CN116424624A

CN116424624A - Automatic production line of candy

Info

Publication number: CN116424624A
Application number: CN202310693423.5A
Authority: CN
Inventors: 杨森
Original assignee: Hebei Xiaoxi Food Technology Co ltd
Current assignee: Hebei Xiaoxi Food Technology Co ltd
Priority date: 2023-06-13
Filing date: 2023-06-13
Publication date: 2023-07-14
Anticipated expiration: 2043-06-13
Also published as: CN116424624B

Abstract

The invention discloses a candy automatic production line which comprises a packaging conveying mechanism, a sealing mechanism, a negative pressure mechanism, a shaping mechanism, a shearing mechanism, a control module and a blanking mechanism. The invention belongs to the field of candy packaging, in particular to an automatic candy production line, which utilizes a Bernoulli theorem (when flowing at equal height, the flow speed is high, the pressure is low) to reduce the pressure by increasing the flow speed of air positioned in a negative pressure mechanism area, so that the air in an edge sealing mechanism area can be pumped out, the technical effect of pumping out the air under the condition of not extruding soft sweets is realized, and the automatic candy packaging line is different from the traditional vacuum packaging mode, does not need to stop equipment, can be processed all the time, greatly improves the packaging efficiency, and simultaneously can prolong the storage time of the soft sweets by adopting the negative pressure packaging mode, and is convenient for transportation and sales of the soft sweets.

Description

Automatic production line of candy

Technical Field

The invention belongs to the technical field of candy packaging, and particularly relates to an automatic candy production line.

Background

As the market demand for confectionery products increases, confectionery packaging machines have also become one of the popular devices for many businesses. The improvement of the packaging machine technology inevitably brings great innovation to the candy industry, but the automation and diversification degree of the packaging machine at present is very low, so that the multifunctional, efficient and suitable candy packaging machine for small and medium-sized candy processing fields has good development prospect.

The conventional candy packaging machine has the advantages of simple structure and low cost, but has single function, large volume, compact structure and incapacity of working with high efficiency, especially in a soft candy production line, the soft candy is in various shapes, and needs to be independently packaged and processed, manual complex operation is needed, and the soft candy is easy to rot and needs to be packaged without oxygen or in an anaerobic way, and the soft candy is melted and deformed due to the heating sealing in the prior art.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the automatic candy production line, according to the problems of different shapes and difficult packaging of soft sweets, a negative pressure exhaust mode is adopted, a negative pressure mechanism is arranged, the pressure is reduced by increasing the flow rate of air positioned in the area of the negative pressure mechanism by utilizing the Bernoulli theorem (when flowing at equal height, the flow rate is high, the pressure is low), so that the air in the area of a sealing mechanism machine can be pumped out, the technical effect of pumping out the air under the condition of not extruding the soft sweets is realized, the automatic candy production line is different from the traditional vacuum packaging mode, the automatic candy production line does not need to be processed all the time, the packaging efficiency is greatly improved, and meanwhile, the storage time of the soft sweets can be prolonged by adopting the negative pressure packaging mode, and the soft sweets are convenient to transport and sell.

The technical scheme adopted by the invention is as follows: the invention provides a candy automatic production line which comprises a packaging conveying mechanism, an edge sealing mechanism, a negative pressure mechanism, a shaping mechanism, a shearing mechanism, a control module and a blanking mechanism, wherein the edge sealing mechanism is arranged on the packaging conveying mechanism, the negative pressure mechanism is arranged on the packaging conveying mechanism, the shaping mechanism is arranged on the packaging conveying mechanism, the shearing mechanism is arranged on the packaging conveying mechanism, the control module is arranged on the packaging conveying mechanism, the blanking mechanism is arranged on the packaging conveying mechanism, and the blanking mechanism is fixedly connected with the negative pressure mechanism.

The packaging conveying mechanism comprises a carrying main panel, machine body side walls, a wind shower fan set, carrying rollers and wind shower rooms, wherein the machine body side walls are arranged on the bottom surface, the carrying main panel is arranged on the machine body side walls, the wind shower fan set is arranged on the machine body side walls, the carrying rollers are rotationally arranged on the machine body side walls, the wind shower rooms are arranged between the machine body side walls, dust removal and cleaning are performed by the wind shower fan set, and secondary pollution can be avoided after cleaning is completed in the wind shower rooms.

