CN112499234A - High-speed cam package surface paper machine - Google Patents

Abstract

The invention relates to the technical field of automatic packaging equipment, in particular to a high-speed cam face-wrapping paper machine, which comprises a first cam face-wrapping paper device and a second cam face-wrapping paper device, wherein a transmission device is arranged between the first cam face-wrapping paper device and the second cam face-wrapping paper device; and die assemblies are arranged above the first cam wrapper device and the second cam wrapper device and comprise a stand column and a lifting mechanism which are connected, and an inner die is arranged at the bottom of the stand column. According to the invention, the conveying device and the transferring device between the first cam wrapper-wrapping device and the second cam wrapper-wrapping device can simultaneously feed the first cam wrapper-wrapping device and the second cam wrapper-wrapping device, so that the production efficiency is improved through reasonable spatial arrangement; and the paper box is fully automatically packed at high speed by the upper die assembly matched with the surface paper packing device. Compared with the prior art, the operation of wrapping the surface paper realizes full-automatic multi-line operation, and the production efficiency is greatly improved.

Description

High-speed cam package surface paper machine

Technical Field

The invention relates to the technical field of automatic packaging equipment, in particular to a high-speed cam surface paper wrapping machine.

Background

With the continuous development of economic society, the living standard of people is continuously improved, the appearance quality of the package of commodities is higher and higher, the exquisite outer package of a plurality of exquisite articles such as mobile phones, jewelry, gifts, cigarettes and other high-consumption products gradually becomes a part of the competitiveness of the products, so the packaging production in the industry becomes a very important part, the packaging equipment has a very large development space, and the initial manual packaging is gradually changed into automation and high efficiency.

The packaging box of the top and bottom cover type generally comprises a gray board and surface paper, wherein the gray board is used as a supporting body inside the packaging box, the surface paper is used as the appearance surface of the packaging box, when the packaging box is processed, the gray board is generally made into a box blank firstly, then the surface paper which is glued is wrapped on the outer surface of the box blank, and finally the bubble removing operation is carried out to obtain a final packaging box product, the appearance quality of the packaging box mainly depends on the surface paper which is packaged outside the box blank, so that the surface paper forming is a crucial step in the packaging box production. Patent application No. CN201420532227.6 (published 2015, 1, 7) discloses a wrapper, which comprises a machine table, a jig assembly and a wrapper assembly, wherein the machine table comprises an upper substrate and a lower substrate fixedly connected with each other. The jig assembly comprises an upper die fixed on the upper substrate and a lower die arranged on the lower substrate, and a jacking cylinder used for driving the lower die to move up and down is arranged below the lower die. The equipment realizes the automatic operation of the package paper to a certain extent.

Although some automatic facial tissue wrapping equipment are disclosed in the prior art, the problems that the automation degree is not high, complex operation cannot be realized, the structure is complicated, the efficiency is low and the like still exist.

Disclosure of Invention

In order to solve the problems of low automation degree and low production efficiency of the existing noodle wrapping machine, the invention provides a high-speed cam noodle wrapping machine, which comprises a transmission device, a transfer device, a first cam noodle wrapping device and a second cam noodle wrapping device, wherein the transmission device is arranged between the first cam noodle wrapping device and the second cam noodle wrapping device, and the transfer device is arranged above the first cam noodle wrapping device and the second cam noodle wrapping device;

the upper parts of the first cam wrapper device and the second cam wrapper device are respectively provided with a die assembly, the die assemblies comprise a stand column and a lifting mechanism which are connected, an inner die is arranged at the bottom of the stand column, and the lifting mechanism is used for driving the stand column to drive the inner die to move up and down.

Further, move and carry the device and include that the structure is the same first move and carry subassembly and second and move and carry the subassembly, first move and carry the subassembly including the same first mechanism and the second of snatching of structure and snatch the mechanism, first snatching the mechanism and being equipped with two telescopic machanism, the last claw of embracing that is connected with of telescopic machanism, telescopic machanism is used for driving it is flexible to embrace the claw and be used for getting and put the material.

Furthermore, the transfer device further comprises a first rail, a second rail and an adjusting device which are arranged in parallel, and the adjusting device is used for adjusting the distance between the first rail and the second rail;

first mechanism of snatching is located through the linking arm on the first track, the linking arm is equipped with crank link mechanism, crank link mechanism is used for driving first mechanism elevating movement that snatchs.

