CN107054740B - Chewing gum strip packaging machine - Google Patents

Abstract

The invention discloses a chewing gum strip-shaped packaging machine which comprises a rack, wherein a chewing gum strip forming device, a paper feeding device and a double-layer paper folding device are arranged on the rack along the chewing gum conveying direction, the chewing gum strip forming device comprises a groove plate and a conveying belt which are arranged on the rack, the groove plate can vibrate along the chewing gum conveying direction, and vertical grooves are arranged on the groove plate side by side; a sugar collecting groove with gradually closed outlets is arranged above the conveyer belt side by side, and the outlet of the vertical material groove is connected with the inlet of the sugar collecting groove; the paper feeding device comprises a first paper cutting assembly and a second paper cutting assembly; the chewing gum strip forming device is used for arranging the granular chewing gum into a sugar strip, the paper feeding device is used for cutting the packing paper into strips, and the double-layer paper folding device is used for wrapping the sugar strip into the cut packing paper and folding the packing paper into strips.

Description

Chewing gum strip packaging machine

Technical Field

The invention belongs to the technical field of packaging machinery, and particularly relates to a strip-shaped gum packaging machine.

Background

The chewing gum is made up by using natural gum or glycerine resin as basis and adding syrup, peppermint and sweetening agent through a certain preparation process. Is a sugar which is very popular among people in the world. Can be eaten and played, and is popular with children and young people. While improving oral health, the facial muscle movements brought by chewing gum also have multiple effects in the field of cognition.

Chewing gum can be divided into tablet or pellet chewing gum in terms of shape, and packaging techniques for chewing gum in different shapes are various. The purpose of the packaging is, on the one hand, to protect the packaged objects from sanitation or to prolong the shelf life of the packaged objects, and, on the other hand, the aesthetic appearance of the packaging is also becoming more and more important. As is readily understood from common sense, the aesthetic quality of the packaging greatly affects the sales volume of the product. Therefore, as a packaging machine, the basic function of packaging, i.e. the quality of packaging, needs to be ensured, and the packaging efficiency and the packaging cost per unit product need to be ensured, because the unit price of the packaged objects such as chewing gum is lower, compared with the cost of the external packaging which accounts for the higher proportion of the total cost, the cost reduction and the packaging quality guarantee are the basic requirements of the packaging machine. The aesthetic appearance of the package usually includes two aspects, that is, the aesthetic appearance of the packaging paper, i.e., the decorative pattern of the packaging paper, which is not related to the packaging machine, and that the quality of the package and the consistency of the package of a large number of products are also an important factor affecting the aesthetic appearance. The latter is generally determined by the packaging machine itself and is generally in direct relation to the technical measures taken by the packaging machine.

The existing paper package of the granular chewing gum generally packages sugar strips formed by a plurality of chewing gums into strips through packaging paper, but the existing packaging machine has low automation degree and low efficiency and cannot meet the requirement of modern production.

Disclosure of Invention

The object of the present invention is to solve the above problems and to provide a gum stick packaging machine with a high degree of automation and a high packaging efficiency.

In order to solve the technical problems, the technical scheme of the invention is as follows: a chewing gum strip packaging machine comprises a rack, wherein a chewing gum strip forming device, a paper feeding device and a double-layer paper folding device are arranged on the rack along the chewing gum conveying direction, the chewing gum strip forming device comprises a groove plate and a conveying belt which are arranged on the rack, the groove plate can vibrate along the chewing gum conveying direction, and vertical grooves are arranged on the groove plate side by side; a sugar collecting groove with gradually closed outlets is arranged above the conveyer belt side by side, and the outlet of the vertical material groove is connected with the inlet of the sugar collecting groove; the paper feeding device comprises a first paper cutting assembly and a second paper cutting assembly; the double-layer paper folding device comprises a feeding sugar tray, a first paper folding channel, a second paper folding sugar tray and a second paper folding channel, wherein a first paper cutting component is positioned between the feeding sugar tray and the first paper folding sugar tray, a second paper cutting component is positioned between the second paper folding sugar tray and the second paper folding channel, the feeding sugar tray is communicated with an outlet of a sugar collecting groove, a first sugar pushing rod pushes sugar strips transferred by the feeding sugar tray and inner packaging paper cut by the first paper cutting component into the first paper folding sugar tray together, the first paper folding sugar tray rotates to complete an initial paper folding procedure of the inner packaging paper, a second sugar pushing rod pushes the initially packaged sugar strips to the first paper folding channel, and the sugar strips move along the first paper folding channel and complete a subsequent paper folding procedure of the inner packaging paper; the conveying rake pushes the candy strip packaged by the inner paper in the first paper folding channel and the outer packing paper cut by the second paper cutting assembly into the second paper folding candy tray together, the second paper folding candy tray rotates to complete the preliminary paper folding process of the outer packing paper, the third sugar pushing rod pushes the candy strip to the second paper folding channel, and the candy strip moves along the second paper folding channel and completes the subsequent paper folding process of the outer packing paper.

