CN111772021B

CN111772021B - Carbon dioxide feeding device is used in jumping candy production

Info

Publication number: CN111772021B
Application number: CN202010863105.5A
Authority: CN
Inventors: 洪泳鸿; 洪柏崇; 洪尔浼; 吴洁; 佘秀楠; 杨琳; 陈淑金; 郭景瀚; 苏贤钊; 陈武; 张芳武; 潘青合
Original assignee: Guangdong Shantai Food Co ltd
Current assignee: Guangdong Shantai Food Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2023-01-06
Anticipated expiration: 2040-08-25
Also published as: CN111772021A

Abstract

The invention discloses a carbon dioxide supply device for popping candy production, which comprises a primary puffing chamber, a temporary storage tank and a secondary puffing chamber, wherein the primary puffing chamber is arranged on the secondary puffing chamber, a material melting barrel is arranged on the primary puffing chamber, a raw material hopper is arranged on the material melting barrel, three material melting rollers are rotationally arranged in the material melting barrel, and a material melting communicating pipe is arranged at the bottom of the material melting barrel. According to the invention, blocky crystals in the syrup before and after puffing are crushed, so that the phenomenon that carbon dioxide cannot enter the syrup in the puffing process is prevented, and the phenomenon that the puffed syrup is caked is avoided.

Description

Carbon dioxide feeding device is used in jumping candy production

Technical Field

The invention relates to the technical field of popping candy production, in particular to a carbon dioxide supply device for popping candy production.

Background

The principle of the popping candy is that carbon dioxide (or other gases) is filled into the candy to be combined with the candy into a whole in the candy making process, and when people eat the popping candy, saliva wets the candy containing a large amount of carbon dioxide, and the carbon dioxide losing the binding force continuously escapes, so that the candy in the oral cavity continuously jumps, and people feel fresh.

Patent document (201320434355.2) discloses a carbon dioxide feeding device of popping candy production facility, the device heats up the carbon dioxide in pipeline 1 through setting up carbon dioxide heating device 8, make the carbon dioxide reach the normal atmospheric temperature at least, make the difference in temperature of melting syrup and carbon dioxide less, avoid syrup local solidification, prevent continuing melting into of carbon dioxide, thereby make the carbon dioxide content in the finished product of popping candy higher, the distribution is more even, the taste is better, further improve the quality of popping candy. And carbon dioxide is heated by the carbon dioxide heating device 8 comprising the carbon dioxide heating tank 801, the hot water circulating device 802 and the hot water circulating pump 803, so that the temperature of the carbon dioxide is quickly and uniformly raised, the local part of the carbon dioxide is prevented from being heated too quickly and expanding rapidly, the safety accident is avoided, and the production process is safer and more reliable. However, the carbon dioxide supply device does not take into account the presence of lumps in the syrup before supplying carbon dioxide to the syrup, and the whole carbon dioxide supply process is not efficient.

Disclosure of Invention

The invention aims to provide a carbon dioxide supply device for popping candy production, which solves the following technical problems: (1) Syrup enters into the material melting barrel through the raw material hopper, the first motor drives the central gear to rotate, the central gear drives the three planetary gears to rotate, and then three material melting rollers in the material melting barrel crush massive crystals in the syrup, the fragmented massive crystals and the syrup enter into the first-level puffing cavity through the material melting filter screen, the centrifuged syrup enters into the connecting pipe through the guide of the second-level guide plate, the syrup enters into the mixing barrel through the connecting pipe, the fourth motor drives two driving shafts to rotate through two belt pulleys, the driving shafts drive the stirring rollers to rotate through the connecting shaft frame, the stirring rollers crush the agglomerated syrup in the puffing process, through the above structure arrangement, the carbon dioxide supply device is arranged before puffing, the massive crystals in the puffed syrup are crushed, the phenomenon that carbon dioxide cannot enter into the syrup in the puffing process is prevented, and the condition that the puffed syrup is agglomerated is avoided; (2) Carry carbon dioxide to the circulating pipe through the one-level supply pipe through the jar of keeping in, and outwards discharge from the exhaust hole on circulating pipe surface, the gear that the second motor is connected through two meshings drives the circulating pipe and rotates, it is rotatory that the circulating pipe drives the stirring frame, the stirring frame stirs the syrup of the popped intracavity of one-level, the popped in-process carbon dioxide of syrup in the one-level popped intracavity fully gets into the syrup, after puffing for the first time, telescopic cylinder drives the removal of melting material baffle, the syrup after puffing gets into in the centrifugal tube of the popped intracavity of second grade through the guide of one-level deflector, the third motor drives the centrifugal tube rotatory, centrifugal tube is with the syrup centrifugation play, the jar of keeping in carries carbon dioxide to the popped intracavity of second grade through the second grade supply pipe, through above structure setting, this carbon dioxide feeding device carries out twice popped and twice carbon dioxide supply to the syrup, first carbon dioxide supplies with the circulating pipe stirring through the stirring frame in-process, when the second carbon dioxide supplies with, make carbon dioxide can with the syrup intensive mixing of stirring in-process.