Furthermore, blanking transfer components are arranged on the outer sides of the first cam wrapper device and the second cam wrapper device, and the blanking transfer components are identical to the first transfer components in structure.

Furthermore, a push rod driving motor is arranged at the top of the upright post and connected with a push rod, the push rod penetrates through the upright post and the inner die, and the push rod driving motor is used for driving the push rod to eject.

Furthermore, the first cam facial tissue wrapping device comprises a supporting table, a first facial tissue wrapping mechanism and a second facial tissue wrapping mechanism, wherein the first facial tissue wrapping mechanism and the second facial tissue wrapping mechanism are arranged on the side edge of the supporting table;

the first facial tissue wrapping mechanism is provided with a first cam shaft and a first driving mechanism, the first cam shaft is provided with a first cam, a second cam and a third cam, and the first driving mechanism is used for driving the first cam shaft to drive the first cam, the second cam and the third cam to rotate so as to drive the first facial tissue wrapping mechanism to carry out facial tissue wrapping operation;

the second surface paper wrapping mechanism is provided with a second cam shaft and a second driving mechanism, a fourth cam, a fifth cam and a sixth cam are arranged on the second cam shaft, and the second driving mechanism is used for driving the second cam shaft to drive the fourth cam, the fifth cam and the sixth cam to rotate so as to drive the second surface paper wrapping mechanism to perform surface paper wrapping operation;

the bottom of the supporting platform is connected with a lifting driving mechanism for driving the supporting platform to lift;

the second cam wrapper device and the first cam wrapper device have the same structure.

Furthermore, a first compression roller, a first scraper knife and a first pushing block are sequentially arranged on the first paper wrapping mechanism from top to bottom, the first compression roller is connected with the first cam, the first scraper knife is connected with the second cam, and the first pushing block is connected with the third cam.

Further, a second pressing roller, a second scraper knife and a second pushing block are sequentially arranged on the second surface paper wrapping mechanism from top to bottom;

the second pressing roller is connected with the fourth cam, and the height of the second pressing roller is between the first pressing roller and the first scraper knife; the second scraper knife is connected with the fifth cam, and the second scraper knife and the first scraper knife are positioned at the same height; the second push block is connected with the sixth cam, and the second push block and the first push block are located at the same height.

Further, the first cam wrapper paper device still includes the edger roll subassembly, the edger roll subassembly includes edger roll actuating mechanism and edger roll, edger roll actuating mechanism is used for driving the edger roll horizontal migration, the height that the edger roll is located between first compression roller and the second compression roller.

Furthermore, the first cam face paper wrapping device further comprises a third face paper wrapping mechanism and a fourth face paper wrapping mechanism, the third face paper wrapping mechanism is identical in structure with the first face paper wrapping mechanism, and the third face paper wrapping mechanism is arranged on the opposite side of the first face paper wrapping mechanism; the fourth surface paper wrapping mechanism is the same as the second surface paper wrapping mechanism in structure, and is arranged on the opposite side of the second surface paper wrapping mechanism.

According to the high-speed cam surface paper wrapping machine, the conveying device and the transferring device between the first cam surface paper wrapping device and the second cam surface paper wrapping device are used for simultaneously feeding the first cam surface paper wrapping device and the second cam surface paper wrapping device, so that the production efficiency is improved due to reasonable spatial arrangement; and the full-automatic surface covering operation is carried out on the paper box at high speed by matching the upper die assembly with the cam surface paper covering device. Compared with the prior art, the operation of wrapping the surface paper realizes full-automatic multi-line operation, and the production efficiency is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of a high speed cam-wrapped paper machine according to the present invention;

FIG. 2 is a front view of a high speed cam-wrapped tissue machine according to the present invention;

FIG. 3 is a left side view of a high speed cam-wrapped paper machine according to the present invention;

FIG. 4 is a perspective view of a first cam wrapper-wrapping device according to the present embodiment;

FIG. 5 is a top view of the first cam wrapper installation of the present embodiment;

FIG. 6 is a right side view of the first cam wrapper assembly of the present embodiment;

FIG. 7 is a diagram illustrating a first covering mechanism of the present embodiment;

FIG. 8 is a schematic view of the first camshaft and the second camshaft of the present embodiment;

fig. 9 is a schematic view of a facial tissue pack of the present embodiment.

