end of each third hydraulic rod 10502 is fixedly connected with the fixing block 10503, a plurality of die-cutting blocks 10504 are arranged at the bottom surface of the fixing block 10503, and the die-cutting base 10508 is arranged right below the fixing block 10503;

the excess material winding mechanism 106 comprises a ninth fixing frame 10601, a winding roller 10602 and a driving motor 10603, wherein the winding roller 10602 is mounted on the ninth fixing frame 10601 through a bearing, the driving motor 10603 is fixedly mounted on one side of the ninth fixing frame 10601, and an output end of the driving motor 10603 is in transmission connection with the winding roller 10602 through a transmission set.

As an embodiment of the invention, further, the first fixing frame 10111 is disposed on the left side of the workbench 200, the second fixing frame 10112 and the third fixing frame 10113 are sequentially disposed on the top surface of the workbench 200 from left to right, the top surface of the workbench 200 is disposed on the left and right sides of the third fixing frame 10113 and is provided with supporting frames 10110, the glue dividing tube 10104 is horizontally disposed, the central axis of the glue dividing tube 10104 is parallel to the central axis of the first paper roll 10101 and the central axis of the film roll 10108, and the bottom end of the glue dividing tube 10104 is provided with a plurality of glue outlets 10107.

As an embodiment of the invention, further, each of the first press-fit group 10201, the second press-fit group 10202 and the third press-fit group 10203 includes a vertical column 10204, a top plate 10206 and a bottom plate 10205, two ends of each of the three groups of first press-fit rollers 10207 and second press-fit rollers 10208 are provided with a fixture block 10210, two sides of each fixture block 10210 are respectively clamped between the corresponding vertical columns 10204 and are slidably connected with the vertical column 10204, one end of each of the three groups of first press-fit rollers 10207 and second press-fit rollers 10208 respectively passes through the corresponding fixture block 10210 and is sleeved with a gear 10209, two gears 10209 in the same press-fit group are mutually engaged, top surfaces of the fixture blocks 10210 at two ends of the second press-fit rollers 10208 in the three groups are respectively provided with a threaded pin, top ends of the threaded pins respectively pass through the top plate 10206 and are fixedly connected with a rotating handle 10211, and an inner wall of a hole through which the top plate 10206 is passed through by the threaded pin is provided with an internal thread adapted to the threaded pin.

As an embodiment of the invention, further, a fourth fixing frame 10311 is disposed on the right side of the pressing and drying mechanism 102, the number of feeding pipes 10310 is the same as that of the through grooves 10302, each feeding pipe 10310 is disposed directly above each through groove 10302, the bottom end of each feeding pipe 10310 extends into the corresponding through groove 10302 and is close to one end of the pressing and drying mechanism 102, the second paper roller 10306 is disposed directly above the discharge base 10301 and is close to the center, the first hot melting mechanism 10307 is disposed on the top surface of the discharge base 10301 and is far from one end of the storage box 10305, the bottom surface of the first hot melting mechanism is provided with a first hot melting strip, the number of the first hot melting strip is one more than that of the through grooves 02, each hot melting strip is disposed directly above the surface of the discharge base 01 where no through groove 10302 is formed, the central axis of each first hot melting strip is perpendicular to the central axis of the second hot melting strip 10306, and the central axis of the wrapping paper is made by the pressing strip 10304, The film and the packaging paper on the second paper roller 10306 or the packaging paper with the film attached are limited in the through groove 10302, antibacterial particles in the storage box 10105 are discharged quantitatively and regularly through the electromagnetic valve 10106, a pile of antibacterial particles are stacked on the surface of the packaging paper coated with the film at intervals, the first hot melting mechanism 10307 moves downwards through the work of the first hydraulic rod 10308, and the packaging paper on the second paper roller 10306 and the packaging paper coated with the film are welded together through the first hot melting strip in the first hot melting mechanism 10307.

As an embodiment of the invention, further, a first spring 10404 is arranged at a position, close to four corners, of the bottom surface of the second hot melting mechanism 10403, a first pressing plate 10405 is arranged at the bottom end of the first spring 10404, a first avoidance groove 10406 is formed in the surface of the first pressing plate 10405, a second hot melting strip 10407 is arranged at the center of the bottom surface of the second hot melting mechanism 10403, the second hot melting strip 10407 is arranged right above the first avoidance groove 10406 and can pass through the first avoidance groove 10406, central axes of the first avoidance groove 10406 and the second hot melting strip 10407 are parallel to a central axis of the second hot melting paper roll 10306, the second hydraulic rod 10402 works to enable the second hot melting mechanism 10403 to move downward, the first pressing plate 10405 compresses the packaging tape, and the second hot melting strip 10407 performs hot melting sealing on the position of each pile of antibacterial particles.