The purpose of the invention can be realized by the following technical scheme:

a carbon dioxide supply device for the production of popping candy comprises a primary puffing chamber, a temporary storage tank and a secondary puffing chamber, wherein the primary puffing chamber is arranged on the secondary puffing chamber, a material melting barrel is arranged on the primary puffing chamber, a raw material hopper is arranged on the material melting barrel, three material melting rollers are rotationally arranged in the material melting barrel, and a material melting communicating pipe is arranged at the bottom of the material melting barrel;

the primary puffing cavity is internally and rotatably provided with a stirring frame, the stirring frame is provided with two arc-shaped strips, the stirring frame is provided with a circulating air pipe, the surface of the circulating air pipe is provided with a plurality of exhaust holes, the temporary storage tank is used for storing carbon dioxide, the temporary storage tank is provided with a primary supply pipe and a secondary supply pipe, the primary puffing cavity is provided with two primary guide plates, and the bottom of the primary puffing cavity is slidably provided with two material melting baffles;

the popped intracavity of second grade rotates and is provided with the centrifuge bowl, the centrifuge bowl below is provided with the fixed plate, surface mounting has two connecting pipes under the fixed plate, the popped intracavity of second grade is provided with two hybrid cartridges, two connecting pipes and two hybrid cartridges one-to-ones, the connecting pipe is linked together with the hybrid cartridge, the hybrid cartridge inner chamber rotates and is provided with the drive shaft, install a plurality of shaft brackets even in the drive shaft, even rotate on the shaft bracket and install the stirring roller, the material exit tube is melted in the installation of hybrid cartridge bottom.

Further, popped chamber sets up with the jar of keeping in is adjacent, melt a feed cylinder bilateral symmetry and install two tube holders, melt the feed cylinder and install in one-level popped chamber top through two tube holders.

Furthermore, the raw material hopper is arranged at the top of the melting barrel and communicated with the melting barrel, the three melting rollers are annularly distributed in the inner cavity of the melting barrel in an equal radian manner, an annular side shell is arranged on one side of the melting barrel, a central gear is rotatably arranged in the annular side shell, three planetary gears are annularly distributed on the periphery of the central gear in an equal radian manner, a first motor is arranged on the annular side shell and used for driving the central gear, the planetary gears are meshed with the central gear, the three planetary gears correspond to the three melting rollers one by one, and the planetary gears are coaxially connected with the melting rollers.

Further, the material melting communicating pipe is communicated with the material melting barrel, a material melting filter screen is arranged at the bottom of the material melting communicating pipe, and the material melting filter screen is arranged at the position where the material melting communicating pipe is communicated with the material melting barrel.

Further, the connecting axle that the level set up is installed to the popped chamber one side inner wall of one-level, the stirring frame rotates with the connecting axle to be connected, first set casing is installed to popped chamber one side outer wall, stirring frame, the popped chamber of one-level are run through in proper order to first set casing to circulation trachea one end, the first set casing internal rotation is provided with two intermeshing's gear, install the second motor on the first set casing, the second motor is used for driving one of them gear, and another gear housing is located on the circulation trachea.

