阅读说明：本技术 一种跳跳糖生产用搅拌设备 (Agitated vessel is used in popping candy production ) 是由 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 于 2020-08-25 设计创作，主要内容包括：本发明公开一种跳跳糖生产用搅拌设备,包括支撑架、膨化罐,支撑架上设置有加工腔,加工腔上设置有糖浆入斗,加工腔内设置有预混筒,预混筒内水平方向转动设置有螺旋蛟龙,螺旋蛟龙用于输送糖浆,预混筒上开设有糖浆出口。本发明通过对糖浆进行膨化前对其通过螺旋蛟龙进行预混,而后通过打散辊与弧形托板的配合对糖浆进行打散,使得糖浆在膨化前不会出现结块的情况,同时将相对浓稠的糖浆进行打散,便于后续膨化时二氧化碳可以充分且高效的填充至糖浆内。该搅拌设备可以对糖浆在膨化的同时进行高效搅拌,当暂存罐与膨化罐之间连接管阻塞时,通过压力引出管的设计,可以将电磁阀及时关闭,有效防止出现连接管内部压力过大而造成爆炸的情况。(The invention discloses stirring equipment for producing popping candy, which comprises a supporting frame and a puffing tank, wherein a processing cavity is arranged on the supporting frame, a syrup inlet hopper is arranged on the processing cavity, a premixing cylinder is arranged in the processing cavity, a spiral flood dragon is arranged in the premixing cylinder in a horizontal rotating manner and is used for conveying syrup, and a syrup outlet is formed in the premixing cylinder. According to the invention, the syrup is premixed through the spiral flood dragon before being puffed, and then is scattered through the matching of the scattering roller and the arc-shaped supporting plate, so that the syrup is not caked before being puffed, and meanwhile, the relatively thick syrup is scattered, so that carbon dioxide can be fully and efficiently filled into the syrup during subsequent puffing. This agitated vessel can carry out high-efficient stirring in popped syrup, when the connecting pipe blocks between the jar of keeping in and the popped jar, through the design of pressure fairlead, can in time close the solenoid valve, effectively prevents the condition that the inside pressure of connecting pipe is too big and cause the explosion from appearing.)

1. The stirring equipment for producing the popping candy is characterized by comprising a support frame (1) and a puffing tank (2), wherein a processing cavity (3) is formed in the support frame (1), a syrup inlet hopper (4) is formed in the processing cavity (3), a premixing barrel (5) is arranged in the processing cavity (3), a spiral flood dragon (6) is arranged in the premixing barrel (5) in a horizontal rotating manner, the spiral flood dragon (6) is used for conveying syrup, a syrup outlet (8) is formed in the premixing barrel (5), and the bottom wall of one side of the processing cavity (3) is an inclined plane;

the inner cavity of the processing cavity (3) is provided with a guide plate (9), the inner cavity of the processing cavity (3) is horizontally and rotatably provided with a scattering roller (11), an arc-shaped supporting plate (10) is arranged below the scattering roller (11), the arc-shaped supporting plate (10) is provided with two connecting seats (12), the connecting seats (12) are rotatably provided with rotating arms (13), the rotating arms (13) are rotatably provided with right-angle arms (14), the right-angle arms (14) are rotatably arranged on a first driving roller (15), a second driving roller (16) is horizontally and rotatably arranged in the processing cavity (3), and the first driving roller (15) and the second driving roller (16) are in transmission connection through a syrup conveying belt (17);

the utility model discloses a carbon dioxide gas collecting device, including popped jar (2), stirring frame (25) go up vertical rotation and install two upright shafts (26), install a plurality of stirring arms on upright shaft (26), popped jar (2) one side is provided with temporary storage tank (31), temporary storage tank (31) are used for saving carbon dioxide, be provided with connecting pipe (32) between temporary storage tank (31) and popped jar (2), vertically be provided with gas collection board (33) in connecting pipe (32), a plurality of gas collecting holes have been seted up on gas collection board (33), install pressure outlet pipe (34) on connecting pipe (32), connecting pipe (32) one end connection pressure sensor is kept away from in pressure outlet pipe (34), and pressure sensor installs on controller (35), controller (35) are installed on solenoid valve (36).