Further, the shaping mechanism comprises a serging shaping device, and the serging shaping device is provided with two pieces which are symmetrically arranged on the carrying main panel.

The device comprises a molding base, a connecting sliding arm, a driving adjusting shaft, a driven adjusting gear, a driving adjusting gear and an adjusting rotating wheel, wherein the molding base is arranged on a carrying main panel, the connecting sliding arm is slidably arranged on the molding base, an outer laminating roller is rotatably arranged on the connecting sliding arm, an inner laminating roller is rotatably arranged on the connecting sliding arm, a laminating rack is arranged on the connecting sliding arm, the driven adjusting shaft is rotatably arranged on the molding base, the driven adjusting gear is arranged on the driven adjusting shaft, the driving adjusting shaft is arranged on the molding base, the driving adjusting gear is arranged on the driving adjusting shaft, the driving adjusting gear is connected with the driven adjusting gear in a meshed mode, the driving adjusting gear is simultaneously connected with the laminating rack in a meshed mode, and the adjusting rotating wheel is arranged on the driving adjusting shaft, and is used for packaging soft sweets with different shapes by adjusting the interval of the device.

Further, negative pressure mechanism includes fan support, decompression fan and air supply pipeline, the fan support is located on carrying the main panel, decompression fan is located on the fan support, air supply pipeline is located on the air outlet of decompression fan, utilize Bernoulli's theorem (when flowing with equal altitude, the velocity of flow is big, the pressure just is little) to reduce the pressure through increasing the velocity of flow that is located the regional air of negative pressure mechanism, thereby can take out the regional air of banding mechanism machine, thereby realize just can take out the air under the condition of not extruding the soft sweets, and be different from traditional vacuum packing mode, need not carry out equipment shut down, can process always, the packing efficiency of improvement greatly, the packing mode of negative pressure can prolong the save time of soft sweets simultaneously, the transportation and the sales of soft sweets of being convenient for.

Further, banding mechanism includes lift hydraulic arm, bottom platform, upper frame, banding motor group, banding drive group A and banding drive group B, the stiff end of lift hydraulic arm is located on carrying the main panel, the lift on the lift hydraulic arm is located to the bottom platform, the upper frame is located on the bottom platform, the banding motor group is located on the upper frame, banding drive group A locates on the bottom platform, banding drive group B locates on the bottom platform, banding drive group A is the same with banding drive group B transmission mode, and the structure is the same.

The edge sealing driving shaft is rotationally arranged on the bottom platform, the edge sealing driven shaft is rotationally arranged on the bottom platform, the linkage driving wheel is arranged on the edge sealing driven shaft, the edge sealing driving gear is arranged on the edge sealing driving shaft, the edge sealing driven gear is arranged on the edge sealing driven shaft, the edge sealing driving gear is meshed with the edge sealing driven gear and connected with the edge sealing driving gear, and edge sealing laminating wheels are arranged at the lower ends of the edge sealing driving shaft and the edge sealing driven shaft.

Further preferably, an edge sealing driving belt is arranged between the edge sealing driving group B and the edge sealing driving group A, and the edge sealing driving belt is in driving connection with the linkage driving wheel.

Further preferably, the invention is characterized in that a sealing baffle is arranged below the bottom platform, a fixed electromagnet is arranged on the bottom platform, and a fixed sliding shaft is arranged on the bottom platform.

As a further preferred aspect of the present invention, an ultrasonic sealing system is slidably disposed on the fixed sliding shaft, and the ultrasonic sealing system includes a sliding frame, a sealing shaft, a sealing wheel, a sealing transducer and a bonding metal block, where the sliding frame is disposed on the fixed sliding shaft, the sealing shaft is rotatably disposed on the sliding frame, the sealing wheel is disposed on the sealing shaft, the sealing transducer is disposed on the sliding frame, the sealing shaft is simultaneously disposed on an output end of the sealing transducer, and the bonding metal block is disposed on the sliding frame and seals the packaged candy by using high-frequency vibration of the sealing wheel, so that melting of soft sweets caused by high temperature during sealing can be avoided, and packaging efficiency is improved.

