CN213974602U - Full-automatic strip toothpick packaging machine - Google Patents

Abstract

The full-automatic strip toothpick packaging machine is suitable for packaging various strip toothpicks, and can be used for fully automatically sealing films and packaging small bags and big combined bags (any combination mode of packaging 2-20 strips of toothpicks is arranged in the large bags) according to production requirements. The method comprises the following steps: the device comprises a rack, two film devices, a sub-packaging film device, a toothpick storage quantitative hopper device, a fixed plate device, an up-down adjusting transmission wheel device, a film sealing device, an upper finished product conveyor belt trimming device, a pneumatic film cutting device, a counting conveyor device, a frequency conveyor device, a combining conveyor device, a strip toothpick size and length adjusting conveyor device and a large packaging film packaging machine. The toothpick packaging automation is realized through the processes of packaging toothpicks in strips, automatically counting small bags and combining large packaging films for packaging the toothpicks to be packaged. The method has the advantages of simple operation, fast production, simple maintenance, low cost and high yield.

Description

Full-automatic strip toothpick packaging machine

Technical Field

The utility model relates to a toothpick manufacturing field especially relates to a full automatization strip package toothpick packagine machine.

Background

Currently, there are two ways in using a strip toothpick packaging machine: vertical and horizontal. The vertical packaging machine needs to be stepped during manual operation, so that the maintenance is complex and the production speed is slow; the film used by the horizontal packaging machine has high cost and low production speed. Above two kinds of strip toothpick packagine machine, strip toothpick is little to be merged big package and has two kinds of modes: manually bagging, sealing and packaging, and manually packaging by a large packaging film packaging machine. The full-automatic strip toothpick packaging machine has the advantages of simple and convenient operation, fast production, simple maintenance, low cost and high yield, and can be used for automatically counting small bags and combining large bags (any combination mode of packaging 2-20 bags of strip toothpicks) according to production requirements and fully automatically packaging films.

Disclosure of Invention

The utility model aims to overcome the above-mentioned not enough, provide one kind and be applicable to full automatization strip toothpick packagine machine easy and simple to handle, production is fast, maintains simply, and is with low costs, and the yield is high, through strip toothpick packing, automatic count parcel, the process of merging big envelope membrane packing, realized toothpick packing full automatization.

The utility model provides a first technical problem: a horizontal packaging machine mode is adopted, and a film used by a vertical packaging machine is utilized to form the novel strip toothpick packaging machine. The automatic toothpick storage quantitative bag film cutting machine comprises a frame, two film devices, a sub-packaging film device, a toothpick storage quantitative hopper device, a fixing plate device, an up-down adjusting transmission wheel device, a film sealing device, an upper finished product conveyor belt trimming device, a lower finished product conveyor belt trimming device and a pneumatic film cutting device. The film passes through 4 transmission rubber coating wheels, and is separated from the film by a gap at the lower inclined plane of a discharge port at the bottom of the quantitative hopper and the upper surface of a transmission top shaft; a film device is arranged in front of and above the toothpick storage quantitative hopper, and the two films are combined to form the same straight line through 4 transmission rubber coating wheels and a top shaft above a discharge hole of the quantitative hopper. The toothpick storage quantitative hopper is a front groove plate and a pneumatic clapboard in a groove of the front groove plate, the middle of the front groove plate is connected with a fixed block, two sides of the front groove plate are respectively adjusted up and down through a cylinder, the cylinder is fixed on a rack, and the lower end surface of the front groove plate is combined with the pneumatic upper inclined clapboard; an upper inclined plate is parallel to a lower inclined plate, the middle of the upper inclined plate is connected with one end of the lower inclined plate through 4 small square columns and has a gap of 40 mm, two sides of the inner surface of each small square column have a gap of less than 60 mm, the upper end of the upper inclined plate is connected with a guard plate, the upper end surface of the guard plate and the upper end surface of a front groove plate are on the same plane, the middle of the guard plate is connected with a fixed block, two sides of the fixed block are respectively adjusted up and down through cylinders and are fixed on a machine frame, a pneumatic upper inclined baffle plate is arranged below the joint of the guard plate and the upper inclined plate and is parallel to the upper inclined plate, the gap is a small gap of a thin film, the pneumatic upper inclined baffle plate is connected with the front groove plate to be an inclined plane and passes through a quantitative plate upper inclined groove plate, the lower end of the upper inclined plate is connected with 2 small square columns and is the same inclined plane, a long hole range is arranged in the middle of the lower inclined plate and is 20 mm away from the pneumatic baffle plate in the front groove plate until the upper end surface, the lower inclined plane is connected to a position 10 mm away from the upper end surface, the lower end surface of the lower inclined plate, a fixed block is connected 150 mm above the inclined plane, the two sides of the fixed block are respectively adjusted up and down through a cylinder, and the cylinder is fixed on the rack; the two sides are movable fixing plates, the middle parts of the front groove plate and the guard plate are connected with the upper part of the fixing block, the two sides are respectively connected with the guard plate of the movable fixing plate, and the lower surface of the lower inclined plate is connected with the guard plate of the movable fixing plate; the pneumatic upper inclined partition plates are used for spacing, the upper part is provided with a storage hopper, and the lower part is provided with a quantitative hopper; the pneumatic upper inclined partition plate is a quantitative hopper feeding port and a storage hopper discharging port, and the pneumatic partition plate in the front groove plate is a quantitative hopper discharging port; the quantitative bucket quantifies quantitatively, two oblique upper quantitative plates are arranged in a gap smaller than 60 mm between the inner surface and two sides of a small square column of the toothpick storage quantitative bucket, one oblique upper groove plate is arranged at the rear part, the upper groove is larger than the pneumatic oblique upper clapboard, the lower groove is larger than the lower movable quantitative plate, 2 nuts are arranged in the middle of the large groove, the range is fixed at the bottom of the bucket through screws, and outer fixed blocks are arranged at the tail part of the right oblique upper groove plate and the middle of the two grooves and can pass through holes of screw rods at the outer sides; one movable quantitative plate is arranged below the upper inclined groove plate, the front surface of the movable quantitative plate is an inclined surface, a long hole is formed in the middle of the inclined surface, the range of the movable quantitative plate can pass through the screw quantitative plate and is 20 mm away from each end surface of the screw quantitative plate, and an outer side fixing block and the same plane with the outer side fixing block of the upper inclined groove plate are arranged on the 20 mm position of the tail end of the movable quantitative plate. The fixed plate is a fixed plate with the length less than 1000 mm and the width less than 55 mm, and is arranged on the frame of the novel strip toothpick packaging machine; the front end of the fixed plate is 5 mm lower than the tail end of the discharge port at the bottom of the quantitative bucket, a gap of 20 mm is reserved between the front end of the fixed plate and the discharge port, the fixed plate and the fixed plate form a same straight line, and adjustable guard plates (the width of the strip toothpick film is adjusted according to production requirements) are respectively arranged on two sides of the front end of the fixed plate; the film sealing device is adjusted back and forth on the same plane on the fixed plate, a pneumatic pressing plate on the frame of the film sealing device generates a 30 mm gap with the fixed plate when the film sealing device stops working, and the pneumatic pressing plate is matched with the surface of the fixed plate when the pneumatic pressing plate is in the working state; the tail end of the fixed plate is connected with a lower finished product conveying belt, has a 40 mm gap and forms a straight line on the same plane. The up-down adjusting driving wheel is arranged on a fixed plate with the length less than 1000 mm and the width less than 55 mm, in front of the film sealing device and behind guard plates at two sides of the fixed plate. The film sealing device comprises a carriage, a carriage upper rack and a mechanism arranged on the rack; pneumatic sealing pressing strips on two sides of the upper end of the rack, cylinders with two fixed plates and fixed pneumatic pressing plates in the middle of the cylinders on the two sides, pneumatic partition plates on two sides of the middle section of the rack, and pneumatic heating plates on two sides of the lower end of the rack.

The utility model provides a second technical problem: automatic change count parcel, merge big envelope membrane packagine machine and include: the machine frame, the number of times conveyor, merge conveyor, the size and length of the strip toothpick adjust conveyor, big envelope membrane packing setting. The automatic counting small bag, the counting and conveying device is a strip toothpick packaging machine which is provided with an automatic counting function and a group of pneumatic clapboards (a cylinder bracket is arranged and a cylinder is connected with a fixed plate) at the tail end of a discharge hopper. A groove storage hopper on the machine frame below the discharge hopper, a pneumatic push plate (a cylinder is connected with a fixed plate, is smaller than the groove storage hopper and is lower than the tail end bottom of the discharge hopper, a gap of 10 mm is formed between the inside of the groove partition plate and the groove partition plate when the pneumatic groove partition plate stops working and is behind the discharge hopper) in the back of the storage hopper, a pneumatic groove partition plate (the cylinder is connected with the groove partition plate) in the front of the groove, and two sides of the pneumatic groove partition plate are provided with guard plates; the tail end of the groove storage hopper and the two side hoppers are connected when stopping working, the interval is less than 5 mm, and the two side hoppers are on the same plane. The frequency conveying device is characterized in that the two side hoppers are a combination of a cylinder connected below the fixed plate and a group of linear guide rails; one side of the upper surface of the fixed plate is provided with a group of pneumatic convex groove plates (a cylinder bracket is arranged, a cylinder is connected with the fixed plate, a convex position is arranged below the fixed plate, and a groove is arranged below the fixed plate, and is smaller than the bottom of the bucket); one side is a fixed plate below the fixed combining hopper, the feed inlet is arranged at the back, and the guard plate is arranged at the front; mainly from bottom to top transport fixed merge fill one side set up the recess, with both sides fill end set up the recess cooperation on coplanar. The combined conveying device is used for fixing the combined hopper, the bottom of the combined hopper is provided with a groove, the groove is arranged on one side of the combined hopper, the combined hopper is combined with the grooves arranged on the two sides of the combined hopper, and the pneumatic partition plate is arranged on the other side of the combined hopper; the fixed combining bucket is provided with a groove at one side, fixed guard plates are arranged below the bucket edges at two sides, and the rest two guard plates are larger than the bucket formed in the combining process (the two buckets and the fixed combining bucket are on the same plane, pneumatic convex groove plates of the two buckets work in place and are combined with the fixed combining bucket), and a feed port is arranged below the three buckets; a groove is arranged at the bottom of the combined bucket, a discharge hole is combined in the front, and a pneumatic convex groove plate (a cylinder is connected with a fixed plate, a convex position is arranged below the cylinder and is smaller than the groove arranged at the bottom of the bucket) is arranged at the back; the fixed merged bucket bottom is provided with a groove, the three bucket bottoms are provided with grooves, the three bucket bottoms are connected when the bucket stops working, the interval is less than 5 millimeters, and the two bucket bottoms are on the same plane. According to the size and length of the strip toothpicks, the conveying device is adjusted, a pneumatic convex groove plate (a cylinder is connected with a fixed plate, a convex position is arranged below the pneumatic convex groove plate and a groove is arranged below the pneumatic convex groove plate, the groove is smaller than the bottom of the strip toothpicks), a feed inlet is arranged behind the strip toothpicks, a groove is arranged at the top of the front edge of the strip toothpicks and connected with an adjustable groove bucket at two edges, and two edges of the strip toothpicks are higher than the top of the front edge of the strip toothpicks by 60 mm; the three-side bucket comprises a three-side bucket, a groove bucket bottom (the groove bucket bottom, a cylinder support arranged at the bottom of two sides of the three-side bucket, a bearing support, a cylinder and a group of linear guide rails) which rises to the top of the front edge of the three-side bucket, two-side groove buckets (the groove bucket bottom is arranged, the groove is arranged at the top of the front edge of the three-side bucket, two-side protective plates are larger than two sides of the three-side bucket and smaller than two sides of a film former, the film former is connected and a same plane forms a straight line; an adjustable pneumatic baffle is positioned above the film former.