As an embodiment of the invention, further, the bottom surface of the fixed block 10503 is provided with second springs 10506 near four corners, the bottom end of the second springs 10506 is provided with a second pressing plate 10505, the surface of the second pressing plate 10505 is provided with a plurality of second avoiding grooves 10507, the number of the second avoiding grooves 10507 is the same as that of the die-cutting blocks 10504, and the second avoiding grooves 10507 and the die-cutting blocks 10504 are both square, the surface of the die-cutting base 10508 is provided with die-cutting grooves 10509 with the same number as that of the die-cutting blocks 10504, the die-cutting blocks 10504 can pass through the second avoiding grooves 10507 and extend into the die-cutting grooves 10509, the third hydraulic rod 10502 moves downward, the packaging film is pressed by the second pressing plate 10505, and the die-cutting blocks 10504 pass through the second avoiding grooves 10507 and the die-cutting grooves 10509, so that a single antibacterial bag is cut and falls into the collecting frame 2002 from the blanking hole 2001, and further the production and the collection of the antibacterial bag are completed.

As an embodiment of the invention, further, the top surface of the working table 200 is provided with a blanking hole 2001, the blanking hole 2001 is disposed right below the die-cutting base 10508, and a collecting frame 2002 is disposed right below the blanking hole 2001.

Referring to the attached drawings 1-8, the invention also provides a process for upgrading the biomass poly-generation combined carbonization furnace, which comprises the following steps:

s1: preparing for operation, one end of the wrapping paper on the first paper roll 10101 passes through the supporting roll set 10103, the supporting frame 10110, the pressing and drying mechanism 102, the discharging mechanism 103, the sealing mechanism 104 and the die cutting mechanism 105 around the first guide roll set 10102 and is fixed on the winding roll 10602, one end of the film on the film roll 10108 passes through the second guide roll set 10109, the supporting frame 10110 near one side of the pressing and drying mechanism 102, the discharging mechanism 103, the sealing mechanism 104 and the die cutting mechanism 105 and is fixed on the winding roll 10602, one end of the wrapping paper or the film-pasted wrapping paper on the second paper roll 10306 passes through the third guide roll set and is fixed on the winding roll 10602, the wrapping paper on the first paper roll 10101, the film on the film roll 10108 and the wrapping paper or the film-pasted wrapping paper on the second paper roll 10306 are restricted in the through groove 10302 by the pressing bar 10304 when passing through the discharging mechanism 103, when the paper passes through the pressing and drying mechanism 102, the rotating handle 10211 is rotated, the second pressing roller 10208 is lifted, the wrapping paper on the first paper roller 10101 and the film on the film roller 10108 pass through the pressing and drying mechanism 102, then the rotating handle 10211 is rotated reversely, the two gears 10209 are meshed, and the driving motor 10603 is started, so that the first paper roller 10101, the second paper roller 10306 and the film roller 10108 synchronously rotate;

s2: the packaging paper is glued, glue is poured into the glue storage box 10105, the glue flows out from the glue outlet head 10107 through the electromagnetic valve 10106 and the glue distribution pipe 10104, the glue quantitatively flows to the surface of the packaging paper from the glue outlet head 10107 through the electromagnetic valve 10106, and the glue is driven to flow into the packaging paper through the driving motor 10603;

s3: laminating, the first paper roller 10101 and the film roller 10108 contact the wrapping paper passing through step S2 with the film by the rotation of the driving motor 10603;

s4: pressing and drying, wherein the laminated packaging paper is compacted through a first pressing group 10201, a second pressing group 10202 and a third pressing group 10203, and the glue is dried through a dryer 10212;

s5: placing antibacterial particles in a storage box 10305, quantitatively and regularly placing the antibacterial particles through an electromagnetic valve 10106, so that a pile of antibacterial particles are stacked on the surface of the coated packing paper at intervals, a first hot melting mechanism 10307 moves downwards through the work of a first hydraulic rod 10308, and the packing paper on a second paper roller 10306 and the coated packing paper are welded together through a first hot melting strip in the first hot melting mechanism 10307;

s6: sealing, the second hydraulic rod 10402 works to enable the second hot melting mechanism 10403 to move downwards, the first pressing plate 10405 compresses the packaging paper passing through the step S5, and the position of each pile of antibacterial particles is sealed through the second hot melting strip 10407 to complete sealing of the antibacterial bag;

s7: and (3) die cutting, wherein the third hydraulic rod 10502 works to move the fixed block 10503 downwards, the second pressing plate 10505 presses the packaging bag subjected to the step S6, and the antibacterial packaging bag is cut through the die cutting block 10504 passing through the second avoiding groove 10507 and the die cutting groove 10509 and falls into the collection frame 2002 from the blanking hole 2001.