2. The stirring equipment is used in jumping candy production of claim 1, characterized in that, popped jar (2) and support frame (1) adjacent setting, install in support frame (1) top processing chamber (3), the syrup is gone into fill (4) and is installed in processing chamber (3) top one side, it is linked together to go into fill (4) with the syrup to premix a section of thick bamboo (5), processing chamber (3) lateral wall is installed and is premixed motor (7), premix motor (7) and spiral flood dragon (6) one-to-one, premix motor (7) are used for driving spiral flood dragon (6).

3. The popping candy production stirring equipment is characterized in that the guide plate (9) is obliquely arranged in the processing cavity (3), the guide plate (9) is in sliding connection with the arc-shaped supporting plate (10), the two connecting seats (12) are symmetrically arranged on two sides of the arc-shaped supporting plate (10), the two right-angle arms (14) are symmetrically arranged on two sides of the first driving roller (15), the first driving roller (15) is arranged right below the arc-shaped supporting plate (10), and the first driving roller (15) and the second driving roller (16) are arranged at the same height.

4. The stirring device for producing popping candy according to claim 1, the support frame (1) is provided with a driving motor (18), the driving motor (18) is arranged below the processing cavity (3), the driving motor (18) is used for driving a first belt pulley (19) to rotate, the first belt pulley (19) is connected with a first wheel disc (20) through belt transmission, a second belt pulley (21) is arranged on one side of the first wheel disc (20), the second belt pulley (21), the first wheel disc (20) and the second driving roller (16) are coaxially connected, the second belt pulley (21) is connected with a second wheel disc (22) through belt transmission, one side of the second wheel disc (22) is provided with a first gear (23), the first gear (23) and the second wheel disc (22) are coaxially connected, the first gear (23) is meshed with the second gear (24), and the second gear (24) is coaxially connected with the scattering roller (11).

5. The popping candy production stirring device according to claim 1, wherein a plurality of stirring arms are welded on an upright shaft (26) at equal intervals, a driving main shaft (27) is longitudinally installed on the stirring frame (25), a stirring motor (28) is installed at the middle position of the top of the outer wall of the puffing tank (2), the stirring motor (28) is used for driving the driving main shaft (27) to rotate, a central tooth (29) is sleeved on the driving main shaft (27), a planetary gear (30) is sleeved on the top of the upright shaft (26), the planetary gear (30) is meshed with the central tooth (29), two central teeth (29) are annularly distributed on the periphery of the planetary gear (30) at equal radian, and the central tooth (29) and the planetary gear (30) are both arranged above the stirring frame (25).

6. The stirring device for the production of popping candy according to claim 1, wherein the temporary storage tank (31) is communicated with the puffing tank (2) through a connecting pipe (32), and a plurality of gas collecting holes are arranged on a gas collecting plate (33) in an equidistant rectangular array.

7. The stirring device for producing popping candy according to claim 1, wherein the electromagnetic valve (36) is installed on the connecting pipe (32), and the controller (35) is used for controlling the electromagnetic valve (36) to be opened and closed.

8. The stirring device for producing popping candy according to any one of claims 1 to 7, which is characterized in that the operation process of the stirring device is as follows:

the method comprises the following steps: pouring boiled syrup into a syrup inlet hopper (4), allowing the syrup to enter a premixing barrel (5) in a processing cavity (3) through the syrup inlet hopper (4), starting a premixing motor (7), driving a spiral flood dragon (6) to rotate by the premixing motor (7), pre-mixing the syrup by the spiral flood dragon (6) and conveying the syrup towards a syrup outlet (8), conveying the pre-mixed syrup out of the syrup outlet (8), dripping the pre-mixed syrup on a guide plate (9), and flowing onto an arc-shaped supporting plate (10) under the guidance of the guide plate (9);

