CN112960183A

CN112960183A - Candy packaging production device

Info

Publication number: CN112960183A
Application number: CN202110125140.1A
Authority: CN
Inventors: 冯魏; 杨鹏; 郑雅丹
Original assignee: Zhejiang Jimei Food Technology Co ltd
Current assignee: Zhejiang Jimei Food Technology Co ltd
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-15
Anticipated expiration: 2041-01-29
Also published as: CN112960183B

Abstract

The invention discloses a candy packaging production device, which comprises a support frame and material carrying platforms arranged on the support frame, wherein the material carrying platforms are divided into three groups, the three groups are circumferentially arranged on the support frame, a driving motor is arranged below the support frame, a first movable groove is arranged at the bottom of the material carrying platform, a first supporting spring is arranged at the top of the first movable groove, a first connecting plate is arranged at the bottom of the first supporting spring, an output shaft of the driving motor penetrates through the first movable groove, a second connecting plate is arranged on the output shaft of the driving motor, and the first connecting plate is rotatably connected onto the second connecting plate; a material carrying groove is formed in the material carrying platform, and a first supporting plate is arranged at the bottom of the material carrying groove; when the sugar tanks on the two groups of material loading platforms are filled with candies, the driving motor drives the supporting frame to rotate; when less than two groups of sugar cans on the material loading platform are filled with sugar, the driving motor drives the sugar cans to vibrate.

Description

Candy packaging production device

Technical Field

The invention belongs to the technical field of food processing, and particularly relates to a candy packaging production device.

Background

The candy is a snack which is widely popular among people. The production process of the candy comprises the steps of dissolving the candy, filtering, boiling in vacuum, cooling, adding auxiliary materials, blending, forming and screening, and the last step is packaging. The packing methods of candy are multiple, wherein have canned type candy, other wrapping paper are no longer wrapped up on canned candy surface generally, and the candy is naked in the sugar jar, and the easy extrusion is together when the candy is packed into the sugar jar, and the candy in the sugar jar distributes unevenly, needs artificial vibrations sugar jar to tremble the candy in the sugar jar evenly, increases the packaging process of candy, reduces candy packing machining efficiency.

Disclosure of Invention

The invention provides a candy packaging and producing device for overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a candy packaging production device comprises a support frame and material carrying platforms arranged on the support frame, wherein the material carrying platforms are divided into three groups, the three groups are circumferentially arranged on the support frame, a driving motor is arranged below the support frame, a first movable groove is formed in the bottom of the material carrying platforms, a first supporting spring is arranged at the top of the first movable groove, a first connecting plate is arranged at the bottom of the first supporting spring, an output shaft of the driving motor penetrates through the first movable groove, a second connecting plate is arranged on the output shaft of the driving motor, and the first connecting plate is rotatably connected onto the second connecting plate; a material carrying groove is formed in the material carrying platform, and a first supporting plate is arranged at the bottom of the material carrying groove; when the sugar tanks on the two groups of material loading platforms are filled with candies, the driving motor drives the supporting frame to rotate; when less than two groups of sugar cans on the material loading platforms are filled with sugar, the driving motor drives the sugar cans to vibrate; when the device is used, one of the material loading platforms is used for loading, the other material loading platform is used for injecting materials, the third material loading platform is used for taking materials, the sugar tank on the material loading platform is in an empty state, the sugar tank on the material loading platform is in a full state, when candies are filled into the sugar tank on the material injection loading platform, the sugar tank on the material injection loading platform is in an unfilled state, the driving motor drives the sugar tank on the first supporting plate to vibrate, the candies in the sugar tank are uniformly shaken under the vibration of the sugar tank after being filled into the sugar tank, and the candies uniformly fall into the sugar tank so as to be filled into the sugar tank with a specified amount; after the candy is injected into the candy tank, the weight of the candy tank on the material injection and carrying platform is increased, the whole support frame moves downwards, the second connecting plate moves to the top of the first movable groove and forms transmission fit with the support frame, after the candy tank on the material taking and carrying platform is taken away, the drive motor immediately drives the support frame to rotate, the material carrying platform on the material injection station rotates to the material taking station, only the candy tank on the material taking station is in a full state at the moment, the first support spring pushes the support frame to move upwards after the whole weight of the support frame is reduced, the second connecting plate moves to the bottom of the first movable groove and then is disengaged from the first movable groove for transmission fit, the drive motor drives the candy tank on the material injection station to vibrate when driving the output shaft to shake the candy uniformly in the candy tank, so that the candy is prevented from overflowing, and the candy injection operation of the candy is completed; under the mutually supporting of carrying material platform and support frame, make the packing step of candy go on automatically, the sugar bowl can shake automatically under the driving motor effect, reduces artifical the participation, promotes candy processing degree of automation to promote candy packing machining efficiency.

An opening is formed in the side wall of the material loading groove, a second movable groove is formed in the inner wall of the opening, a first rotating roller and a second rotating roller are arranged in the second movable groove, a first conveying belt is wound on the first rotating roller and the second rotating roller, and a first pushing block is arranged on the first conveying belt; a feeding assembly is arranged on one side of the material carrying platform, a discharging assembly is arranged on the other side of the material carrying platform, and the feeding assembly comprises an installation frame, a third rotating roller arranged on the installation frame and a second conveying belt wound on the third rotating roller; when the loading platform moves to one side of the feeding assembly, the third rotating roller and the first rotating roller form transmission fit.

A third movable groove is arranged below the second movable groove, a first connecting shaft is arranged at the bottom of the first rotating roller and penetrates through the third movable groove, a first driving wheel is arranged at the bottom of the first connecting shaft, a second driving wheel matched with the first driving wheel is arranged in the third movable groove, a third driving wheel is arranged on the second driving wheel, and the first driving wheel and the second driving wheel are bevel gears; the inner wall of the third movable groove is provided with a third connecting plate, the third connecting plate is provided with a fourth driving wheel, the fourth driving wheel and the third driving wheel form transmission fit through a first synchronous belt, the fourth driving wheel is provided with a driving roller, and the third driving roller is provided with a fifth driving wheel matched with the driving roller.

A fourth movable groove is formed in the inner wall of the mounting frame, a first mounting block is arranged in the fourth movable groove, the third rotating roller is rotatably connected to the first mounting block, and a first connecting spring is arranged on the first mounting block; a first connecting rod is arranged on the mounting frame, an air cylinder is arranged on the first connecting rod, a piston rod of the air cylinder is provided with a third connecting ring, and a ring groove matched with the third connecting ring is arranged on the third rotating roller; the mounting bracket is characterized in that a fifth movable groove is formed in the inner wall of the mounting bracket, a second mounting block is arranged in the fifth movable groove, a fourth rotary roller is rotatably connected to the second mounting block, and a second connecting spring is arranged on the second mounting block.