It should be noted that the specific model and specification of the electromagnetic valve 10106, the first hydraulic rod 10308, the second hydraulic rod 10402, the third hydraulic rod 10502, and the driving motor 10603 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, so detailed description is omitted.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. An antibacterial package production apparatus, comprising:

the production equipment (100) for the antibacterial bag comprises a workbench (200), wherein the workbench (200) is sequentially provided with a film sticking mechanism (101), a pressing and drying mechanism (102), a discharging mechanism (103), a sealing mechanism (104), a die cutting mechanism (105) and a residual material winding mechanism (106) from left to right;

the film sticking mechanism (101) comprises a first fixing frame (10111), a second fixing frame (10112) and a third fixing frame (10113), a first paper roller (10101) and a first guide roller set (10102) are mounted on the first fixing frame (10111) in a bearing mode, a glue storage box (10105), a glue distribution pipe (10104) and a support roller set (10103) are mounted on the second fixing frame (10112), an electromagnetic valve (10106) is communicated with the bottom surface of the glue storage box (10105), the center of the top surface of the glue distribution pipe (10104) is communicated with the electromagnetic valve (10106), and a film roller (10108) and a second guide roller set (10109) are arranged on the third fixing frame (10113);

the pressing and drying mechanism (102) comprises a first pressing group (10201), a second pressing group (10202), a third pressing group (10203), a dryer (10212) and an outer shell (10213), the outer shell (10213) is in an arch shape, the first pressing group (10201), the second pressing group (10202) and the third pressing group (10203) have the same structure, and are sequentially arranged inside the outer shell (10213) from left to right, the first pressing group (10201), the second pressing group (10202) and the third pressing group (10203) respectively comprise a first pressing roller (10207) and a second pressing roller (10208), the first press-fit roller (10207) is disposed right below the second press-fit roller (10208), the dryer (10212) is disposed on the top surface of the outer case (10213), and an air outlet of the dryer (10212) is communicated with the inside of the outer case (10213);

the discharging mechanism (103) comprises a fourth fixing frame (10311), a fifth fixing frame (10312), a sixth fixing frame (10313), a third guide roller set and a discharging base (10301), the discharging base (10301) is arranged on the top surface of the workbench (200) and positioned on the right side of the pressing and drying mechanism (102), a storage box (10305) is arranged on the fourth fixing frame (10311), the bottom surface of the storage box (10305) is communicated with a plurality of charging pipes (10310) through electromagnetic valves (10106), a second paper roller (10306) and a third guide roller set are mounted on the fifth fixing frame (10312) in a bearing mode, a first connecting plate (10309) is arranged at the top end of the sixth fixing frame (10313), a first hydraulic rod (10308) is arranged on the bottom surface of the first connecting plate (10309) close to two ends, a first hot melting mechanism (10307) is arranged at the pushing end of the first hydraulic rod (10308), the feeding base is characterized in that a plurality of through grooves (10302) are formed in the surface of the feeding base (10301), fixing plates (10303) are arranged at the positions, close to the two ends, of the top surface of the feeding base (10301), the fixing plates (10303) are fixed to the positions, close to the two ends, of the top surface of the feeding base (10301) through bolts, pressing strips (10304) are arranged inside the through grooves (10302), the number of the pressing strips (10304) in each through groove (10302) is two, the pressing strips (10304) are vertically arranged, and the two ends of each pressing strip (10304) are fixedly installed on the bottom surfaces of the two fixing plates (10303) respectively;

the sealing mechanism (104) comprises a seventh fixing frame (10409), a second connecting plate (10401), a second hot melting mechanism (10403) and a hot melting base (10408), the second connecting plate (10401) is horizontally arranged at the top end of the seventh fixing frame (10409), second hydraulic rods (10402) are arranged at the positions, close to the two ends, of the bottom surface of the second connecting plate (10401), the pushing end of each second hydraulic rod (10402) is fixedly connected with the top surface of the corresponding second hot melting mechanism (10403), and the hot melting base (10408) is arranged right below the corresponding second hot melting mechanism (10403);