step two: the driving motor (18) is started, the driving motor (18) drives the belt pulley I (19) to rotate, the belt pulley I (19) drives the wheel disc I (20) to rotate through a belt, the wheel disc I (20) coaxially drives the driving roller II (16) and the belt pulley II (21) to rotate, the driving roller II (16) is matched with the driving roller I (15) to drive the syrup conveying belt (17) to rotate, the driving roller I (15) drives the two right-angle arms (14) to rotate, the two right-angle arms (14) are matched with the two rotating arms (13), the two connecting seats (12) drive the arc supporting plate (10) to repeatedly lift, the belt pulley II (21) drives the wheel disc II (22) to rotate through the belt, the wheel disc II (22) coaxially drives the gear I (23) to rotate, the gear I (23) is meshed with the gear II (24) to drive the scattering roller (11) to rotate, the scattering roller (11) scatters the syrup on the arc supporting plate (10), the broken syrup is guided to a syrup conveying belt (17) by a breaking roller (11), the syrup is conveyed by the syrup conveying belt (17), and the syrup is conveyed into the puffing tank (2);

step three: the stirring motor (28) is started, the stirring motor (28) drives the stirring frame (25) to rotate through the driving main shaft (27), the driving main shaft (27) drives the central gear (29) to rotate, the central gear (29) is matched with the two planetary gears (30) to drive the two vertical shafts (26) to rotate, the stirring frame (25) and the stirring arm stir the syrup in the puffing tank (2), meanwhile, the temporary storage tank (31) conveys the carbon dioxide towards the interior of the expansion tank (2) through a connecting pipe (32), the carbon dioxide is conveyed into the expansion tank (2) through a gas collecting hole on a gas collecting plate (33), when the connecting pipe (32) is blocked, the internal pressure of the connecting pipe (32) is increased, the pressure leading-out pipe (34) applies pressure to the pressure sensor, the controller (35) is closed, the electromagnetic valve (36) is closed by the controller (35), and the temporary storage tank (31) stops conveying carbon dioxide to the puffing tank (2).

Technical Field

The invention relates to the technical field of popping candy production, in particular to stirring equipment 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 to give a fresh feeling to people.

Patent document (CN201320434005.6) discloses a blending tank of popping candy production facility, has set up first steam heat preservation intermediate layer and second steam heat preservation intermediate layer, heats jar body and cover and keeps warm, makes jar internal portion maintain certain temperature, prevents that the internal melting syrup of jar from condensing and solidifying, avoids blockking up to mix into more carbon dioxide in ensureing the melting syrup, make the taste of popping candy better. However, the situation that the explosion is easily caused by the blockage of the stirring tank when carbon dioxide is conveyed in the stirring process of popping candy is not considered, and meanwhile, syrup cannot be sufficiently stirred by the stirring tank, so that the syrup still blocks although a certain temperature is maintained, and meanwhile, the carbon dioxide cannot be efficiently mixed into the syrup due to the thick part of the syrup.

Disclosure of Invention

The invention aims to provide stirring equipment for producing popping candy, which solves the following technical problems: the stirring equipment drives a spiral auger to rotate by a premixing motor, the spiral auger pre-mixes syrup and conveys the syrup towards a syrup outlet, the pre-mixed syrup is conveyed out from the syrup outlet and then drips on a guide plate and flows onto an arc-shaped supporting plate under the guidance of the guide plate, a driving motor is started, the driving motor drives a belt pulley to rotate, the belt pulley drives a wheel disc to rotate by a belt, a wheel disc I coaxially drives a driving roller II and a belt pulley II to rotate, the driving roller II is matched with the driving roller I to drive a syrup conveying belt to rotate, the driving roller drives two right-angle arms to rotate, the two right-angle arms are matched with two rotating arms and two connecting seats to drive an arc-shaped supporting plate to repeatedly lift, the belt pulley II drives the wheel disc II to rotate by the belt, the wheel disc II coaxially drives a gear I to rotate, the gear I is meshed with the gear II to drive the, break up the roller and break up the syrup on the arc layer board, the syrup after breaking up is broken up the roller and is guided to the syrup conveyer belt on, the syrup conveyer belt is carried the syrup, the syrup is carried to popped jar in, carry out the cooperation through the spiral flood dragon to it before popping the syrup in, then break up the syrup through the cooperation of breaking up roller and arc layer board, the condition of caking can not appear before the popped syrup, break up relatively thick syrup simultaneously, carbon dioxide can be abundant and the efficient is filled to the syrup when being convenient for follow-up popped in.