Reference numerals:

10 move and carry device 11 first and move and carry subassembly 111 first grabbing mechanism that carries

112 second grabbing mechanism 113 telescopic mechanism 114 holding claw

115 connecting arm 116 crank link mechanism 12 second transfer assembly

13 first track 14 second track 15 adjusting device

Lifting driving mechanism for 20 first cam wrapper paper device 21 support table 211

22 first paper wrapping mechanism 221 first cam shaft 222 first driving mechanism

223 first cam 224 second cam 225 third cam

226 first pressure roller 227 first blade 228 first push block

23 second surface paper coating mechanism 231 and second cam shaft 232 second driving mechanism

233 fourth cam 234 fifth cam 235 sixth cam

236 second press roll 237 second scraper 238 second push block

24 vertical roll assembly 241 vertical roll drive mechanism 242 vertical roll

25 third facial tissue wrapping mechanism 26 fourth facial tissue wrapping mechanism 30 second cam facial tissue wrapping device

40 upright post 42 upright post driving mechanism of die assembly 41

43 internal mold 44 mandril driving motor 45 mandril

900 face paper 901 first side 902 second side

903 third surface 904 fourth surface 905 fifth surface

910 carton

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The invention provides a high-speed cam face-wrapping paper machine, which comprises a transmission device, a transfer device 10, a first cam face-wrapping paper device 20 and a second cam face-wrapping paper device 30, wherein the transmission device is arranged between the first cam face-wrapping paper device 20 and the second cam face-wrapping paper device 30, and the transfer device 10 is arranged above the first cam face-wrapping paper device 20 and the second cam face-wrapping paper device 30;

the die assembly 40 is arranged above the first cam wrapper device 20 and the second cam wrapper device 30, the die assembly 40 comprises a vertical column 41 and a vertical column driving mechanism 42 which are connected, an inner die 43 is arranged at the bottom of the vertical column 41, and the vertical column driving mechanism 42 is used for driving the vertical column 41 to drive the inner die 43 to move up and down.

In specific implementation, as shown in fig. 1-3, the first cam wrapper-wrapping device 20 and the second cam wrapper-wrapping device 30 are respectively arranged at corresponding positions on both sides of the conveying device, and the transfer device 10 is positioned above the first cam wrapper-wrapping device 20 and the second cam wrapper-wrapping device 30; wherein the transmission device adopts but not limited to one of belt transmission or chain plate transmission, preferably, the transmission device is provided with two transmission belts; the transfer device 10 includes a first rail 13 and a second rail 14 arranged in parallel, and the first rail 13 and the second rail 14 are oriented perpendicular to the transfer direction of the transfer device. The first track 13 and the second track 14 are movably connected with a first transfer component 11 and a second transfer component 12 which have the same structure, the first transfer component 11 and the second transfer component 12 are driven by a transfer driving mechanism to move along the direction of the first track 13 so as to convey materials from the conveying device to the first cam wrapper 20 and the second cam wrapper 30, wherein the transfer driving mechanism can adopt but is not limited to one of linear motion mechanisms such as a gear rack mechanism, a chain transmission mechanism, an air cylinder, a hydraulic cylinder and the like. The die pressing devices 40 are respectively arranged above the first cam wrapper-wrapping device 20 and the second cam wrapper-wrapping device 30, each die pressing device 40 comprises an upright post 41 and an upright post driving mechanism 42, an inner die 43 is arranged at the bottom of the upright post 41, the upright post driving mechanism 42 drives the upright post 41 to drive the inner die 43 to do lifting motion, when the wrapper is used, the inner die 43 moves downwards to the paper box 910 to be fixed, and descends or ascends along with the paper box 910 in the wrapper process, and the task of pressing the fourth surface 904 and the fifth surface 905 to the inner wall of the paper box 910 at the lowest end is completed; preferably, the column driving mechanism 42 is, but not limited to, a rack and pinion mechanism, and the driving motor is, but not limited to, a servo motor.