Preferably, the groove width of the vertical groove gradually decreases along the chewing gum conveying direction, and one side wall of the vertical groove is an inclined surface with gradually increasing inclination angle.

Preferably, a roller brush is arranged above the material standing groove, and the rotation direction of the roller brush is opposite to the chewing gum conveying direction.

Preferably, the lower end of the trough plate is connected with the rack through a connecting plate, and the connecting plate is connected with a vibration motor; the number of the connecting plates is two, and the two connecting plates are arranged along the conveying direction of the chewing gum.

Preferably, the chewing gum strip forming device further comprises a hopper, a conveying belt is arranged at the lower end opening of the hopper, and the tail end of the conveying belt is located above the groove plate.

Preferably, paper feed arrangement is still including locating the paper reel axle of putting and the branch paper ware in the frame, it is fixed around the paper axle and the activity branch paper axle to divide paper ware below, divide the paper ware including being used for the blade of cutting out the wrapping paper, it is fixed in the frame around paper axle fixed mounting, the activity divides the paper axle to install on the slide, slide and frame sliding connection, one side of slide is equipped with fixed screw-nut, accommodate the lead screw wears to locate the slide, accommodate the lead screw only can rotate for the slide, accommodate the lead screw passes the one end and the screw-nut screw-thread fit of slide.

Preferably, the sugar feeding tray comprises a rotating disc capable of intermittently rotating around the center of the sugar feeding tray, a plurality of arc-shaped plates which surround into a circle are mounted on the rotating disc, a gap is reserved between every two arc-shaped plates, sugar clamping grooves are formed in the positions adjacent to every two arc-shaped plates, and a first sugar pushing rod is arranged at a sugar outlet station of the sugar feeding tray; the feeding sugar tray is provided with an arc cover which covers an arc plate between the sugar feeding station and the sugar discharging station of the feeding sugar tray.

Preferably, the first paper folding candy tray can intermittently rotate around the center of the first paper folding candy tray, a feeding groove is formed in the outer circumference of the first paper folding candy tray along the axial direction of the first paper folding candy tray, paper folding plates are arranged at openings at two sides of the feeding groove, and two vertical grooves are formed in the paper folding plates; the left side of the first paper folding candy tray is a feeding station, the feeding station is opposite to the first paper cutting component, the right side of the first paper folding candy tray is a discharging station, the discharging station is opposite to the first paper folding channel, and a second candy pushing rod is arranged at the discharging station of the first paper folding candy tray; the first paper folding candy tray is provided with an arc plate, and the arc plate covers the upper semi-outer circumference of the first paper folding candy tray.

Preferably, the first paper folding channel comprises a conveying rake arranged at the bottom and paper folding devices arranged on two sides, each paper folding device comprises a square bump, an upper paper folding groove and a lower paper folding groove, the square bumps, the upper paper folding groove and the lower paper folding grooves are sequentially arranged along the conveying direction of the packaging paper, the square bumps are opposite to the first paper folding sugar tray discharging station, the upper paper folding grooves are arranged from high to low along the conveying direction of the packaging paper, and the lower paper folding grooves are inclined planes from low to high along the moving direction of the packaging paper.

Preferably, be equipped with heating element on the second paper folding passageway, heating element includes violently seals heating member, left side heating member and right side heating member on.

The beneficial effects of the invention are:

1. the groove plate of the chewing gum strip forming device vibrates along the conveying direction of the chewing gum, the chewing gum on the groove plate is changed from a flat lying state to a vertical state in the vertical groove with gradually reduced groove width, and is output into the sugar collecting groove in a row, the outlets of the sugar collecting groove are gradually closed, and the chewing gum is arranged into a sugar strip at the outlet of the sugar collecting groove. The conveyer belt and the conveyer belt of transportation chewing gum all incline to set up, under the effect of frictional force and the self gravity of chewing gum, the transport of chewing gum is rapider for the whole work efficiency of packagine machine is higher.

2. The paper feeding device cuts the wrapping paper into two paths through the blades, one path of wrapping paper enters the paper cutting assembly through the fixed paper winding shaft and is cut into sheets, and the other path of wrapping paper enters the same paper cutting assembly through the movable paper dividing shaft and is cut into sheets. Because the position of the movable paper separating shaft is adjustable, when the wrapping paper needs to be cut, the movable paper separating shaft and the fixed paper winding shaft are not positioned on the same vertical line by rotating the adjusting screw rod, and the two cut wrapping paper paths can be staggered and separated. When the wrapping paper does not need to be cut, the blade is only lifted to be separated from the wrapping paper, and the adjusting screw rod is rotated at the same time, so that the movable paper separating shaft and the fixed paper winding shaft are positioned on the same vertical line, and the paper feeding device can be recovered to be used by a common paper feeding device.

