CN217864901U - Double-channel disposable chopstick packaging machine with deviation correcting device - Google Patents

Abstract

The utility model discloses a take deviation correcting device's disposable chopsticks packagine machine of binary channels, concretely relates to chopsticks packagine machine technical field, which comprises a frame, install in the frame and send the membrane device, cut the device, rectify and divide membrane device, chopsticks feedway and seal and cut the device, it is equipped with power device to seal and cut the device bottom, power device installs the bottom in the frame, cut the device and establish and sending membrane roller front side, rectify and divide the membrane device to establish and cut the device bottom, chopsticks feedway establishes in sending membrane roller one side, it establishes in chopsticks feedway to seal and cut the device. The utility model discloses a cut a volume film into two, increase one set of deviation correcting device and involution of increase on former packagine machine's basis, seal and cut the device, one set of control of usable and transmission realize that a packagine machine packing is two functions of product, under the condition that increases a small amount of devices, make the production efficiency of equipment improve at double.

Description

Double-channel disposable chopstick packaging machine with deviation correcting device

Technical Field

The utility model relates to a chopsticks packagine machine technical field, concretely relates to take deviation correcting device's disposable chopsticks packagine machine of binary channels.

Background

Along with the development of society, the fast-paced production and life are deep in mind, and the fast-paced social environment also urges various industries, wherein the chopstick processing and packaging industry develops rapidly due to the wide use of disposable chopsticks, and the working efficiency of the machine is also gradually improved; but the chopsticks packagine machine on the market is the mode of work of single channel packing at present, and efficiency is lower relatively, and people's pursuit in efficiency is mostly the speed that improves the machine simultaneously, but the promotion of this kind of mode efficiency is limited, can not satisfy people's demand to the at utmost.

Moreover, the existing chopstick packaging only uses one roll of film to package one row of products, the working efficiency is low, manufacturers in China also use two devices to share one rack, other components, various transmission systems, a color code tracking system, a sealing device, a cutting device and the like as two sets of mechanisms, the two rolls of films are required to be installed on the equipment, the operation, adjustment and operation of the equipment are two sets of independent systems, and besides the reduction of the occupied area, the manufacturing and operating cost is not obviously reduced compared with the mode of independently using the two devices.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a take deviation correcting device's disposable chopsticks packagine machine of binary channels through cutting a roll film for two, increases one set of deviation correcting device and involution on former packagine machine's basis, seals and cuts the device, and usable one set of control and transmission realize that a packagine machine packing is two functions of product, under the condition that increases a small amount of devices, make the production efficiency of equipment improve at double to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: the utility model provides a take deviation correcting device's disposable chopsticks packagine machine of binary channels, includes the frame, install in the frame and send membrane device, cut the device, rectify and divide membrane device, chopsticks feedway and seal and cut the device, it is equipped with power device to seal and cut the device bottom, power device installs the bottom in the frame, it establishes in sending membrane roller front side to cut the device, it establishes in cutting the device bottom to rectify and divide the membrane device, chopsticks feedway establishes in sending membrane roller one side, seal and cut the device and establish in chopsticks feedway one side.

Further, the film feeding device comprises a film feeding machine body and a film feeding roller arranged on the film feeding machine body.

Further, cut the device including installing the plastic roller that compresses tightly on sending the membrane organism, it establishes in sending membrane roller bottom to compress tightly the plastic roller, it is equipped with the initiative and cuts the roller to compress tightly plastic roller bottom, it cuts roller in close contact with the initiative to compress tightly the plastic roller, it is equipped with the branch membrane fixing base to cut roller one side in the initiative, divide membrane fixing base and send membrane organism front side fixed connection, it is equipped with the blade holder to divide membrane fixing base top, the cutter is installed to the blade holder rear side, be 45 contained angles between cutter and the blade holder, divide membrane fixing base bottom to be equipped with first direction roller, first direction roller one side is equipped with second direction roller, first direction roller and second direction roller are all installed in sending membrane organism front side.