Specifically, as shown in fig. 1 and fig. 2, a top driving motor 44 is disposed at the top of the upright 41, the top driving motor 44 is connected to a top rod 45, the top rod 45 is disposed inside the upright 41, the top rod 45 penetrates through the bottom inner mold 43, the top rod 45 extends out of the inner mold 43 under the driving of the top driving motor 44, when the inner mold 43 needs to be lifted up and separated from the paper box 910, the top rod 45 extends out, so that the paper box 910 is separated from the inner mold, and the paper box will not be lifted up by the inner mold 43 and affect the wrapping operation, wherein the top rod 45 and the top driving motor 44 are connected by.

Specifically, as shown in fig. 3, the first transfer assembly 11 includes a first grabbing mechanism 111 and a second grabbing mechanism 112 respectively disposed on the first rail 13 and the second rail 14, and the first grabbing mechanism 111 and the second grabbing mechanism 112 have the same structure; the first grabbing mechanism 111 is provided with two telescopic mechanisms 113 along the track direction, and preferably, the telescopic mechanisms 113 adopt one of air cylinders or hydraulic cylinders; the telescopic mechanism 113 is connected with a holding claw 114, and the holding claw 114 is a section of vertical right-angle steel; the first grabbing mechanism 111 further comprises a connecting arm 115 and is movably connected with the first track 13 through the connecting arm 115, wherein a crank connecting rod mechanism 116 is further arranged on the connecting arm 115, the crank connecting rod mechanism 116 comprises a disc and a connecting rod eccentrically hinged with the disc, the connecting rod is connected with the first grabbing mechanism 111, the disc is connected with an independent driving motor, and the disc rotates under the driving of the driving motor to drive the connecting rod and the first grabbing mechanism 111 to move up and down. During feeding, the four claws 114 of the first transfer unit 11 are driven by the telescopic mechanism 113 to extend out to clamp the paper cassette 910, and the crank-link mechanisms 116 of the first and second grasping mechanisms 111 and 112 simultaneously operate to drive the first transfer unit 11 to ascend and move to the first cam wrapper 20 through the first and second rails 13 and 14.

Preferably, the first rail 13 and the second rail 14 are provided with an adjusting device 15, and the adjusting device 15 adopts, but is not limited to, a hand wheel and a lead screw to adjust the distance between the first rail 13 and the second rail 14, so that the first transfer assembly 11 is suitable for cartons with different sizes.

Specifically, as shown in fig. 4-6, a first wrapper mechanism 22, a second wrapper mechanism 23, a third wrapper mechanism 25 and a fourth wrapper mechanism 26 are arranged around a tray 21 of the first cam wrapper device 20, the first wrapper mechanism 22 and the third wrapper mechanism 25 are arranged on the left and right sides of the tray 21, the second wrapper mechanism 23 and the fourth wrapper mechanism 26 are arranged on the front and back sides of the tray 21, a first driving mechanism 222 is arranged at the bottom of the first wrapper mechanism 22, a second driving mechanism 232 is arranged at the bottom of the second wrapper mechanism 23, wherein both the first driving mechanism 222 and the second driving mechanism 232 can be, but are not limited to, servo motors; the first and third dough wrapping mechanisms 22 and 25 have the same configuration, the second and fourth dough wrapping mechanisms 23 and 26 have the same configuration, and the four dough wrapping mechanisms perform a dough wrapping operation on the paper cassette 910 from four directions, respectively. Wherein the bottom of the pallet 21 is connected to a lifting driving mechanism 211, preferably, the lifting driving mechanism 11 is a rack and pinion mechanism, and is driven by a servo motor.

Specifically, as shown in fig. 7 and 8, the first wrapper paper mechanism 22 is provided with a first cam shaft 221, the first cam shaft 221 is provided with a first cam 223, a second cam 224 and a third cam 225 in sequence from top to bottom, the bottom end of the first cam shaft 221 is connected with the first driving mechanism 22, and the first driving mechanism 22 drives the first cam 223, the second cam 224 and the third cam 225 on the first cam shaft 221 to rotate so as to drive the first wrapper paper mechanism 22 to perform a wrapper operation.