Further, the shearing mechanism comprises a shearing carrying arm, a pressing transducer, a pressing electromagnet, an adsorption disc, a supporting spring, a shearing blade and a shearing slide column, wherein the shearing slide column is arranged on a carrying main panel, the shearing carrying arm is arranged on the shearing slide column in a sliding mode, the pressing arm is arranged on the shearing carrying arm, the pressing transducer is arranged on the shearing carrying arm, the shearing blade is arranged below the shearing carrying arm, the pressing electromagnet is arranged on the carrying main panel, the adsorption disc is arranged on the shearing carrying arm, one end of the supporting spring is arranged on the shearing carrying arm, and the other end of the supporting spring is arranged on the carrying main panel, so that the shearing time is greatly shortened and the overall packing efficiency is improved by utilizing the characteristic of quick response of the pressing electromagnet.

Further, the blanking mechanism comprises a blanking carrying arm and a streamline blanking bin, the blanking carrying arm is arranged on the carrying main panel, the streamline blanking bin is arranged on the blanking carrying arm, and the streamline blanking bin is fixedly connected with the fan bracket.

As a further preferred aspect of the present invention, the control module is electrically connected to the air shower fan unit, the decompression fan, the fixed electromagnet, the pressing transducer, the lifting hydraulic arm, the pressing electromagnet and the edge sealing transducer, the control module controls the working state of the lifting hydraulic arm, the control module controls the working state of the air shower fan unit, the control module controls the working state of the decompression fan, the control module controls the working state of the fixed electromagnet, the control module controls the working state of the pressing transducer, the control module controls the working state of the pressing electromagnet, and the control module controls the working state of the edge sealing transducer.

The beneficial effects obtained by the invention by adopting the structure are as follows: the beneficial effect of a candy automated production line that this scheme provided is as follows:

(1) According to the problem that the soft sweets are different in shape and difficult to pack, a negative pressure exhaust mode is adopted, and a negative pressure mechanism is arranged, so that the technical effect that air can be pumped out under the condition that the soft sweets are not extruded is achieved, and the technical problem that the soft sweets are difficult to pack is solved.

(2) The setting of negative pressure mechanism utilizes Bernoulli's theorem, reduces the pressure through the velocity of flow that increases the air that is located negative pressure mechanism region to can take out the regional air of banding mechanism machine, thereby realize just can take out the air under the condition that does not extrude the soft sweets, and be different from traditional vacuum packaging mode, need not carry out equipment shut down, can process always, the packing efficiency of improvement greatly, the packing mode of negative pressure simultaneously can prolong the save time of soft sweets, the transportation and the sales of soft sweets of being convenient for.

(3) The packaging conveying mechanism is arranged, dust removal and cleaning are performed by using the air shower fan set, and secondary pollution can be avoided after cleaning is completed in the air shower room.

(4) The edge-locking shaping device can be used for packaging soft sweets with different shapes by adjusting the interval of the edge-locking shaping device through the rotating wheel.

(5) The shearing mechanism utilizes the characteristic of quick response of the pressing electromagnet, so that the shearing time is greatly shortened, and the integral packing efficiency is improved.

(6) The ultrasonic edge sealing system can avoid the melting of soft sweets caused by high temperature during edge sealing, and improves the packaging efficiency.

Drawings

Fig. 1 is a schematic structural view of an automatic candy production line according to the present invention;

FIG. 2 is a side view of an automated confectionery line according to the present invention;

FIG. 3 is a schematic view of a portion of the structure of the package transport mechanism;

FIG. 4 is a partial cross-sectional view of the package delivery mechanism;

FIG. 5 is a connection state diagram of the serging shaping device;

FIG. 6 is a partial cross-sectional view of a serging shaping device;

FIG. 7 is a schematic view of a part of the structure of the negative pressure mechanism in a connecting state with the blanking mechanism;

FIG. 8 is a partial sectional view of the structure of the negative pressure mechanism in a state of being connected with the blanking mechanism;

FIG. 9 is a schematic view of a portion of a banding mechanism;

FIG. 10 is a schematic diagram of a transmission structure of the edge banding mechanism;

FIG. 11 is a partial cross-sectional view of a banding mechanism;

FIG. 12 is a schematic view of an ultrasonic edge banding system;

FIG. 13 is a schematic view of a portion of the structure of a shear;

FIG. 14 is an enlarged schematic view of structure A of FIG. 13;

fig. 15 is a connection block diagram of the control module.