Further, the branch membrane device of rectifying is including installing the branch membrane mainboard on sending the membrane organism, divide and install first membrane axle, second membrane axle, first adjustment worm and second adjustment worm on the membrane mainboard, first membrane axle is established in second membrane axle one side, first adjustment worm is established in one side that second membrane axle was kept away from to first membrane axle, second adjustment worm is established in one side that first membrane axle was kept away from to second membrane axle, first adjustment knob is installed to first adjustment worm bottom, second adjustment knob is installed to second adjustment worm bottom, first epaxial first membrane board and the first worm wheel of installing of first membrane, first worm wheel is established in first adjustment worm one side and is meshed mutually with first adjustment worm, first membrane board upper boom is installed at first membrane board top, first membrane board bottom is installed first membrane board lower boom, install second membrane board and second worm wheel on the second membrane axle, the second worm wheel is established in second adjustment worm one side and is meshed mutually with second adjustment worm, install second membrane board top on the second membrane board bottom the second membrane board.

Further, the chopstick feeding device comprises a base, the base is mounted at the top of the rack, a bin is arranged at the top of the base, a first feeding shaft and a second feeding shaft are arranged on one side of the bin, a first driving wheel is mounted at the outer end of the first feeding shaft, a second driving wheel is mounted at the outer end of the second feeding shaft, the first driving wheel and the second driving wheel are both arranged outside the bin, a first forming mechanism and a second forming mechanism are arranged at the bottom of the second feeding shaft, the second forming mechanism is arranged at the rear side of the first forming mechanism, the first forming mechanism and the second forming mechanism are both mounted on the bin, a second auxiliary shaft and a first auxiliary shaft are arranged on the bin, the second auxiliary shaft and the first auxiliary shaft are both arranged at the top of the second feeding shaft, a first sorting device and a second sorting device are arranged at the rear side of the base and the second forming mechanism, the first sorting device is arranged at the front side of the second sorting device, the first sorting device is arranged at the outer end of the first sorting device, a ratchet wheel swing baffle is arranged at the inner side of the bin, and a ratchet wheel swing baffle is arranged at the top end of the ratchet wheel swing device; the chopstick feeding device further comprises a swinging transmission shaft arranged on the rack, the bottom end of the swinging transmission shaft is arranged on the front side of the top of the base, a second swinging transmission wheel and a second driving cam are fixedly arranged at the outer end of the swinging transmission shaft, the second driving cam is arranged at the top of the second swinging transmission wheel, two second clamping wheels are arranged at the outer end of the second driving cam, a second opening and closing spring is arranged between the two second clamping wheels, one side of the second swinging transmission wheel is connected with a first swinging transmission wheel through a transmission belt, the top of the first swinging transmission wheel is fixedly connected with a first driving cam through a rotating shaft, the outer end of the first driving cam is provided with two first clamping wheels, and a first opening and closing spring is arranged between the first clamping wheels.

Further, seal and cut the device including installing the heat-seal board at the frame top, two first involution wheels, two second involution wheels, two first end seal cutters, two second material feeding unit and two first material feeding unit are installed to the heat-seal board top, first involution wheel and first material feeding unit are located heat-seal board top both sides respectively, first end seal cutter is located between first involution wheel and the first material feeding unit, the second involution wheel is located first involution wheel rear side, second end seal cutter is located first end seal cutter rear side, second material feeding unit is located first material feeding unit rear side, one of them first end seal cutter and the front side of a first involution wheel all are equipped with first pressure spring, first pressure spring one end and heat-seal board fixed connection, second pressure spring is all installed to the rear side of one of them second end seal cutter and a second involution wheel, second pressure spring's one end and heat-seal board fixed connection.

Further, the power device comprises a base plate installed at the bottom of the rack, a first servo motor and a second servo motor are arranged at the top of the base plate, the second servo motor is arranged on the front side of the first servo motor, a second end sealing shaft is arranged on one side of the first servo motor, a first synchronous belt is arranged between the first servo motor and the second end sealing shaft and is used for transmission through a first synchronous belt, the first servo motor drives the second end sealing cutter, a second driven gear is arranged on the front side of the second end sealing shaft, a first driven shaft is fixedly arranged on the front side of the second driven gear, a first driven gear is fixedly arranged on the front side of the first driven shaft, a first end sealing shaft is arranged on the front side of the first driven gear, and the first end sealing shaft drives the first end sealing cutter; a first blanking gear is arranged on the other side of the first servo motor, a first blanking driving shaft is arranged on one side of the first blanking gear, a second blanking gear is fixedly arranged at one end of the first blanking driving shaft, a third blanking gear is meshed with the front side of the second blanking gear, the first blanking gear drives a swing transmission shaft, and the third blanking gear drives a first driving wheel and a second driving wheel; the automatic film feeding device is characterized in that a first sealing shaft is arranged on one side of a second servo motor, a second synchronous belt is arranged between the second servo motor and the first sealing shaft, the second servo motor and the first sealing shaft are driven through the second synchronous belt, the second servo motor drives a first sealing wheel, a first sealing gear is arranged on the rear side of the first sealing shaft, a first sealing driven shaft is fixedly arranged on the rear side of the first sealing gear, a second sealing gear is fixedly arranged on the rear side of the first sealing driven shaft, the second sealing gear is arranged on the front side of the second sealing shaft, a third synchronous belt is arranged at the outer end of the first sealing driven shaft, a film feeding driving shaft is arranged inside the third synchronous belt, a film feeding seat is fixedly arranged on the rear side of the film feeding driving shaft, the film feeding seat is mounted on a deviation-correcting and film-dividing device, and the film feeding driving shaft drives the driving and active slitting roller.