The utility model provides a first technical implementation scheme 1: the film passes through 4 transmission rubber coating wheels, and is separated from the film by a gap at the lower inclined plane of a discharge port at the bottom of the quantitative hopper and the upper surface of a transmission top shaft; a film device is arranged in front of and above the toothpick storage quantitative hopper, and the two films are combined to form the same straight line through 4 transmission rubber coating wheels and a top shaft above a discharge hole of the quantitative hopper.

The utility model provides a first technical implementation scheme 2: the toothpick storage quantitative hopper is a front groove plate and a pneumatic clapboard in a groove of the front groove plate, the middle of the front groove plate is connected with a fixed block, two sides of the front groove plate are respectively adjusted up and down through a cylinder, the cylinder is fixed on a rack, and the lower end surface of the front groove plate is combined with the pneumatic upper inclined clapboard; an upper inclined plate is parallel to a lower inclined plate, the middle of the upper inclined plate is connected with one end of the lower inclined plate through 4 small square columns and has a gap of 40 mm, two sides of the inner surface of each small square column have a gap of less than 60 mm, the upper end of the upper inclined plate is connected with a guard plate, the upper end surface of the guard plate and the upper end surface of a front groove plate are on the same plane, the middle of the guard plate is connected with a fixed block, two sides of the fixed block are respectively adjusted up and down through cylinders and are fixed on a machine frame, a pneumatic upper inclined baffle plate is arranged below the joint of the guard plate and the upper inclined plate and is parallel to the upper inclined plate, the gap is a small gap of a thin film, the pneumatic upper inclined baffle plate is connected with the front groove plate to be an inclined plane and passes through a quantitative plate upper inclined groove plate, the lower end of the upper inclined plate is connected with 2 small square columns and is the same inclined plane, a long hole range is arranged in the middle of the lower inclined plate and is 20 mm away from the pneumatic baffle plate in the front groove plate until the upper end surface, the lower inclined plane is connected to a position 10 mm away from the upper end surface, the lower end surface of the lower inclined plate, a fixed block is connected 150 mm above the inclined plane, the two sides of the fixed block are respectively adjusted up and down through a cylinder, and the cylinder is fixed on the rack; the two sides are movable fixing plates, the middle parts of the front groove plate and the guard plate are connected with the upper part of the fixing block, the two sides are respectively connected with the guard plate of the movable fixing plate, and the lower surface of the lower inclined plate is connected with the guard plate of the movable fixing plate; the pneumatic upper inclined partition plates are used for spacing, the upper part is provided with a storage hopper, and the lower part is provided with a quantitative hopper; the pneumatic upper inclined partition plate is a quantitative hopper feeding port and a storage hopper discharging port, and the pneumatic partition plate in the front groove plate is a quantitative hopper discharging port; the quantitative bucket quantifies quantitatively, two oblique upper quantitative plates are arranged in a gap smaller than 60 mm between the inner surface and two sides of a small square column of the toothpick storage quantitative bucket, one oblique upper groove plate is arranged at the rear part, the upper groove is larger than the pneumatic oblique upper clapboard, the lower groove is larger than the lower movable quantitative plate, 2 nuts are arranged in the middle of the large groove, the range is fixed at the bottom of the bucket through screws, and outer fixed blocks are arranged at the tail part of the right oblique upper groove plate and the middle of the two grooves and can pass through holes of screw rods at the outer sides; one movable quantitative plate is arranged below the upper inclined groove plate, the front surface of the movable quantitative plate is an inclined surface, a long hole is formed in the middle of the inclined surface, the range of the movable quantitative plate can pass through the screw quantitative plate and is 20 mm away from each end surface of the screw quantitative plate, and an outer side fixing block and the same plane with the outer side fixing block of the upper inclined groove plate are arranged on the 20 mm position of the tail end of the movable quantitative plate. The number of toothpicks can be changed at any time according to production requirements, and the effects of simple operation and good effect are achieved.

The utility model provides a first technical implementation scheme 3: the fixed plate is a fixed plate with the length less than 1000 mm and the width less than 55 mm, and is arranged on the frame of the novel strip toothpick packaging machine; the front end of the fixed plate is 5 mm lower than the tail end of the discharge port at the bottom of the quantitative bucket, a gap of 20 mm is reserved between the front end of the fixed plate and the discharge port, the fixed plate and the fixed plate form a same straight line, and adjustable guard plates (the width of the strip toothpick film is adjusted according to production requirements) are respectively arranged on two sides of the front end of the fixed plate; the film sealing device is adjusted back and forth on the same plane on the fixed plate, a pneumatic pressing plate on the frame of the film sealing device generates a 30 mm gap with the fixed plate when the film sealing device stops working, and the pneumatic pressing plate is matched with the surface of the fixed plate when the pneumatic pressing plate is in the working state; the tail end of the fixed plate is connected with a lower finished product conveying belt, has a 40 mm gap and forms a straight line on the same plane. The up-down adjusting driving wheel is arranged on a fixed plate with the length less than 1000 mm and the width less than 55 mm, in front of the film sealing device and behind guard plates at two sides of the fixed plate. The distance between the transmission wheel and the fixed plate is adjusted up and down according to the thickness of the strip-packed toothpicks required by production, so that the toothpicks are stably and uniformly distributed in the film, the film is stable in film sealing and packaging, and the effect of packaging the toothpicks is good.

The utility model provides a first technical implementation scheme 4: the film sealing device comprises a carriage, a carriage upper rack and a mechanism arranged on the rack; pneumatic sealing layering in frame upper end both sides (intermediate junction cylinder on the fixed plate, there is the combination of a set of linear guide respectively in its both sides, recess board is installed below the fixed plate on the layering), pass through two fixed plates in the middle of the both sides cylinder, the cylinder of fixed pneumatic clamp plate (cylinder connection fixed plate), the pneumatic baffle in frame middle section both sides (cylinder connection fixed plate), the pneumatic board that generates heat in frame lower extreme both sides (intermediate junction cylinder below the fixed plate, there is the combination of a set of linear guide respectively in its both sides, the board that generates heat is on the fixed plate). The length of the strip toothpick package can be adjusted back and forth and back and forth on the fixed plate according to production requirements, and the strip toothpick package is fixed on the length of the toothpick package for working.

The utility model provides a second technical implementation scheme 1, the counting and conveying device is that the strip toothpick packaging machine is provided with an automatic counting function, and a group of pneumatic clapboards (an air cylinder bracket is installed, and an air cylinder is connected with a fixed plate) are arranged at the tail end of a discharge hopper. A groove storage hopper on the machine frame below the discharge hopper, a pneumatic push plate (a cylinder is connected with a fixed plate, is smaller than the groove storage hopper and is lower than the tail end bottom of the discharge hopper, a gap of 10 mm is formed between the inside of the groove partition plate and the groove partition plate when the pneumatic groove partition plate stops working and is behind the discharge hopper) in the back of the storage hopper, a pneumatic groove partition plate (the cylinder is connected with the groove partition plate) in the front of the groove, and two sides of the pneumatic groove partition plate are provided with guard plates; the tail end of the groove storage hopper and the two side hoppers are connected when stopping working, the interval is less than 5 mm, and the two side hoppers are on the same plane. According to production requirements, the number of the toothpick bags is controlled by the tail end of the discharge hopper and the pneumatic partition plate at the tail end of the discharge hopper. The pneumatic push plate conveys the quantity of the toothpick packets to the two side buckets. The pneumatic groove partition plate of the storage hopper mainly controls the counting and discharging process, and prevents the small toothpick from running out of the storage hopper. The production requirement is met, and the strip toothpicks are counted and conveyed correctly.

The utility model solves the second technical proposal 2 that the two side hoppers are a combination of a cylinder connected with the lower part of a fixed plate and a group of linear guide rails; one side of the upper surface of the fixed plate is provided with a group of pneumatic convex groove plates (a cylinder bracket is arranged, a cylinder is connected with the fixed plate, a convex position is arranged below the fixed plate, and a groove is arranged below the fixed plate, and is smaller than the bottom of the bucket); one side is a fixed plate below the fixed combining hopper, the feed inlet is arranged at the back, and the guard plate is arranged at the front; mainly from bottom to top transport fixed merge fill one side set up the recess, with both sides fill end set up the recess cooperation on coplanar. And conveyed to the fixed combining hopper through the pneumatic convex groove plate. The production requirement is met, and the process of conveying the strip toothpicks for the correct times is achieved.