Wherein 1, a package conveying mechanism, 2, a shaping mechanism, 3, a negative pressure mechanism, 4, a banding mechanism, 5, a shearing mechanism, 6, a control module, 7, a packaging bag, 8, a blanking mechanism, 101, a carrying main panel, 102, a machine body side wall, 103, a wind shower fan set, 104, a transportation carrying roller, 105, a wind shower, 201, a banding shaping device, 202, a shaping base, 203, a connecting sliding arm, 204, an outer bonding roller, 205, an inner bonding roller, 206, a bonding rack, 207, a driving adjusting shaft, 208, a driven adjusting shaft, 209, a driven adjusting gear, 210, a driving adjusting gear, 211, an adjusting rotating wheel, 301, a fan bracket, 302, a decompression fan, 303, a blowing pipeline, 401, a lifting hydraulic arm, 402, a bottom platform, 403 and an upper frame, 404, edge sealing motor group, 405, edge sealing transmission group a,406, edge sealing driving shaft, 407, edge sealing driven shaft, 408, linkage driving wheel, 409, edge sealing driving gear, 410, edge sealing driven gear, 411, edge sealing attaching wheel, 412, edge sealing transmission group B,413, edge sealing transmission belt, 414, edge sealing baffle, 415, fixed electromagnet, 416, fixed sliding shaft, 417, ultrasonic edge sealing system, 418, sliding frame, 419, edge sealing shaft, 420, edge sealing wheel, 421, edge sealing transducer, 422, attaching metal block, 501, shearing carrying arm, 502, pressing arm, 503, pressing transducer, 504, pressing electromagnet, 505, adsorption disc, 506, supporting spring, 507, cutting knife, 508, shearing sliding column, 801, blanking carrying arm, 802, streamline blanking bin.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1 and 2, the invention provides a candy automatic production line, which comprises a package conveying mechanism 1, a banding mechanism 4, a negative pressure mechanism 3, a shaping mechanism 2, a shearing mechanism 5, a control module 6 and a blanking mechanism 8, wherein the banding mechanism 4 is arranged on the package conveying mechanism 1, the negative pressure mechanism 3 is arranged on the package conveying mechanism 1, the shaping mechanism 2 is arranged on the package conveying mechanism 1, the shearing mechanism 5 is arranged on the package conveying mechanism 1, the control module 6 is arranged on the package conveying mechanism 1, the blanking mechanism 8 is arranged on the package conveying mechanism 1, and the blanking mechanism 8 is fixedly connected with the negative pressure mechanism 3.

As shown in fig. 1, 2, 3 and 4, the package conveyance mechanism 1 includes a main mounting panel 101, a body side wall 102, a shower set 103, transport mounting rollers 104, and a shower 105, the body side wall 102 is mounted on the bottom surface, the main mounting panel 101 is provided on the body side wall 102, the shower set 103 is provided on the body side wall 102, the transport mounting rollers 104 are rotatably provided on the body side wall 102, and the shower 105 is provided between the body side walls 102.

As shown in fig. 1, 2, 5 and 6, the shaping mechanism 2 includes two serging shaping devices 201, and the serging shaping devices 201 are symmetrically arranged on the carrying main panel 101; the overlock shaping device 201 comprises a shaping base 202, a connecting sliding arm 203, a driving adjusting shaft 207, a driven adjusting shaft 208, a driven adjusting gear 209, a driving adjusting gear 210 and an adjusting rotating wheel 211, wherein the shaping base 202 is arranged on the carrying main panel 101, the connecting sliding arm 203 is arranged on the shaping base 202 in a sliding mode, an outer laminating roller 204 is rotationally arranged on the connecting sliding arm 203, an inner laminating roller 205 is rotationally arranged on the connecting sliding arm 203, the outer laminating roller 204 and the inner laminating roller 205 are in rolling lamination with two sides of the packaging bag 7, a laminating rack 206 is arranged on the connecting sliding arm 203, the driven adjusting shaft 208 is rotationally arranged on the shaping base 202, the driven adjusting gear 209 is arranged on the driven adjusting shaft 208, the driving adjusting shaft 207 is arranged on the shaping base 202, the driving adjusting gear 210 is arranged on the driving adjusting shaft 207, the driving adjusting gear 210 is in meshed connection with the driven adjusting gear 209, and the driving adjusting gear 210 is simultaneously in meshed connection with the laminating rack 206, and the adjusting rotating wheel 211 is arranged on the driving adjusting shaft 207.