the die-cutting mechanism (105) comprises an eighth fixing frame (10510), a third connecting plate (10501), a fixing block (10503) and a die-cutting base (10508), the third connecting plate (10501) is arranged at the top end of the eighth fixing frame (10510), third hydraulic rods (10502) are arranged at the bottom surfaces of the third connecting plate (10501) close to two ends of the third connecting plate, the pushing end of each third hydraulic rod (10502) is fixedly connected with the fixing block (10503), a plurality of die-cutting blocks (10504) are arranged at the bottom surface of the fixing block (10503), and the die-cutting base (10508) is arranged under the fixing block (10503);

surplus material winding mechanism (106) include ninth mount (10601), wind-up roll (10602) and driving motor (10603), wind-up roll (10602) bearing installation in on ninth mount (10601), driving motor (10603) fixed mounting in one side of ninth mount (10601), just driving motor (10603) the output pass through the transmission group with wind-up roll (10602) transmission is connected.

2. The aseptic package production facility of claim 1, wherein: first mount (10111) set up in the left side of workstation (200), second mount (10112) with third mount (10113) set gradually in from a left side to the right side the top surface of workstation (200), the top surface of workstation (200) is located the left and right sides department of third mount (10113) all is equipped with support frame (10110), divide rubber tube (10104) level set up in, just divide the axis of rubber tube (10104) with first paper roll (10101), the axis glue of membrane roller (10108) all is parallel to each other, the bottom of dividing rubber tube (10104) is equipped with if does out and glues head (10107).

3. The aseptic package production facility of claim 1, wherein: the first pressing group (10201), the second pressing group (10202) and the third pressing group (10203) respectively comprise upright posts (10204), top plates (10206) and bottom plates (10205), two ends of the first pressing roller (10207) and the second pressing roller (10208) in three groups are respectively provided with a fixture block (10210), two sides of the fixture block (10210) are respectively clamped between the corresponding upright posts (10204) and are in sliding connection with the upright posts (10204), one end of each of the first pressing roller (10207) and the second pressing roller (10208) in three groups penetrates through the corresponding fixture block (10210) and is sleeved with a gear (10209), two gears (10209) in the same pressing group are mutually engaged, top surfaces of the fixture blocks (10210) at two ends of the second pressing roller (10208) in three groups are respectively provided with a threaded pin in a bearing manner, the top end of the threaded pin respectively penetrates through the top plates (10206) and is fixedly connected with a rotating handle (10211), the inner wall of the hole groove of the top plate (10206) penetrated by the threaded pin is provided with an internal thread matched with the threaded pin.

4. The aseptic package production facility of claim 1, wherein: the fourth fixing frame (10311) is arranged on the right side of the pressing and drying mechanism (102), the number of the feeding pipes (10310) is the same as that of the through grooves (10302), each feeding pipe (10310) is arranged right above each through groove (10302), the bottom end of each feeding pipe (10310) extends to the inside of the corresponding through groove (10302) and is close to one end of the pressing and drying mechanism (102), the second paper roller (10306) is arranged right above the material placing base (10301) and is close to the center, the first hot melting mechanism (10307) is arranged on the top surface of the material placing base (10301) and is far away from one end of the material storage box (10305), the bottom surface of the first hot melting mechanism is provided with first hot melting strips, the number of the first hot melting strips is one more than that of the through grooves (10302), and each hot melting strip is respectively arranged right above the surface of the material placing base (10301) which is not provided with the through grooves (10302), the central axis of each of the first hot melt strips is perpendicular to the central axis of the second paper roll (10306).

5. The aseptic package production facility of claim 1, wherein: the bottom surface of second hot melt mechanism (10403) is close to four corners department and all is equipped with first spring (10404), first spring (10404) bottom is equipped with first clamp plate (10405), first groove (10406) of dodging has been seted up on the surface of first clamp plate (10405), the bottom surface center department of second hot melt mechanism (10403) is equipped with second hot melt strip (10407), second hot melt strip (10407) set up in first groove (10406) of dodging directly over and can pass first groove (10406) of dodging, first groove (10406) of dodging with the center pin of second hot melt strip (10407) with the center pin of second paper roll (10306) is parallel.