The utility model solves the second technical proposal 3 that the merging and conveying device is fixed with merging buckets, the bottoms of the merging buckets are provided with grooves, and the grooves are arranged while being combined with the grooves arranged on the buckets at two sides, and a pneumatic clapboard is arranged at one side; the fixed combining bucket is provided with a groove at one side, fixed guard plates are arranged below the bucket edges at two sides, and the rest two guard plates are larger than the bucket formed in the combining process (the two buckets and the fixed combining bucket are on the same plane, pneumatic convex groove plates of the two buckets work in place and are combined with the fixed combining bucket), and a feed port is arranged below the three buckets; a groove is arranged at the bottom of the combined bucket, a discharge hole is combined in the front, and a pneumatic convex groove plate (a cylinder is connected with a fixed plate, a convex position is arranged below the cylinder and is smaller than the groove arranged at the bottom of the bucket) is arranged at the back; the fixed merged bucket bottom is provided with a groove, the three bucket bottoms are provided with grooves, the three bucket bottoms are connected when the bucket stops working, the interval is less than 5 millimeters, and the two bucket bottoms are on the same plane. According to production requirements, the pneumatic partition plates (used or not used) are combined with the pneumatic convex groove plates of the two side buckets, and after combination is completed, the pneumatic convex groove plates of the combined buckets are fixed and conveyed to the three side buckets. The production requirement is met, and the strip toothpicks are correctly combined and conveyed.

The utility model solves the second technical proposal 4 that the conveying device is adjusted according to the size and the length of the strip toothpick, a pneumatic convex groove plate (a cylinder is connected with a fixed plate, a convex position is arranged below the pneumatic convex groove plate and is smaller than a groove arranged at the bottom of the strip toothpick), a feed inlet is arranged below the strip toothpick, a groove is arranged at the top of the front edge of the strip toothpick, the pneumatic convex groove plate is connected with the fixed plate, a groove is arranged below the strip toothpick, a groove is arranged at the top of the front edge of the strip toothpick, the groove is connected with an adjustable groove bucket at two edges, and the two edges of the strip toothpick are higher than the top of the front edge of the strip toothpick 60 mm; the three-side bucket comprises a three-side bucket, a groove bucket bottom (the groove bucket bottom, a cylinder support arranged at the bottom of two sides of the three-side bucket, a bearing support, a cylinder and a group of linear guide rails) which rises to the top of the front edge of the three-side bucket, two-side groove buckets (the groove bucket bottom is arranged, the groove is arranged at the top of the front edge of the three-side bucket, two-side protective plates are larger than two sides of the three-side bucket and smaller than two sides of a film former, the film former is connected and a same plane forms a straight line; an adjustable pneumatic baffle is positioned above the film former. According to the production demand, fixed pneumatic tongue plate of merging bucket transports behind the trilateral fill in the feeder hopper, and trilateral fill in the recess bottom of the rise to trilateral fill preceding top set up on the recess coplanar, trilateral fill above the pneumatic tongue plate of back through trilateral fill groove fill, through adjusting length both sides groove fill according to the production demand, push to there is the film system bag former. And a film bag making former and an adjustable pneumatic clapboard above the film bag making former are used for stabilizing the adjustment of the size and the length of the strip toothpick. The production requirement is realized, and the conveying process of the strip toothpicks is correctly adjusted according to the size and the length of the strip toothpicks.

Compared with the prior art, the full-automatic strip toothpick packaging machine has the advantages of simple and convenient operation, fast production, simple maintenance, low cost and high yield, and realizes the full automation of toothpick packaging through the processes of strip toothpick packaging, automatic counting of small bags and combination of large packaging film packaging.

Drawings

Fig. 1 is a schematic structural view of a novel strip toothpick packaging machine and a counting and conveying device in the full-automatic strip toothpick packaging machine of the present invention.

Fig. 2 is a schematic structural view of a combined large packaging film packaging machine in the fully automatic strip toothpick packaging machine of the present invention.

Fig. 3 is a schematic view showing the enlarged portions 21-61 of the novel strip toothpick packaging machine of fig. 1 and the structure of the quantitative plate in the quantitative hopper.

Fig. 4 is a schematic structural view of a film sealing device in the novel strip toothpick packaging machine of fig. 1.

Fig. 5 is a schematic view of the pneumatic film cutting device, the counting and conveying device and the storage hopper of the fully automatic strip toothpick packaging machine of fig. 1.

Fig. 6 is a schematic structural view of the number of times conveyor and the two-side bucket interior and combined conveyor in the fully automatic strip toothpick packaging machine of fig. 2 according to the present invention.

Fig. 7 is a schematic structural view of the inside of the device for adjusting and conveying the size and length of the strip toothpicks in the fully automatic strip toothpick packaging machine of fig. 2.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

It should be noted that, the names, the explanations and the parts of the component components are all the object center points in the same plane, the same center and the same straight line. The machine frame of the full-automatic strip toothpick packaging machine is divided into a novel strip toothpick packaging machine frame (10 and 12 shown in figure 1 and 13 on a fixed plate of a pneumatic film cutting device) and a combined large packaging film packaging machine frame (14 and 15 shown in figure 2), and the two machine frames are independent.