As shown in fig. 1, 2, 7 and 8, the negative pressure mechanism 3 includes a blower bracket 301, a decompression blower 302, and an air supply duct 303, the blower bracket 301 is provided on the mounting main panel 101, the decompression blower 302 is provided on the blower bracket 301, and the air supply duct 303 is provided on an air outlet of the decompression blower 302; the discharging mechanism 8 comprises a discharging carrying arm 801 and a streamline discharging bin 802, the discharging carrying arm 801 is arranged on the carrying main panel 101, the streamline discharging bin 802 is arranged on the discharging carrying arm 801, and the streamline discharging bin 802 is fixedly connected with the fan bracket 301.

As shown in fig. 1, 2, 9, 10, 11 and 12, the edge sealing mechanism 4 includes a lifting hydraulic arm 401, a bottom platform 402, an upper frame 403, an edge sealing motor set 404, an edge sealing transmission set a405 and an edge sealing transmission set B412, wherein a fixed end of the lifting hydraulic arm 401 is arranged on the carrying main panel 101, the bottom platform 402 is arranged on a lifting end of the lifting hydraulic arm 401, the upper frame 403 is arranged on the bottom platform 402, the edge sealing motor set 404 is arranged on the upper frame 403, the edge sealing transmission set a405 is arranged on the bottom platform 402, the edge sealing transmission set B412 is arranged on the bottom platform 402, and the edge sealing transmission set a405 and the edge sealing transmission set B412 have the same transmission mode and the same structure; the edge sealing transmission group A405 comprises an edge sealing driving shaft 406, an edge sealing driven shaft 407, a linkage driving wheel 408, an edge sealing transmission gear 409 and an edge sealing driven gear 410, wherein the edge sealing driving shaft 406 is rotationally arranged on the bottom platform 402, the edge sealing driven shaft 407 is rotationally arranged on the bottom platform 402, the linkage driving wheel 408 is arranged on the edge sealing driven shaft 407, the edge sealing transmission gear 409 is arranged on the edge sealing driving shaft 406, the edge sealing driven gear 410 is arranged on the edge sealing driven shaft 407, the edge sealing transmission gear 409 is in meshed connection with the edge sealing driven gear 410, and edge sealing laminating wheels 411 are arranged at the lower ends of the edge sealing driving shaft 406 and the edge sealing driven shaft 407; a sealing belt 413 is arranged between the sealing driving group B412 and the sealing driving group A405, and the sealing belt 413 is in driving connection with the linkage driving wheel 408; a sealing baffle 414 is arranged below the bottom platform 402, a fixed electromagnet 415 is arranged on the bottom platform 402, and a fixed sliding shaft 416 is arranged on the bottom platform 402; the ultrasonic edge sealing system 417 is arranged on the fixed sliding shaft 416 in a sliding manner, the ultrasonic edge sealing system 417 comprises a sliding frame 418, an edge sealing shaft 419, an edge sealing wheel 420, an edge sealing energy converter 421 and a fitting metal block 422, the sliding frame 418 is arranged on the fixed sliding shaft 416, the edge sealing shaft 419 is rotationally arranged on the sliding frame 418, the edge sealing wheel 420 is arranged on the edge sealing shaft 419, the edge sealing energy converter 421 is arranged on the sliding frame 418, the edge sealing shaft 419 is simultaneously arranged on the output end of the edge sealing energy converter 421, and the fitting metal block 422 is arranged on the sliding frame 418.

As shown in fig. 1, 2, 13 and 14, the shear mechanism 5 includes a shear mounting arm 501, a pressing arm 502, a pressing transducer 503, a pressing electromagnet 504, an adsorption plate 505, a support spring 506, a cutter 507 and a shear strut 508, the shear strut 508 is provided on the mounting main panel 101, the shear mounting arm 501 is slidably provided on the shear strut 508, the pressing arm 502 is provided on the shear mounting arm 501, the pressing transducer 503 is provided on the shear mounting arm 501, the cutter 507 is provided below the shear mounting arm 501, the pressing electromagnet 504 is provided on the mounting main panel 101, the adsorption plate 505 is provided on the shear mounting arm 501, one end of the support spring 506 is provided on the shear mounting arm 501, and the other end of the support spring 506 is provided on the mounting main panel 101.