The utility model has the advantages of as follows:

the utility model discloses a cut a volume film into two, increase one set of branch membrane device and the seal device of rectifying on former packagine machine's basis, one set of power device of usable realizes that a packagine machine packing is two functions of product, under the condition that increases a small amount of devices, makes the production efficiency of equipment improve at double.

Drawings

Fig. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a schematic view of the film feeding and slitting machine provided by the present invention;

FIG. 3 is a first schematic view of the deviation rectifying and film separating device provided by the present invention;

FIG. 4 is a schematic view of a second deviation rectifying and film separating device provided by the present invention;

FIG. 5 is a schematic view of feeding chopsticks according to the present invention;

FIG. 6 is a schematic view of feeding chopsticks according to the present invention;

FIG. 7 is a third schematic view of feeding chopsticks provided by the present invention;

fig. 8 is a schematic view of a sealing and cutting device provided by the present invention;

fig. 9 is a schematic view of the power plant provided by the present invention.

In the figure: 1 film feeding roller, 2 slitting device, 3 deviation-rectifying and film-separating device, 4 chopstick feeding device, 5 sealing and cutting device, 6 power device, 7 film feeding machine body, 8 pressing plastic roller, 9 driving and slitting roller, 10 film-separating fixing seat, 11 knife seat, 12 cutter, 13 first guiding roller, 14 second guiding roller, 15 film-separating main board, 16 first film-separating upper rod, 17 first film-separating plate, 18 first film-separating lower rod, 19 second film-separating upper rod, 20 second film-separating plate, 21 second film-separating lower rod, 22 first adjusting worm, 23 first adjusting knob, 24 first worm gear, 25 first film-separating shaft, 26 second adjusting worm, 27 second adjusting knob, 28 second worm gear, 29 second film-separating shaft, 30 first driving wheel, 31 second driving wheel, 32, 33 base, 34 second forming mechanism, 35 first forming mechanism, 36 second feeding shaft, 37 first feeding shaft, 38 first ratchet swinging mechanism 39 second swing ratchet wheel, 40 second auxiliary shaft, 41 first auxiliary shaft, 42 second feeding baffle, 43 first feeding baffle, 44 first sequencing device, 45 second sequencing device, 46 swing transmission shaft, 47 second swing transmission wheel, 48 first swing transmission wheel, 49 second driving cam, 50 first driving cam, 51 second clamping wheel, 52 first clamping wheel, 53 second opening and closing spring, 54 first opening and closing spring, 55 second sealing wheel, 56 second end sealing cutter, 57 second feeding device, 58 first sealing wheel, 59 first end sealing cutter, 60 first feeding device, 61 second pressing spring, 62 first pressing spring, 63 heat sealing plate, 64 first servo motor, 65 second servo motor, 66 first synchronous belt, 67 second end sealing shaft, 68 second sealing shaft, 69 second driven gear, 70 first driven shaft, 71 first driven gear, 72 first end seal shaft, 73 second seal gear, 74 first seal driven shaft, 75 first seal gear, 76 first seal shaft, 77 second synchronous belt, 78 first blanking gear, 79 first blanking driving shaft, 80 second blanking gear, 81 third blanking gear, 82 third synchronous belt, 83 film feeding driving shaft, 84 first film feeding, 85 base plate, 86 fourth synchronous belt.