A sixth movable groove is formed in the inner wall of the material carrying groove, a second support plate is arranged in the sixth movable groove, seventh movable grooves are formed in two sides of the sixth movable groove respectively, a second connecting rod is arranged on the side wall of the second support plate, a third connecting rod is arranged on the second connecting rod, and the third connecting rod penetrates through the seventh movable groove; a transmission cavity is arranged below the second movable groove, a second connecting shaft is arranged at the bottom of the second rotating roller and penetrates through the transmission cavity, the transmission cavity is communicated with the seventh movable groove, a fifth transmission wheel is arranged at the bottom end of the second connecting shaft, a sixth transmission wheel matched with the fifth transmission wheel is arranged in the transmission cavity, a first movable cavity is arranged on the third connecting rod, and a transmission rod matched with the sixth transmission wheel is arranged in the first movable cavity.

The transmission rod is provided with a sealing plate, the inner wall of the first movable cavity is provided with an eighth movable groove matched with the sealing plate, the inner wall of the first movable cavity is provided with a first sliding groove, a first sliding block is arranged in the first sliding groove, the first sliding block is provided with a second sliding block, and the bottom of the sealing plate is provided with a second sliding groove matched with the second sliding block; a wire roller is arranged in the first movable cavity, a connecting rope is wound on the wire roller, one end of the connecting rope is fixedly connected to the sealing plate, and a torsion spring is arranged on the wire roller; carry and be equipped with ninth activity groove on the silo inner wall, wear to be equipped with first push pedal in the ninth activity groove, work as first push pedal toward when the ninth activity inslot removes, the transfer line toward the outside of first activity chamber removes.

Cavities are respectively arranged on two sides of the ninth movable groove, an air bag is arranged in each cavity, and a first air conveying pipe communicated with the first movable cavity is arranged on each air bag; an air conveying cavity is arranged on the side wall of the eighth movable groove, a second air conveying pipe communicated with the air conveying cavity is arranged on the air bag, the first air conveying pipe and the second air conveying pipe are both made of elastic materials, and one-way valves are respectively arranged in the first air conveying pipe and the second air conveying pipe; the ninth movable groove is internally provided with a second push plate, a fourth connecting rod is arranged on the second push plate, the fourth connecting rod penetrates through the cavity, and one end of the fourth connecting rod is provided with a third push plate.

Be equipped with third coupling spring on the eighth activity inslot wall, be equipped with the second backup pad on the third coupling spring, be equipped with first lug and tenth activity groove on the eighth activity inslot wall, the tenth activity groove with first lug is located respectively second backup pad both sides, be equipped with first supporting block in the tenth activity groove, be equipped with fourth coupling spring on the first supporting block, fourth coupling spring one end link firmly in on the tenth activity inslot wall, be equipped with the eleventh activity groove on the tenth activity inslot wall, be equipped with in the eleventh activity inslot and be used for promoting first supporting block is past the push rod that removes in the tenth activity groove.

A third movable cavity is formed in the first bump, a fourth connecting plate is arranged in the third movable cavity, a second push block is arranged on the fourth connecting plate, the second push block penetrates out of the third movable cavity, a first reset spring is arranged on the fourth connecting plate, a limiting block is arranged on the fourth connecting plate, a first through groove communicated with the tenth movable groove is formed in the side wall of the third movable cavity, and the limiting block is arranged in the first through groove in a penetrating mode; two groups of seventh driving wheels are arranged in the eleventh movable groove, a driving belt is wound on the seventh driving wheels, a second supporting block is arranged on the inner wall of the eleventh movable groove, a second supporting spring is arranged at one end of the push rod, and the second supporting spring is arranged on the second supporting block.

A first connecting ring is sleeved on an output shaft of the driving motor, and a plurality of fan blades are arranged on the first connecting ring; a second connecting ring is arranged above the first connecting ring, the inner diameter of the second connecting ring is larger than the diameter of the output shaft of the driving motor, a fifth connecting rod is arranged at the bottom of the mounting frame, an eighth driving wheel is arranged at the bottom of the fifth connecting rod, a twelfth movable groove is formed in the second connecting ring, the fifth connecting rod penetrates through the twelfth movable groove, and a limiting ring is arranged at the top of the twelfth movable groove; a fifth connecting ring is arranged on the second connecting ring, a ninth driving wheel matched with the output shaft of the driving motor is arranged at the bottom of the fifth connecting ring, a tenth driving wheel is further arranged at the bottom of the fifth connecting ring, and the ninth driving wheel and the tenth driving wheel form driving fit through a second synchronous belt; a through hole is formed in the first supporting plate, a thirteenth movable groove is formed in the inner wall of the through hole, a movable plate is arranged in the through hole, a third sliding block matched with the thirteenth movable groove is arranged on the side wall of the movable plate, a second bump is arranged on the inner wall of the thirteenth movable groove, and a second reset spring is arranged on the second bump; the bottom of the movable plate is provided with a third connecting shaft, the bottom of the third connecting shaft is provided with an eleventh driving wheel matched with the tenth driving wheel, and the tenth driving wheel is an incomplete gear.

The invention has the following advantages: under the mutually supporting of carrying material platform and support frame, make the packing step of candy go on automatically, the sugar bowl can shake automatically under the driving motor effect, reduces artifical the participation, promotes candy processing degree of automation to promote candy packing machining efficiency.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a cross-sectional view taken along a-a in fig. 2.

Fig. 4 is a cross-sectional view taken along line B-B of fig. 2.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is a cross-sectional view taken along line C-C of fig. 2.

Fig. 7 is an enlarged view of fig. 6 at B.

Fig. 8 is a cross-sectional view taken along line D-D in fig. 2.

Fig. 9 is an enlarged view of fig. 8 at C.

Fig. 10 is an enlarged view of fig. 9 at D.

Fig. 11 is a cross-sectional view taken along line E-E of fig. 2.

Fig. 12 is an enlarged view of fig. 11 at E.

Fig. 13 is a cross-sectional view taken along F-F in fig. 2.

Fig. 14 is a cross-sectional view taken along G-G in fig. 2.

Fig. 15 is an enlarged view of fig. 14 at F.

Fig. 16 is an enlarged view at G in fig. 14.

Fig. 17 is a right side view of the present invention.

Fig. 18 is a sectional view taken along H-H in fig. 17.