3. The double-layer paper folding device comprises a feeding sugar tray, a first paper folding channel, a second paper folding sugar tray and a second paper folding channel, a first sugar pushing rod pushes sugar strips transferred by the feeding sugar tray and inner packaging paper cut by a first paper cutting component into the first paper folding sugar tray together, the first paper folding sugar tray rotates to complete an initial paper folding process of the inner packaging paper, a second sugar pushing rod pushes the initially packaged sugar strips to the first paper folding channel, and the sugar strips move along the first paper folding channel and complete a subsequent paper folding process of the inner packaging paper; the conveying rake pushes the candy strip packaged by the inner paper in the first paper folding channel and the outer packing paper cut by the second paper cutting assembly into the second paper folding candy tray together, the second paper folding candy tray rotates to complete the preliminary paper folding process of the outer packing paper, the third sugar pushing rod pushes the candy strip to the second paper folding channel, and the candy strip moves along the second paper folding channel and completes the subsequent paper folding process of the outer packing paper. The heating assembly heats the upper part and two sides of the packing paper to melt the wax of the packing paper, the packing paper is automatically bonded after cooling, and finally the strip-shaped packing of the chewing gum is finished.

Drawings

Fig. 1 is a perspective view of the gum stick packaging machine of the present invention.

Fig. 2 is a front elevational view of the gum stick packaging machine of the present invention.

Fig. 3 is a perspective view of the chewing gum rope forming apparatus of the present invention.

Fig. 4 is a front view of the chewing gum rope forming apparatus of the present invention.

Fig. 5 is a perspective view of the slot plate of the present invention.

Fig. 6 is a front view of the trough plate of the present invention.

Fig. 7 is a top view of the slot plate of the present invention.

Fig. 8 is a schematic diagram of a paper feeding device according to the present invention.

FIG. 9 is a schematic view of the cutting assembly of the present invention.

FIG. 10 is a schematic view of another angle of the cutting assembly of the present invention.

Fig. 11 is a schematic view of a double-deck paper folding apparatus of the present invention.

Fig. 12 is a front view of the double-layer folding apparatus of the present invention.

Fig. 13 is a front view of the feed sugar tray of the present invention.

Fig. 14 is a perspective view of a feed sugar tray of the present invention.

Fig. 15 is a front view of a first paper folding candy tray of the present invention.

Fig. 16 is a perspective view of a first paper folding candy tray of the present invention.

Fig. 17 is a front view of the first sheet folding lane of the present invention.

Fig. 18 is a perspective view of the first paper folding path of the present invention.

Figure 19 is a schematic view of the creasing of the inner wrapper of the present invention.

Figure 20 is a schematic view of the present invention after gum packaging is complete.

Description of reference numerals: 1. a frame; 2. a chewing gum rope forming device; 201. a hopper; 202. a conveyor belt; 203. a groove plate; 204. a vertical trough; 205. a roller brush; 206. a connecting plate; 207. a vibration motor; 208. a conveyor belt; 209. a cover is turned; 210. a sugar collecting groove; 211. a cover plate; 212. and a storage passage. 3. A paper feeding device; 301. a paper placing disc shaft; 302. a blade; 303. fixing a paper winding shaft; 304. a movable paper separating shaft; 305. a slide base; 306. a feed screw nut; 307. adjusting the screw rod; 308. A guide rail; 309. a cylinder; 310. a rubber wheel shaft; 311. a cutter shaft; 312. fixing a cutter shaft; 313. a first motor; 314. a second motor. 4. A double-layer paper folding device; 401. a sugar feeding tray; 402. a first paper folding candy tray; 403. a first sugar pushing rod; 404. A second sugar pushing rod; 405. an arc-shaped plate; 406. a sugar clamping groove; 407. a first swing link; 408. a first drive lever; 409. a second swing link; 410. connecting blocks; 411. a feeding groove; 412. folding the paper board; 413. a vertical slot; 414. a mounting base; 415. a spring; 416. a circular arc plate; 417. a conveying rake; 418. a square bump; 419. a paper folding groove is arranged; 420. a lower paper folding groove; 421. a second paper-folded candy tray; 422. and a third sugar pushing rod.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments:

as shown in fig. 1 and 2, the chewing gum strip packaging machine provided by the invention comprises a frame 1, wherein a chewing gum strip forming device 2, a paper feeding device 3 and a double-layer paper folding device 4 are arranged on the frame 1 along the chewing gum conveying direction, the chewing gum strip forming device 2 is used for arranging granular chewing gum into a sugar strip, the paper feeding device 3 is used for cutting a packing paper into pieces, and the double-layer paper folding device 4 is used for wrapping the sugar strip into the cut packing paper and folding the packing paper into strips.