Further, one-level supply tube, second grade supply tube all install in the jar periphery of keeping in and be linked together rather than, one-level supply tube is kept away from jar one end of keeping in and is installed and links up the cover, one-level supply tube rotates through linking up the cover and connects the trachea that circulates, the popped chamber lateral wall of second grade supply tube intercommunication second grade.

Further, two arcs are installed respectively in stirring frame both sides, set up flutedly on the arcs, two one-level deflectors are relative setting, and two one-level deflectors and two melt material baffle one-to-ones, the popped chamber inner chamber bottom of one-level is provided with two telescopic cylinder, and two telescopic cylinder melt material baffle one-to-ones with two, telescopic cylinder is used for the drive to melt material baffle horizontal migration.

Furthermore, two second-stage guide plates are symmetrically arranged on two sides of the fixing plate, a third motor is mounted on the lower surface of the fixing plate and used for driving the centrifugal cylinder to rotate, and the centrifugal cylinder corresponds to the two material melting baffles.

Further, radians such as a plurality of shaft brackets are installed in the drive shaft, melt material exit tube and mixing drum intercommunication, the second set casing is installed to the popped chamber lateral wall of second grade, the second set casing internal rotation is provided with two belt pulleys through belt drive, two belt pulleys and two drive shaft one-to-one, and the belt pulley cover is located in the drive shaft, install the fourth motor on the second set casing, the fourth motor is used for the drive shaft rotatory.

Further, the carbon dioxide supply device works as follows:

syrup enters into the material melting barrel through the raw material hopper, the first motor drives the central gear to rotate, the central gear drives the three planetary gears to rotate, and then three material melting rollers in the material melting barrel crush massive crystals in the syrup, the fragmented massive crystals and the syrup enter into the first-level puffing cavity through the material melting filter screen, the centrifuged syrup enters into the connecting pipe through the guide of the second-level guide plate, the syrup enters into the mixing barrel through the connecting pipe, the fourth motor drives two driving shafts to rotate through two belt pulleys, the driving shafts drive the stirring rollers to rotate through the connecting shaft frame, the stirring rollers crush the agglomerated syrup in the puffing process, through the above structure arrangement, the carbon dioxide supply device is arranged before puffing, the massive crystals in the puffed syrup are crushed, the phenomenon that carbon dioxide cannot enter into the syrup in the puffing process is prevented, and the condition that the puffed syrup is agglomerated is avoided;

carry carbon dioxide to the circulating pipe through the one-level supply pipe through the jar of keeping in, and outwards discharge from the exhaust hole on circulating pipe surface, the gear that the second motor is connected through two meshings drives the circulating pipe and rotates, it is rotatory that the circulating pipe drives the stirring frame, the stirring frame stirs the syrup of the popped intracavity of one-level, the popped in-process carbon dioxide of syrup in the one-level popped intracavity fully gets into the syrup, after puffing for the first time, telescopic cylinder drives the removal of melting material baffle, the syrup after puffing gets into in the centrifugal tube of the popped intracavity of second grade through the guide of one-level deflector, the third motor drives the centrifugal tube rotatory, centrifugal tube is with the syrup centrifugation play, the jar of keeping in carries carbon dioxide to the popped intracavity of second grade through the second grade supply pipe, through above structure setting, this carbon dioxide feeding device carries out twice popped and twice carbon dioxide supply to the syrup, first carbon dioxide supplies with the circulating pipe stirring through the stirring frame in-process, when the second carbon dioxide supplies with, make carbon dioxide can with the syrup intensive mixing of stirring in-process.

The invention has the beneficial effects that:

according to the carbon dioxide supply device for the popping candy production, syrup enters the melting cylinder through the raw material hopper, the first motor drives the central gear to rotate, the central gear drives the three planetary gears to rotate, and then the three melting rollers in the melting cylinder crush blocky crystals in the syrup, the crushed blocky crystals and the syrup enter the primary puffing cavity through the melting filter screen, the centrifuged syrup enters the connecting pipe through the guide of the secondary guide plate, the syrup enters the mixing cylinder through the connecting pipe, the fourth motor drives the two driving shafts to rotate through the two belt pulleys, the driving shafts drive the stirring rollers to rotate through the connecting shaft frame, the stirring rollers crush the caked syrup in the puffing process, and through the structure, the carbon dioxide supply device crushes the blocky crystals in the syrup before and after puffing, so that the phenomenon that carbon dioxide cannot enter the syrup in the puffing process is prevented, and the phenomenon that the puffed syrup is caked is avoided;