Detailed Description

The present invention is described in detail with reference to the specific embodiments, and other advantages and effects of the present invention will be apparent to those skilled in the art from the disclosure herein. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to the attached figure 1 of the specification, the double-channel disposable chopstick packaging machine with the deviation correcting device comprises a rack, wherein a film feeding device, a cutting device 2, a deviation correcting and film separating device 3, a chopstick feeding device 4 and a sealing and cutting device 5 are installed on the rack, a power device 6 is arranged at the bottom of the sealing and cutting device 5, the power device 6 is installed at the bottom of the rack, the cutting device 2 is arranged on the front side of a film feeding roller 1, the deviation correcting and film separating device 3 is arranged at the bottom of the cutting device 2, the chopstick feeding device 4 is arranged on one side of the film feeding roller 1, and the sealing and cutting device 5 is arranged on one side of the chopstick feeding device 4; the power device 6 divides the power into a plurality of strands and transmits the strands to the six devices to realize the orderly matching of the working procedures; the film feeding device is used for feeding out planar packaging plastic paper, the cutting device 2 is used for cutting a roll of film into two, the deviation-correcting film-dividing device 3 is used for enabling the centers of the two packaging films to respectively correspond to the chopstick feeding devices 4 of the channels, and the chopstick feeding devices 4 are used for separating chopsticks and feeding; the sealing and cutting device 5 is used for carrying out heat sealing and cutting at two ends of the upper end of the packaging bag containing the chopsticks and then discharging.

Referring to the attached figure 2 of the specification, the film feeding device comprises a film feeding machine body 7 and a film feeding roller 1 arranged on the film feeding machine body 7, wherein the film feeding roller 1 is a packaging film mounting position.

Referring to the attached drawing 2 of the specification, the slitting device 2 comprises a compression plastic roller 8 installed on a film feeding machine body 7, the compression plastic roller 8 is arranged at the bottom of the film feeding roller 1, the bottom of the compression plastic roller 8 is provided with an active slitting roller 9, the compression plastic roller 8 is in close contact with the active slitting roller 9, one side of the active slitting roller 9 is provided with a film dividing fixing seat 10, the film dividing fixing seat 10 is fixedly connected with the front side of the film feeding machine body 7, the top of the film dividing fixing seat 10 is provided with a knife holder 11, the rear side of the knife holder 11 is provided with a cutter 12, a 45-degree included angle is formed between the cutter 12 and the knife holder 11, the bottom of the film dividing fixing seat 10 is provided with a first guide roller 13, one side of the first guide roller 13 is provided with a second guide roller 14, the first guide roller 13 and the second guide roller 14 are both installed at the front side of the film feeding machine body 7, a packaging film enters the first guide roller 13 from the film feeding roller 1 and then enters the active slitting roller 9, the active slitting roller 12 and is slit into two packaging films, and enters the active slitting roller 9.

Referring to the attached drawings 3 and 4 in the specification, the deviation rectifying and film separating device 3 comprises a film separating main board 15 installed on a film conveying machine body 7, a first film separating shaft 25, a second film separating shaft 29, a first adjusting worm 22 and a second adjusting worm 26 are installed on the film separating main board 15, the first film separating shaft 25 is arranged on one side of the second film separating shaft 29, the first adjusting worm 22 is arranged on one side, away from the second film separating shaft 29, of the first film separating shaft 25, the second adjusting worm 26 is arranged on one side, away from the first film separating shaft 25, of the second film separating shaft 29, the first adjusting knob 23 is installed at the bottom of the first adjusting worm 22, the second adjusting knob 27 is installed at the bottom of the second adjusting worm 26, the first film separating plate 17 and the first worm wheel 24 are installed on the first film separating shaft 25, the first worm wheel 24 is arranged on one side, away from the first adjusting worm 22, the first worm wheel 24 is meshed with the first adjusting worm 22, the first film separating plate 17 is installed on the top of the first film separating plate 16, the first film separating plate 17 is installed on the bottom of the first film separating plate 17, the second film separating shaft 29, the second film separating plate 20 and the second worm wheel 28 are installed on one side, the second adjusting worm wheel 20, the second film separating plate 20, the second adjusting worm wheel 26 is installed on the second film separating plate 19, and the second adjusting worm wheel 20.

The implementation scenario is specifically as follows: as shown in fig. 3, the packaging film is cut into two pieces of packaging film, and then returns to the first film-dividing upper rod 16 and the second film-dividing upper rod 19 after passing through the first film-dividing lower rod 18 and the second film-dividing lower rod 21, the first adjusting knob 23 and the second adjusting knob 27 are rotated, the first adjusting knob 23 and the second adjusting knob 27 are respectively installed on the first adjusting worm 22 and the second adjusting worm 26, the first adjusting worm 22 and the second adjusting worm 26 respectively drive the first worm wheel 24 and the second worm wheel 28 to rotate, the first worm wheel 24 and the second worm wheel 28 are respectively driven to drive the first film-dividing plate 17 and the second film-dividing plate 20 to rotate 360 degrees, and the adjustment can be performed according to different film widths.

