CN117358079B - Material stirring device for chocolate candy processing - Google Patents

Abstract

The invention relates to the field of material stirring, in particular to a material stirring device for chocolate sugar processing. The stirring device comprises a stirring barrel assembly, wherein the top of the stirring barrel assembly is movably clamped with a positioning assembly, the output end of the positioning assembly is provided with a stirring assembly, an auxiliary stirring assembly is arranged in the stirring barrel assembly, and a grinding assembly is sleeved on the auxiliary stirring assembly; according to the invention, after the water source rises to the specified temperature, the auxiliary box is heated at constant temperature, and meanwhile, the stirring barrel is heated, the vibrating motor is started to grind the equivalent granular materials remained on the surface of the filter screen in a reciprocating manner, so that the problem that the granular materials are inconvenient to screen is solved, the material preheating effect is improved, and the subsequent stirring effect is improved; the second motor is started to drive the stirring rod to rotate automatically, and the third motor is started to drive the stirring rod to carry out sliding stirring, so that the stirring effect of the device is improved, and the stirring compatible effect of the device is improved.

Description

Material stirring device for chocolate candy processing

Technical Field

The invention belongs to the technical field of material stirring, and particularly relates to a material stirring device for chocolate candy processing.

Background

Chocolate, also known as chocolate, is a type of candy made from cocoa bean products as the main raw material.

Through searching, in the prior art, chinese patent publication No.: CN109894039a, publication date: 2019-06-18, discloses a chocolate processing material stirring device, which comprises a box body and a base, wherein the upper end of the box body is provided with a motor, the output end of the motor is provided with a rotating shaft, a spiral conveying blade is arranged on the rotating shaft, the outer side of the spiral conveying blade is provided with a cylinder body, the lower end of the cylinder body is provided with a feeding port, and the chocolate processing material stirring device is simple in structure, convenient to use, good in stirring effect, high in stirring efficiency and convenient to move.

The device still has the following drawbacks: the stirring device has the advantages that the stirring device cannot be used for heating the materials in a dispersing manner before stirring the materials, so that the subsequent stirring effect of the materials is low in efficiency, the same amount of particles can be added for stirring, the stirring uniformity effect cannot be guaranteed, and the stirring compatibility effect of the stirring device is reduced while the stirring uniformity effect of the stirring device is reduced.

Disclosure of Invention

The invention provides a material stirring device for chocolate sugar processing. Including agitator subassembly, agitator subassembly top activity joint has the positioning subassembly, install the stirring subassembly on the output of positioning subassembly, be provided with supplementary stirring subassembly in the agitator subassembly, the last grinding component that has cup jointed of supplementary stirring subassembly.

The stirring barrel assembly comprises a constant temperature barrel, the stirring barrel is installed in constant temperature barrel bottom inner wall center department, the stirring assembly includes disc body and a plurality of fourth electric putter of group, a plurality of smooth chambeies of group have been seted up to the bottom of disc body be annular array, be annular array and be provided with a plurality of third motors of group on the inner wall of disc body, every group the output of third motor is all transmitted and is connected with a set of threaded rod, every group all install a set of second motor on the output of fourth electric putter, every group all transmitted and is connected with a set of puddler on the output of second motor, supplementary stirring assembly includes the auxiliary tank, grinding assembly is including cup jointing ring and a plurality of filter screen of group.

Further, a plurality of first joint holes of group have been seted up to constant temperature bucket top edge in annular array, the intercommunication has the conveying pipeline on the outer wall of constant temperature bucket, the other end intercommunication of conveying pipeline has the storage case, first control valve is installed to the junction of storage case and conveying pipeline, the one end intercommunication that the conveying pipeline was kept away from to constant temperature bucket has the water injection pipe, the second control valve is installed to the other end of water injection pipe, be annular array on the bottom inner wall edge of constant temperature bucket and distribute a plurality of groups of heating blocks, the intercommunication has the vacuum tube on the outer wall of agitator, install the water pump on the outer wall of vacuum tube.