The stirring motor drives the stirring frame to rotate through the driving main shaft, the driving main shaft drives the central gear to rotate, the central gear is matched with the two planet gears to drive the two vertical shafts to rotate, the stirring frame and the stirring arm stir syrup in the puffing tank, meanwhile, the temporary storage tank conveys carbon dioxide towards the puffing tank through the connecting pipe, the carbon dioxide is conveyed into the puffing tank through the gas collecting hole in the gas collecting plate, when the connecting pipe is blocked, the internal pressure of the connecting pipe is increased, the pressure leading-out pipe presses towards the pressure sensor, the pressure sensor closes the controller, the electromagnetic valve is closed by the controller, the temporary storage tank stops conveying the carbon dioxide to the puffing tank, through the structure, the stirring device can efficiently stir the syrup while puffing, when the connecting pipe between the temporary storage tank and the puffing tank is blocked, the electromagnetic valve can be closed in time through the design of the pressure leading-out pipe, effectively prevent the inside pressure of connecting pipe too big and lead to the fact the condition of explosion, this agitated vessel can carry out high-efficient stirring to the syrup in popped, when the connecting pipe blocks between jar and the popped jar of keeping in, through the design of pressure fairlead, can in time close the solenoid valve, effectively prevent the inside pressure of connecting pipe too big and lead to the fact the condition of explosion.

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

a stirring device for producing a jumping candy comprises a supporting frame and a puffing tank, wherein a processing cavity is arranged on the supporting frame, a syrup inlet hopper is arranged on the processing cavity, a premixing cylinder is arranged in the processing cavity, a spiral flood dragon is arranged in the premixing cylinder in a horizontal rotating mode and used for conveying syrup, a syrup outlet is formed in the premixing cylinder, and the bottom wall of one side of the processing cavity is an inclined plane;

the processing device comprises a processing cavity, a guide plate, a beating roller, an arc supporting plate, a rotating arm, a right-angle arm, a driving roller I, a driving roller II and a syrup conveying belt, wherein the guide plate is arranged in the inner cavity of the processing cavity;

the popped jar inner chamber rotates and is provided with the stirring frame, longitudinal rotation installs two upright axles on the stirring frame, install a plurality of stirring arms on the upright axle, popped jar one side is provided with the jar of keeping in, the jar of keeping in is used for saving carbon dioxide, be provided with the connecting pipe between jar of keeping in and the popped jar, vertically be provided with the gas collection board in the connecting pipe, a plurality of gas collecting holes have been seted up on the gas collection board, install the pressure fairlead on the connecting pipe, the pressure fairlead is kept away from connecting pipe one end and is connected pressure sensor, and pressure sensor installs on the controller, the controller is installed on the solenoid valve.

Further, popped jar sets up with the support frame is adjacent, the processing chamber is installed in the support frame top, the syrup is gone into the fill and is installed in processing chamber top one side, it is corresponding to go into the fill with the syrup to mix a section of thick bamboo in advance, it is linked together with the syrup is gone into the fill to mix a section of thick bamboo in advance, the processing chamber lateral wall is installed and is premixed the motor, it is in advance motor and spiral flood dragon one-to-one, it is used for driving the spiral flood dragon to premix the motor.

Further, the deflector is corresponding with the syrup export, the deflector is the slope and sets up in the processing intracavity, deflector and arc layer board sliding connection, two connecting seat symmetries are installed in arc layer board both sides, and two right angle arm symmetries are installed in a drive roller both sides, a drive roller sets up under the arc layer board, a drive roller sets up in same height with drive roller two.