As shown in fig. 3 to 7, the chewing gum rope forming apparatus includes a hopper 201, a chute plate 203, and a conveyor belt 208 arranged along the chewing gum conveying direction. As shown in fig. 6, the slot plate 203 is disposed obliquely, the lower end of the slot plate 203 is connected to the frame 1 by two connecting plates 206, and the two connecting plates 206 are disposed along the gum conveying direction. One of the connection plates 206 is connected to a vibration motor 207. When the vibration motor 207 is operated, the slot plate 203 may vibrate in the chewing gum conveying direction.

The chute plate 203 is provided with vertical chutes 204 side by side, the chute width of the vertical chute 204 gradually decreases along the chewing gum conveying direction, and one side wall of the vertical chute 204 is an inclined surface with gradually increasing inclination angle. Granular chewing gum in the hopper 201 enters the chute plate 203 from the lower end opening of the hopper 201, and scatters in the standing chute 204, and moves down along the standing chute 204 with the vibration of the chute plate 203, and because the chute width of the standing chute 204 gradually decreases, under the action of the inclined plane in which the inclination angle of the standing chute 204 gradually increases, the granular chewing gum lying down becomes inclined, and finally becomes a standing state at the outlet of the standing chute 204, and enters the conveyor belt 208.

Set up roller brush 205 above material standing groove 204, the rotation direction of roller brush 205 is opposite with chewing gum direction of delivery to guarantee that material standing groove 204 moves down in order, and the condition that can not appear overlapping appears, prevented that the chewing gum card from standing in the material standing groove 204.

The lower end opening of the hopper 201 is provided with a conveyor belt 202, and the tail end of the conveyor belt 202 is positioned above the groove plate 203. The granular chewing gum in the hopper 201 firstly falls into the conveying belt 202, and is conveyed by the conveying belt 202, so that the granular chewing gum is more uniformly scattered on the groove plate 203, the phenomenon that the granular chewing gum is stacked due to the fact that the granular chewing gum in the hopper 201 directly enters the groove plate 203 is prevented, and the working efficiency is higher.

The conveyor belt 208 is also inclined so that the pellet gum is more rapidly transported on the conveyor belt 208 by the friction of the conveyor belt 208 and the gravity of the pellet gum itself. Sugar receiving grooves 210 are arranged above the conveying belt 208 in parallel, the groove width of the sugar receiving grooves 210 is the size of the chewing gum in a vertical state, and the inlets of the sugar receiving grooves 210 correspond to the outlets of the material standing grooves 204 one by one. The outlet of the trough 210 is gradually closed, and at the outlet of the trough 210, the individual pellets of gum are already in close proximity, at which point the gum has been collated into a rope.

Specifically, a flip cover 209 is arranged on the conveying belt 208, the flip cover 209 is hinged to the rack 1, the candy collecting groove 210 is arranged on the lower surface of the flip cover 209, when the flip cover is flatly placed, the candy collecting groove 210 is positioned above the conveying belt 208, a gap is formed between the candy collecting groove 210 and the conveying belt 208, the movement of the conveying belt 208 is not blocked due to the existence of the gap, and the chewing gum cannot be displaced and changed in state due to the size of the gap.

Be equipped with on flip 209 with frame 1 articulated apron 211, the during operation, apron 211 and flip 209 are all kept flat, and apron 211 is located flip 209 top, and apron 211 can prevent to receive the gum in sugar groove 210 and jump, and the optional transparent material of apron 211 makes, is convenient for observe the behavior of receiving sugar groove 210.

Still be equipped with storage channel 212 between receipts sugar groove 210 and the double-deck paper folding device, storage channel 212 slope sets up, and storage channel 212 includes the conveyer belt that the slope set up and locates the stock chest on the conveyer belt, and the export of receiving sugar groove 210 links to each other with the entry of stock chest, and the stock chest sets up side by side, and the groove width is unified. The feeding sugar tray of the double-layer paper folding device can rotate intermittently around the center of the feeding sugar tray, the sugar strips which are arranged well are stored in the storage channel through the storage groove, and when the feeding sugar tray rotates once, the sugar strips enter the feeding sugar tray quickly under the action of the friction force of the conveyor belt and the self gravity of the sugar strips, and then the subsequent paper folding process is carried out.