The name and the explanation of the component installation composition in the novel strip toothpick packaging machine are as follows: the frame (10 as shown in figure 1) and the frame are installed, two film devices form a same straight line process by a strip toothpick packaging machine, one film device (20 as shown in figure 1) is arranged behind a toothpick storage quantitative hopper, and a gap with the size of the film is formed between an inclined plane below a discharge port at the bottom of the quantitative hopper and the upper surface of a transmission top shaft (211 as shown in figure 3) through 4 transmission rubber coating wheels (21, 22, 23 and 24 as shown in figures 1 and 3); a film device (29 shown in figure 1) is arranged in front of and above the toothpick storage quantitative hopper, the films pass through 4 transmission rubber coating wheels (28, 27, 26, 25 shown in figures 1 and 3) and a top shaft (210 shown in figure 3) above the discharge port of the quantitative hopper, so that the two films are combined to form a feed port of the toothpicks to be packaged and are in the same straight line: and the motors can automatically ensure the normal use of the film in manual and automatic states respectively. A toothpick storage measuring hopper is a front groove plate (31 shown in figure 3) and a pneumatic clapboard (32 shown in figure 3) in the groove, the middle of the front groove plate (31 shown in figure 3) is connected with a fixed block (37 shown in figure 3), two sides of the front groove plate (31 shown in figure 3) are respectively adjusted up and down through a cylinder, the cylinder is fixed on a rack, and the lower end surface of the front groove plate (31 shown in figure 3) is combined with the pneumatic upward inclined clapboard (36 shown in figure 3); an upper inclined plate (30 shown in figure 3) is parallel to a lower inclined plate (33 shown in figure 3), the middle of the upper inclined plate (30 shown in figure 3) is connected with one end of the lower inclined plate (33 shown in figure 3) through 4 small square columns (38 shown in figure 3) and has a gap of 40 mm, two sides of the inner surface of each small square column (38 shown in figure 3) have a gap of less than 60 mm, the upper end of the upper inclined plate (30 shown in figure 3) is connected with a guard plate (30 shown in figure 3), the upper end surface of the guard plate (30 shown in figure 3) and the upper end surface of a front groove plate (31 shown in figure 3) are in the same plane, the middle of the guard plate (30 shown in figure 3) is connected with a fixed block (37 shown in figure 3), two sides of the fixed block (37 shown in figure 3) are respectively adjusted up and down through cylinders and are fixed on a machine frame, a pneumatic upper inclined partition plate (36 shown in figure 3) is arranged below the connection position of the guard plate (30 shown in figure 3) and the upper inclined plate (30 shown in figure 3), the lower end of the upper inclined plate (30) is connected with 2 small square columns (38 shown in figure 3) of the upper inclined plate (33 shown in figure 3) through a long hole groove range in the middle of the lower inclined plate (33 shown in figure 3), 20 mm away from the pneumatic partition plate (32 shown in figure 3) in the front groove plate till the pneumatic partition plate is connected to a position 10 mm away from the upper end surface, the lower end surface of the lower inclined plate is provided with an inclined surface, the fixed block (37 shown in figure 3) is connected to the position 150 mm above the inclined surface, and the two sides of the fixed block (37 shown in figure 3) are respectively adjusted up and down through cylinders and are fixed on a rack; the two sides are provided with movable fixing plates, the middle parts of the front groove plate (31 shown in figure 3) and the guard plate are connected with the upper part of the fixing block, the two sides are respectively connected with the guard plate of the movable fixing plate, and the lower part of the lower inclined plate (33 shown in figure 3) is connected with the guard plate of the movable fixing plate; the upper part is provided with a storage hopper and the lower part is provided with a quantitative hopper at intervals by a pneumatic upper inclined clapboard (36 shown in figure 3); the pneumatic upper inclined partition plate (36 shown in figure 3) is a quantitative hopper feeding port and is also a storage hopper discharging port, and the pneumatic partition plate (32 shown in figure 3) in the front groove plate is a quantitative hopper discharging port; quantifying the quantifying hopper, namely, arranging a gap smaller than 60 mm between the two sides of the inner surface of a small square column of the quantifying hopper for storing the toothpicks, arranging two oblique upper quantifying plates, namely a rear right upper oblique groove plate (34 shown in figure 3), wherein the upper groove is larger than a pneumatic oblique upper clapboard (36 shown in figure 3), the lower groove is larger than a lower movable quantifying plate (35 shown in figure 3), 2 nuts are arranged in the middle of a large groove, the range is fixed at the bottom of the hopper through screws, and the tail part of the right upper oblique groove plate (34 shown in figure 3) and the middle of the two grooves are provided with outer fixing blocks (341 shown in figure 3) and holes through which screw rods can pass outside; a movable quantitative plate (35 shown in figure 3) is arranged below the upper inclined groove plate, the front of the movable quantitative plate is an inclined plane, the middle of the movable quantitative plate is provided with a long hole, the range of the movable quantitative plate can pass through the screw quantitative plate and is 20 mm away from each end surface of the movable quantitative plate, the tail end of the movable quantitative plate is provided with an outer fixed block (351 shown in figure 3) which is on the same plane with the outer fixed block (341 shown in figure 3) of the upper inclined groove plate at 20 mm; the number of toothpicks can be changed at any time according to the production requirement, and the operation is simple and convenient. The sub-packaging film device is characterized in that a position 20 mm away from the tail end of a discharge port of a quantitative hopper and the front end of a fixed plate (60 shown in figure 3) and 5 mm above the fixed plate are respectively fixed on an upper inclined plate and a lower inclined plate of a rack, an upper inclined plate pneumatic sealing pressing strip (40 shown in figure 3 is connected with a cylinder on a fixed plate, a groove plate on the pressing strip is arranged below the fixed plate), and a lower inclined plate pneumatic heating plate (41 shown in figure 3 is connected with the cylinder below the fixed plate, and the heating plate is arranged above the fixed plate); and combining the two films to form a feeding hole of the toothpick to be packaged. The fixed plate block device (60 shown in figures 1 and 3) refers to a fixed plate block (60 shown in figures 1 and 3) which is less than 1000 mm in length and less than 55 mm in width and is arranged on a rack (10 shown in figure 1) of the novel strip toothpick packaging machine; the front end of a fixed plate (60 shown in figures 1 and 3) is 5 mm lower than the tail end of a discharge port at the bottom of the quantitative hopper, a gap of 20 mm is reserved between the front end and the fixed plate, and the fixed plate form a same straight line, and adjustable guard plates (61 shown in figures 3 adjusts the width of the strip toothpick holding film according to production requirements) are respectively arranged on two sides of the front end of the fixed plate (60 shown in figures 1 and 3); the film sealing device (70 shown in figure 1) is adjusted back and forth on the fixed plate (60 shown in figures 1 and 3) in the same plane, the pneumatic pressing plate (71 shown in figure 4) on the frame of the film sealing device (70 shown in figure 1) and generates a 30 mm gap with the fixed plate (60 shown in figures 1 and 3) in a stop working state, and the pneumatic pressing plate (71 shown in figure 4) is matched with the surface of the fixed plate (60 shown in figures 1 and 3) in a working state; the end of the fixed plate (60 shown in fig. 1 and 3) is connected with the lower finished conveyor belt (81 shown in fig. 1) with a gap of 40 mm and forms a straight line on the same plane. The up-down adjusting transmission wheel (50 shown in figures 1 and 3) is arranged on a fixed plate (60 shown in figures 1 and 3) with the length less than 1000 mm and the width less than 55 mm, in front of the film sealing device (70 shown in figure 1) and behind two side protection plates (61 shown in figures 1 and 3) of the fixed plate. According to the thickness of the strip-packed toothpicks required by production, the distance between the driving wheel (50 shown in figures 1 and 3) and the fixing plate (60 shown in figures 1 and 3) is adjusted up and down, so that the toothpicks are stably and uniformly distributed in the film, and the film is stable in the film sealing and packaging process. A film sealing device (70 shown in fig. 1 and 4) including a carriage (70 shown in fig. 1 and 4), a frame (70 shown in fig. 1 and 4) on the carriage, and a mechanism arranged on the frame; pneumatic sealing pressing strips (73 shown in figure 4, cylinders are connected to the middle of the fixing plate, and the two sides of the pneumatic sealing pressing strips are respectively provided with a group of linear guide rail combinations, groove plates on the pressing strips are arranged below the fixing plate), two fixing plates (70 shown in figure 4) are arranged between the cylinders on the two sides, and cylinders of a fixed pneumatic pressing plate (71 shown in figure 4, cylinders are connected to the fixing plate) are arranged between the cylinders on the two sides, pneumatic partition plates (72 shown in figure 4, cylinders are connected to the fixing plate) on the two sides of the middle section of the rack enable the toothpick to be aligned, and pneumatic heating plates (74 shown in figure 4, cylinders are connected to the middle of the lower part of the fixing plate, and the two sides of the pneumatic sealing pressing strips are respectively provided with a group of linear guide rail combinations, and heating plates are arranged on the fixing plate). The length of the strip toothpick package can be adjusted back and forth and back and forth on the fixed plate (60 shown in figure 1) according to production requirements, and the strip toothpick package is fixed at the length of the toothpick package to manufacture a finished product. The upper and lower finished product conveyer belt trimming devices (80 and 81 shown in figure 1) are arranged in the rack, a motor is connected with the lower finished product conveyer belt (81 shown in figure 1) and the trimming device in a linkage manner through the upper finished product conveyer belt (80 shown in figure 1) and the trimming device, and the upper and lower finished product conveyer belts (80 and 81 shown in figure 1) are trimmed to trim the width distance required by the sealing of the two sides of the strip toothpick packaging bag and have the forward traction function; the upper finished product conveying belt (80 shown in figure 1) consists of a driving wheel, a driving shaft, a driving bearing, a fixed bracket, a conveying belt, a linear bearing, a belt pulley, a chain wheel and a trimming circular knife; a lower finished product conveying belt (81 shown in figure 1) comprises a driving wheel, a transmission shaft, a transmission bearing, a fixed bracket, a conveying belt, a linear bearing, a belt pulley, a chain wheel and a trimming circular knife; the motor is a chain wheel which passes through the lower part of the chain wheel of the lower finished product conveyer belt (81 shown in figure 1), two chain wheels on the frame and the upper part of the chain wheel of the upper finished product conveyer belt (80 shown in figure 1) under the linear guide rail through a chain, so that the finished strip toothpick is pulled forwards. A pneumatic film cutting device (90, 91 shown in figures 1 and 5) which is arranged at the tail ends of an upper finished product conveying belt and a lower finished product conveying belt (80, 81 shown in figure 1) in a rack (on a fixed lower cutter, 5 mm lower than the lower finished product conveying belt and on the same central straight line) and a carriage and carriage upper mechanism (a combination of a group of linear guide rails is respectively arranged at two sides of a fixed plate connecting cylinder, an upper cutter is arranged below the fixed plate connecting the cylinder and linear shafts at two sides, the upper cutter and the lower cutter are arranged on the fixed plate of the rack fixed plate), an inclined lower discharging hopper (102 shown in figures 1 and 5) is arranged at the back of the package shearing of the strip-packaged toothpicks, and a pneumatic partition plate rack (13 shown in figures 1 and 5) is arranged on the fixed plate at the tail end of the discharging hopper (102 shown in figures 1 and 5); and finishing the final manufacturing process of the strip toothpick. The novel strip toothpick packaging machine frame is provided with a counting and conveying device frame (12 shown in figure 1).