Further, the positioning assembly comprises a sealing disc, a plurality of groups of first clamping rods are distributed on the edge of the bottom of the sealing disc in an annular array, the first clamping rods are movably clamped with the first clamping holes, a first electric push rod is installed at the bottom of the sealing disc, a limiting ring is installed at the output end of the first electric push rod, the outer wall of the limiting ring is in sliding fit with the inner wall of the constant temperature barrel, and the inner wall is in sliding fit with the outer wall of the stirring barrel.

Further, a second electric push rod is arranged at the bottom of the limiting ring, a clamping cylinder is arranged at the output end of the second electric push rod, a third electric push rod is arranged at the center of the bottom of the sealing disc, and a first motor is arranged at the output end of the third electric push rod.

Further, the top transmission of disc body is connected on the output of first motor, the outer wall slip laminating of disc body is on the inner wall of agitator, every group equal threaded connection has a set of sliding block on the threaded rod, every group the equal sliding connection of sliding block is in the sliding chamber, every group the top of fourth electric putter is all installed on the sliding block bottom.

Further, the outer wall of the auxiliary tank is communicated with a first communication pipe, a third control valve is arranged at the joint of the first communication pipe and the conveying pipe, a second communication pipe is communicated with the bottom of the auxiliary tank, a fourth control valve is arranged at the joint of the second communication pipe and the auxiliary tank, a fifth control valve is arranged at the joint of the second communication pipe and the stirring barrel, and a sleeve pipe is clamped at the center of the top of the auxiliary tank.

Further, slip laminating has the catch bar in the overlapping pipe, the one end and the joint section of thick bamboo activity joint of catch bar, the push plate is installed to the one end that the joint section of thick bamboo was kept away from to the catch bar, the outer wall slip laminating of push plate is on the inner wall of auxiliary tank, cup jointed the rectangular plate on the outer wall of catch bar, cup jointed the bottom of rectangular plate and install and press the spring, press the other end of spring to install on the top of auxiliary tank.

Further, cup joint the inner wall of ring and cup joint on the outer wall of catch bar, cup joint the bottom of ring and be annular array and distribute and have a plurality of groups of fifth electric putter, every group all install a set of slip post on the output of fifth electric putter, every group the equal sliding connection of outer wall of slip post is on pressing the dish, every group all slide the laminating on the outer wall of slip post and have a set of first protection ring, every group the top of first protection ring is all installed on pressing the bottom of dish.

Further, every group all be annular array on the bottom edge of first protection ring and seted up a plurality of groups of second joint holes, install sixth electric putter on the bottom of first protection ring, install the grinding ring on the output of sixth electric putter, the laminating of grinding ring's inner wall slip is on the outer wall of slip post, every group a set of vibrating motor case is all installed to the bottom of slip post, every group vibrating motor incasement all is provided with a set of vibrating motor, every group all the transmission is connected with a set of connection pad on vibrating motor's the output.

Further, every group the inner wall of filter screen all cup joints on one of them a set of connection pad, every group all install a set of second protection ring on the outer wall of filter screen, every group all be annular array distribution on the top edge of second protection ring and have a plurality of groups of second clamping bars.

The beneficial effects of the invention are as follows:

1. after the water source rises to the specified temperature, the auxiliary box is heated at constant temperature, and meanwhile, the stirring barrel is heated, the vibrating motor is started to grind the equivalent granular materials remained on the surface of the filter screen in a reciprocating manner, so that the problem that the granular materials are inconvenient to screen is solved, the material preheating effect is improved, and the subsequent stirring effect is improved; the second motor is started to drive the stirring rod to rotate automatically, and the third motor is started to drive the stirring rod to carry out sliding stirring, so that the stirring effect of the device is improved, and the stirring compatible effect of the device is improved.

2. The second control valve is opened, the constant-temperature barrel is irrigated through the water injection pipe, water injection is stopped after the water level overflows the first communication pipe, and then the heating block is started to heat the water source, so that the problem that materials are stuck to the inner wall of the stirring barrel is avoided while the subsequent stirring effect is improved, and the mixing effect of the subsequent stirring of the materials is improved; and after the follow-up stirring work is finished, the water source of accessible slow cooling plays the preheating effect to the material after the stirring, has improved follow-up clean effect when having avoided suddenly cooling to lead to the problem that the material solidifies.