As shown in fig. 8 to 10, the paper feeding device includes a paper feeding bobbin 301 and a paper separator, the paper feeding bobbin 301 is disposed on the frame 1, the paper separator includes a blade 302 and a support plate, wrapping paper fed from the wrapping paper roll is placed on the support plate, the blade 302 is mounted on the support plate, the wrapping paper is cut into halves by the blade 302, a fixed winding shaft 303 and a movable paper separating shaft 304 are disposed below the paper separator, and a paper cutting assembly is disposed below the movable paper separating shaft 304.

The fixed winding shaft 303 is fixedly arranged on the frame 1. The movable paper separating shaft 304 is mounted on the sliding base 305, the sliding base 305 is connected with the rack 1 in a sliding mode, one side of the sliding base 305 is provided with a fixed lead screw nut 306, the adjusting lead screw 307 penetrates through the sliding base 305, the adjusting lead screw 307 is connected with the sliding base 305 through a bearing, so that the adjusting lead screw 307 can only rotate relative to the sliding base 305, one end, penetrating through the sliding base 305, of the adjusting lead screw 307 is in threaded fit with the lead screw nut 306, and the sliding base 305 and the movable paper separating shaft 304 can horizontally slide along the rack 1 by rotating the adjusting lead screw 307.

One path of the two paths of packing paper cut by the blade 302 enters the paper cutting assembly through the fixed paper winding shaft 303 to be cut into pieces, the other path of packing paper enters the same paper cutting assembly through the movable paper dividing shaft 304 to be cut into pieces, and the position of the movable paper dividing shaft 304 is adjustable. When the wrapping paper does not need to be cut, the blade 302 is only required to be lifted to be separated from the wrapping paper, and the adjusting screw 307 is rotated at the same time, so that the movable paper separating shaft 304 and the fixed paper winding shaft 303 are positioned on the same vertical line, and the paper cutting device can be restored to be used as a common paper feeding device and only supplies one path of wrapping paper to the paper cutting assembly.

The paper cutting assembly comprises two rubber wheel shafts 310 which rotate oppositely, a rotary cutter shaft 311 and a fixed cutter shaft 312 are arranged below the rubber wheel shafts 310, the two rubber wheel shafts 310 are meshed through gears, one rubber wheel shaft 310 is connected with a first motor 313, and the cutter shaft 311 is connected with a second motor 314. The wrapping paper sequentially passes through the gap between the two rubber wheel shafts 310 and the gap between the cutter shaft 311 and the fixed cutter shaft 312, and when the cutting edge of the cutter shaft 311 rotates for a circle and is opposite to the cutting edge of the fixed cutter shaft 312, the wrapping paper is cut into pieces.

The rack 1 is provided with a guide rail 308 and a cylinder 309, the guide rail 308 is vertically arranged, the paper cutting assembly is slidably arranged on the guide rail 308, the shaft end of the cylinder 309 is connected with the paper cutting assembly, and the cylinder body of the cylinder 309 is fixed on the rack 1. The movement of the paper cutting assembly on the guide rail 308 is achieved by the telescoping of the shaft end of the cylinder 309, facilitating cleaning and maintenance.

In this embodiment, to achieve sugar strip inclusion and outsourcing. The paper cutting assembly of the paper feeding device 3 comprises a first paper cutting assembly and a second paper cutting assembly; as shown in fig. 11 and 12, the double-layer folding device includes a feeding sugar tray 401, a first folding sugar tray 402, a first folding channel, a second folding sugar tray 421 and a second folding channel, which are sequentially disposed on the frame 1, wherein a first paper cutting assembly is disposed between the feeding sugar tray 401 and the first folding sugar tray 402, a second paper cutting assembly is disposed between the second folding sugar tray 421 and the second folding channel, the first sugar pushing rod 403 pushes sugar strips transported by the feeding sugar tray 401 and inner packaging paper cut by the first paper cutting assembly into the first folding sugar tray 402, the first folding sugar tray 402 rotates to complete an initial folding process of the inner packaging paper, the second sugar pushing rod 404 pushes the initially packaged sugar strips to the first folding channel, and the sugar strips move along the first folding channel to complete a subsequent folding process of the inner packaging paper; the conveying harrow 417 pushes the candy bars packaged by the inner paper in the first paper folding channel and the outer packaging paper cut by the second paper cutting assembly into the second paper folding candy tray 421, the second paper folding candy tray 421 rotates to complete the preliminary paper folding process of the outer packaging paper, the third sugar pushing rod 422 pushes the candy bars to the second paper folding channel, and the candy bars move along the second paper folding channel and complete the subsequent paper folding process of the outer packaging paper.