Fig. 19 is an enlarged view of fig. 18 at H.

Fig. 20 is a cross-sectional view taken along line I-I of fig. 17.

Fig. 21 is an enlarged view at I in fig. 20.

Fig. 22 is a top view of the present invention.

Fig. 23 is a cross-sectional view taken along line K-K of fig. 22.

Fig. 24 is an enlarged view at J in fig. 23.

Fig. 25 is a cross-sectional view taken along N-N in fig. 22.

Fig. 26 is an enlarged view at K in fig. 25.

Detailed Description

As shown in fig. 1 to 26, a candy packaging production device includes a support frame 1 and material loading platforms 2 arranged on the support frame 1, the material loading platforms 2 are three groups and circumferentially arranged on the support frame 1, a driving motor 5 is arranged below the support frame 1, a first movable groove is arranged at the bottom of the material loading platform 2, a first supporting spring 11 is arranged at the top of the first movable groove, a first connecting plate 111 is arranged at the bottom of the first supporting spring 11, an output shaft of the driving motor 5 is arranged in the first movable groove in a penetrating manner, a second connecting plate 52 is arranged on the output shaft of the driving motor 5, and the first connecting plate 111 is rotatably connected to the second connecting plate 52; a material carrying groove is formed in the material carrying platform 2, and a first supporting plate 21 is arranged at the bottom of the material carrying groove; when the sugar cans on the two groups of material loading platforms 2 are filled with candies, the driving motor 5 drives the supporting frame 1 to rotate; when less than two groups of sugar cans on the material loading platform 2 are filled with sugar, the driving motor 5 drives the sugar cans to vibrate; when the device is used, one of the material loading platforms is used for loading, the other material loading platform is used for injecting materials, the third material loading platform is used for taking materials, the sugar tank on the material loading platform is in an empty state, the sugar tank on the material loading platform is in a full state, when candies are filled into the sugar tank on the material injection loading platform, the sugar tank on the material injection loading platform is in an unfilled state, the driving motor drives the sugar tank on the first supporting plate to vibrate, the candies in the sugar tank are uniformly shaken under the vibration of the sugar tank after being filled into the sugar tank, and the candies uniformly fall into the sugar tank so as to be filled into the sugar tank with a specified amount; after the candy is injected into the candy tank, the weight of the candy tank on the material injection and carrying platform is increased, the whole support frame moves downwards, the second connecting plate moves to the top of the first movable groove and forms transmission fit with the support frame, after the candy tank on the material taking and carrying platform is taken away, the drive motor immediately drives the support frame to rotate, the material carrying platform on the material injection station rotates to the material taking station, only the candy tank on the material taking station is in a full state at the moment, the first support spring pushes the support frame to move upwards after the whole weight of the support frame is reduced, the second connecting plate moves to the bottom of the first movable groove and then is disengaged from the first movable groove for transmission fit, the drive motor drives the candy tank on the material injection station to vibrate when driving the output shaft to shake the candy uniformly in the candy tank, so that the candy is prevented from overflowing, and the candy injection operation of the candy is completed; under the mutually supporting of carrying material platform and support frame, make the packing step of candy go on automatically, the sugar bowl can shake automatically under the driving motor effect, reduces artifical the participation, promotes candy processing degree of automation to promote candy packing machining efficiency.

As shown in fig. 5 and 24, an opening is formed in a side wall of the material loading groove, a second movable groove is formed in an inner wall of the opening, a first rotating roller 29 and a second rotating roller 210 are arranged in the second movable groove, a first conveyor belt 22 is wound on the first rotating roller 29 and the second rotating roller 210, and a first pushing block 221 is arranged on the first conveyor belt 22; a feeding component is arranged on one side of the material carrying platform 2, a discharging component 4 is arranged on the other side of the material carrying platform, and the feeding component comprises an installation frame 31, a third rotating roller 34 arranged on the installation frame 31 and a second conveyor belt 32 wound on the third rotating roller 34; when the loading platform 2 moves to one side of the feeding assembly, the third rotating roller 34 and the first rotating roller 29 form transmission fit; the structure of the discharging component is the same as that of the feeding component; the empty sugar tank is placed on the second conveying belt, the third rotating roller drives the second conveying belt to rotate, the second conveying belt drives the empty sugar tank to move, the feeding assembly is aligned with the material carrying platform at the feeding station, the third rotating roller is in transmission fit with the first rotating roller, the third rotating roller drives the first rotating roller to rotate, the empty sugar tank enters the material carrying groove, the first rotating roller drives the first conveying belt to rotate, the first push block abuts against the side wall of the empty sugar tank, the first push block drives the empty sugar tank to move when moving along with the first conveying belt, the empty sugar tank is completely pushed to the top of the material carrying groove, and the empty sugar tank falls to the bottom of the material carrying groove and is placed on the first supporting plate; the bottom of the sugar tank is positioned in the material carrying groove, so that the moving stability of the sugar tank on the material carrying platform is improved, the phenomenon of toppling of the sugar tank during vibration or movement is avoided, and the waste of candies is reduced; after the sugar tank filled with the candies rotates to one side of the discharging assembly, the third rotating roller on the discharging assembly is in transmission fit with the first rotating roller, the sugar tank rises from the bottom of the storage tank, the first rotating roller drives the first conveying belt to rotate, the first push block pushes the sugar tank filled with the candies to move on the second conveying belt on the discharging assembly, and the sugar tank is transported from the material carrying table so as to be collected.

As shown in fig. 12 and 24, a third movable groove is arranged below the second movable groove, a first connecting shaft 291 is arranged at the bottom of the first rotating roller 29, the first connecting shaft 291 penetrates through the third movable groove, a first driving wheel 292 is arranged at the bottom of the first connecting shaft 291, a second driving wheel 235 matched with the first driving wheel 292 is arranged in the third movable groove, a third driving wheel 234 is arranged on the second driving wheel 235, and both the first driving wheel 292 and the second driving wheel 235 are bevel gears; a third connecting plate 23 is arranged on the inner wall of the third movable groove, a fourth driving wheel 231 is arranged on the third connecting plate 23, the fourth driving wheel 231 and the third driving wheel 235 form transmission fit through a first synchronous belt 233, a driving roller 232 is arranged on the fourth driving wheel 231, and a fifth driving wheel 341 matched with the driving roller 232 is arranged on the third rotating roller 34; after the material loading platform rotates to one side of the feeding assembly, the fifth driving wheel abuts against the driving roller, the third rotating roller rotates to drive the fifth driving wheel to rotate, the fifth driving wheel drives the driving roller to rotate, power is transmitted to the first rotating roller under the mutual matching of the second driving wheel and the first driving wheel, the first conveying belt rotates along with the rotation of the first rotating roller, the first push block pushes the sugar tank to move in the material loading groove, so that the feeding and discharging operation of the sugar tank is completed, and the packaging operation of the candies is automatically carried out; the inner walls of the two sides of the opening are provided with second movable grooves, and the fourth driving wheels on the two sides of the opening are connected through a transmission shaft, so that the first driving belts on the two sides of the opening synchronously rotate, and the first push block is used for better pushing the sugar cans to move.