Further, install driving motor on the support frame, driving motor sets up in the process chamber below, driving motor is used for driving pulley one rotatory, pulley one is connected rim plate one through belt transmission, rim plate one side is provided with pulley two, rim plate one, the equal coaxial coupling of drive roller two, pulley two is passed through belt transmission and is connected rim plate two, two one sides of rim plate are provided with gear one, two coaxial couplings of rim plate, gear two is connected in the meshing of gear one, gear two with break up roller coaxial coupling.

Furthermore, a plurality of stirring arms are welded and fixed on the vertical shaft at equal intervals, a driving main shaft is longitudinally installed on the stirring frame, a stirring motor is installed in the middle of the top of the outer wall of the puffing tank and corresponds to the driving main shaft, the stirring motor is used for driving the driving main shaft to rotate, a central tooth is sleeved on the driving main shaft, planetary gears are sleeved on the top of the vertical shaft and meshed with the central tooth, the two central teeth are annularly distributed on the peripheries of the planetary gears at equal radians, and the central tooth and the planetary gears are both arranged above the stirring frame.

Furthermore, the temporary storage tank is communicated with the puffing tank through a connecting pipe, and the plurality of gas collecting holes are arranged on the gas collecting plate in an equidistant rectangular array shape.

Further, the solenoid valve is installed on the connecting pipe, and the controller is used for controlling the solenoid valve switch.

Further, the operation process of the stirring device is as follows:

the syrup enters a premixing barrel in a processing cavity through a syrup inlet hopper, a premixing motor is started, the premixing motor drives a spiral auger to rotate, the spiral auger pre-mixes the syrup and conveys the syrup towards a syrup outlet, the pre-mixed syrup is conveyed out of the syrup outlet and then drips on a guide plate and flows onto an arc-shaped supporting plate under the guidance of the guide plate, the driving motor is started, the driving motor drives a belt pulley to rotate, the belt pulley drives a pulley plate to rotate through a belt, the pulley plate I coaxially drives a driving roller II and a belt pulley II to rotate, the driving roller II is matched with the driving roller I to drive a syrup conveying belt to rotate, the driving roller drives two right-angle arms to rotate, the two right-angle arms are matched with two rotating arms and two connecting seats to drive the arc-shaped supporting plate to repeatedly lift, the belt pulley plate II drives the pulley plate II to rotate through the belt, the pulley plate II coaxially drives a gear I to, two coaxial drives of gear are broken up the roller and are rotated, break up the syrup of roller on with the arc layer board and break up, the syrup after breaking up is broken up the roller and is guided to the syrup conveyer belt on, the syrup conveyer belt is carried the syrup, the syrup is carried to popped jar in, through above transmission setting, this agitated vessel mixes it in advance through the spiral flood dragon before puffing the syrup, then break up the syrup through the cooperation of breaking up roller and arc layer board, make the syrup can not appear the condition of caking before popped, break up relatively dense syrup simultaneously, carbon dioxide can be fully and the efficient fills to in the syrup when being convenient for follow-up popped

The stirring motor is started, the stirring motor drives the stirring frame to rotate through the driving main shaft, the driving main shaft drives the central tooth to rotate, the central tooth is matched with the two planet gears to drive the two vertical shafts to rotate, the stirring frame and the stirring arm stir the syrup in the puffing tank, meanwhile, the temporary storage tank conveys the carbon dioxide towards the puffing tank through the connecting pipe, the carbon dioxide is conveyed into the puffing tank through the gas collecting hole in the gas collecting plate, when the connecting pipe is blocked, the internal pressure of the connecting pipe is increased, the pressure leading-out pipe presses the pressure sensor, the pressure sensor closes the controller, the controller closes the electromagnetic valve, the temporary storage tank stops conveying the carbon dioxide to the puffing tank, through the structural arrangement, the stirring device can efficiently stir the syrup while puffing, when the connecting pipe between the temporary storage tank and the puffing tank is blocked, through the design of the pressure leading-out pipe, the electromagnetic valve can be closed in time, and the explosion caused by overlarge pressure in the connecting pipe is effectively prevented.