Referring to fig. 5-7 of the specification, the chopstick feeding device 4 includes a base 33, the base 33 is installed on the top of the rack, a bin 32 is installed on the top of the base 33, a first feeding shaft 37 and a second feeding shaft 36 are installed on one side of the bin 32, a first driving wheel 30 is installed at the outer end of the first feeding shaft 37, a second driving wheel 31 is installed at the outer end of the second feeding shaft 36, the first driving wheel 30 and the second driving wheel 31 are both installed outside the bin 32, a first forming mechanism 35 and a second forming mechanism 34 are installed at the bottom of the second feeding shaft 36, the second forming mechanism 34 is installed at the rear side of the first forming mechanism 35, the first forming mechanism 35 and the second forming mechanism 34 are both installed on the bin 32, a second auxiliary shaft 40 and a first auxiliary shaft 41 are installed on the bin 32, the second auxiliary shaft 40 and the first auxiliary shaft 41 are both installed at the top of the second feeding shaft 36, a first sorting device 44 and a second sorting device 45 are both installed at the rear side of the base 33 and the second forming mechanism 34, the first sorting device 44 is installed at the front side of the second sorting device 45, a first auxiliary shaft 41 is installed at the top of the first feeding shaft 37, a swing baffle plate 42, a second swing baffle plate 38 and a swing baffle plate 38 are both installed inside the first swing baffle plate 32; the chopstick feeding device 4 further comprises a swing transmission shaft 46 installed on the rack, the bottom end of the swing transmission shaft 46 is installed on the front side of the top of the base 33, a second swing transmission wheel 47 and a second driving cam 49 are fixedly arranged at the outer end of the swing transmission shaft 46, the second driving cam 49 is arranged at the top of the second swing transmission wheel 47, two second clamping wheels 51 are installed at the outer end of the second driving cam 49, a second opening and closing spring 53 is arranged between the two second clamping wheels 51, one side of the second swing transmission wheel 47 is connected with a first swing transmission wheel 48 through a transmission belt, the top of the first swing transmission wheel 48 is fixedly connected with a first driving cam 50 through a rotating shaft, two first clamping wheels 52 are arranged at the outer end of the first driving cam 50, and a first opening and closing spring 54 is arranged between the two first clamping wheels 52.

The implementation scenario is specifically as follows: the first forming mechanism 35 and the second forming mechanism 34 for the packaging film to enter are formed, the first driving wheel 30 and the second driving wheel 31 drive the first feeding shaft 37 and the second feeding shaft 36 to rotate, the first feeding shaft 37 and the second feeding shaft 36 are provided with a first swing ratchet 38 and a second swing ratchet 39, when the first feeding shaft 37 and the second feeding shaft 36 rotate, the first feeding baffle 43 and the second feeding baffle 42 are pressed to generate swing action, so that the chopsticks enter the first sorting device 44 and the second sorting device 45, the first clamping wheel 52 and the second clamping wheel 51 are pulled by a spring to follow the shapes of the second driving cam 49 and the first driving cam 50, and the first clamping wheel 52 and the second clamping wheel 51 complete one opening and closing action every time the second driving cam 49 and the first driving cam 50 rotate for one circle.

Referring to the attached drawing 8 in the specification, the sealing and cutting device 5 includes a heat-seal plate 63 installed on the top of a frame, two first sealing wheels 58, two second sealing wheels 55, two first end sealing cutters 59, two second end sealing cutters 56, two second feeding devices 57 and two first feeding devices 60 are installed on the top of the heat-seal plate 63, the first sealing wheels 58 and the first feeding devices 60 are respectively located on two sides of the top of the heat-seal plate 63, the first end sealing cutters 59 are located between the first sealing wheels 58 and the first feeding devices 60, the second sealing wheels 55 are located on the rear sides of the first sealing wheels 58, the second end sealing cutters 56 are located on the rear sides of the first end sealing cutters 59, the second feeding devices 57 are located on the rear sides of the first feeding devices 60, first compression springs 62 are respectively installed on the front sides of one of the first end sealing wheels 59 and one of the first sealing wheels 58, one end of each first compression spring 62 is fixedly connected with the heat-seal plate 63, and second compression springs 61 are respectively installed on the rear sides of one of the second end sealing wheels 56 and one second sealing wheels 55.