The automatic counting small bag and large bag packaging film packaging machine is provided with the name and interpretation of the component installation composition in the frame: an automatic counting small bag, namely a counting and conveying device, wherein the automatic counting function is arranged on a strip toothpick packaging machine, and a group of pneumatic partition plates (shown as 100 in figures 1 and 5) are arranged at the tail end of a discharge hopper (a cylinder bracket is arranged, shown as 13 in figure 1, and a cylinder is connected with a fixed plate). A groove storage hopper (103 shown in figures 1 and 5) is arranged on a rack (12 shown in figure 1) below a discharge hopper (102 shown in figures 1 and 5), a pneumatic push plate (101 air cylinder connected with a fixed plate and smaller than the groove storage hopper and lower than the tail end bottom of the discharge hopper is arranged behind the storage hopper (103 shown in figures 1 and 5) in a groove (10 mm clearance is formed between the groove partition plate and the pneumatic push plate when the pneumatic push plate stops working, and the pneumatic push plate is arranged behind the discharge hopper), a pneumatic groove partition plate (104 air cylinder connected with the groove plate and shown in figures 1 and 5) in front of the groove is arranged behind the discharge hopper, and two sides of the pneumatic groove partition plate are provided with guard plates (103 shown in figures 1 and 5); when the tail end of the groove storage hopper (103 shown in figures 1 and 5) and the two side hoppers (111 shown in figures 2 and 6) stop working, the groove storage hoppers are connected and spaced less than 5 mm on the same plane. According to production requirements, the number of the toothpick bags is controlled by a pneumatic baffle plate (100 shown in figures 1 and 5) at the tail end of the discharge hopper. The pneumatic push plate (101 shown in figures 1 and 5) conveys the number of the toothpick packets to the two side buckets (111 shown in figures 2 and 6). The pneumatic groove partition board (104 shown in fig. 1 and 5) of the storage hopper mainly controls the counting and discharging process to prevent the toothpick of the small bag from running out of the storage hopper. The production requirement is met, and the strip toothpicks are counted and conveyed correctly. The combined large envelope packaging film packaging machine is provided with a rack (14 shown in figure 2) and a rack (14 shown in figure 2) on which a last count conveying device, a combined conveying device, a strip toothpick size and length adjusting conveying device and a large envelope packaging film packaging machine rack (15 shown in figure 2) are arranged. The times conveyer, two side buckets (111 shown in fig. 2 and 6) are the combination of connecting cylinder under the fixed plate and a group of linear guide rails; one side of the upper surface of the fixed plate is provided with a group of pneumatic convex groove plates (112 is provided with a cylinder bracket as shown in fig. 2 and 6, a cylinder is connected with the fixed plate, a convex position is arranged below the fixed plate and is smaller than the bottom of the bucket to be provided with a groove), the upper surface of the corresponding fixed plate is provided with a groove (111 as shown in fig. 6) which is larger than the groove, and the upper surface of the corresponding fixed plate and the fixed combined bucket (121 as shown in fig. 2 and 6) are provided with grooves at; one side is a fixed plate (121 shown in fig. 2 and 6) below the fixed combining hopper, the rear part is a feed inlet, and the front part is a guard plate (111 shown in fig. 2 and 6); the materials are conveyed to one side of a fixed combined hopper (121 shown in figures 2 and 6) from bottom to top and are provided with grooves which are matched with the grooves arranged at the bottoms of the two hoppers on the same plane. And conveyed to the fixed combining bucket (121 shown in figures 2 and 6) through a pneumatic convex-groove plate (112 shown in figures 2 and 6); the production requirement is met, and the process of conveying the strip toothpicks for the correct times is achieved. A combined conveying device, which fixes the combined bucket (121 shown in fig. 2 and 6), has a groove at the bottom, has a groove at one side, is combined with the grooves (111 shown in fig. 2 and 6) arranged on the two buckets, and has a pneumatic clapboard (122 shown in fig. 2 and 6); the fixed combining hopper is provided with a groove at one side, a fixed guard plate (121 shown in figures 2 and 6) is arranged below the fixed combining hopper and above the two side hoppers (111 shown in figures 2 and 6), the rest two side guard plates (121 shown in figures 2 and 6) are larger than the hopper formed in the combining process (the two side hoppers and the fixed combining hopper are on the same plane, the pneumatic convex groove plates of the two side hoppers work in place and are combined with the fixed combining hopper), and a feed inlet is arranged below the three side hoppers (132 shown in figures 2 and 7); a groove is arranged at the bottom of the combined hopper (121 as shown in fig. 2 and 6), the discharge hole is combined at the front, and a pneumatic convex groove plate is arranged at the back (120 cylinders are connected with a fixed plate as shown in fig. 2 and 6, and a convex position is arranged below the fixed plate and is smaller than the hopper bottom to form a groove); the bottom of the fixed combining hopper (121 shown in fig. 2 and 6) is provided with a groove, the bottom of the three-side hopper (132 shown in fig. 2 and 7) is provided with a groove, and the fixed combining hopper and the three-side hopper are connected when the three-side hopper stops working, are spaced by less than 5 mm and are positioned on the same plane. According to production requirements, combining (with or without) a pneumatic baffle (122 shown in figures 2 and 6) with two-side bucket pneumatic lug plate (112 shown in figures 2 and 6), and after combining, fixing the combined bucket pneumatic lug plate (120 shown in figures 2 and 6) and conveying the combined bucket pneumatic lug plate into a three-side bucket (132 shown in figures 2 and 7); the production requirement is met, and the strip toothpicks are correctly combined and conveyed. According to the size and length adjusting and conveying device of the strip toothpicks, a pneumatic convex groove plate (130 air cylinders shown in figures 2 and 7 and 130 air cylinders shown in figures 2 and 7 are connected with a fixing plate and a groove is arranged below the fixing plate and smaller than the bottom of the toothpick hopper) is arranged at the rear of the upper surface of a three-side bucket (132 shown in figures 2 and 7), a feed port is arranged at the rear of the lower surface of the three-side bucket (132 shown in figures 2 and 7), a groove is arranged at the top of the front edge (132 shown in figures 2 and 7) of the three-side bucket and is connected with an adjustable two-side groove bucket (133 shown in figures 2 and 7), and two sides of the three-side bucket are higher than the top of the front edge of 60 mm; a groove bucket bottom (groove bucket bottom, cylinder supports at the bottoms of two sides of the three-side bucket, a combination of a bearing support, a cylinder and a group of linear guide rails) in the three-side bucket (132 shown in fig. 2 and 7) rises to the top of the front side of the three-side bucket (132 shown in fig. 2 and 7) to be provided with a groove, two-side groove buckets (133 shown in fig. 2 and 7 is provided with a groove bucket bottom, the top of the front side of the three-side bucket is connected with a groove, two-side protective plates are larger than two sides of the three-side bucket and smaller than two sides of a film former), the film former (150 shown in fig. 2) is connected and a straight line is formed on the same plane; an adjustable pneumatic baffle (134, fig. 2) is positioned above the film former (150, fig. 2). According to production requirements, a fixed combined bucket pneumatic convex-groove plate (120 shown in figures 2 and 6) is conveyed to a feed hopper below and behind a three-side bucket (132 shown in figures 2 and 7), the bottom of a groove bucket in the three-side bucket (132 shown in figures 2 and 7) rises to the same plane of a groove arranged at the top of the front edge of the three-side bucket (132 shown in figures 2 and 7), and a rear pneumatic convex-groove plate (130 shown in figures 2 and 7) above the three-side bucket is pushed to a film bag making former (150 shown in figure 2) through the three-side bucket and by adjusting the length of the two-side groove bucket (133 shown in figures 2 and 7) according to production requirements; and a film bag-making former (150 shown in figure 2) and an adjustable pneumatic baffle (134 shown in figure 2) above the film bag-making former are used for stabilizing the adjustment of the size and the length of the strip toothpick; the production requirement is realized, and the conveying process of the strip toothpicks is correctly adjusted according to the size and the length of the strip toothpicks.

The installation and composition names and the interpretation of the components of the large packaging film packaging machine are as follows: the film supporting mechanism (140 shown in fig. 2) provided on the frame (15 shown in fig. 2) means that the film is mounted thereon and the elastic action is applied. The film feeding mechanism means that the film passes through the conveying process, and 4 main driving wheels (such as 141, 142, 143 and 144 shown in FIG. 2) are driven. The finished film former (150 shown in fig. 2) is fixed on the top of the front side of the three-side hopper (132 shown in fig. 2 and 7) according to production requirements to be provided with a groove and the two-side groove hopper (133 shown in fig. 2 and 7) is separated from the film by a gap, and the finished film former is connected with the same plane to form a straight line. The middle sealing mechanism (170, 171 and 172 shown in figure 2) is a pair of film-pulling wheels, a lifting mechanism and a transmission mechanism, and the middle heat sealing film conveying function is realized. The pneumatic film sealing and cutting device (180, 181 shown in figure 2) is provided with a rack and two groups of linear guide rails, two cylinders are provided with heating fixed plates, and two sides of the two cylinders are respectively provided with a linear bearing connected with a cylinder fixed plate (an upper fixed plate which is used for fixing the heating fixed plates and the middle of which can be placed into a cutter groove inner cutter) and a heat-proof block; has the functions of sealing and cutting the membrane. Two conveyer belts (160, 190 shown in fig. 2), one conveyer belt (190 shown in fig. 2) is in front of the pneumatic film sealing and cutting device (180, 181 shown in fig. 2), and the other conveyer belt (160 shown in fig. 2) is behind the pneumatic film sealing and cutting device (180, 181 shown in fig. 2), and forms a straight line on the same plane of the finished film former (150 shown in fig. 2) and is arranged below the middle sealing mechanism (170, 171, 172 shown in fig. 2); respectively 20 mm away from the pneumatic film sealing and cutting device (180 and 181 shown in figure 2). The same motor is that the chain wheel passes through the chain wheel, the middle sealing mechanism chain wheel, the connecting film-moving mechanism chain wheel and the rack upper chain wheel through the chain, and the conveying belt passes through the chain wheel on the rack, the middle sealing mechanism chain wheel and the connecting film-moving mechanism chain wheel to be opposite, so that the finished product of the large package toothpick is pulled forwards on the conveying belt.

The methods of use are divided into manual and automated as follows.

A novel strip toothpick packaging machine is characterized in that toothpicks to be packaged are placed in a toothpick storage quantifying hopper, a film (shown as 29 in figure 1) is pulled to pass through the middle of upper and lower finished product conveying belts (shown as 80 and 81) through 4 transmission rubber packing wheels (shown as 28, 27, 26 and 25 in figures 1 and 3) and a top shaft (shown as 210 in figure 3) above a discharge port of the quantifying hopper, and a film (shown as 20 in figure 1) is pulled to pass through the middle of the upper and lower finished product conveying belts (shown as 80 and 81) through 4 transmission rubber packing wheels (shown as 21, 22, 23 and 24 in figures 1 and 3) and the lower inclined surface of the discharge port of the quantifying hopper and a transmission top shaft (shown as 211 in figure 3) and is pulled to a fixing plate (shown as 60 in figures 1 and 3), an upper inclined plate pneumatic pressing strip (shown as 40 in figure 3) and a lower inclined plate pneumatic heating plate (shown as 40 in figure 3) are started at the same time to seal the film to form a feeding port of the toothpicks to be packaged, and an upper inclined plate (shown as 40 in figure 3) is used for forming a feeding port of the toothpicks to be packaged, The lower inclined plate pneumatic heating plate (40 shown in figure 3) is reset simultaneously, the pneumatic upper inclined partition plate (36 shown in figure 3) is started, the toothpicks are put into the quantitative hopper, the pneumatic upper inclined partition plate (36 shown in figure 3) is reset, the pneumatic partition plate (32 shown in figure 3) in the front groove plate is started, and the upper finished product conveying belt (80 and 81 shown in figure 1) and the lower finished product conveying belt are driven by the motor to pull the lower bag forwards to stop; resetting a pneumatic partition plate (32 shown in figure 3) in the front groove plate, simultaneously starting an upper inclined plate pneumatic pressing strip (40 shown in figure 3) and a lower inclined plate pneumatic heating plate (40 shown in figure 3) to seal the film and form a toothpick feeding hole to be packaged, simultaneously resetting the upper inclined plate pneumatic pressing strip (40 shown in figure 3) and the lower inclined plate pneumatic heating plate (40 shown in figure 3), starting a pneumatic upper inclined partition plate (36 shown in figure 3), putting the toothpicks into a quantitative hopper, resetting the pneumatic upper inclined partition plate (36 shown in figure 3), starting a pneumatic partition plate (32 shown in figure 3) in the front groove plate, and driving an upper finished product conveying belt (80 and 81 shown in figure 1) to pull the lower finished product conveying belt forwards through a motor to stop the lower finished product conveying belt; at the same time, the pneumatic partition (32 shown in figure 3) in the front groove plate is reset; so analogizing, the motor drives the upper and lower finished product conveying belts (80, 81 shown in figure 1) to be pulled forwards to the tooth labels to be sealed, the pneumatic partition plate (72 shown in figure 4) is started, the reset pneumatic pressure plate (71 shown in figure 4) is started again for 1 time, the pneumatic partition plate (72 shown in figure 4) is reset, the pneumatic sealing pressure strips (73 shown in figure 4) on the two sides and the pneumatic heating plate (74 shown in figure 4) are started to seal the finished products, the pneumatic pressure plate (71 shown in figure 4) is reset simultaneously, and the motor drives the upper and lower finished product conveying belts (80, 81 shown in figure 1) to be pulled forwards to be sealed and stopped; by analogy, the motor drives the upper and lower finished product conveyer belts (80 and 81 shown in fig. 1) to be pulled forwards to the toothpick to be packaged for film cutting, the pneumatic film cutting (90 and 91 shown in fig. 1 and 5) is started, and the pneumatic film cutting (90 and 91 shown in fig. 1 and 5) is reset. The manual packaging method of the strip toothpick packaging machine in the full-automatic strip toothpick packaging machine.