As shown in fig. 15, 16 and 24, a fourth movable groove is formed on the inner wall of the mounting frame 31, a first mounting block is arranged in the fourth movable groove, the third roller 34 is rotatably connected to the first mounting block, and a first connecting spring 35 is arranged on the first mounting block; a first connecting rod 37 is arranged on the mounting frame 31, an air cylinder 36 is arranged on the first connecting rod 37, a piston rod of the air cylinder 36 is provided with a third connecting ring 361, and a ring groove matched with the third connecting ring 361 is arranged on the third rotating roller 34; a fifth movable groove is formed in the inner wall of the mounting frame 31, a second mounting block 33 is arranged in the fifth movable groove, a fourth rotating roller 331 is rotatably connected to the second mounting block 33, and a second connecting spring 332 is arranged on the second mounting block 33; when the material carrying table rotates, the air cylinder drives the third connecting ring to move back, the third connecting ring drives the third rotating roller to move back, the second connecting spring pushes the second mounting block to move in the fifth movable groove, the fourth rotating roller moves down to abut against the second conveying belt, the second conveying belt is still in a tight state, the distance between the third rotating roller and the material carrying table is increased after the third rotating roller moves back, the material carrying table is enabled to have enough space to rotate, and the material carrying table is prevented from colliding with the third rotating roller when rotating; when the material carrying table rotates to one side of the feeding assembly, the air rod drives the piston rod to extend out, the third connecting ring drives the third rotating roller to move forwards, the first mounting block moves in the fourth movable groove, the fifth driving wheel is in contact with the driving roller, the second conveyor belt pushes the fourth rotating roller to move upwards after being stretched, the second mounting block moves towards the top of the fifth movable groove, the second conveyor belt is still in a tightened state, the distance between the feeding assembly and the material carrying table is shortened through the movement of the third rotating roller, and meanwhile, the kinetic energy on the third rotating roller is transmitted to the first rotating roller to enable the first rotating roller to normally rotate so as to more stably convey the sugar cans into the material carrying groove; the ejection of compact subassembly adopts same mode to form with carrying the material platform and is connected, carries out the stable follow of sugar jar from carrying the material platform, need not artifical the participation, and the degree of automation of candy packing operation in the very big promotion to promote candy machining efficiency.

As shown in fig. 5, 7 and 9, a sixth movable groove is formed in the inner wall of the material loading groove, a second support plate 26 is arranged in the sixth movable groove, seventh movable grooves are respectively arranged on two sides of the sixth movable groove, a second connecting rod 261 is arranged on the side wall of the second support plate 26, a third connecting rod 262 is arranged on the second connecting rod 261, and the third connecting rod 262 is inserted into the seventh movable groove; a transmission cavity is arranged below the second movable groove, a second connecting shaft is arranged at the bottom of the second rotating roller 210, the second connecting shaft penetrates through the transmission cavity, the transmission cavity is communicated with the seventh movable groove, a fifth transmission wheel 2101 is arranged at the bottom end of the second connecting shaft, a sixth transmission wheel 270 matched with the fifth transmission wheel 2101 is arranged in the transmission cavity, a first movable cavity is arranged on the third connecting rod 262, and a transmission rod 264 matched with the sixth transmission wheel 270 is arranged in the first movable cavity; when the sugar tank is conveyed to the material loading platform, the second supporting plate extends out of the sixth movable groove, the top surface of the second supporting plate and the top surface of the material loading groove are positioned on the same plane, the material loading groove is sealed by the second supporting plate, the sugar tank moves on the surface of the second supporting plate under the action of the first push block, when the sugar tank completely moves to the position above the material carrying groove, the transmission rod extends out of the first movable cavity and contacts with the side wall of the sixth transmission wheel, the second rotating roller drives the sixth transmission wheel to rotate and contacts with the transmission rod, the transmission rod drives the third connecting rod to move, the third connecting rod drives the second supporting plate to move in the sixth movable groove, the sugar tank loses the supporting force after the second supporting plate enters the sixth movable groove and falls in the material carrying groove, the sugar tank vertically and stably falls in the material carrying groove, the sugar tank is prevented from obliquely entering the material carrying groove to be toppled and clamped in the material carrying groove, and the normal operation of a filling process is ensured; the movement of the second supporting plate is controlled through the movement of the transmission rod, so that the second supporting plate is opened to move after the sugar tank completely moves above the material loading groove, and the feeding operation of the sugar tank is smoothly finished; when the material carrying platform rotates to the material taking station, the sugar tank rises from the material carrying groove, the sugar tank rises to the position above the second supporting plate, the transmission rod is in contact with the sixth transmission wheel, the sixth transmission wheel rotates to drive the transmission rod to move, the second supporting plate extends out of the sixth movable groove, the second supporting plate moves to the bottom of the sugar tank to provide supporting force for the sugar tank, the sugar tank moves towards the direction of the material taking component under the action of the first transmission wheel, the sugar tank is taken out from the material carrying platform, the automatic material taking operation of the sugar tank is completed, the whole candy packaging process is automated, and the candy processing efficiency is improved.