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of a carbon dioxide supply device for popping candy production according to the present invention;

FIG. 2 is a schematic structural view of a melting barrel according to the present invention;

FIG. 3 is a view of the internal structure of the primary expansion chamber of the present invention;

FIG. 4 is a schematic structural view of a stirring frame of the present invention;

FIG. 5 is an internal block diagram of the annular side casing of the present invention;

FIG. 6 is an internal structural view of the melting cylinder of the present invention;

fig. 7 is a view showing the internal structure of the secondary puffing chamber according to the present invention;

fig. 8 is an internal structural view of the mixing cylinder of the present invention.

In the figure: 1. a primary puffing cavity; 2. a temporary storage tank; 3. a material melting barrel; 4. a cartridge holder; 5. a raw material hopper; 6. a material melting roller; 7. an annular side casing; 8. a first motor; 9. a sun gear; 10. a planetary gear; 11. a melting communicating pipe; 12. a melting material filter screen; 13. a stirring frame; 14. a circulating gas pipe; 15. a connecting shaft; 16. a first stationary case; 17. a second motor; 18. a primary supply pipe; 19. a connecting sleeve; 20. an arc-shaped strip; 21. a primary guide plate; 22. a material melting baffle plate; 23. a telescopic cylinder; 24. a secondary puffing cavity; 25. a centrifugal cylinder; 26. a fixing plate; 27. a third motor; 28. a connecting pipe; 29. a mixing drum; 30. a secondary guide plate; 31. a drive shaft; 32. a shaft connecting frame; 33. a stirring roller; 34. a fused material outlet pipe; 35. a secondary supply pipe; 36. a second stationary case; 37. and a fourth motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the invention provides a carbon dioxide supply device for producing popping candy, which comprises a primary puffing chamber 1, a temporary storage tank 2 and a secondary puffing chamber 24, wherein the primary puffing chamber 1 is arranged on the secondary puffing chamber 24, a material melting barrel 3 is arranged on the primary puffing chamber 1, a raw material hopper 5 is arranged on the material melting barrel 3, three material melting rollers 6 are rotatably arranged in the material melting barrel 3, and a material melting communicating pipe 11 is arranged at the bottom of the material melting barrel 3;

the primary puffing chamber 1 is internally and rotatably provided with a stirring frame 13, the stirring frame 13 is provided with two arc-shaped strips 20, the stirring frame 13 is provided with a circulating air pipe 14, the surface of the circulating air pipe 14 is provided with a plurality of exhaust holes, the temporary storage tank 2 is used for storing carbon dioxide, the temporary storage tank 2 is provided with a primary supply pipe 18 and a secondary supply pipe 35, the inner cavity of the primary puffing chamber 1 is provided with two primary guide plates 21, and the bottom of the inner cavity of the primary puffing chamber 1 is slidably provided with two melting baffles 22;

the centrifugal cylinder 25 is arranged in the second-stage puffing cavity 24 in a rotating mode, the fixing plate 26 is arranged below the centrifugal cylinder 25, two connecting pipes 28 are arranged on the lower surface of the fixing plate 26, two mixing cylinders 29 are arranged in the inner cavity of the second-stage puffing cavity 24, the two connecting pipes 28 correspond to the two mixing cylinders 29 one by one, the connecting pipes 28 are communicated with the mixing cylinders 29, a driving shaft 31 is arranged in the inner cavity of the mixing cylinders 29 in a rotating mode, a plurality of shaft connecting frames 32 are arranged on the driving shaft 31, stirring rollers 33 are installed on the shaft connecting frames 32 in a rotating mode, and a material melting outlet pipe 34 is installed at the bottom of the mixing cylinders 29.