As shown in fig. 1 and 5, the strip toothpick counting and conveying device is provided with an automatic counting function, according to production requirements, a pneumatic groove partition plate (104 shown in fig. 1 and 5) of a storage hopper is started, each strip toothpick enters the storage hopper (103 shown in fig. 1 and 5) through a discharge hopper (102 shown in fig. 1 and 5) to reach the quantity required for production, the pneumatic partition plate (100 shown in fig. 1 and 5) of the storage hopper is started, meanwhile, the pneumatic groove partition plate (104 shown in fig. 1 and 5) of the storage hopper is reset, the pneumatic push plate (101 shown in fig. 1 and 5) of the storage hopper is started to convey the toothpicks to two side hoppers (111 shown in fig. 2 and 6), and the pneumatic push plate (101 shown in fig. 1 and 5) is reset. The manual strip toothpick counting and conveying device in the full-automatic strip toothpick packaging machine.

As shown in fig. 2 and 6, the number of times of conveying the strip of toothpicks is that the strip of toothpicks is counted and conveyed to the toothpicks in the two side buckets (111 shown in fig. 2 and 6), the pneumatic two side buckets (111 shown in fig. 2 and 6) are started to ascend to the edge of the fixed combination bucket (121 shown in fig. 2 and 6), and the pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets are started to be conveyed to the fixed combination bucket (121 shown in fig. 2 and 6). The pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets reset, and after the two side buckets are in place, the pneumatic convex groove plates (111 shown in fig. 2 and 6) reset. The manual strip toothpick charging frequency conveying device in the full-automatic strip toothpick charging packaging machine.

A combined conveying device for strip toothpicks comprises a pneumatic partition plate (122 shown in figures 2 and 6), two side buckets (111 shown in figures 2 and 6) of toothpicks are combined by using the pneumatic partition plate (122 shown in figures 2 and 6) according to production requirements, the pneumatic partition plate (122 shown in figures 2 and 6) is started for the first time and is combined with the pneumatic convex groove plates (112 shown in figures 2 and 6) of the two side buckets, the pneumatic partition plate (122 shown in figures 2 and 6) is reset after the combination, the pneumatic convex groove plates (120 shown in figures 2 and 6) of the two side buckets are started for the second time and are used for conveying the toothpicks on the two side buckets (111 shown in figures 2 and 6) to a fixed combined bucket (121 shown in figures 2 and 6) after the toothpicks are combined, the pneumatic convex groove plates (120 shown in figures 2 and 6) of the fixed combined bucket are started, the pneumatic convex groove plates (112 shown in figures 2 and 6) of the two side buckets are reset, the pneumatic convex groove plates (120 shown in figures 2 and 6) of the fixed combined bucket (120 shown in figures 2 and 6) are used for fixing the combined bucket (2 and combining bucket (111 shown in figures 2 and 6), and fixing the fixed combined bucket (shown in figures 2 and combining bucket), 121 shown in fig. 6) is conveyed into a three-sided bucket (132 shown in fig. 2 and 7), and a pneumatic convex groove plate (120 shown in fig. 2 and 6) of the fixed combination bucket is reset; without using the pneumatic partition plate (122 shown in fig. 2 and 6), the pneumatic lug plate (112 shown in fig. 2 and 6) of the two-side bucket conveys the toothpicks on the two-side bucket (111 shown in fig. 2 and 6) to the fixed combining bucket (121 shown in fig. 2 and 6) to be in place, the pneumatic lug plate (120 shown in fig. 2 and 6) of the fixed combining bucket is started to convey the toothpicks on the fixed combining bucket (121 shown in fig. 2 and 6) to the three-side bucket (132 shown in fig. 2 and 7), the pneumatic lug plate (112 shown in fig. 2 and 6) of the two-side bucket resets, and the pneumatic lug plate (120 shown in fig. 2 and 6) of the fixed combining bucket resets. The method of the manual strip toothpick-packaging and conveying device in the full-automatic strip toothpick-packaging machine.

According to the size and length adjustment conveying device of the strip-packed toothpicks, a pneumatic convex groove plate (120 shown in figures 2 and 6) of a combined hopper is fixed to the toothpicks in a three-side hopper (132 shown in figures 2 and 7), a groove bottom in the three-side hopper (132 shown in figures 2 and 7) is started to rise to the top of the front edge of the three-side hopper (132 shown in figures 2 and 7) to form a groove, an adjustable pneumatic partition plate (134 shown in figure 2) above a film forming device (150 shown in figure 2) is started, a pneumatic cylinder (130 shown in figures 2 and 7) of the three-side hopper is started to enable the three-side pneumatic convex groove plate (132 shown in figures 2 and 7) to carry the toothpicks, the two side groove hoppers (133 shown in figures 2 and 7) are adjusted in length according to production requirements, the three-side pneumatic convex groove plate is pushed into the film bag forming device (150 shown in figure 2), and 3 groups are reset simultaneously. The manual strip toothpick packaging machine in the full-automatic strip toothpick packaging machine adjusts the device conveying method according to the size and the length of the strip toothpick.

A large envelope film packaging machine is characterized in that a film is pulled to a middle sealing mechanism (170, 171 and 172 shown in figure 2) by a film supporting mechanism (140 shown in figure 2), toothpicks are arranged in a film bag making former (150 shown in figure 2), an adjustable pneumatic clapboard (134 shown in figure 2) is arranged above the film former (150 shown in figure 2) to be reset to a proper position, a motor is started to drive a film moving mechanism (141, 142, 143 and 144 shown in figure 2), a middle sealing mechanism (170, 171 and 172 shown in figure 2) and two conveyer belts (160 and 190 shown in figure 2) to work to a required packaging length simultaneously, and finally, the pneumatic envelope film sealing and cutting mechanisms (180 and 181 shown in figure 2) are started to be reset. The manual large packaging film packaging method of the strip toothpick packaging machine.

In order to better realize the full-automatic strip toothpick packaging and improve the product yield. By adopting an advanced PLC and display screen control and automatic sensor (a novel strip toothpick packaging machine, an automatic counting small bag and a combined large packaging film packaging machine) system, the novel strip toothpick packaging machine automatically counts the small bag and the combined large packaging film packaging machine in a stop state when the automatic counting quantity is not produced.

Now, taking a specific full-automatic strip toothpick packaging machine as an example, the utility model is further explained, and the full-automatic strip toothpick packaging machine is divided into a novel strip toothpick packaging machine, an automatic counting small bag and a combined large packaging film packaging machine.

The novel strip toothpick packaging machine comprises: placing the toothpicks to be packaged into a toothpick storage quantifying hopper, placing a film (29 shown in figure 1) on a top shaft (210 shown in figure 3) above a discharge port of the quantifying hopper and drawing the film to the middle of upper and lower finished product conveying belts (80 and 81 shown in figure 1) through 4 transmission rubber packing wheels (28, 27, 26 and 25 shown in figure 1 and figure 3) and a film (20 shown in figure 1) on a top shaft (21, 22, 23 and 24 shown in figure 1 and figure 3) above the discharge port of the quantifying hopper, simultaneously starting pneumatic pressing strips of an upper inclined plate (40 shown in figure 3) and a pneumatic heating plate of a lower inclined plate (40 shown in figure 3) to seal the film to form a feed port of the toothpicks to be packaged after the film passes through 4 transmission rubber packing wheels (21, 22, 23 and 24 shown in figure 1 and figure 3) and drawing the inclined plane below the discharge port of the quantifying hopper and the transmission top shaft (211 shown in figure 3) to a fixed plate (60 shown in figure 1 and figure 3), and forming the feed port of the toothpicks to be packaged, wherein the pneumatic pressing strips of the upper inclined plate (40 shown in figure 3) and the lower inclined plate, The lower ramp pneumatic heater plates (40 shown in fig. 3) are simultaneously reset. Starting to be automatic, simultaneously starting a pneumatic upper inclined clapboard (36 shown in figure 3) to place the toothpicks into a quantitative hopper, sealing the film by an upper inclined plate pneumatic pressing strip (40 shown in figure 3) and a lower inclined plate pneumatic heating plate (40 shown in figure 3) to form a feeding port of the toothpicks to be packaged, aligning the toothpicks by the pneumatic clapboard (72 shown in figure 4), starting a reset pneumatic pressing plate (71 shown in figure 4) for 1 time to restart, and pneumatically cutting the film (90 and 91 shown in figures 1 and 5) to completely reset except the pneumatic pressing plate (71 shown in figure 4) after finishing the work; starting the pneumatic sealing pressing strips (73 shown in figure 4) at the two sides and the pneumatic heating plate (74 shown in figure 4) to seal the finished product of the film, and after finishing the work, simultaneously resetting the pneumatic sealing pressing strips (73 shown in figure 4), the pneumatic heating plate (74 shown in figure 4) and the pneumatic pressing plate (71 shown in figure 4); finally, starting a pneumatic partition plate (32 shown in figure 3) in the front groove plate, driving upper and lower finished product conveyer belts (80 and 81 shown in figure 1) to pull the lower bag forwards through a motor to stop, and resetting the pneumatic partition plate (32 shown in figure 3) in the front groove plate; and the whole strip toothpick packaging process is completed according to the working procedures. The novel strip toothpick packaging machine continuously and circularly works in an automatic state.