As shown in fig. 3, 9, and 26, a sealing plate 263 is disposed on the driving rod 264, an eighth movable groove matched with the sealing plate 263 is disposed on an inner wall of the first movable cavity, a first sliding groove is disposed on an inner wall of the first movable cavity, a first sliding block 266 is disposed in the first sliding groove, a second sliding block 2661 is disposed on the first sliding block 266, and a second sliding groove matched with the second sliding block 2661 is disposed at a bottom of the sealing plate 263; a wire roller 265 is arranged in the first movable cavity, a connecting rope 2651 is wound on the wire roller 265, one end of the connecting rope 2651 is fixedly connected to the sealing plate 263, and a torsion spring is arranged on the wire roller 265; a ninth movable groove is formed in the inner wall of the material loading groove, a first push plate 28 penetrates through the ninth movable groove, and when the first push plate 28 moves into the ninth movable groove, the transmission rod 264 moves towards the outer side of the first movable cavity; the sealing performance in the first movable cavity is ensured under the mutual matching of the sealing plate and the eighth movable groove, and the air flow is prevented from overflowing from the first movable cavity; the first sliding block is matched with the sealing plate to limit the moving track of the sealing plate, so that the sealing effect of the sealing plate on the first movable cavity can be ensured in the moving process; when the transmission rod extends out of the first movable cavity, the sealing plate labor connecting rope moves, the connecting rope winds out of the wire roller, and the connecting rope generates a pulling force on the sealing plate; when the airflow in the first movable cavity is exhausted, the wire roller rotates back under the action of the torsion spring, the connecting rope pulls the transmission rod to move towards the first movable cavity, the transmission rod is separated from contact with the sixth transmission wheel, the sixth transmission wheel is in an idle running state, the situation that the third connecting rod blocks the rotation of the sixth transmission wheel after moving to one end of the seventh movable groove is avoided, and therefore the sugar tank is conveyed out from the material carrying table completely under the action of the first conveyor belt.

As shown in fig. 3 and 7, two sides of the ninth movable groove are respectively provided with a cavity, an air bag 240 is arranged in the cavity, and the air bag 240 is provided with a first air pipe 250 communicated with the first movable cavity; an air conveying cavity is arranged on the side wall of the eighth movable groove, a second air conveying pipe 260 communicated with the air conveying cavity is arranged on the air bag 240, the first air conveying pipe 250 and the second air conveying pipe 260 are both made of elastic materials, and check valves are respectively arranged in the first air conveying pipe 250 and the second air conveying pipe 260; two groups of driving plates 281 are hinged on the inner wall of the ninth movable groove, one end of each driving plate 281 is hinged at a point, a second push plate 230 is arranged in the ninth movable groove, a fourth connecting rod 2301 is arranged on the second push plate 230, the fourth connecting rod 2301 penetrates through the cavity, and a third push plate 2302 is arranged at one end of the fourth connecting rod 2301; when the sugar tank moves towards the material carrying table, the second supporting plate is in a state of extending out of the sixth movable groove, the carbon tank moves to the second supporting plate, the second supporting plate is utilized to provide supporting force for the sugar tank, the sugar tank continues to move towards the direction of the inner wall of the material carrying groove, the sugar tank moves to one side of the first push plate and then pushes the first push plate to move towards the ninth movable groove, the first push plate pushes the transmission plate to rotate, the transmission plate pushes the second push plate to move when rotating, the second push plate drives the third push plate to move, the third push plate extrudes the air bag, the air flow in the air bag can only flow towards the first air conveying pipe under the action of the one-way valve, the air flow in the air bag enters the first movable cavity through the first air conveying pipe, the transmission rod is pushed to move towards the outer side of the first movable cavity after the air pressure in the first movable cavity is increased, the transmission rod forms transmission fit with the sixth transmission wheel after moving, so as to drive, the second supporting plate enters the sixth movable groove; after the sugar tank filled with the candies rotates to a material taking station, the sugar tank rises from the material carrying groove, the third rotating roller and the first rotating roller form transmission fit, the third rotating roller drives the first rotating roller to rotate, the second rotating roller rotates along with the first rotating roller, at the moment, the second rotating roller is in a reverse rotation state relative to the feeding step, the sixth transmission wheel rotates to drive the third connecting rod to move towards one end of the seventh movable groove, the second supporting plate extends out of the sixth movable groove, the third connecting rod cannot move continuously after moving to one end of the seventh movable groove, the sixth transmission wheel drives the transmission rod to move continuously, the transmission rod drives the sealing plate to move relative to the third connecting rod, the sealing plate moves away from one side of the air conveying cavity, the wire roller rotates under the action of a torsion spring, the connecting rope pulls the sealing plate to move back, air in the first movable cavity is extruded and then enters the air in the first movable cavity, the air in the first movable cavity cannot enter the first air conveying pipe under the action of the one-way valve, the air flow in the air conveying cavity flows back into the air bag through the second air conveying pipe, the air bag expands again to push the third push plate to move back, the driving plate overturns to push the first push plate to move outside the sixth movable groove, and the first push plate is reset; the transmission rod is separated from contact with the sixth transmission wheel after moving, and the sixth transmission wheel is in an idle state, so that the first transmission belt can normally rotate, and the sugar cans are completely sent out from the material loading groove.

As shown in fig. 10, a third connecting spring 2801 is disposed on an inner wall of the eighth moving slot, a second supporting plate 280 is disposed on the third connecting spring 2801, a first protruding block 290 and a tenth moving slot are disposed on the inner wall of the eighth moving slot, the tenth moving slot and the first protruding block 290 are respectively disposed on two sides of the second supporting plate 280, a first supporting block 2100 is disposed in the tenth moving slot, a fourth connecting spring 21001 is disposed on the first supporting block 2100, one end of the fourth connecting spring 21001 is fixedly connected to the inner wall of the tenth moving slot, an eleventh moving slot is disposed on the inner wall of the tenth moving slot, and a push rod 2300 for pushing the first supporting block 2100 to move into the tenth moving slot is disposed in the eleventh moving slot; the second supporting plate provides supporting force for the sealing plate, so that the transmission rod is prevented from moving relative to the third connecting rod when the third connecting rod moves; after the third connecting rod moves to one end of the seventh movable groove, the push rod is abutted against the inner wall of the seventh movable groove and moves towards the eleventh movable groove, the first supporting block is driven to move towards the tenth movable groove by the push rod when moving, when the push rod completely enters the eleventh movable groove, the first supporting block completely enters the tenth movable groove, and the second supporting plate can freely move in the eighth movable groove after losing the supporting force; the sixth driving wheel is continuously matched with the driving rod, the driving rod is driven to move relative to the third connecting rod under the action of the sixth driving wheel, the sealing plate is moved away from one side of the air transmission cavity, air in the first movable cavity reenters the air bag through the second air transmission pipe, the driving rod is separated from contact with the sixth driving wheel, the sixth driving wheel normally rotates, and the driving rod is prevented from blocking the rotation of the first conveying belt; the transmission rod can move only after the third connecting rod moves to one end of the seventh movable groove, the sealing plate can not move relative to the third connecting rod when the third connecting rod is positioned in the seventh movable groove, and the transmission stability of the sixth transmission wheel to the third connecting rod is ensured, so that the position of the second supporting plate is controlled under the action of the sixth transmission wheel, the sugar tank is ensured to be stably arranged in the material carrying groove, and the candy packaging operation is more stably carried out.