The implementation scene is specifically as follows: first pressure spring 62 and second pressure spring 61 seal and cut 59, the second end for first involution wheel 58, second involution wheel 55, first end seal, and second end seals cutter 56 and provides the pressure that compresses tightly, and first involution wheel 58, second involution wheel 55 accomplish wrapping bag upper end involution, and first end seals cutter 59, second end and seals cutter 56 and be used for the involution and the cutting at wrapping bag involution completion back both ends, and second material feeding unit 57, first material feeding unit 56 are used for cutting and see the packing material out after accomplishing.

Referring to the description of the attached drawings 9, the power device 6 includes a base plate 85 installed at the bottom of the rack, a first servo motor 64 and a second servo motor 65 are installed at the top of the base plate 85, the second servo motor 65 is installed at the front side of the first servo motor 64, a second end sealing shaft 67 is installed at one side of the first servo motor 64, a first synchronous belt 66 is installed between the first servo motor 64 and the second end sealing shaft 67 and is driven by the first synchronous belt 66, the first servo motor 64 drives the second end sealing cutter 56, a second driven gear 69 is installed at the front side of the second end sealing shaft 67, a first driven shaft 70 is fixedly installed at the front side of the second driven gear 69, a first driven gear 71 is fixedly installed at the front end of the first driven shaft 70, a first end sealing shaft 72 is installed at the front side of the first driven gear 71, and the first end sealing cutter 59 is driven by the first end sealing shaft 72; a first blanking gear 78 is arranged on the other side of the first servo motor 64, a fourth synchronous belt 86 is arranged between the first servo motor 64 and the first blanking gear 78, a first blanking driving shaft 79 is arranged on one side of the first blanking gear 78, a second blanking gear 80 is fixedly arranged at one end of the first blanking driving shaft 79, a third blanking gear 81 is meshed with the front side of the second blanking gear 80, the first blanking gear 78 drives the swinging transmission shaft 46, and the third blanking gear 81 drives the first driving wheel 30 and the second driving wheel 31; a first sealing shaft 76 is arranged on one side of the second servo motor 65, a second synchronous belt 77 is arranged between the second servo motor 65 and the first sealing shaft 76, the second servo motor 65 and the first sealing shaft 76 are driven by the second synchronous belt 77, the second servo motor 65 drives the first sealing wheel 58, a first sealing gear 75 is arranged on the rear side of the first sealing shaft 76, a first sealing driven shaft 74 is fixedly arranged on the rear side of the first sealing gear 75, a second sealing gear 73 is fixedly arranged on the rear side of the first sealing driven shaft 74, the second sealing gear 73 is arranged on the front side of the second sealing shaft 68, a third synchronous belt 82 is arranged at the outer end of the first sealing driven shaft 74, a film feeding driving shaft 83 is arranged in the third synchronous belt 82, a film feeding seat 84 is fixedly arranged on the rear side of the film feeding driving shaft 83, the film feeding seat 84 is installed on the deviation rectifying and film separating device 3, and the driving roller 9 is driven by the film feeding driving shaft 83.

The implementation scene is specifically as follows: two motors of the first servo motor 64 and the second servo motor 65 are used for driving,

wherein, the first servo motor 64 is used to drive the first end sealing cutter 59 and the second end sealing cutter 56 in the sealing and cutting device 5, the first driving wheel 30 and the second driving wheel 31 in the chopstick feeding device 4, and the swing transmission shaft 46, and the second servo motor 65 is used to drive the first sealing wheel 58, the second sealing wheel 55 and the driving slitting roller 9 in the sealing and cutting device 5.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (7)

1. The utility model provides a take deviation correcting device's disposable chopsticks packagine machine of binary channels, includes the frame, its characterized in that: install in the frame and send the membrane device, cut device (2), rectify and divide membrane device (3), chopsticks feedway (4) and seal and cut device (5), seal and cut device (5) bottom and be equipped with power device (6), the bottom in the frame is installed in power device (6), it establishes at sending membrane roller (1) front side to cut device (2), rectify and divide membrane device (3) to establish and cut device (2) bottom, establish in sending membrane roller (1) one side chopsticks feedway (4), seal and cut device (5) and establish in chopsticks feedway (4) one side.

2. The dual-channel disposable chopstick packaging machine with the deviation correcting device as claimed in claim 1, wherein: the film feeding device comprises a film feeding machine body (7) and a film feeding roller (1) arranged on the film feeding machine body (7).