Automatic change count parcel, merge big envelope membrane packagine machine: data are set, for example, the automatic counting is 5 bags, the conveying device for the number of times of the strip-packed toothpicks is 2 times, and 10 bags of strip-packed toothpicks are actually contained. Where the film is pulled to the intermediate sealing mechanism (170, 171, 172 shown in figure 2) at the film holding mechanism (140 shown in figure 2). Under the automatic starting, starting a pneumatic groove partition board (104 shown in fig. 1 and 5) of the storage hopper, counting the packing arrangement of the strip toothpicks in the work, counting 5 packs, starting the pneumatic partition board (100 shown in fig. 1 and 5) of the discharge hopper, simultaneously resetting the pneumatic groove partition board (104 shown in fig. 1 and 5) of the storage hopper, starting a pneumatic push board (101 shown in fig. 1 and 5) of the storage hopper to convey the toothpicks to two side hoppers (111 shown in fig. 2 and 6), resetting immediately when in place, resetting the pneumatic push board (101 shown in fig. 1 and 5) of the storage hopper, resetting the pneumatic partition board (100 shown in fig. 1 and 5) of the discharge hopper, simultaneously starting the pneumatic groove partition board (104 shown in fig. 1 and 5) of the storage hopper and the two side hoppers (111 shown in fig. 2 and 6), and circulating the above work; two side hoppers (111 shown in figures 2 and 6) are arranged at the edges of the toothpick fixing combined hopper (121 shown in figures 2 and 6), for the first time, the pneumatic convex groove plates (112 shown in figures 2 and 6) of the two side hoppers and the pneumatic partition plates (122 shown in figures 2 and 6) are simultaneously started to combine the toothpicks into the fixing combined hopper (121 shown in figures 2 and 6), and after combination, the pneumatic convex groove plates (112 shown in figures 2 and 6) and the pneumatic partition plates (122 shown in figures 2 and 6) of the two side hoppers are simultaneously reset; after the pneumatic convex groove plates (112 shown in figures 2 and 6) of the two side buckets are reset to the right position, the two side buckets (111 shown in figures 2 and 6) are reset immediately. Two side buckets (111 shown in fig. 2 and 6) are placed at the edges of a toothpick fixing and combining bucket (121 shown in fig. 2 and 6), pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets are started for the second time to convey toothpicks on the two side buckets (111 shown in fig. 2 and 6) to the fixed and combining bucket (121 shown in fig. 2 and 6) to be combined, the pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets are in place, the pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets are reset immediately, and the pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets are reset immediately after the pneumatic convex groove plates (112 shown in fig. 2 and 6) of the two side buckets are reset to be in place; and simultaneously starting the pneumatic convex groove plate (120 shown in figures 2 and 6) of the fixed combination hopper to convey the toothpicks on the fixed combination hopper (121 shown in figures 2 and 6) to the three-side hopper (132 shown in figures 2 and 7), and immediately resetting the pneumatic convex groove plate (120 shown in figures 2 and 6) of the fixed combination hopper after the toothpicks are in place. The above work is circulated in this way; simultaneously starting the three-side bucket (132 shown in figures 2 and 7) to enable the bottom of the groove to rise to the top of the front edge of the three-side bucket (132 shown in figures 2 and 7) to be provided with the groove, the adjustable pneumatic partition plate (134 shown in figure 2) above the film former (150 shown in figure 2), the pneumatic sealing and cutting film (180 and 181 shown in figure 2), starting the three-side bucket pneumatic convex groove plate (130 cylinders shown in figures 2 and 7) to enable the bottom of the three-side bucket groove (132 shown in figures 2 and 7) to be provided with the toothpicks, and the two-side groove bucket (133 shown in figures 2 and 7) to be pushed into the film bag making former (150 shown in figure 2) by adjusting the length according to production requirements, and after the three-side bucket (132 shown in figures 2 and 7) is in place, the bottom of the groove in the three-side bucket, the adjustable pneumatic partition plate (134 shown in figure 2), the pneumatic sealing and cutting film (180 and 181 shown in figure 2), the three-side bucket pneumatic convex groove plate (132 shown in figure 2 and figure 2), 130 shown in fig. 7), and after the toothpick is reset to the proper position, the motor is started to drive the film-moving mechanism (141, 142, 143 and 144 shown in fig. 2), the middle-sealing mechanism (170, 171 and 172 shown in fig. 2) and the two conveying belts (160 and 190 shown in fig. 2) to automatically form the large-package toothpicks. The process that the whole strip toothpick is combined with the large packaging film is completed by the induction system, the pneumatic systems are reset in place and simultaneously start the next pneumatic system working procedure according to the above description, and the novel strip toothpick packaging machine automatically counts the processes of small packet counting and large packaging film packaging in an automatic state and continuously and repeatedly works in a circulating mode.

The utility model has the advantages that: the novel strip toothpick packaging machine is simple and convenient to operate, fast to produce, simple to maintain, low in cost and high in yield. Especially, the automatic counting small-package and large-package combined film packaging machine is suitable for being installed on any one strip toothpick packaging machine, the production speed is high, the cost is low, and the product packaging quality is improved. The strip toothpick packaging is completed according to the working procedures, and full automation is realized.

All the technical features of the above embodiments can be combined arbitrarily, and for the sake of brevity, all the possible combinations of the technical features in the above embodiments are not described, and the scope of the present specification is considered as if there is no contradiction between the technical features.

The above-described examples merely represent embodiments of the present invention, which are described in great detail and detail, but are not to be construed as limiting the scope of the invention. For those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, and all of these belong to the protection scope of the present invention.

Claims (10)

1. A full-automatic strip toothpick packaging machine comprises: frame, two film device, branch packet membrane device, toothpick storing

The quantitative hopper device, the fixed plate device, the up-down adjusting transmission wheel device, the film sealing device, the up-down finished product conveying belt trimming device, the pneumatic film cutting device, the counting and conveying device, the frequency conveying device, the combining and conveying device, the strip toothpick size and length adjusting and conveying device and the large packaging film packaging machine are arranged; the upper finished product conveyer belt and the lower finished product conveyer belt are arranged in the rack, a motor is in linkage connection with the lower finished product conveyer belt and the trimming device through the upper finished product conveyer belt and the trimming device, and the width distance required by sealing the two sides of the strip toothpick packaging bag is trimmed between the upper finished product conveyer belt and the lower finished product conveyer belt for trimming and forward traction; the pneumatic film cutting device is arranged in the rack and connected with the tail ends of the upper and lower finished product conveyer belts, the carriage and the carriage upper mechanism, and an inclined lower discharging hopper is arranged behind the package shearing of the strip toothpicks; the large packaging film packaging machine is sequentially arranged in a frame inner film supporting mechanism, a film feeding mechanism, a film former, a middle sealing mechanism, a pneumatic film sealing and cutting mechanism and a conveying belt, the film former is connected to groove hoppers on two sides in the strip toothpick size and length adjusting and conveying device, and a motor drives a lower film to pass through the film feeding mechanism, the film former, the middle sealing mechanism, the conveying belt, the pneumatic film sealing and cutting mechanism and the conveying belt; the method is characterized in that: the two film devices comprise two film devices arranged in the frame, a transmission rubber-coated wheel and a top shaft;

in the sub-packaging film device, the working point is the position 20 mm away from the tail end of the discharge port of the toothpick storage quantitative hopper and the front end of the fixed plate, and 5 mm above the fixed plate, and a group of upper inclined plate pneumatic sealing pressing strips and lower inclined plate pneumatic heating plates are arranged in the rack;

the front end of the fixed plate in the rack is 5 mm lower than the tail end of the discharge port at the bottom of the quantitative bucket, a gap of 20 mm is reserved between the fixed plate and the fixed plate, the fixed plate and the fixed plate form a same straight line, and two sides of the fixed plate are respectively adjusted up and down through a cylinder and are fixed on the rack;

the two sides of the front end of the fixed plate block device are respectively provided with an adjustable guard plate, so that the film sealing device is adjusted back and forth on the same plane on the fixed plate block, the tail end of the film sealing device is connected with a lower finished product conveying belt, a gap of 40 mm is formed, and a straight line is formed on the same plane;

the up-down adjusting transmission wheel is arranged in the frame and can be adjusted up and down in front of the film sealing device and behind the guard plates at two sides of the fixed plate;

the film sealing device is arranged on the fixed plate in the rack and can be adjusted back and forth on the same plane, a gap of 30 mm is formed between the pneumatic pressing plate and the fixed plate on the frame of the film sealing device when the pneumatic pressing plate stops working, and the pneumatic pressing plate is matched with the surface of the fixed plate when the pneumatic pressing plate is in the working state;

the counting and conveying device is characterized in that the strip toothpick packaging machine has an automatic counting function, a group of pneumatic partition plates are arranged at the tail end of a discharge hopper of the strip toothpick packaging machine, a groove storage hopper is arranged on a rack below the discharge hopper, and the tail end of the groove storage hopper and the two side hoppers are connected when stopping working and are positioned on the same plane at intervals of less than 5 mm;

the frequency conveying device is arranged in the rack and is used for conveying the pneumatic two-side hopper to the fixed combining hopper and the two-side hopper on the same plane from bottom to top;

the combined conveying device is arranged in the rack, is used for fixing the combined hopper to be connected and combined with the two side hoppers when working, is connected with the three side hoppers when stopping working, has the interval of less than 5 millimeters and is positioned on the same plane;

the conveying device for adjusting the size and the length of the strip toothpicks is arranged in the rack and comprises three hoppers, wherein the bottoms of the three hoppers ascend to the three hoppers, the grooves on the two sides of the hoppers and the film former, the three hoppers and the film former are connected, the same plane forms a straight line, and the pneumatic partition plate can be adjusted above the film former.

2. The fully automatic strip toothpick packaging machine according to claim 1, wherein: one of the two film devices is arranged behind the toothpick storage quantitative hopper, and the film passes through 4 transmission rubber coating wheels, and is separated from the upper surface of the transmission top shaft by a gap; a film device is arranged in front of and above the toothpick storage quantitative hopper, and the two films are combined to form the same straight line through 4 transmission rubber coating wheels and a top shaft above a discharge hole of the quantitative hopper.

3. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the toothpick storage quantitative hopper is a front groove plate and a pneumatic clapboard in a groove of the front groove plate, the middle of the front groove plate is connected with a fixed block, two sides of the front groove plate are respectively adjusted up and down through a cylinder, the cylinder is fixed on a rack, and the lower end surface of the front groove plate is combined with the pneumatic upper inclined clapboard; an upper inclined plate is parallel to a lower inclined plate, the middle of the upper inclined plate is connected with one end of the lower inclined plate through 4 small square columns and has a gap of 40 mm, two sides of the inner surface of each small square column have a gap of less than 60 mm, the upper end of the upper inclined plate is connected with a guard plate, the upper end surface of the guard plate and the upper end surface of a front groove plate are on the same plane, the middle of the guard plate is connected with a fixed block, two sides of the fixed block are respectively adjusted up and down through cylinders and are fixed on a machine frame, a pneumatic upper inclined baffle plate is arranged below the joint of the guard plate and the upper inclined plate and is parallel to the upper inclined plate, the gap is a small gap of a thin film, the pneumatic upper inclined baffle plate is connected with the front groove plate to be an inclined plane and passes through a quantitative plate upper inclined groove plate, the lower end of the upper inclined plate is connected with 2 small square columns and is the same inclined plane, a long hole range is arranged in the middle of the lower inclined plate and is 20 mm away from the pneumatic baffle plate in the front groove plate until the upper end surface, the lower inclined plane is connected to a position 10 mm away from the upper end surface, the lower end surface of the lower inclined plate, a fixed block is connected 150 mm above the inclined plane, the two sides of the fixed block are respectively adjusted up and down through a cylinder, and the cylinder is fixed on the rack; the two sides are movable fixing plates, the middle parts of the front groove plate and the guard plate are connected with the upper part of the fixing block, the two sides are respectively connected with the guard plate of the movable fixing plate, and the lower surface of the lower inclined plate is connected with the guard plate of the movable fixing plate; the pneumatic upper inclined partition plates are used for spacing, the upper part is provided with a storage hopper, and the lower part is provided with a quantitative hopper; the pneumatic upper inclined partition plate is a quantitative hopper feeding port and a storage hopper discharging port, and the pneumatic partition plate in the front groove plate is a quantitative hopper discharging port;

the quantitative hopper quantifies quantity, two oblique upper quantitative plates are arranged in a gap smaller than 60 mm between the inner surface and two sides of a small square column of the toothpick storage quantitative hopper, one oblique upper groove plate is arranged at the rear part, the upper groove is larger than the pneumatic oblique upper partition plate, the lower groove is larger than the lower movable quantitative plate, 2 nuts are arranged in the middle of the large groove, the range is fixed at the bottom of the hopper through screws, outer side fixed blocks are arranged at the tail part of the right oblique upper groove plate and the middle of the two grooves, and holes capable of passing through screw rods are formed at the outer sides of the outer side fixed blocks; one movable quantitative plate is arranged below the upper inclined groove plate, the front surface of the movable quantitative plate is an inclined surface, a long hole is formed in the middle of the inclined surface, the range of the movable quantitative plate can pass through the screw quantitative plate and is 20 mm away from each end surface of the screw quantitative plate, and an outer side fixing block and the same plane with the outer side fixing block of the upper inclined groove plate are arranged on the 20 mm position of the tail end of the movable quantitative plate.

4. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the fixed plate is a fixed plate with the length less than 1000 mm and the width less than 55 mm, and is arranged on the frame of the novel strip toothpick packaging machine; the front end of the fixed plate is 5 mm lower than the tail end of the discharge port at the bottom of the quantitative hopper, a gap of 20 mm is reserved between the front end of the fixed plate and the tail end of the discharge port, and the fixed plate form a same straight line; the film sealing device is adjusted back and forth on the same plane on the fixed plate, a pneumatic pressing plate on the frame of the film sealing device generates a 30 mm gap with the fixed plate when the film sealing device stops working, and the pneumatic pressing plate is matched with the surface of the fixed plate when the pneumatic pressing plate is in the working state; the tail end of the fixed plate is connected with a lower finished product conveying belt, has a 40 mm gap and forms a straight line on the same plane.

5. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the up-down adjusting transmission wheel is arranged on a fixed plate with the length less than 1000 mm and the width less than 55 mm, in front of the film sealing device and behind guard plates at two sides of the fixed plate.

6. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the film sealing device comprises a carriage, a carriage upper rack and a mechanism arranged on the rack;

the mechanism arranged on the rack is a pneumatic sealing pressing strip on two sides of the upper end, a cylinder with two fixed plates and a fixed pneumatic pressing plate in the middle of the cylinder on two sides, pneumatic partition plates on two sides of the middle section of the rack, and pneumatic heating plates on two sides of the lower end of the rack;

the middle of the pneumatic sealing pressing strip is connected with a cylinder on the fixed plate, two sides of the pneumatic sealing pressing strip are respectively provided with a combination of a group of linear guide rails, and a groove plate on the pressing strip is arranged below the fixed plate;

the pneumatic pressure plate and the air cylinder are connected with the fixing plate;

the pneumatic partition plate and the air cylinder are connected with the fixing plate;

the pneumatic heating plate is connected with the air cylinder in the middle below the fixed plate, and the two sides of the pneumatic heating plate are respectively provided with a group of linear guide rail combination and a heating plate above the fixed plate.

7. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the counting and conveying device is characterized in that the strip toothpick packaging machine is provided with an automatic counting function, a group of pneumatic partition plates are arranged at the tail end of a discharge hopper, a groove storage hopper is arranged on a rack below the discharge hopper, a pneumatic push plate in a groove of the storage hopper is arranged at the back of the groove storage hopper, a pneumatic groove partition plate is arranged in front of the groove storage hopper, and two sides of the pneumatic groove partition plate are provided with guard plates; the tail end of the groove storage hopper is connected with the two side hoppers when the two side hoppers stop working, the interval is less than 5 mm, and the two side hoppers are on the same plane;

the pneumatic partition plate is provided with a cylinder bracket, and the cylinder is connected with the fixing plate;

the pneumatic push plate and the air cylinder are connected with the fixed plate, are smaller than the inside of the groove storage hopper and lower than the bottom of the tail end of the discharge hopper, and have a 10 mm gap with the inside of the groove partition plate when the pneumatic groove partition plate stops working and are arranged behind the discharge hopper;

the pneumatic groove partition plate and the air cylinder are connected with the groove plate.

8. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the two side hoppers of the frequency conveying device are a combination of a cylinder connected below the fixed plate and a group of linear guide rails; one side of the upper surface of the fixed plate is provided with a group of pneumatic convex groove plates, the corresponding upper surface of the fixed plate is provided with a groove which is larger than the groove of the fixed plate, and the groove is arranged on one side of the fixed combining bucket to form the same straight line; one side is a fixed plate below the fixed combining hopper, the feed inlet is arranged at the back, and the guard plate is arranged at the front; the materials are conveyed from bottom to top to one side of a fixed combining bucket, provided with grooves and matched with grooves arranged at the bottoms of the buckets at two sides on the same plane;

the pneumatic convex groove plates are provided with cylinder supports, the cylinders are connected with the fixing plates, and the lower portions of the pneumatic convex groove plates are provided with protruding positions and are smaller than the bottom of the bucket to form grooves.

9. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the combined conveying device is used for fixing the combined hopper, the bottom of the combined hopper is provided with a groove, the groove is arranged on one side of the combined conveying device and combined with the grooves arranged on the two hoppers, and a pneumatic partition plate is arranged on the other side of the combined conveying device; the fixed combined hopper is provided with a groove at one side, fixed guard plates are arranged below the hopper edges at two sides, the rest guard plates at two sides are larger than the combined hopper, and are smaller than the feed inlet below the three-side hopper; the bottom of the combined hopper is provided with a groove, the front part of the combined hopper is provided with a discharge hole, and the rear part of the combined hopper is provided with a pneumatic convex groove plate; the fixed combined hopper bottom is provided with a groove, the three-edge hopper bottom is provided with a groove, the grooves are connected when the hopper stops working, the interval is less than 5 mm, and the grooves are on the same plane;

the two side hoppers and the fixed combined hopper are positioned on the same plane, and the pneumatic convex groove plates of the two side hoppers work in place and are combined with the fixed combined hopper;

the pneumatic convex groove plate and the air cylinder are connected with the fixing plate, and the lower portion of the pneumatic convex groove plate is provided with a protruding position and is smaller than the bottom of the bucket to form a groove.

10. The fully automatic strip toothpick packaging machine according to claim 1, wherein: the conveying device is adjusted according to the size and the length of the strip toothpicks, a pneumatic convex groove plate is arranged at the rear part above the three-side bucket, a feeding hole is arranged at the rear part below the three-side bucket, a groove is formed in the top of the front edge of the three-side bucket and connected with the adjustable two-side groove bucket, and two sides of the three-side bucket are higher than the top of the front edge of the three-side bucket by 60 mm; the bottom of the groove in the three-side bucket rises to the top of the front side of the three-side bucket, and the groove, the two-side groove bucket and the film former are connected and form a straight line on the same plane; an adjustable pneumatic baffle plate is arranged above the film former;

the three-side bucket comprises a groove bucket bottom of the three-side bucket, a groove bucket bottom, cylinder supports at the bottoms of two sides of the three-side bucket, a bearing support, a cylinder and a group of linear guide rails;

the two-side groove hopper is provided with a groove hopper bottom, the top of the front edge of the three-side hopper is connected with a groove, and the two-side protective plates are larger than the two sides of the three-side hopper and smaller than the two sides of the film former;

the pneumatic convex groove plate and the air cylinder are connected with the fixing plate, and the lower portion of the pneumatic convex groove plate is provided with a protruding position and is smaller than the bottom of the bucket to form a groove.

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