As shown in fig. 13 and 14, the sugar feeding tray includes a rotating disc capable of rotating clockwise intermittently around its center, the rotating disc is provided with a plurality of arc-shaped plates 405 surrounding a circle, sugar clamping grooves 406 are provided at adjacent positions of every two arc-shaped plates 405, a limiting member is provided at the bottom of the sugar clamping groove 406, a first sugar pushing rod 403 is provided at a sugar outlet station of the sugar feeding tray 401, and a gap is provided between every two arc-shaped plates 405, so that the first sugar pushing rod 403 can push out sugar bars conveniently.

The feeding sugar tray 401 is provided with an arc cover which covers the arc plate 405 between the sugar feeding station and the sugar discharging station of the feeding sugar tray 401, so that the chewing gum in the sugar clamping groove 406 is prevented from being thrown out when the feeding sugar tray rotates.

The first candy pushing rod 403 is installed on the slide rail through a slide block and is driven through a link mechanism. The connecting rod mechanism comprises a first swing rod 407, the lower end of the first swing rod 407 is rotatably connected with a first transmission rod 408, the first transmission rod 408 is rotatably connected with the middle part of a second swing rod 409, the lower end of the second swing rod 409 is rotatably connected with the frame 1, the upper end of the second swing rod 409 is rotatably connected with a connecting block 410, and the connecting block 410 is rotatably connected with the lower part of the sliding block. The first swing link 407 is connected to the cam mechanism, and can swing back and forth to a certain extent, so as to drive the first sugar pushing rod 403 to horizontally slide back and forth.

As shown in fig. 15 and 16, the first paper folding candy tray 402 can rotate clockwise around its center intermittently, a feeding slot 411 is disposed on the outer circumference of the first paper folding candy tray 402 along its axial direction, two paper folding plates 412 are disposed at the openings at the two sides of the feeding slot 411, and two vertical slots 413 are disposed on the paper folding plates 412. The left side of first paper folding sugar dish 402 is the feeding station, and the feeding station is relative with first cutting subassembly, and the right side of first paper folding sugar dish 402 is ejection of compact station, and ejection of compact station is relative with first paper folding passageway, and the ejection of compact station department of first paper folding sugar dish 402 is equipped with second sugar pushing rod 404, and second sugar pushing rod 404 and third sugar pushing rod 422 also can make a round trip to slide horizontally, and both theory of operation is the same with first sugar pushing rod 403.

The side of the first folding candy tray 402 is provided with a mounting seat 414, the folding board 412 is connected with the mounting seat 414 through a spring 415, and because the gum has slight size difference during the production process, the width of the candy sticks formed by a certain amount of gum has obvious difference, so the folding board 412 can elastically limit the candy sticks in the feeding groove 411 to prevent the candy sticks from moving to the two sides of the feeding groove 411.

The first paper folding candy plate 402 is provided with an arc plate 416, and the arc plate 416 covers the upper semi-outer circumference of the first paper folding candy plate 402. The circular arc plate 416 can prevent the chewing gum and the wrapping paper in the feeding groove 411 from being thrown out when the first paper folding candy tray rotates. Meanwhile, when the first paper folding candy tray rotates, the arc plate 416 can perform folding action on the packaging paper.

As shown in fig. 17 and 18, the first paper folding channel includes a conveying rake 417 disposed at the bottom and paper folding devices disposed at two sides, the paper folding devices include a square projection 418, an upper paper folding groove 419 and a lower paper folding groove 420 sequentially disposed along the conveying direction of the wrapping paper, the square projection 418 is opposite to the discharging station of the first paper folding candy tray 402, the upper paper folding groove 419 is disposed from high to low along the conveying direction of the wrapping paper, and the lower paper folding groove 420 is an inclined plane from low to high along the moving direction of the wrapping paper.

Fig. 19 is a schematic diagram showing the folding of the inner wrapper, and the working principle of the feeding candy tray, the first paper folding candy tray and the first paper folding channel is described as follows:

when the feeding sugar tray 401 is entrained with sugar strips to rotate, the first sugar pushing rod 403 is still, the sugar strips in the feeding sugar tray 401 are to be rotated to the sugar outlet station, the first sugar pushing rod 403 pushes the sugar strips out of the sugar clamping groove 406, the sugar strips pass through the lower part of the first paper cutting assembly, the inner packaging paper is cut into paper sheets as shown in fig. 19 by the first paper cutting assembly, the inner packaging paper clamps the sugar strips to enter the feeding groove 411, and the two longer edges of the feeding groove 411 enable the inner packaging paper to rotate along the l edges ₁ And l ₂ Folding, because the openings at both sides of the feeding slot 411 are provided with the paper folding boards 412, two vertical slots 413 of one paper folding board 412 enable the inner packing paper to be along l ₃ And l ₄ By folding, the two vertical slots of the other cardboard flap 412 bring the inner wrapper along ₅ And l ₆ And folding the chewing gum in the inner wrapper.