6. The aseptic package production facility of claim 1, wherein: the bottom surface of fixed block (10503) is equipped with and all is equipped with second spring (10506) near four corners department, the bottom of second spring (10506) is equipped with second clamp plate (10505), a plurality of seconds have been seted up on the surface of second clamp plate (10505) and have been dodged groove (10507), the second dodge groove (10507) with the quantity of mould cutting piece (10504) is the same, and is square, the surface of cross cutting base (10508) seted up with mould cutting piece (10504) the same cross cutting groove (10509) of quantity, mould cutting piece (10504) can pass the second dodges groove (10507) and extends to the inside of mould cutting groove (10509).

7. The aseptic package production facility of claim 6, wherein: the top surface of the workbench (200) is provided with a blanking hole (2001), the blanking hole (2001) is arranged under the die cutting base (10508), and a collecting frame (2002) is arranged under the blanking hole (2001).

8. A process of using the antibacterial package production apparatus according to claims 1 to 7, characterized in that: the method comprises the following steps:

s1: preparing for work, one end of wrapping paper on a first paper roll (10101) passes through a supporting roll set (10103), a supporting frame (10110), a pressing and drying mechanism (102), a discharging mechanism (103), a sealing mechanism (104) and a die cutting mechanism (105) around a first guide roll set (10102), is fixed on a winding roll (10602), one end of a film on a film roll (10108) passes through a second guiding roll set (10109), the supporting frame (10110) close to one side of the pressing and drying mechanism (102), the discharging mechanism (103), the sealing mechanism (104) and the die cutting mechanism (105) and is fixed on the winding roll (10602), one end of the wrapping paper or the wrapping paper pasted with the film on a second paper roll (10306) passes through a third guide roll set and is fixed on the winding roll (10602), and the wrapping paper on the first paper roll (10101), the film on the film roll (10108) and the wrapping paper on a second pressing strip (10306) or the wrapping paper pasted with the film are used when the discharging mechanism (103) passes through the discharging mechanism (10602) 10304) The wrapping paper, the thin film and the wrapping paper on the second paper roller (10306) or the wrapping paper with the attached film are limited in the through groove (10302), the rotating handle (10211) is rotated when the wrapping paper, the thin film and the wrapping paper on the second paper roller (10306) pass through the pressing and drying mechanism (102), the second pressing and drying roller (10208) is lifted, the wrapping paper on the first paper roller (10101) and the thin film on the film roller (10108) pass through the pressing and drying mechanism (102) and then reversely rotate the rotating handle (10211), two gears (10209) are meshed, and the driving motor (10603) is started to synchronously rotate the first paper roller (10101), the second paper roller (10306) and the film roller (10108);

s2: the packaging paper is glued, glue is poured into a glue storage box (10105), the glue flows out from a glue outlet head (10107) through an electromagnetic valve (10106) and a glue distribution pipe (10104), the glue quantitatively flows to the surface of the packaging paper from the glue outlet head (10107) through the electromagnetic valve (10106), and the glue passes through a driving motor (10603);

s3: laminating, wherein the first paper roller (10101) and the film roller (10108) enable the wrapping paper passing through the step S2 to be in contact with the thin film through the rotation of a driving motor (10603);

s4: pressing and drying, wherein the laminated packaging paper is compacted through a first pressing group (10201), a second pressing group (10202) and a third pressing group (10203), and the glue is dried through a dryer (10212);

s5: placing materials, namely placing antibacterial particles in a material storage box (10305), quantitatively and regularly placing the materials through an electromagnetic valve (10106), so that a pile of antibacterial particles are stacked on the surface of the coated wrapping paper at intervals, enabling a first hot melting mechanism (10307) to move downwards through the work of a first hydraulic rod (10308), and enabling the wrapping paper on a second paper roller (10306) and the coated wrapping paper to be welded together through a first hot melting strip in the first hot melting mechanism (10307);

s6: sealing, wherein the second hydraulic rod (10402) works to enable the second hot melting mechanism (10403) to move downwards, the first pressing plate (10405) compresses the packaging paper passing through the S5, and the position of each pile of antibacterial particles is sealed through the second hot melting strip (10407) to finish the sealing of the antibacterial bag;

s7: and (3) die cutting, wherein a third hydraulic rod (10502) works to enable a fixed block (10503) to move downwards, a second pressing plate (10505) presses the packaging bag subjected to the step S6, and the antibacterial packaging bag is cut out and falls into the collection frame (2002) from the blanking hole (2001) through a die cutting block (10504) passing through a second avoidance groove (10507) and a die cutting groove (10509).

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