As shown in fig. 15, the control module 6 is electrically connected with the air shower set 103, the decompression fan 302, the fixed electromagnet 415, the pressing transducer 503, the lifting hydraulic arm 401, the pressing electromagnet 504 and the edge sealing transducer 421, the control module 6 controls the working state of the lifting hydraulic arm 401, the control module 6 controls the working state of the air shower set 103, the control module 6 controls the working state of the decompression fan 302, the control module 6 controls the working state of the fixed electromagnet 415, the control module 6 controls the working state of the pressing transducer 503, the control module 6 controls the working state of the pressing electromagnet 504, and the control module 6 controls the working state of the edge sealing transducer 421.

When the packaging bag 7 is specifically used, firstly, the packaging bag 7 is sequentially connected to the packaging conveying mechanism 1, the shaping mechanism 2, the edge sealing mechanism 4 and the shearing mechanism 5, firstly, the round rolls of the packaging bag 7 are sequentially installed on the transportation carrying roller 104, at the moment, the control module 6 starts the air shower fan unit 103, the air shower fan unit 103 is used for cleaning the surface of the packaging bag 7, then the packaging bag 7 is connected into the shaping mechanism 2, the gap between the edge locking shaping devices 201 is changed by rotating the adjusting rotating wheel 211, the adjusting rotating wheel 211 rotates to drive the driving adjusting shaft 207 to rotate, the driving adjusting shaft 207 rotates to drive the driving adjusting gear 210 to rotate, the driving adjusting gear 210 rotates to drive the driven adjusting gear 209 to rotate, the bonding rack 206 is driven to slide by utilizing the rotation of the driving adjusting gear 210 and the driven adjusting gear 209, the gap is changed, and then the packaging bag 7 is sequentially connected into the edge sealing mechanism 4 through the two groups of outer bonding rollers 204 and the inner bonding rollers 205; the control module 6 starts the lifting hydraulic arm 401 to adjust the height, at this time, the control module 6 starts the banding motor group 404, the banding motor group 404 starts to drive the banding driving shaft 406 to rotate, the banding driving shaft 406 rotates to drive the banding transmission gear 409 to rotate, the banding transmission gear 409 rotates to drive the banding driven gear 410 to rotate, the banding driven gear 410 rotates to drive the banding driven shaft 407 to rotate, the banding driven shaft 407 rotates to drive the linkage driving wheel 408, simultaneously, the banding driven shaft 407 and the banding driving shaft 406 drive the banding laminating wheel 411 to rotate, the linkage driving wheel 408 rotates to drive the banding driving belt 413, the banding driving belt 413 rotates to drive the banding driving group B412 to rotate, at this time, the side edge of the packing bag 7 is fixed by the banding laminating wheel 411 and drives the packing bag 7 to transport along with the banding laminating wheel 411, when the side edge of the packing bag 7 passes through the ultrasonic banding system 417, the control module 6 starts to fix the electromagnet 415, the fixed electromagnet 415 adsorbs the laminating metal block 422 to drive the sliding frame 418 to slide, the banding wheel 420 is tightly attached to the mouth baffle, at this time, the control module 6 starts the banding transducer 421, the banding wheel 421 drives the banding wheel 420 to vibrate vertically through the banding shaft 419, and the banding wheel 420 is high-frequency, and the side edge 7 is sealed; then, the packaging bag 7 is sent into the shearing mechanism 5, the pressing electromagnet 504 is started at intervals by the control module 6, the pressing electromagnet 504 is used for attracting the adsorption disc 505 to drive the shearing carrying arm 501 to descend, the control module 6 starts the pressing transducer 503 when the shearing carrying arm 501 descends, the pressing arm 502 is used for pressing and sealing the packaging bag 7, and the shearing cutter 507 is used for shearing; after the connection of the packaging bag 7 is completed, since the lower bin 802 is a directly-butted candy discharge port in the production line, candy falls into the packaging bag 7 from the streamline lower bin 802, the control module 6 starts the decompression fan 302, the decompression fan 302 starts to send out airflow from the air supply pipeline 303, after the candy falls into the packaging bag 7 from the lower bin, the candy is conveyed to the edge sealing mechanism 4 along with the packaging bag 7 by the lower bin, at the moment, high-speed airflow is guided to the rear by the shell of the streamline lower bin 802, the airflow direction is the horizontal direction of the blanking mechanism 8 by the negative pressure mechanism 3, and a low-pressure area is formed by high-speed airflow between the packaging bag 7 dynamically fixed by the outer attaching roller 204 and the inner attaching roller 205 and the streamline lower bin 802 (when flowing at equal height according to Bernoulli theorem, the flow speed is high, the pressure is low); the packaging bag 7 between the shaping mechanism 2 and the edge sealing mechanism 4 is affected by a low pressure area, two sides and the bottom surface of the packaging bag 7 are clung to the streamline blanking bin 802, the side edges of the packaging bag 7 at the area are fixed by the shaping mechanism 2 and the edge sealing mechanism 4, and the packaging bag 7 at the direction of the air supply pipeline 303 is always provided with an opening, so that the continuous passage of air flow can be ensured, and a stable low pressure area is formed; when the candy is taken out from the streamline lower bin 802 by the packing bag 7, the candy is located below the edge sealing mechanism 4, the side edge of the packing bag 7 in the area is fixed by the two edge sealing laminating wheels 411, one end opening is sealed by the shearing mechanism 5, the internal air is pumped to the low-pressure area from the opening between the streamline lower bin 802 and the upper packing bag 7 fixed by the edge sealing laminating wheels 411, and as the blanking mechanism 8 is connected into the candy production line, the streamline lower bin 802 can also be used as a sealing space, and finally, the candy located below the edge sealing mechanism 4 is transported to the shearing mechanism 5 for single cutting and sealing after being completely wrapped by the packing bag 7.