Specifically, as shown in fig. 8, the first wrapping paper mechanism 22 is provided with a first pressing roller 226, a first scraper 227 and a first pushing block 228 from top to bottom in sequence, wherein the first pressing roller 226 is connected with the first cam 223, and when the first cam 223 rotates to a high point, the first pressing roller 226 extends out; the first blade 227 is connected with the second cam 224, and when the second cam 224 rotates to a high point, the first blade 227 extends; the first push block 228 is connected to the third cam 225, and when the third cam 225 rotates to a high point, the first push block 228 extends. Preferably, the high points of the first cam 223, the second cam 224 and the third cam 225 are respectively disposed at different directions of the first cam shaft 221 to control the first pressing roller 226, the first blade 227 and the first pushing block 228 connected to each cam to extend out at intervals in sequence, and to perform sequential operations in cooperation with the control of the servo motor to achieve more complicated automation operations.

Specifically, as shown in fig. 8, the second wrapper paper mechanism 23 is provided with a second cam shaft 231, the second cam shaft 231 is provided with a fourth cam 233, a fifth cam 234 and a sixth cam 235 in sequence from top to bottom, the bottom end of the second cam shaft 231 is connected with the second driving mechanism 232, and the second driving mechanism 232 drives the fourth cam 233, the fifth cam 234 and the sixth cam 313 on the second cam shaft 231 to rotate so as to drive the second wrapper paper mechanism 23 to perform a wrapper operation.

Specifically, as shown in fig. 8, the second wrapping paper mechanism 23 is sequentially provided with a second pressing roller 236, a second scraper knife 237 and a second pushing block 238 from top to bottom, wherein the second pressing roller 236 is connected to the fourth cam 233, the second pressing roller 236 is located at a height between the first pressing roller 226 and the first scraper knife 227, and when the fourth cam 233 rotates to a high point, the second pressing roller 236 extends; the second blade 237 is connected to the fifth cam 234, the second blade 237 is at the same height as the first blade 227, and when the fifth cam 234 rotates to a high point, the second blade 237 extends; the second pushing block 238 is connected to the sixth cam 235, the second pushing block 238 is at the same height as the first pushing block 228, and when the sixth cam 235 rotates to a high point, the second pushing block 238 extends. Preferably, the high points of the fourth cam 233, the fifth cam 234 and the sixth cam 235 are respectively disposed at different directions of the second cam shaft 231 to control the second pressing roller 236, the second cutting blade 237 and the second pushing block 238 connected to each cam to be extended at intervals in sequence, and to perform sequential operations in cooperation with the control of the servo motor to achieve more complicated automation operations.

Specifically, as shown in fig. 4, the vertical roller assemblies 24 are respectively disposed on two sides of the first wrapper mechanism 22, each vertical roller assembly 24 includes a vertical roller driving mechanism 241 and a vertical roller 242, and the vertical roller driving mechanism 241 is driven by a single servo motor through a gear rack mechanism. Preferably, the vertical roller 242 is located at a height between the first pressing roller 226 and the second pressing roller 236, the same vertical roller assembly is arranged on both sides of the third paper covering mechanism 25, and the vertical roller 242 is driven to horizontally extend by a separate vertical roller driving mechanism 241.

Preferably, the inner mold is sized to fit the carton 910, and during wrapping, the inner mold is pressed into the carton 910 to press the carton 910 against the pallet 10 and move with the movement of the pallet 10, thereby preventing the carton 910 from being skewed by force.

Preferably, the first facial tissue wrapping mechanism 22, the second facial tissue wrapping mechanism 23, the third facial tissue wrapping mechanism 25 and the fourth facial tissue wrapping mechanism 26 are all provided with adjusting handwheels for adjusting the relative positions of the facial tissue wrapping mechanisms so as to be suitable for paper boxes with different sizes.

Preferably, a blanking transfer component is arranged on the outer side of the first cam wrapper 20 and the second cam wrapper 30 and used for taking out the molding material, wherein the combination of the blanking transfer component is the same as the structure of the first transfer component 11.