The first folding tray rotates, and the circular arc plate 416 makes the inner packing paper successively follow the first folding tray ₇ And l ₈ Folding, treat that the inner wrapping paper rotates to ejection of compact station, because the ejection of compact station department of first paper folding sugar dish 402 is equipped with second sugar push rod 404, second sugar push rod 404 pushes out the inner wrapping paper from pan feeding groove 411 to first paper folding passageway, first paper folding passageway both sides are equipped with a paper folder, and wherein the square convex block 418 of one side paper folder makes the inner wrapping paper along l paper folder make ₉ 、l ₁₀ And l ₁₁ Folding, the square projection of the folder on the other side makes the inner packing paper along ₁₂ 、l ₁₃ And l ₁₄ The folding and conveying rake 417 pushes the inner wrapping paper in the first paper folding channelThe inner paper moves forward, the upper paper folding groove 419 makes the ear parts formed above the two sides of the folded inner packing paper downward along the L ₁₅ Folding, folding down the paper slot 420 to make the ears formed below the two sides of the inner package paper upward along ₁₆ Folding with the folded inner wrapper as shown in figure 20.

The structure of the second paper folding sugar tray 421 is the same as that of the first paper folding sugar tray 402, the structure of the second paper folding channel is the same as that of the first paper folding channel, and the working principle is also the same, and the difference is that only the sugar strips transferred by the feeding sugar tray 401 and the inner packing paper cut by the first paper cutting component are pushed into the first paper folding sugar tray 402 through the first sugar pushing rod 403. The candy strip which moves through the first paper folding channel and completes the subsequent paper folding process of the inner packing paper is pushed into the second paper folding candy tray 421 through the conveying harrow 417 of the first paper folding channel, the candy strip which completes the inner paper packing of the first paper folding channel and the outer packing paper cut by the second paper cutting assembly, and the folding principle and the process of the outer packing paper are completely the same as those of the inner packing paper.

The inner wrapping paper and the outer wrapping paper inlayer that this embodiment adopted are from taking edible wax, are equipped with heating element on the second paper passageway of rolling over, and heating element includes violently seals heating element, left side heating element and right side heating element. The heating element can be conventional heating tube, and after the wrapping paper is wrapped, the upper part and two sides of the candy bar shown in fig. 20 are heated to melt the wax of the wrapping paper, and after cooling, the wrapping paper is automatically bonded, and finally the strip-shaped wrapping of the chewing gum is finished.

It will be appreciated by those of ordinary skill in the art that the embodiments described herein are intended to assist the reader in understanding the principles of the invention and are to be construed as being without limitation to such specifically recited embodiments and examples. Those skilled in the art can make various other specific changes and combinations based on the teachings of the present invention without departing from the spirit of the invention, and these changes and combinations are within the scope of the invention.

Claims (8)

1. A gum strip packagine machine which characterized in that: the automatic paper folding machine comprises a rack (1), wherein a chewing gum strip forming device (2), a paper feeding device (3) and a double-layer paper folding device (4) are arranged on the rack (1) along the chewing gum conveying direction, the chewing gum strip forming device (2) comprises a groove plate (203) and a conveying belt (208) which are arranged on the rack (1), the groove plate (203) can vibrate along the chewing gum conveying direction, and vertical material grooves (204) are arranged on the groove plate (203) side by side; a sugar collecting groove (210) with gradually closed outlets is arranged above the conveying belt (208) side by side, and the outlet of the vertical material groove (204) is connected with the inlet of the sugar collecting groove (210); the paper feeding device (3) comprises a first paper cutting assembly and a second paper cutting assembly; the double-layer paper folding device (4) comprises a feeding sugar tray (401), a first paper folding sugar tray (402), a first paper folding channel, a second paper folding sugar tray (421) and a second paper folding channel, a first paper cutting assembly is located between the feeding sugar tray (401) and the first paper folding sugar tray (402), a second paper cutting assembly is located between the second paper folding sugar tray (421) and the second paper folding channel, the feeding sugar tray (401) is communicated with an outlet of a sugar receiving groove (210), a first sugar pushing rod (403) pushes sugar strips transported by the feeding sugar tray (401) and inner packaging paper cut by the first paper cutting assembly into the first paper folding sugar tray (402) together, the first paper folding sugar tray (402) rotates to complete the inner packaging paper preliminary paper folding process, a second sugar pushing rod (404) pushes the preliminarily packaged sugar strips to the first paper folding channel, the sugar strips move along the first paper folding channel and complete the subsequent inner packaging paper folding process; the conveying harrow (417) pushes the sugar strips packaged by the inner paper in the first paper folding channel and the outer packaging paper cut by the second paper cutting assembly into a second paper folding sugar tray (421), the second paper folding sugar tray (421) rotates to complete the primary paper folding process of the outer packaging paper, a third sugar pushing rod (422) pushes the sugar strips to the second paper folding channel, and the sugar strips move along the second paper folding channel and complete the subsequent paper folding process of the outer packaging paper;