3. The first electric push rod is started to drive the limit ring to descend, and the limit ring extrudes air between the limit ring and the inner wall of the bottom of the constant-temperature barrel in the descending process, so that the pressure intensity is increased, the preheating speed is increased, and the preheating temperature is increased; then in order to improve the uniform heating effect of the materials, the vibration motor is started to drive the filter screen to start vibrating, and the filter screen slowly rises in the vibrating process, so that the dispersed heating effect is improved while the accumulation of the materials is avoided.

4. When materials are required to be conveyed into the stirring barrel, the fifth electric push rod is started to drive the second protection ring to rise, so that the conveying of the materials by the follow-up pressing disc is assisted, and meanwhile, the grinding ring is started to be in sliding fit with the top of the filter screen, so that the phenomenon that materials remain in the second protection ring in the follow-up material conveying process is avoided; after the subsequent material is conveyed, the first control valve and the third control valve are opened, so that the materials required to be stirred in the second batch flow into the auxiliary box to be preheated, and the working progress of the device is accelerated.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic diagram of a material stirring device according to an embodiment of the invention;

FIG. 2 shows a schematic structural view of a mixing bowl assembly according to an embodiment of the invention;

FIG. 3 shows a schematic cross-sectional view of a thermostatic cartridge according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a positioning assembly according to an embodiment of the invention;

FIG. 5 illustrates a schematic cross-sectional view of a stirring assembly according to an embodiment of the present invention;

FIG. 6 shows a schematic diagram of an auxiliary stirring assembly according to an embodiment of the present invention;

FIG. 7 shows a schematic cross-sectional view of an auxiliary tank according to an embodiment of the invention;

FIG. 8 illustrates a schematic view of an abrasive assembly structure according to an embodiment of the present disclosure;

FIG. 9 shows a schematic view of a first guard ring structure according to an embodiment of the invention;

fig. 10 shows a schematic diagram of a second protection ring according to an embodiment of the present invention.

In the figure: 1. a mixing drum assembly; 101. a constant temperature barrel; 102. a stirring barrel; 103. a first clamping hole; 104. a material conveying pipe; 105. a storage bin; 106. a first control valve; 107. a water injection pipe; 108. a second control valve; 109. a heating block; 110. a vacuum tube; 111. a water pump; 2. a positioning component; 201. a sealing disc; 202. a first clamping rod; 203. a first electric push rod; 204. a limit circular ring; 205. a second electric push rod; 206. a clamping cylinder; 207. a third electric push rod; 208. a first motor; 3. a stirring assembly; 301. a disc body; 302. a threaded rod; 303. a sliding cavity; 304. a sliding block; 305. a fourth electric push rod; 306. a second motor; 307. a stirring rod; 308. a third motor; 4. an auxiliary stirring assembly; 401. an auxiliary box; 402. a first communication pipe; 403. a third control valve; 404. a second communicating pipe; 405. a fourth control valve; 406. a fifth control valve; 407. a ferrule; 408. a push rod; 409. sleeving a rectangular plate; 410. pressing the spring; 411. pressing a disc; 5. a grinding assembly; 501. sleeving a circular ring; 502. a fifth electric push rod; 503. a sliding column; 504. a first protective ring; 505. a second clamping hole; 506. a sixth electric push rod; 507. a grinding ring; 508. a vibrating motor case; 509. a connecting disc; 510. a filter screen; 511. a second protective ring; 512. and a second clamping connection rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides a material stirring device for chocolate candy processing. Including agitator subassembly 1, exemplary, as shown in fig. 1, agitator subassembly 1 top activity joint has the positioning subassembly 2, install stirring subassembly 3 on the output of positioning subassembly 2, be provided with supplementary stirring subassembly 4 in the agitator subassembly 1, grinding component 5 has been cup jointed on the supplementary stirring subassembly 4.

As shown in fig. 2 and 3, the stirring tank assembly 1 includes a constant temperature tank 101, a stirring tank 102 is installed at the center of the inner wall of the bottom of the constant temperature tank 101, a plurality of groups of first clamping holes 103 are formed in the edge of the top of the constant temperature tank 101 in an annular array, a conveying pipe 104 is communicated with the outer wall of the constant temperature tank 101, a storage tank 105 is communicated with the other end of the conveying pipe 104, a first control valve 106 is installed at the joint of the storage tank 105 and the conveying pipe 104, a water injection pipe 107 is communicated with one end of the constant temperature tank 101 far away from the conveying pipe 104, a second control valve 108 is installed at the other end of the water injection pipe 107, a plurality of groups of heating blocks 109 are distributed in an annular array on the edge of the inner wall of the bottom of the constant temperature tank 101, a vacuum pipe 110 is communicated with the outer wall of the stirring tank 102, and a water pump 111 is installed on the outer wall of the vacuum pipe 110.