Specifically, the popped chamber of one-level 1 sets up with keeping in jar 2 is adjacent, melts 3 bilateral symmetry of feed cylinder and installs two barrel holders 4, melts feed cylinder 3 and installs in the popped chamber of one-level 1 top through two barrel holders 4.

The raw material hopper 5 is arranged at the top of the melting barrel 3 and communicated with the melting barrel, the three melting rollers 6 are annularly distributed in the inner cavity of the melting barrel 3 at equal radian, an annular side shell 7 is arranged on one side of the melting barrel 3, a central gear 9 is rotatably arranged in the annular side shell 7, three planetary gears 10 are annularly distributed at the periphery of the central gear 9 at equal radian, a first motor 8 is arranged on the annular side shell 7, the first motor 8 is used for driving the central gear 9, the planetary gears 10 are meshed with the central gear 9, the three planetary gears 10 correspond to the three melting rollers 6 one by one, and the planetary gears 10 are coaxially connected with the melting rollers 6.

The melting communicating pipe 11 is communicated with the melting barrel 3, the melting filter screen 12 is arranged at the bottom of the melting communicating pipe 11, and the melting filter screen 12 is arranged at the position where the melting communicating pipe 11 is communicated with the melting barrel 3.

The connecting axle 15 that the level set up is installed to the 1 one side inner wall in one-level popped chamber, stirring frame 13 rotates with connecting axle 15 to be connected, first set casing 16 is installed to 1 one side outer wall in popped chamber, stirring frame 13 is run through in proper order to circulation trachea 14 one end, the one-level popped chamber 1 is to first set casing 16 in, 16 internal rotations in first set casing are provided with two intermeshing's gear, install second motor 17 on the first set casing 16, second motor 17 is used for driving one of them gear, another gear housing is located on the circulation trachea 14.

The primary supply pipe 18 and the secondary supply pipe 35 are both mounted on the periphery of the temporary storage tank 2 and communicated with the temporary storage tank, one end, far away from the temporary storage tank 2, of the primary supply pipe 18 is provided with a connecting sleeve 19, the primary supply pipe 18 is rotatably connected with the circulating air pipe 14 through the connecting sleeve 19, and the secondary supply pipe 35 is communicated with the side wall of the secondary expansion cavity 24.

Two arc strips 20 are installed respectively in stirring frame 13 both sides, offer flutedly on the arc strip 20, and two one-level deflectors 21 are relative setting, and two one-level deflectors 21 melt material baffle 22 one-to-one with two, and the popped chamber of one-level 1 inner chamber bottom is provided with two telescopic cylinder 23, and two telescopic cylinder 23 melt material baffle 22 one-to-one with two, and telescopic cylinder 23 is used for the drive to melt material baffle 22 horizontal migration.

Two secondary guide plates 30 are symmetrically arranged on two sides of the fixing plate 26, a third motor 27 is mounted on the lower surface of the fixing plate 26, the third motor 27 is used for driving the centrifugal cylinder 25 to rotate, and the centrifugal cylinder 25 corresponds to the two melting baffles 22.

A plurality of shaft connecting frames 32 are arranged on the driving shaft 31 in an equal radian, the material melting outlet pipe 34 is communicated with the mixing barrel 29, a second fixing shell 36 is arranged on the outer side wall of the second-stage puffing cavity 24, two belt pulleys driven by a belt are arranged in the second fixing shell 36 in a rotating manner, the two belt pulleys are in one-to-one correspondence with the two driving shafts 31, the belt pulleys are sleeved on the driving shaft 31, a fourth motor 37 is arranged on the second fixing shell 36, and the fourth motor 37 is used for driving the driving shaft 31 to rotate.

In the syrup passes through the raw materials fill and gets into the melt feed cylinder, first motor drives sun gear and rotates, sun gear drives three planetary gear and rotates, and then melt the cubic crystallization of material roller in to the syrup in the feed cylinder and carry out the fragmentation, cubic crystallization after the fragmentation and syrup are through melting the popped intracavity of material filter screen entering one-level, the syrup after the centrifugation passes through in the guide entering connection pipe of second grade deflector, the syrup passes through in the connecting pipe gets into the mixing drum, the fourth motor drives two drive shaft rotations through two belt pulleys, the drive shaft drives the stirring roller through linking the axle frame and rotates, the stirring roller carries out the fragmentation to the syrup of popped in-process caking.