the first paper folding candy tray (402) can rotate around the center of the first paper folding candy tray intermittently, a feeding groove (411) is formed in the outer circumference of the first paper folding candy tray (402) along the axial direction of the first paper folding candy tray, paper folding plates (412) are arranged at openings on two sides of the feeding groove (411), and two vertical grooves (413) are formed in the paper folding plates (412); the left side of the first paper folding sugar tray (402) is a feeding station, the feeding station is opposite to the first paper cutting component, the right side of the first paper folding sugar tray (402) is a discharging station, the discharging station is opposite to the first paper folding channel, and a second sugar pushing rod (404) is arranged at the discharging station of the first paper folding sugar tray (402); the first paper folding candy tray (402) is provided with an arc plate (416), and the arc plate (416) covers the upper semi-outer circumferential surface of the first paper folding candy tray (402);

the first paper folding channel comprises a conveying rake (417) arranged at the bottom and paper folding devices arranged on two sides, each paper folding device comprises a square bump (418), an upper paper folding groove (419) and a lower paper folding groove (420) which are sequentially arranged along the conveying direction of the packaging paper, the square bumps (418) are opposite to the discharging station of the first paper folding sugar disk (402), the upper paper folding grooves (419) are arranged from high to low along the conveying direction of the packaging paper, and the lower paper folding grooves (420) are arranged from low to high along the moving direction of the packaging paper.

2. The chewing gum stick packaging machine of claim 1, wherein: the width of the vertical trough (204) is gradually reduced along the conveying direction of the chewing gum, and one side wall of the vertical trough (204) is an inclined plane with gradually increased inclination angle.

3. The gum stick packaging machine of claim 1, wherein: a roller brush (205) is arranged above the vertical trough (204), and the rotating direction of the roller brush (205) is opposite to the chewing gum conveying direction.

4. The chewing gum stick packaging machine of claim 1, wherein: the lower end of the trough plate (203) is connected with the rack (1) through a connecting plate (206), and the connecting plate (206) is connected with a vibration motor (207); the number of the connecting plates (206) is two, and the two connecting plates (206) are arranged along the conveying direction of the chewing gum.

5. The chewing gum stick packaging machine of claim 1, wherein: the chewing gum strip forming device further comprises a hopper (201), a conveying belt (202) is arranged at an opening at the lower end of the hopper (201), and the tail end of the conveying belt (202) is located above the groove plate (203).

6. The chewing gum stick packaging machine of claim 1, wherein: the paper feeding device (3) further comprises a paper placing disc shaft (301) and a paper separator which are arranged on the rack (1), a fixed paper winding shaft (303) and a movable paper separating shaft (304) are arranged below the paper separator, the paper separator comprises a blade (302) used for cutting packing paper, the fixed paper winding shaft (303) is fixedly arranged on the rack (1), the movable paper separating shaft (304) is arranged on a sliding seat (305), the sliding seat (305) is in sliding connection with the rack (1), a fixed lead screw nut (306) is arranged on one side of the sliding seat (305), an adjusting lead screw (307) penetrates through the sliding seat (305), the adjusting lead screw (307) can only rotate relative to the sliding seat (305), and one end, penetrating through the sliding seat (305), of the adjusting lead screw (307) is in threaded fit with the lead screw nut (306);

the paper feeding device cuts the wrapping paper into two paths through the blades, one path of wrapping paper enters the paper cutting assembly through the fixed paper winding shaft and is cut into sheets, and the other path of wrapping paper enters the same paper cutting assembly through the movable paper dividing shaft and is cut into sheets.

7. The chewing gum stick packaging machine of claim 1, wherein: the feeding sugar tray comprises a rotating disc capable of rotating intermittently around the center of the feeding sugar tray, a plurality of arc-shaped plates (405) surrounding into a circle are mounted on the rotating disc, gaps are reserved between every two arc-shaped plates (405), sugar clamping grooves (406) are arranged at the positions adjacent to every two arc-shaped plates (405), and first sugar pushing rods (403) are arranged at a sugar outlet station of the feeding sugar tray (401); an arc cover is arranged on the feeding sugar tray (401) and covers the arc plate (405) between the sugar feeding station and the sugar discharging station of the feeding sugar tray (401).

8. The chewing gum stick packaging machine of claim 1, wherein: the second is equipped with heating element on folding the paper passageway, heating element includes violently seals heating member, left side heating member and right side heating member.

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