As shown in fig. 10, a third movable cavity is disposed on the first bump 290, a fourth connecting plate 2903 is disposed in the third movable cavity, a second push block 2902 is disposed on the fourth connecting plate 2903, the second push block 2902 extends out of the third movable cavity, a fourth push plate 2901 is disposed on the second push block, a first return spring 2904 is disposed on the fourth connecting plate 2903, a limit block 2905 is disposed on the fourth connecting plate 2903, a first through groove communicated with the tenth movable groove is disposed on a side wall of the third movable cavity, and the limit block 2905 is disposed in the first through groove; two groups of seventh driving wheels 2200 are arranged in the eleventh movable groove, a driving belt 22001 is wound on the seventh driving wheels 2200, a second supporting block 2400 is arranged on the inner wall of the eleventh movable groove, a second supporting spring 23001 is arranged at one end of the push rod 2300, and the second supporting spring 23001 is arranged on the second supporting block 2400; after the sugar tank moves to the top of the material carrying groove, the sugar tank pushes the first push plate to move, the first push plate moves towards the ninth movable groove, the first push plate pushes the transmission plate to rotate around the connection point, the transmission plate pushes the second push plate to move, the third push plate extrudes the air bag, air in the air bag enters the first movable cavity through the first air pipe, the transmission rod and the sixth transmission wheel form transmission fit, the transmission rod drives the third connecting rod to move together, the third connecting rod drives the second supporting plate to move towards the sixth movable groove, and the sugar tank drops into the material carrying groove to complete feeding of the sugar tank; when the sugar tank is conveyed out of the material loading platform, the sugar tank is lifted from the material loading groove, a third rotating roller on the material taking component is in transmission fit with the first rotating roller, a second rotating roller drives a sixth driving wheel to rotate reversely, the sixth driving wheel drives a driving rod to move towards one end of a seventh movable groove, a third connecting rod moves to one end of the seventh movable groove and then is dragged to abut against the inner wall of an eighth movable groove, a push rod is in contact with a driving belt when moving towards an eleventh movable groove, the driving belt drives a first supporting block to move towards the tenth movable groove, the second supporting block moves under the pushing of the driving rod after losing supporting force, a first reset spring pushes a fourth connecting plate to generate the driving of moving back, after the first supporting block is moved away from one side of a limiting block, the limiting block extends into the tenth movable groove, the first supporting block abuts against the limiting block, and the limiting block plays a limiting role on the first supporting block, the first supporting block is fixed in the tenth movable groove, air in the first movable cavity enters the air bag after the air transmission cavity is opened, the transmission rod is separated from contact with the sixth transmission wheel, and the sixth transmission wheel can continue to rotate; after the material carrying groove rotates to the feeding station again, a new sugar tank moves to the second supporting plate, the sugar tank pushes the first push plate to move, air enters the first movable cavity and then pushes the transmission rod to move, the sixth transmission wheel is matched with the transmission rod, the transmission rod moves relative to the third connecting rod, the second supporting plate pushes the fourth push plate to move towards the first lug, the fourth connecting plate moves towards the third movable cavity, the limiting block enters the first through groove, the first supporting block extends out of the tenth movable groove after losing the supporting force, the first supporting block is abutted to the second supporting plate, the first supporting block is used for providing supporting force for the second supporting plate, and therefore the limiting effect is achieved on the transmission rod, the limiting rod and the third connecting rod synchronously move, and the position of the second supporting plate is controlled.

As shown in fig. 3 and 21, a first connecting ring 511 is sleeved on an output shaft of the driving motor 5, and a plurality of fan blades 51 are arranged on the first connecting ring 511; a second connecting ring 6 is arranged above the first connecting ring 511, the inner diameter of the second connecting ring 6 is larger than the diameter of the output shaft of the driving motor 5, a fifth connecting rod 12 is arranged at the bottom of the mounting frame 1, an eighth driving wheel 121 is arranged at the bottom of the fifth connecting rod 12, a twelfth movable groove is arranged on the second connecting ring 6, the fifth connecting rod 12 is arranged in the twelfth movable groove in a penetrating manner, and a limiting ring is arranged at the top of the twelfth movable groove; a fifth connecting plate 61 is arranged on the second connecting ring 6, a ninth driving wheel 62 matched with the output shaft of the driving motor 5 is arranged at the bottom of the fifth connecting plate 61, a tenth driving wheel 63 is further arranged at the bottom of the fifth connecting plate 61, and the ninth driving wheel 62 and the tenth driving wheel 63 are in transmission fit through a second synchronous belt; a through hole is formed in the first support plate 21, a thirteenth movable groove is formed in the inner wall of the through hole, a movable plate 24 is arranged in the through hole, a third slider 243 matched with the thirteenth movable groove is arranged on the side wall of the movable plate 24, a second bump 211 is arranged on the inner wall of the thirteenth movable groove, and a second return spring 212 is arranged on the second bump 211; a third connecting shaft 241 is arranged at the bottom of the movable plate 24, an eleventh driving wheel 242 matched with the tenth driving wheel 63 is arranged at the bottom of the third connecting shaft 241, and the tenth driving wheel 63 is an incomplete gear; the top of the movable plate is provided with a rubber film; the inner wall of the material loading groove is provided with a buffer bag 27; the first connecting ring is driven to rotate when the output shaft of the driving motor rotates, the fan blades generate wind power when rotating, and the wind power is used for providing auxiliary supporting force for the supporting frame, so that the second connecting plate is positioned in the first movable groove; the inner wall of the top of the first movable groove is provided with a meshed tooth which is in transmission fit with the second connecting plate; when only one material loading platform is provided with sugar cans filled with candies, the second connecting plate is positioned at the bottom of the first movable groove, the tenth driving wheel is contacted with the eleventh driving wheel, the eighth driving wheel is positioned at the top of the twelfth movable groove, the eighth driving wheel is contacted with the side wall of the limiting ring, the eighth driving wheel is limited under the action of the limiting ring, and the eighth driving wheel is in a fixed state, so that the supporting frame is fixed; when the output shaft of the driving motor rotates, the ninth driving wheel is driven to rotate, the second connecting plate rotates in the first movable groove, the ninth driving wheel drives the tenth driving wheel to rotate, the tenth driving wheel drives the eleventh driving wheel to rotate, the movable plate rotates along with the eleventh driving wheel, when a tooth on the tenth driving wheel is separated from the eleventh driving wheel, the second reset spring pushes the movable plate to rotate, the movable plate rapidly rotates under the action of the second reset spring, the second reset spring contracts and then has an effect of blocking the rotation of the movable plate, the movable plate is blocked when rotating, and then vibrates, so that the sugar can on the movable plate is driven to vibrate, the candies in the sugar can are shaken uniformly, and the situation that the candies are accumulated at one position of the sugar can to block the continuous adding of the candies is avoided; the movable plate is rotated to drive the sugar tank to vibrate, so that the sugar tank is prevented from being vibrated out of the material loading groove due to overlarge vibration amplitude, and meanwhile, the movable plate is continuously vibrated by the continuous rotation of the tenth driving wheel, so that the vibration effect on the sugar tank is ensured; after the sugar tank on the material injection station is filled with sugar, the support frame moves downwards under the action of gravity, the second connecting plate moves to the top of the first movable groove to be matched with the grinding teeth, the tenth driving wheel and the eleventh driving wheel are staggered, the support frame is driven to rotate when the driving motor drives the output shaft to rotate, the position of the material loading platform is adjusted, the sugar tank filled with candies is conveyed to the material taking station, the sugar tank is taken out from the material loading platform, and automatic packaging of the candies is completed.