The above is a specific workflow of the present invention, and the next time the present invention is used, the process is repeated.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims

1. An automatic production line of candy, its characterized in that: the automatic packaging machine comprises a packaging conveying mechanism (1), a banding mechanism (4), a negative pressure mechanism (3), a shaping mechanism (2), a shearing mechanism (5), a control module (6) and a blanking mechanism (8), wherein the shaping mechanism (2) is arranged on the packaging conveying mechanism (1), the negative pressure mechanism (3) is arranged on the packaging conveying mechanism (1), the banding mechanism (4) is arranged on the packaging conveying mechanism (1), the shearing mechanism (5) is arranged on the packaging conveying mechanism (1), the control module (6) is arranged on the packaging conveying mechanism (1), the blanking mechanism (8) is arranged on the packaging conveying mechanism (1), and the blanking mechanism (8) is fixedly connected with the negative pressure mechanism (3) at the same time; the negative pressure mechanism (3) comprises a fan support (301), a decompression fan (302) and an air supply pipeline (303), wherein the fan support (301) is arranged on the packaging conveying mechanism (1), the decompression fan (302) is arranged on the fan support (301), and the air supply pipeline (303) is arranged on an air outlet of the decompression fan (302).

2. An automated confectionary production line according to claim 1, wherein: the packaging conveying mechanism (1) comprises a carrying main panel (101), a machine body side wall (102), an air shower set (103), a transportation carrying roller (104) and an air shower (105), wherein the machine body side wall (102) is arranged on the bottom surface, the carrying main panel (101) is arranged on the machine body side wall (102), the air shower set (103) is arranged on the machine body side wall (102), the transportation carrying roller (104) is rotationally arranged on the machine body side wall (102), and the air shower (105) is arranged on the machine body side wall (102).

3. An automated confectionary production line according to claim 2, wherein: the shaping mechanism (2) comprises a serging shaping device (201), wherein two serging shaping devices (201) are arranged and are symmetrically arranged on the carrying main panel (101) left and right; the device comprises a molding base (202), a connecting sliding arm (203), a driving adjusting shaft (207), a driven adjusting shaft (208), a driven adjusting gear (209), a driving adjusting gear (210) and an adjusting rotating wheel (211), wherein the molding base (202) is arranged on a carrying main panel (101), the connecting sliding arm (203) is arranged on the molding base (202) in a sliding mode, an outer laminating roller (204) is arranged on the connecting sliding arm (203) in a rotating mode, an inner laminating roller (205) is arranged on the connecting sliding arm (203) in a rotating mode, laminating racks (206) are arranged on the connecting sliding arm (203), the driven adjusting shaft (208) is arranged on the molding base (202) in a rotating mode, the driven adjusting gear (209) is arranged on the driven adjusting shaft (208), the driving adjusting shaft (207) is arranged on the molding base (202), the driving adjusting gear (210) is arranged on the adjusting shaft (207) in a meshed mode, the driving adjusting gear (210) is connected with the driven adjusting gear (209) in a meshed mode, and the driving adjusting gear (210) is simultaneously meshed with the racks (211).