Referring to fig. 1 to 8, the working process of the carbon dioxide supply device for popping candy production according to the embodiment is as follows:

the method comprises the following steps: pouring syrup into a raw material hopper 5, wherein the syrup enters a melting cylinder 3 through the raw material hopper 5, a first motor 8 drives a central gear 9 to rotate, the central gear 9 drives three planetary gears 10 to rotate, then three melting rollers 6 in the melting cylinder 3 crush blocky crystals in the syrup, and the crushed blocky crystals and the syrup enter a primary puffing cavity 1 through a melting filter screen 12;

step two: the temporary storage tank 2 conveys carbon dioxide to the circulating gas pipe 14 through the primary supply pipe 18 and discharges the carbon dioxide outwards from exhaust holes on the surface of the circulating gas pipe 14, the second motor 17 drives the circulating gas pipe 14 to rotate through two gears which are meshed and connected, the circulating gas pipe 14 drives the stirring frame 13 to rotate, the stirring frame 13 stirs syrup in the primary puffing chamber 1, the carbon dioxide fully enters the syrup in the primary puffing chamber 1 in the puffing process of the syrup, after the first puffing, the telescopic cylinder 23 drives the melting baffle 22 to move, and the puffed syrup enters the centrifugal cylinder 25 in the secondary puffing chamber 24 through the guide of the primary guide plate 21;

step three: third motor 27 drives the centrifuge tube 25 rotatory, centrifuge tube 25 is with the syrup centrifugation play, the jar 2 of keeping in carries carbon dioxide in to the popped chamber of second grade 24 through second grade supply tube 35, in the syrup of carbon dioxide entering centrifugation in-process, the syrup after the centrifugation passes through in the guide entering connecting pipe 28 of second grade deflector 30, the syrup passes through in connecting pipe 28 gets into mixing drum 29, fourth motor 37 drives two drive shafts 31 through two belt pulleys and rotates, drive shaft 31 drives stirring roller 33 through link shaft bracket 32 and rotates, stirring roller 33 carries out the fragmentation to the syrup of popped in-process caking, discharge from melting material exit tube 34 bottom at final syrup.

The foregoing is merely illustrative and explanatory of the present invention and various modifications, additions or substitutions may be made to the specific embodiments described by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. The carbon dioxide supply device for the production of popping candy is characterized by comprising a primary puffing chamber (1), a temporary storage tank (2) and a secondary puffing chamber (24), wherein the primary puffing chamber (1) is arranged on the secondary puffing chamber (24), a material melting barrel (3) is arranged on the primary puffing chamber (1), a raw material hopper (5) is arranged on the material melting barrel (3), three material melting rollers (6) are rotatably arranged in the material melting barrel (3), and a material melting communicating pipe (11) is arranged at the bottom of the material melting barrel (3);

the stirring frame (13) is rotationally arranged in the primary puffing chamber (1), two arc-shaped strips (20) are mounted on the stirring frame (13), a circulating air pipe (14) is mounted on the stirring frame (13), a plurality of exhaust holes are formed in the surface of the circulating air pipe (14), the temporary storage tank (2) is used for storing carbon dioxide, a primary supply pipe (18) and a secondary supply pipe (35) are mounted on the temporary storage tank (2), two primary guide plates (21) are arranged in the inner chamber of the primary puffing chamber (1), and two material melting baffle plates (22) are slidably arranged at the bottom of the inner chamber of the primary puffing chamber (1);

a centrifugal cylinder (25) is rotatably arranged in the secondary expansion cavity (24), a fixing plate (26) is arranged below the centrifugal cylinder (25), two connecting pipes (28) are mounted on the lower surface of the fixing plate (26), two mixing cylinders (29) are arranged in the inner cavity of the secondary expansion cavity (24), the two connecting pipes (28) correspond to the two mixing cylinders (29) one by one, the connecting pipes (28) are communicated with the mixing cylinders (29), a driving shaft (31) is rotatably arranged in the inner cavity of the mixing cylinders (29), a plurality of connecting shaft brackets (32) are mounted on the driving shaft (31), stirring rollers (33) are rotatably mounted on the connecting shaft brackets (32), and a molten material outlet pipe (34) is mounted at the bottom of the mixing cylinder (29);