As shown in fig. 19 and 24, a fourth movable cavity is formed in the first support plate, a fourth connecting ring 220 is arranged in the fourth movable cavity, a cushion block 2202 is arranged at the bottom of the fourth connecting ring, a third push block 2201 is arranged at the top of the fourth connecting ring, and a second through groove matched with the third push block is arranged at the top of the fourth movable cavity; a fifth movable cavity communicated with the fourth movable cavity is arranged on the material carrying platform, a fifth push plate 251 is arranged in the fifth movable cavity, a sixth connecting rod 252 is arranged on the fifth push plate, the sixth connecting rod penetrates out of the fifth movable cavity, and a sixth push plate 25 is arranged at one end of the sixth connecting rod; a connecting box 37 is arranged at the bottom of the mounting frame on the material taking assembly, a seventh push plate 371 is arranged in the connecting box, a seventh connecting rod 372 is arranged on the seventh push plate, the seventh connecting rod penetrates out of the connecting box, an eighth push plate 373 is arranged on the seventh connecting rod, a fifth connecting spring is further arranged on the seventh push plate, and an electromagnet is arranged in the connecting box; when the material carrying platform rotates to one side of the material taking assembly, the electromagnet is electrified to generate magnetic force, the seventh push plate is pushed by the magnetic force to move towards one side of the connecting box, the eighth push plate moves along with the seventh push plate, the eighth push plate pushes the sixth push plate to move, the fifth push plate pushes air in the fifth movable cavity into the fourth movable cavity, the fourth connecting ring is pushed to move upwards after air pressure in the fourth movable cavity is increased, the third push block moves upwards along with the fourth connecting ring, the third push block pushes the sugar tank to move upwards together, the sugar tank is pushed out from the material carrying groove, and therefore the sugar tank is conveyed out from the material carrying platform.

The first push block can be arranged as required, and the sugar tank can be moved under the rotation of the first conveyor belt.

The drawings in the application are only schematic and the specific dimensions thereof are subject to practical implementation.

Claims

1. The utility model provides a candy package apparatus for producing, includes support frame (1) and locates carry on the support frame (1) material platform (2), its characterized in that: the material carrying platforms (2) are divided into three groups and are circumferentially arranged on the support frame (1), a driving motor (5) is arranged below the support frame (1), a first movable groove is formed in the bottom of the material carrying platform (2), a first supporting spring (11) is arranged at the top of the first movable groove, a first connecting plate (111) is arranged at the bottom of the first supporting spring (11), an output shaft of the driving motor (5) penetrates through the first movable groove, a second connecting plate (52) is arranged on the output shaft of the driving motor (5), and the first connecting plate (111) is rotatably connected to the second connecting plate (52); a material loading groove is formed in the material loading platform (2), and a first supporting plate (21) is arranged at the bottom of the material loading groove; when the sugar tanks on the two groups of material loading platforms (2) are filled with candies, the driving motor (5) drives the supporting frame (1) to rotate; when less than two sugar jars on the material loading platform (2) are full of sugar, the driving motor (5) drives the sugar jars to vibrate.

2. A candy wrapper production apparatus according to claim 1, wherein: an opening is formed in the side wall of the material loading groove, a second movable groove is formed in the inner wall of the opening, a first rotating roller (29) and a second rotating roller (210) are arranged in the second movable groove, a first conveying belt (22) is wound on the first rotating roller (29) and the second rotating roller (210), and a first pushing block (221) is arranged on the first conveying belt (22); a feeding assembly is arranged on one side of the material carrying platform (2), a discharging assembly (4) is arranged on the other side of the material carrying platform, and the feeding assembly comprises an installation frame (31), a third rotating roller (34) arranged on the installation frame (31) and a second conveying belt (32) wound on the third rotating roller (34); when the material loading platform (2) moves to one side of the feeding assembly, the third rotating roller (34) and the first rotating roller (29) form transmission fit.

3. A candy wrapper production apparatus according to claim 2, wherein: a third movable groove is arranged below the second movable groove, a first connecting shaft (291) is arranged at the bottom of the first rotating roller (29), the first connecting shaft (291) penetrates through the third movable groove, a first driving wheel (292) is arranged at the bottom of the first connecting shaft (291), a second driving wheel (235) matched with the first driving wheel (292) is arranged in the third movable groove, a third driving wheel (234) is arranged on the second driving wheel (235), and the first driving wheel (292) and the second driving wheel (235) are bevel gears; the inner wall of the third movable groove is provided with a third connecting plate (23), the third connecting plate (23) is provided with a fourth driving wheel (231), the fourth driving wheel (231) and the third driving wheel (235) form transmission fit through a first synchronous belt (233), the fourth driving wheel (231) is provided with a driving roller (232), and the third rotating roller (34) is provided with a fifth driving wheel (341) matched with the driving roller (232).

4. A candy wrapper production apparatus according to claim 2, wherein: a fourth movable groove is formed in the inner wall of the mounting frame (31), a first mounting block is arranged in the fourth movable groove, the third rotating roller (34) is rotatably connected to the first mounting block, and a first connecting spring (35) is arranged on the first mounting block; a first connecting rod (37) is arranged on the mounting frame (31), an air cylinder (36) is arranged on the first connecting rod (37), a third connecting ring (361) is arranged on a piston rod of the air cylinder (36), and a ring groove matched with the third connecting ring (361) is arranged on the third rotating roller (34); be equipped with the fifth activity groove on mounting bracket (31) inner wall, be equipped with second installation piece (33) in the fifth activity groove, rotatable coupling has fourth commentaries on classics roller (331) on second installation piece (33), be equipped with second connecting spring (332) on second installation piece (33).