4. A confectionary automation line according to claim 3, characterized in that: the edge sealing mechanism (4) comprises a lifting hydraulic arm (401), a bottom platform (402), an upper layer frame (403), an edge sealing motor set (404), an edge sealing transmission set A (405) and an edge sealing transmission set B (412), wherein the fixed end of the lifting hydraulic arm (401) is arranged on a carrying main panel (101), the bottom platform (402) is arranged on the lifting end of the lifting hydraulic arm (401), the upper layer frame (403) is arranged on the bottom platform (402), the edge sealing motor set (404) is arranged on the upper layer frame (403), the edge sealing transmission set A (405) is arranged on the bottom platform (402), the edge sealing transmission set B (412) is arranged on the bottom platform (402), and the edge sealing transmission set A (405) and the edge sealing transmission set B (412) are identical in transmission mode and identical in structure.

5. The automated confectionary production line of claim 4, wherein: the edge sealing transmission group A (405) comprises an edge sealing driving shaft (406), an edge sealing driven shaft (407), a linkage driving wheel (408), an edge sealing transmission gear (409) and an edge sealing driven gear (410), wherein the edge sealing driving shaft (406) is rotationally arranged on the bottom platform (402), the edge sealing driven shaft (407) is rotationally arranged on the bottom platform (402), the linkage driving wheel (408) is arranged on the edge sealing driven shaft (407), the edge sealing transmission gear (409) is arranged on the edge sealing driving shaft (406), the edge sealing driven gear (410) is arranged on the edge sealing driven shaft (407), the edge sealing transmission gear (409) is meshed with the edge sealing driven gear (410), and edge sealing laminating wheels (411) are arranged at the lower ends of the edge sealing driving shaft (406) and the edge sealing driven shaft (407).

6. The automated confectionary production line of claim 5, wherein: the utility model provides a sealing device for the ultrasonic energy storage device, including bottom platform (402), bottom platform (402) below is equipped with banding baffle (414), be equipped with fixed electromagnet (415) on bottom platform (402), be equipped with fixed slide shaft (416) on bottom platform (402), it is equipped with ultrasonic wave banding system (417) to slide on fixed slide shaft (416), ultrasonic wave banding system (417) include sliding frame (418), banding axle (419), banding wheel (420), banding transducer (421) and laminating metal piece (422), sliding frame (418) are located on fixed slide shaft (416), banding axle (419) rotate and are located sliding frame (418), banding wheel (420) are located on banding axle (419), banding transducer (421) are located on sliding frame (418), banding axle (419) are located simultaneously on the output of banding transducer (421), laminating metal piece (422) are located on sliding frame (418).

7. The automated confectionary production line of claim 6, wherein: and a sealing driving belt (413) is arranged between the sealing driving group B (412) and the sealing driving group A (405), and the sealing driving belt (413) is in driving connection with the linkage driving wheel (408).

8. The automated confectionary production line of claim 7, wherein: the blanking mechanism (8) comprises a blanking carrying arm (801) and a streamline blanking bin (802), the blanking carrying arm (801) is arranged on the carrying main panel (101), the streamline blanking bin (802) is arranged on the blanking carrying arm (801), and the streamline blanking bin (802) is fixedly connected with the fan support (301) at the same time.

9. The automated confectionary production line of claim 8, wherein: the utility model provides a shearing mechanism (5) is including shearing carrying arm (501), pressfitting arm (502), pressfitting transducer (503), pressfitting electromagnet (504), adsorption disc (505), supporting spring (506), cutting knife (507) and shearing slide column (508), on carrying main panel (101) are located to shearing slide column (508), shearing carrying arm (501) are slided and are located on shearing slide column (508), on shearing carrying arm (501) are located to pressfitting arm (502), on shearing carrying arm (501) are located to pressfitting transducer (503), cutting knife (507) are located shearing carrying arm (501) below, on carrying main panel (101) are located to pressfitting electromagnet (504), on shearing carrying arm (501) are located to adsorption disc (505), on shearing carrying arm (501) are located to one end of supporting spring (506), on main panel (101) are located to the other end of supporting spring (506).

10. The automated confectionary production line of claim 9, wherein: the air shower unit (103), the decompression fan (302), the fixed electromagnet (415), the pressing transducer (503), the lifting hydraulic arm (401), the pressing electromagnet (504) and the edge sealing transducer (421) are electrically connected with the control module (6).