3. The dual-channel disposable chopstick packaging machine with the deviation correcting device as recited in claim 2, wherein: cut device (2) including installing compressing tightly plastic roller (8) on sending membrane organism (7), it establishes in sending membrane roller (1) bottom to compress tightly plastic roller (8), it is equipped with initiative cut roller (9) to compress tightly plastic roller (8) bottom, it cuts roller (9) in close contact with the initiative to compress tightly plastic roller (8), initiative cut roller (9) one side and be equipped with branch membrane fixing base (10), divide membrane fixing base (10) and send membrane organism (7) front side fixed connection, it is equipped with blade holder (11) to divide membrane fixing base (10) top, cutter (12) are installed to blade holder (11) rear side, be 45 contained angles between cutter (12) and blade holder (11), it is equipped with first direction roller (13) to divide membrane fixing base (10) bottom, first direction roller (13) one side is equipped with second direction roller (14), first direction roller (13) and second direction roller (14) are all installed and are sent membrane organism (7) front side.

4. The dual-channel disposable chopstick packaging machine with the deviation correcting device as claimed in claim 2, wherein: deviation-rectifying film separating device (3) is including installing branch membrane mainboard (15) on sending membrane organism (7), divide and install first membrane axle (25), second membrane axle (29), first adjustment worm (22) and second adjustment worm (26) on membrane mainboard (15), first membrane axle (25) are established in second membrane axle (29) one side, first adjustment worm (22) are established in one side of keeping away from second membrane axle (29) in first membrane axle (25), one side of keeping away from first membrane axle (25) in second adjustment worm (26) is established in one side of second membrane axle (29), first adjustment worm (22) bottom is installed first adjustment worm (23), second adjustment worm (27) are installed to second adjustment worm (26) bottom, install first membrane board (17) and first worm wheel (24) on first membrane axle (25), first worm wheel (24) are established in first adjustment worm (22) one side and are engaged with first membrane worm (22) and are established on second membrane axle (17) and second adjustment worm wheel (28) first membrane axle (18) and second membrane axle (28), second adjustment worm wheel (26) are installed on one side and second membrane axle (17) and second adjustment worm (18) are installed on second membrane axle (28) and second membrane axle (28), second membrane axle (17) and second adjustment worm wheel (28) and second adjustment worm (18) are established on one side first membrane axle (17) and second membrane axle (28), second membrane axle (17) and second adjustment worm wheel (28) and second adjustment worm (18) are installed on one side The whole worm (26) is meshed with each other, a second membrane separation upper rod (19) is installed at the top of the second membrane separation plate (20), and a second membrane separation lower rod (21) is installed at the bottom of the second membrane separation plate (20).

5. The dual-channel disposable chopstick packaging machine with the deviation correcting device as claimed in claim 3, wherein: the chopstick feeding device (4) comprises a base (33), the base (33) is installed at the top of the rack, a stock bin (32) is arranged at the top of the base (33), a first feeding shaft (37) and a second feeding shaft (36) are arranged on one side of the stock bin (32), a first driving wheel (30) is installed at the outer end of the first feeding shaft (37), a second driving wheel (31) is installed at the outer end of the second feeding shaft (36), the first driving wheel (30) and the second driving wheel (31) are both arranged outside the stock bin (32), a first forming mechanism (35) and a second forming mechanism (34) are arranged at the bottom of the second feeding shaft (36), the second forming mechanism (34) is arranged at the rear side of the first forming mechanism (35), the first forming mechanism (35) and the second forming mechanism (34) are both installed on the stock bin (32), a second auxiliary shaft (40) and a first auxiliary shaft (41) are arranged on the stock bin (32), the second auxiliary shaft (40) and the first auxiliary shaft (41) are arranged at the top of the second forming mechanism (44), and a second sorting device (44) is arranged at the top of the second sorting mechanism (44), a first feeding baffle (43) is mounted on the first auxiliary shaft (41), a second feeding baffle (42) is mounted on the second auxiliary shaft (40), the second feeding baffle (42) and the first feeding baffle (43) are both arranged at the top end inside the storage bin (32), a first swing ratchet (38) is arranged at the outer end of the first feeding shaft (37), a second swing ratchet (39) is arranged at the outer end of the second feeding shaft (36), and the first swing ratchet (38) and the second swing ratchet (39) are both arranged inside the storage bin (32);