5. A candy wrapper production apparatus according to claim 1, wherein: a sixth movable groove is formed in the inner wall of the material carrying groove, a second supporting plate (26) is arranged in the sixth movable groove, seventh movable grooves are formed in two sides of the sixth movable groove respectively, a second connecting rod (261) is arranged on the side wall of the second supporting plate (26), a third connecting rod (262) is arranged on the second connecting rod (261), and the third connecting rod (262) penetrates through the seventh movable grooves; a transmission cavity is arranged below the second movable groove, a second connecting shaft is arranged at the bottom of the second rotating roller (210), the second connecting shaft penetrates through the transmission cavity, the transmission cavity is communicated with the seventh movable groove, a fifth transmission wheel (2101) is arranged at the bottom end of the second connecting shaft, a sixth transmission wheel (270) matched with the fifth transmission wheel (2101) is arranged in the transmission cavity, a first movable cavity is arranged on the third connecting rod (262), and a transmission rod (264) matched with the sixth transmission wheel (270) is arranged in the first movable cavity.

6. A candy wrapper production apparatus according to claim 5, wherein: a sealing plate (263) is arranged on the transmission rod (264), an eighth movable groove matched with the sealing plate (263) is arranged on the inner wall of the first movable cavity, a first sliding groove is arranged on the inner wall of the first movable cavity, a first sliding block (266) is arranged in the first sliding groove, a second sliding block (2661) is arranged on the first sliding block (266), and a second sliding groove matched with the second sliding block (2661) is arranged at the bottom of the sealing plate (263); a wire roller (265) is arranged in the first movable cavity, a connecting rope (2651) is wound on the wire roller (265), one end of the connecting rope (2651) is fixedly connected to the sealing plate (263), and a torsion spring is arranged on the wire roller (265); the material loading groove is characterized in that a ninth movable groove is formed in the inner wall of the material loading groove, a first push plate (28) penetrates through the ninth movable groove, and when the first push plate (28) moves towards the inside of the ninth movable groove, the transmission rod (264) moves towards the outside of the first movable cavity.

7. A candy wrapper production apparatus according to claim 6, wherein: cavities are respectively arranged at two sides of the ninth movable groove, an air bag (240) is arranged in each cavity, and a first air conveying pipe (250) communicated with the first movable cavity is arranged on each air bag (240); an air conveying cavity is arranged on the side wall of the eighth movable groove, a second air conveying pipe (260) communicated with the air conveying cavity is arranged on the air bag (240), the first air conveying pipe (250) and the second air conveying pipe (260) are both made of elastic materials, and one-way valves are respectively arranged in the first air conveying pipe (250) and the second air conveying pipe (260); articulated on the ninth activity inslot wall have two sets of driving plates (281), two sets of driving plates (281) one end articulates in a point, ninth activity inslot is equipped with second push pedal (230), be equipped with fourth connecting rod (2301) on second push pedal (230), fourth connecting rod (2301) are worn to locate in the cavity, fourth connecting rod (2301) one end is equipped with third push pedal (2302).

8. A candy wrapper production apparatus according to claim 6, wherein: be equipped with third connecting spring (2801) on the eighth activity inslot wall, be equipped with second backup pad (280) on third connecting spring (2801), be equipped with first lug (290) and tenth activity groove on the eighth activity inslot wall, the tenth activity groove with first lug (290) are located respectively second backup pad (280) both sides, be equipped with first supporting block (2100) in the tenth activity inslot, be equipped with fourth connecting spring (21001) on first supporting block (2100), fourth connecting spring (21001) one end link firmly in on the tenth activity inslot wall, be equipped with eleventh activity groove on the tenth activity inslot wall, be equipped with in the eleventh activity groove and be used for promoting first supporting block (2100) toward push rod (2300) that the tenth activity inslot removed.

9. A candy wrapper production apparatus according to claim 8, wherein: a third movable cavity is arranged on the first bump (290), a fourth connecting plate (2903) is arranged in the third movable cavity, a second push block (2902) is arranged on the fourth connecting plate (2903), the second push block (2902) penetrates out of the third movable cavity, a first reset spring (2904) is arranged on the fourth connecting plate (2903), a limit block (2905) is arranged on the fourth connecting plate (2903), a first through groove communicated with the tenth movable groove is arranged on the side wall of the third movable cavity, and the limit block (2905) penetrates through the first through groove; two groups of seventh driving wheels (2200) are arranged in the eleventh movable groove, a driving belt (22001) is wound on the seventh driving wheels (2200), a second supporting block (2400) is arranged on the inner wall of the eleventh movable groove, a second supporting spring (23001) is arranged at one end of the push rod (2300), and the second supporting spring (23001) is arranged on the second supporting block (2400).

10. A candy wrapper production apparatus according to claim 1, wherein: a first connecting ring (511) is sleeved on an output shaft of the driving motor (5), and a plurality of fan blades (51) are arranged on the first connecting ring (511); a second connecting ring (6) is arranged above the first connecting ring (511), the inner diameter of the second connecting ring (6) is larger than the diameter of the output shaft of the driving motor (5), a fifth connecting rod (12) is arranged at the bottom of the mounting frame (1), an eighth driving wheel (121) is arranged at the bottom of the fifth connecting rod (12), a twelfth movable groove is formed in the second connecting ring (6), the fifth connecting rod (12) is arranged in the twelfth movable groove in a penetrating mode, and a limiting ring is arranged at the top of the twelfth movable groove; a fifth connecting plate (61) is arranged on the second connecting ring (6), a ninth driving wheel (62) matched with the output shaft of the driving motor (5) is arranged at the bottom of the fifth connecting plate (61), a tenth driving wheel (63) is further arranged at the bottom of the fifth connecting plate (61), and the ninth driving wheel (62) and the tenth driving wheel (63) are in transmission fit through a second synchronous belt; a through hole is formed in the first supporting plate (21), a thirteenth movable groove is formed in the inner wall of the through hole, a movable plate (24) is arranged in the through hole, a third sliding block (243) matched with the thirteenth movable groove is arranged on the side wall of the movable plate (24), a second bump (211) is arranged on the inner wall of the thirteenth movable groove, and a second reset spring (212) is arranged on the second bump (211); a third connecting shaft (241) is arranged at the bottom of the movable plate (24), an eleventh driving wheel (242) matched with the tenth driving wheel (63) is arranged at the bottom of the third connecting shaft (241), and the tenth driving wheel (63) is an incomplete gear.