The invention has the beneficial effects that:

the stirring equipment for producing the jumping candy is characterized in that syrup enters a premixing barrel in a processing cavity through a syrup inlet hopper, a premixing motor is started, the premixing motor drives a spiral auger to rotate, the spiral auger pre-mixes the syrup and conveys the syrup towards a syrup outlet, the pre-mixed syrup is conveyed out of the syrup outlet and then drips on a guide plate and flows onto an arc-shaped supporting plate under the guidance of the guide plate, a driving motor is started and drives a belt pulley I to rotate, the belt pulley I drives a wheel disc I to rotate through a belt, the wheel disc I coaxially drives a driving roller II and a belt pulley II to rotate, the driving roller II is matched with the driving roller I to drive a syrup conveying belt to rotate, the driving roller drives two right-angle arms to rotate, the two right-angle arms are matched with two rotating arms and two connecting seats to drive the arc-shaped supporting plate to repeatedly lift, and the belt pulley II drives the wheel disc II to, the wheel disc II coaxially drives the gear I to rotate, the gear I is meshed with the gear II to drive the gear II to rotate, the gear II coaxially drives the scattering roller to rotate, the scattering roller scatters syrup on the arc-shaped supporting plate, the scattered syrup is guided to the syrup conveying belt by the scattering roller, the syrup conveying belt conveys the syrup, the syrup is conveyed to the scattering tank, and through the transmission arrangement, the stirring equipment pre-mixes the syrup through a spiral auger before the syrup is scattered, and then scatters the syrup through the matching of the scattering roller and the arc-shaped supporting plate, so that the syrup is not caked before being scattered, and meanwhile, the syrup which is relatively thick is scattered, and carbon dioxide can be fully and efficiently filled into the syrup during subsequent scattering;

the stirring motor is started, the stirring motor drives the stirring frame to rotate through the driving main shaft, the driving main shaft drives the central tooth to rotate, the central tooth is matched with the two planet gears to drive the two vertical shafts to rotate, the stirring frame and the stirring arm stir the syrup in the puffing tank, meanwhile, the temporary storage tank conveys the carbon dioxide towards the puffing tank through the connecting pipe, the carbon dioxide is conveyed into the puffing tank through the gas collecting hole in the gas collecting plate, when the connecting pipe is blocked, the internal pressure of the connecting pipe is increased, the pressure leading-out pipe presses the pressure sensor, the pressure sensor closes the controller, the controller closes the electromagnetic valve, the temporary storage tank stops conveying the carbon dioxide to the puffing tank, through the structural arrangement, the stirring device can efficiently stir the syrup while puffing, when the connecting pipe between the temporary storage tank and the puffing tank is blocked, through the design of the pressure leading-out pipe, the electromagnetic valve can be closed in time, and the explosion caused by overlarge pressure in the connecting pipe is effectively prevented.

Drawings

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

FIG. 1 is a schematic structural diagram of a stirring device for popping candy production according to the invention;

FIG. 2 is a view showing the internal structure of the process chamber of the present invention;

FIG. 3 is a side view of the arcuate pallet of the present invention;

FIG. 4 is a drive view of the drive motor of the present invention;

FIG. 5 is a view showing the internal structure of the expansion tank of the present invention;

FIG. 6 is an internal structural view of the connecting tube of the present invention;

fig. 7 is a schematic structural view of the gas collecting plate of the present invention.