the chopstick feeding device (4) further comprises a swing transmission shaft (46) installed on the rack, the bottom end of the swing transmission shaft (46) is installed on the front side of the top of the base (33), a second swing transmission wheel (47) and a second driving cam (49) are fixedly arranged at the outer end of the swing transmission shaft (46), the second driving cam (49) is arranged at the top of the second swing transmission wheel (47), two second clamping wheels (51) are installed at the outer end of the second driving cam (49), a second opening and closing spring (53) is arranged between the two second clamping wheels (51), one side of the second swing transmission wheel (47) is connected with a first swing transmission wheel (48) through a transmission belt, the top of the first swing transmission wheel (48) is fixedly connected with a first driving cam (50) through a rotating shaft, the outer end of the first driving cam (50) is provided with two first clamping wheels (52), and a first opening and closing spring (54) is arranged between the first clamping wheels (52).

6. The dual-channel disposable chopstick packaging machine with the deviation correcting device as claimed in claim 5, wherein: the sealing and cutting device (5) comprises a heat-seal plate (63) arranged at the top of a frame, two first sealing wheels (58), two second sealing wheels (55), two first end sealing cutters (59), two second end sealing cutters (56), two second feeding devices (57) and two first feeding devices (60) are arranged at the top of the heat-seal plate (63), the first sealing wheels (58) and the first feeding devices (60) are respectively positioned at the two sides of the top of the heat-seal plate (63), the first end sealing cutters (59) are positioned between the first sealing wheels (58) and the first feeding devices (60), the second sealing wheels (55) are positioned at the rear side of the first sealing wheels (58), the second end sealing cutters (56) are positioned at the rear side of the first end sealing cutters (59), the second feeding devices (57) are positioned at the rear side of the first feeding devices (60), one of the first end sealing wheels (59) and the front side of one first end sealing wheels (58) are provided with first pressing springs (62), and the first end sealing wheels (61) are fixedly connected with the second sealing springs (62), and the second sealing wheels (61) are fixedly connected with the second sealing wheels (61).

7. The dual-channel disposable chopstick packaging machine with the deviation correcting device as recited in claim 6, wherein: the power device (6) comprises a base plate (85) installed at the bottom of the rack, a first servo motor (64) and a second servo motor (65) are arranged at the top of the base plate (85), the second servo motor (65) is arranged on the front side of the first servo motor (64), a second end sealing shaft (67) is arranged on one side of the first servo motor (64), a first synchronous belt (66) is arranged between the first servo motor (64) and the second end sealing shaft (67) and is transmitted through the first synchronous belt (66), the first servo motor (64) drives the second end sealing cutter (56), a second driven gear (69) is arranged on the front side of the second end sealing shaft (67), a first driven shaft (70) is fixedly arranged on the front side of the second driven gear (69), a first driven gear (71) is fixedly arranged on the front side of the first driven shaft (70), a first end sealing shaft (72) is arranged on the front side of the first driven gear (71), and the first end sealing cutter (59) is driven by the first end sealing shaft (72);

a first blanking gear (78) is arranged on the other side of the first servo motor (64), a fourth synchronous belt (86) is arranged between the first servo motor (64) and the first blanking gear (78), a first blanking driving shaft (79) is arranged on one side of the first blanking gear (78), a second blanking gear (80) is fixedly arranged at one end of the first blanking driving shaft (79), a third blanking gear (81) is meshed with the front side of the second blanking gear (80), the first blanking gear (78) drives the swinging transmission shaft (46), and the third blanking gear (81) drives the first driving wheel (30) and the second driving wheel (31);

second servo motor (65) one side is equipped with first sealing axle (76), be equipped with second hold-in range (77) between second servo motor (65) and the first sealing axle (76), carry out the transmission through second hold-in range (77) between second servo motor (65) and the first sealing axle (76), second servo motor (65) drive first involution wheel (58), first sealing axle (76) rear side is equipped with first involution gear (75), first involution gear (75) rear side is fixed and is equipped with first involution driven shaft (74), first involution driven shaft (74) rear end is fixed and is equipped with second involution gear (73), second involution gear (73) are established in second involution axle (68) front side, first involution driven shaft (74) outer end is equipped with third hold-in range (82), the inside membrane (83) that send of third hold-in range (82), membrane (83) rear side is equipped with fixed drive shaft (84) and is installed and is sent membrane seat (84) on the membrane seat (83) is sent in the initiative, and the drive roll section is installed and is sent membrane seat (9) the drive roll (83), divides the membrane seat (83).

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