the raw material hopper (5) is arranged at the top of the melting barrel (3), three melting rollers (6) are arranged in the inner cavity of the melting barrel (3) in an equal radian manner, an annular side shell (7) is arranged on one side of the melting barrel (3), a central gear (9) is rotationally arranged in the annular side shell (7), three planetary gears (10) are annularly arranged at the periphery of the central gear (9) in an equal radian manner, a first motor (8) is arranged on the annular side shell (7), the first motor (8) is used for driving the central gear (9) to rotate, the planetary gears (10) are meshed with the central gear (9), the three planetary gears (10) correspond to the three melting rollers (6) one by one, and the planetary gears (10) are coaxially connected with the melting rollers (6);

one-level popped chamber (1) one side inner wall is installed connecting axle (15) that the level set up, stirring frame (13) rotate with connecting axle (15) and are connected, first set casing (16) are installed to popped chamber (1) one side outer wall, first set casing (16) internal rotation is provided with two intermeshing's gear, install second motor (17) on first set casing (16), second motor (17) are used for driving one of them gear rotation, and another gear cover is located on circulating pipe (14).

2. The carbon dioxide supply device for the production of popping candy according to claim 1, wherein the primary puffing chamber (1) is adjacent to the temporary storage tank (2), two cylinder holders (4) are symmetrically arranged on two sides of the melting cylinder (3), and the melting cylinder (3) is arranged on the top of the primary puffing chamber (1) through the two cylinder holders (4).

3. The carbon dioxide supply device for the production of popping candy according to claim 1, characterized in that the melting communicating pipe (11) is communicated with the melting barrel (3), and the melting filter screen (12) is arranged at the bottom of the melting communicating pipe (11).

4. The carbon dioxide supply device for the production of popping candy according to claim 1, characterized in that the primary supply pipe (18) and the secondary supply pipe (35) are both arranged on the periphery of the temporary storage tank (2), one end of the primary supply pipe (18) far away from the temporary storage tank (2) is provided with a connecting sleeve (19), the primary supply pipe (18) is rotatably connected with the circulating air pipe (14) through the connecting sleeve (19), and the secondary supply pipe (35) is communicated with the side wall of the secondary puffing cavity (24).

5. The carbon dioxide supply device for the production of popping candy according to claim 1, characterized in that two arc-shaped strips (20) are respectively installed on two sides of the stirring frame (13), a groove is formed in each arc-shaped strip (20), two primary guide plates (21) are oppositely arranged, the two primary guide plates (21) correspond to the two melting baffles (22) one by one, two telescopic cylinders (23) are arranged at the bottom of the inner cavity of the primary puffing chamber (1), the two telescopic cylinders (23) correspond to the two melting baffles (22) one by one, and the telescopic cylinders (23) are used for driving the melting baffles (22) to horizontally move.

6. The carbon dioxide supply device for the production of popping candy according to claim 1, wherein two secondary guide plates (30) are symmetrically arranged on two sides of the fixing plate (26), a third motor (27) is mounted on the lower surface of the fixing plate (26), the third motor (27) is used for driving the centrifugal cylinder (25) to rotate, and the centrifugal cylinder (25) corresponds to the two melting baffles (22).

7. The carbon dioxide supply device for popping candy according to claim 1, wherein a plurality of connecting shaft frames (32) are installed on a driving shaft (31) in an equal radian, the melted material outlet pipe (34) is communicated with the mixing barrel (29), a second fixing shell (36) is installed on the outer side wall of the secondary puffing cavity (24), two belt pulleys connected through belt transmission are rotatably arranged in the second fixing shell (36), the two belt pulleys correspond to the two driving shafts (31) one by one, the belt pulleys are sleeved on the driving shaft (31), a fourth motor (37) is installed on the second fixing shell (36), and the fourth motor (37) is used for driving the driving shaft (31) to rotate.