In the figure: 1. a support frame; 2. a puffing tank; 3. a processing cavity; 4. putting the syrup into a hopper; 5. a premix barrel; 6. a spiral flood dragon; 7. a pre-mixing motor; 8. a syrup outlet; 9. a guide plate; 10. an arc-shaped supporting plate; 11. scattering the roller; 12. a connecting seat; 13. a rotating arm; 14. a right-angled arm; 15. a first driving roller; 16. a second driving roller; 17. a syrup conveying belt; 18. a drive motor; 19. a first belt pulley; 20. a first wheel disc; 21. a second belt pulley; 22. a second wheel disc; 23. a first gear; 24. a second gear; 25. a stirring frame; 26. an upright shaft; 27. driving the main shaft; 28. a stirring motor; 29. a central tooth; 30. a planet gear; 31. a temporary storage tank; 32. a connecting pipe; 33. a gas collecting plate; 34. a pressure outlet pipe; 35. a controller; 36. an electromagnetic valve.

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. 1-7, the invention relates to a stirring device for producing popping candy, which comprises a support frame 1 and a puffing tank 2, wherein a processing cavity 3 is arranged on the support frame 1, a syrup inlet hopper 4 is arranged on the processing cavity 3, a premixing barrel 5 is arranged in the processing cavity 3, a spiral dragon 6 is arranged in the premixing barrel 5 in a horizontal rotating manner, the spiral dragon 6 is used for conveying syrup, a syrup outlet 8 is arranged on the premixing barrel 5, and the bottom wall of one side of the processing cavity 3 is an inclined plane;

the guide plate 9 is arranged in the inner cavity of the processing cavity 3, the scattering roller 11 is rotatably arranged in the inner cavity of the processing cavity 3 in the horizontal direction, the arc-shaped supporting plate 10 is arranged below the scattering roller 11, two connecting seats 12 are arranged on the arc-shaped supporting plate 10, the rotating arm 13 is rotatably arranged on the connecting seats 12, the right-angle arm 14 is rotatably arranged on the rotating arm 13, the right-angle arm 14 is rotatably arranged on the driving roller I15, the driving roller II 16 is rotatably arranged in the processing cavity 3 in the horizontal direction, and the driving roller I15 and the driving roller II 16 are in transmission connection through a syrup;

2 inner chambers of popped jar rotate and are provided with stirring frame 25, longitudinal rotation installs two upright shaft 26 on stirring frame 25, install a plurality of stirring arms on the upright shaft 26, 2 one sides of popped jar are provided with temporary storage tank 31, temporary storage tank 31 is used for saving carbon dioxide, be provided with connecting pipe 32 between temporary storage tank 31 and the popped jar 2, vertically be provided with air collecting plate 33 in the connecting pipe 32, a plurality of gas collection holes have been seted up on the air collecting plate 33, install pressure outlet pipe 34 on the connecting pipe 32, pressure outlet pipe 34 keeps away from connecting pipe 32 one end and connects pressure sensor, pressure sensor installs on controller 35, controller 35 installs on solenoid valve 36.

Specifically, popped jar 2 sets up with support frame 1 is adjacent, and processing chamber 3 is installed in 1 top of support frame, and the syrup is gone into to fight 4 and is installed in 3 top one sides in processing chamber, and it is corresponding to go into to fight 4 with the syrup in advance a section of thick bamboo 5, and it is linked together to go into to fight 4 with the syrup in advance a section of thick bamboo 5, and pre-mixing motor 7 is installed to 3 lateral walls in processing chamber, and pre-mixing motor 7 and 6 one-to-one of spiral flood dragon, pre-mixing motor.

Guide plate 9 is corresponding with syrup export 8, and guide plate 9 is the slope and sets up in process chamber 3, and guide plate 9 and arc layer board 10 sliding connection, two connecting seat 12 symmetries are installed in arc layer board 10 both sides, and two right angle arm 14 symmetries are installed in a drive roller 15 both sides, and a drive roller 15 sets up under arc layer board 10, and a drive roller 15 sets up in same height with two 16 drive rollers.

Install driving motor 18 on support frame 1, driving motor 18 sets up in processing chamber 3 below, driving motor 18 is used for driving pulley 19 rotatory, pulley 19 is through belt drive connection rim plate one 20, 20 one side of rim plate is provided with pulley two 21, rim plate one 20, the equal coaxial coupling of drive roller two 16, pulley two 21 is through belt drive connection rim plate two 22, rim plate two 22 one side is provided with gear one 23, rim plate two 22 coaxial coupling, gear one 23 meshes and connects gear two 24, gear two 24 with break up roller 11 coaxial coupling.