In actual use, as shown in fig. 9, the paper box 910 is pasted with the paper 900 to be packaged at the bottom, when the paper box 910 reaches a predetermined position through the conveying device, the first transfer component 11 and the second transfer component of the transfer device 10 move downwards through the crank link mechanism 116, the holding claw 114 extends to clamp the paper box, the paper box is transferred to the pallet 21 through the first rail 13 and the second rail 14, and the inner mold 43 presses the paper box 910 with the paper 900 at the bottom onto the pallet 21; the pallet 21 drives the paper box 910 to move downwards, the first press roller 226 extends out, and the first surface 901 is wrapped; the supporting platform 21 drives the paper box 910 to move downwards, the vertical roller 242 extends out, and the second surface 902 is wrapped up; the pallet 21 drives the paper box 910 to move downwards, the second pressing roller 236 extends out, and the third surface 903 is wrapped up; the pallet 21 drives the paper box 910 to move downwards, the first push block 228 and the second push block 238 extend out, the first surface 901 and the third surface 903 are pressed firmly, and the paper box 910 is clamped tightly; the top rod 45 in the inner die 43 extends out, the inner die 43 rises to separate from the paper box 910, the first scraper knife 227 extends out, and the fourth surface 904 is shoveled to a horizontal position relative to the box bottom; the inner mold moves into the paper box 910 to press the fourth surface 904 to the inner wall of the paper box 910; the inner die 43 is lifted to be separated from the paper box 910, the second shovel blade 237 extends out, and the fifth surface 905 is shoveled to be in a horizontal position relative to the box bottom; the inner mold moves into the paper box 910 to press the fourth surface 904 to the inner wall of the paper box 910; continuing to extend the first pushing block 228 and the second pushing block 238, and performing bubble removing extrusion on the first face 901 and the third face 903 to complete the package paper and bubble removing operation; the tray table 21 drives the paper box 910 to ascend to a discharging position, and the discharging is completed by a discharging transfer component.

According to the high-speed cam surface paper wrapping machine, the conveying device and the transferring device between the first cam surface paper wrapping device and the second cam surface paper wrapping device are used for simultaneously feeding the first cam surface paper wrapping device and the second cam surface paper wrapping device, so that the production efficiency is improved due to reasonable spatial arrangement; and the full-automatic surface covering operation is carried out on the paper box at high speed by matching the upper die assembly with the cam surface paper covering device. Compared with the prior art, the operation of wrapping the surface paper realizes full-automatic multi-line operation, and the production efficiency is greatly improved.

Although terms such as a transfer device, a telescopic mechanism, a first transfer component, a first grabbing mechanism, a crank-link mechanism, a first cam-clad paper mechanism, a first rail, a saddle, a lifting drive mechanism, a first clad paper mechanism, a first cam shaft, a first cam, a second cam, a third cam, a first drive mechanism, a first press roller, a first scraper knife, a first push block, a second clad paper mechanism, a second cam shaft, a fourth cam, a fifth cam, a sixth cam, a second drive mechanism, a second press roller, a second scraper plate, a second push block, a vertical roller component, a vertical roller drive mechanism, a vertical roller, a third clad paper mechanism and a fourth clad paper mechanism are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A high-speed cam package surface paper machine which characterized in that: the device comprises a transmission device, a transfer device (10), a first cam wrapper paper device (20) and a second cam wrapper paper device (30), wherein the transmission device is arranged between the first cam wrapper paper device (20) and the second cam wrapper paper device (30), and the transfer device (10) is arranged above the first cam wrapper paper device (20) and the second cam wrapper paper device (30);

the upper parts of the first cam wrapper device (20) and the second cam wrapper device (30) are respectively provided with a die assembly (40), each die assembly (40) comprises a stand column (41) and a stand column driving mechanism (42) which are connected, the bottom of each stand column (41) is provided with an inner die (43), and each stand column driving mechanism (42) is used for driving each stand column (41) to drive each inner die (43) to move up and down.

2. The high-speed cam-wrapped paper machine according to claim 1, characterized in that: move and carry device (10) and move and carry subassembly (12) including the first subassembly (11) and the second that moves that move that the structure is the same, first move and carry subassembly (11) including the first mechanism (111) and the second of snatching that the structure is the same snatchs mechanism (112), first snatching mechanism (111) and being equipped with two telescopic machanism (113), be connected with on telescopic machanism (113) and embrace claw (114), telescopic machanism (113) are used for the drive embrace claw (114) flexible be used for getting put the material.

3. The high-speed cam-wrapped paper machine according to claim 2, characterized in that: the transfer device (10) further comprises a first rail (13), a second rail (14) and an adjusting device (15), wherein the first rail (13), the second rail (14) and the adjusting device (15) are arranged in parallel, and the adjusting device (15) is used for adjusting the distance between the first rail (13) and the second rail (14);

first snatch mechanism (111) are located through linking arm (115) on first track (13), linking arm (115) are equipped with crank link mechanism (116), crank link mechanism (116) are used for driving first snatch mechanism (111) elevating movement.