A plurality of stirring arms are welded and fixed on an upright shaft 26 at equal intervals, a driving main shaft 27 is longitudinally arranged on a stirring frame 25, a stirring motor 28 is arranged in the middle of the top of the outer wall of the puffing tank 2, the stirring motor 28 corresponds to the driving main shaft 27, the stirring motor 28 is used for driving the driving main shaft 27 to rotate, a central tooth 29 is sleeved on the driving main shaft 27, a planetary gear 30 is sleeved on the top of the upright shaft 26, the planetary gear 30 is meshed with the central tooth 29, the two central teeth 29 are annularly distributed on the periphery of the planetary gear 30 in equal radian, and the central tooth 29 and the planetary gear 30 are both arranged above the stirring frame.

The temporary storage tank 31 is communicated with the puffing tank 2 through a connecting pipe 32, and a plurality of gas collecting holes are arranged on a gas collecting plate 33 in an equidistant rectangular array shape.

The solenoid valve 36 is installed on the connection pipe 32, and the controller 35 is used for controlling the on-off of the solenoid valve 36.

Referring to fig. 1-7, the operation process of the stirring device for producing popping candy of the present embodiment is as follows:

the method comprises the following steps: pouring boiled syrup into a syrup inlet hopper 4, enabling the syrup to enter a premixing barrel 5 in a processing cavity 3 through the syrup inlet hopper 4, starting a premixing motor 7, driving a spiral flood dragon 6 to rotate by the premixing motor 7, pre-mixing the syrup by the spiral flood dragon 6 and conveying the syrup towards a syrup outlet 8, conveying the pre-mixed syrup out of the syrup outlet 8, dripping the pre-mixed syrup on a guide plate 9, and flowing onto an arc-shaped supporting plate 10 under the guide of the guide plate 9;

step two: the driving motor 18 is started, the driving motor 18 drives the first belt pulley 19 to rotate, the first belt pulley 19 drives the first wheel disc 20 to rotate through a belt, the first wheel disc 20 coaxially drives the second driving roller 16 and the second belt pulley 21 to rotate, the second driving roller 16 is matched with the first driving roller 15 to drive the syrup conveying belt 17 to rotate, the first driving roller 15 drives the two right-angle arms 14 to rotate, the two right-angle arms 14 are matched with the two rotating arms 13 and the two connecting seats 12 to drive the arc-shaped supporting plate 10 to repeatedly lift, the second belt pulley 21 drives the second wheel disc 22 to rotate through the belt, the second wheel disc 22 coaxially drives the first gear 23 to rotate, the first gear 23 is meshed with the second gear 24 to drive the second gear 24 to rotate, the second gear 24 coaxially drives the scattering roller 11 to rotate, the scattering roller 11 scatters syrup on the arc-shaped supporting plate 10, the scattered syrup is guided to the syrup conveying belt 17, the syrup conveying;

step three: the stirring motor 28 is started, the stirring motor 28 drives the stirring frame 25 to rotate through the driving main shaft 27, the driving main shaft 27 drives the central gear 29 to rotate, the central gear 29 is matched with the two planet gears 30 to drive the two vertical shafts 26 to rotate, the stirring frame 25 and the stirring arms stir the syrup in the puffing tank 2, meanwhile, the temporary storage tank 31 conveys carbon dioxide towards the inside of the puffing tank 2 through the connecting pipe 32, the carbon dioxide is conveyed into the puffing tank 2 through the gas collecting holes in the gas collecting plate 33, when blockage occurs in the connecting pipe 32, the internal pressure of the connecting pipe 32 is increased, the pressure is exerted towards the pressure sensor by the pressure leading-out pipe 34, the pressure sensor closes the controller 35, the electromagnetic valve 36 is closed by the controller 35, and the temporary storage tank 31 stops conveying the carbon dioxide to the.

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