4. The high-speed cam-wrapped paper machine according to claim 2, characterized in that: and blanking transfer components are arranged on the outer sides of the first cam wrapper device (20) and the second cam wrapper device (30), and the blanking transfer components have the same structure as the first transfer component (11).

5. The high-speed cam-wrapped paper machine according to claim 1, characterized in that: the top of the upright post (41) is provided with an ejector rod driving motor (44), the ejector rod driving motor (44) is connected with an ejector rod (45), the ejector rod (45) penetrates through the upright post (41) and the inner die (43), and the ejector rod driving motor (44) is used for driving the ejector rod (45) to eject.

6. The high-speed cam-wrapped paper machine according to claim 1, characterized in that: the first cam facial tissue wrapping device (20) comprises a supporting platform (21), a first facial tissue wrapping mechanism (22) and a second facial tissue wrapping mechanism (23), wherein the first facial tissue wrapping mechanism and the second facial tissue wrapping mechanism are arranged on the side edge of the supporting platform (21);

the first facial tissue wrapping mechanism (22) is provided with a first cam shaft (221) and a first driving mechanism (222), a first cam (223), a second cam (224) and a third cam (225) are arranged on the first cam shaft (221), and the first driving mechanism (222) is used for driving the first cam shaft (221) to drive the first cam (223), the second cam (224) and the third cam (225) to rotate so as to drive the first facial tissue wrapping mechanism (22) to perform facial tissue wrapping operation;

the second surface wrapping paper mechanism (23) is provided with a second cam shaft (231) and a second driving mechanism (232), the second cam shaft (231) is provided with a fourth cam (233), a fifth cam (234) and a sixth cam (235), and the second driving mechanism (232) is used for driving the second cam shaft (231) to drive the fourth cam (233), the fifth cam (234) and the sixth cam (235) to rotate so as to drive the second surface wrapping paper mechanism (23) to perform surface wrapping paper operation;

the bottom of the supporting platform (21) is connected with a lifting driving mechanism (211) for driving the supporting platform (21) to lift;

the second cam wrapper device (30) has the same structure as the first cam wrapper device (20).

7. The high-speed cam-wrapped paper machine according to claim 6, characterized in that: the first paper wrapping mechanism (22) is sequentially provided with a first pressing roller (226), a first scraper knife (227) and a first pushing block (228) from top to bottom, the first pressing roller (226) is connected with the first cam (223), the first scraper knife (227) is connected with the second cam (224), and the first pushing block (228) is connected with the third cam (225).

8. The high-speed cam-wrapped paper machine according to claim 7, characterized in that: the second surface paper wrapping mechanism (23) is sequentially provided with a second pressing roller (236), a second scraper knife (237) and a second pushing block (238) from top to bottom;

the second pressing roller (236) is connected with the fourth cam (233), and the second pressing roller (236) is located at a height between the first pressing roller (226) and the first scraper knife (227); the second blade (237) is connected with the fifth cam (234), and the second blade (237) is at the same height as the first blade (227); the second push block (238) is connected with the sixth cam (235), and the second push block (238) is at the same height as the first push block (228).

9. The high-speed cam-wrapped paper machine according to claim 8, characterized in that: the first cam wrapper paper device (20) further comprises a vertical roller assembly (24), the vertical roller assembly (24) comprises a vertical roller driving mechanism (241) and a vertical roller (242), the vertical roller driving mechanism (241) is used for driving the vertical roller (242) to move horizontally, and the vertical roller (242) is located at a height between the first pressing roller (226) and the second pressing roller (236).

10. The high-speed cam-wrapped paper machine according to claim 9, characterized in that: the first cam facial tissue wrapping device (20) further comprises a third facial tissue wrapping mechanism (25) and a fourth facial tissue wrapping mechanism (26), the third facial tissue wrapping mechanism (25) is identical to the first facial tissue wrapping mechanism (22) in structure, and the third facial tissue wrapping mechanism (25) is arranged on the opposite side of the first facial tissue wrapping mechanism (22); the fourth surface paper wrapping mechanism (26) is identical to the second surface paper wrapping mechanism (23) in structure, and the fourth surface paper wrapping mechanism (26) is arranged on the opposite side of the second surface paper wrapping mechanism (23).

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