As shown in fig. 4, the positioning assembly 2 includes a sealing disc 201, a plurality of groups of first clamping rods 202 are distributed on the edge of the bottom of the sealing disc 201 in an annular array, the first clamping rods 202 are movably clamped with the first clamping holes 103, a first electric push rod 203 is installed at the bottom of the sealing disc 201, a limiting ring 204 is installed on the output end of the first electric push rod 203, the outer wall of the limiting ring 204 is slidably attached to the inner wall of the constant temperature barrel 101, the inner wall is slidably attached to the outer wall of the stirring barrel 102, a second electric push rod 205 is installed at the bottom of the limiting ring 204, a clamping cylinder 206 is installed at the output end of the second electric push rod 205, a third electric push rod 207 is installed at the center of the bottom of the sealing disc 201, and a first motor 208 is installed at the output end of the third electric push rod 207.

Before the raw material mixing device works, the second control valve 108 is started firstly, the constant temperature barrel 101 is irrigated through the water injection pipe 107, water injection is stopped after the water level overflows the first communication pipe 402, then the heating block 109 is started to heat the water source, the auxiliary box 401 is heated at constant temperature when the water level rises to a specified temperature, the heating effect is achieved on the stirring barrel 102, the problem that materials are adhered to the inner wall of the stirring barrel 102 is avoided when the subsequent stirring effect is improved, the mixing effect of the subsequent stirring of the materials is improved, the preheating effect is achieved on the stirred materials through the water source capable of slowly cooling down after the subsequent stirring work is finished, the problem that the materials solidify due to sudden cooling is avoided, in order to accelerate the preheating speed and improve the preheating temperature, the first electric push rod 203 is started to drive the limiting ring 204 to descend, the limiting ring 204 is extruded with air between the inner wall of the bottom of the constant temperature barrel 101 in the descending process, the preheating speed is accelerated, and the preheating temperature is improved.

The first clamping hole 103 is movably clamped with the first clamping rod 202 in the heating process, so that the constant temperature barrel 101 is in a closed state, the clamping barrel 206 is positioned right above the pushing rod 408, and the outer wall of the disc body 301 is in sliding fit on the inner wall of the stirring barrel 102.

As shown in fig. 5, the stirring assembly 3 includes a disc body 301, the top of the disc body 301 is in transmission connection with the output end of the first motor 208, the outer wall of the disc body 301 is in sliding fit with the inner wall of the stirring barrel 102, a plurality of groups of sliding cavities 303 are formed in the bottom of the disc body 301 in a ring array, a plurality of groups of third motors 308 are rotatably connected in the sliding cavities 303, the inner wall of the disc body 301 is provided with a plurality of groups of third motors 308 in a ring array, the output ends of the third motors 308 are in transmission connection with one group of the threaded rods 302, each group of the threaded rods 302 is in threaded connection with a group of sliding blocks 304, each group of sliding blocks 304 is in sliding connection with the sliding cavities 303, a group of fourth electric push rods 305 are mounted at the bottom of each group of sliding blocks 304, and a group of stirring rods 307 are in transmission connection with the output ends of each group of the second motors 306.

After the materials are conveyed into the stirring barrel 102, the fifth control valve 406 is closed, the third electric push rod 207 is started to drive a plurality of groups of stirring rods 307 to enter the materials, then a water source placed in the constant-temperature barrel 101 is sucked into the stirring barrel 102 through the vacuum tube 110 by the water pump 111, the first motor 208 is started to drive the disc body 301 to start rotating and stirring along with the water source, the second motor 306 is started to drive the stirring rods 307 to rotate automatically so as to improve the stirring effect, the third motor 308 is started to drive the threaded rods 302 to rotate so as to improve the thoroughly of the stirring of the materials, the threaded rods 302 drive the sliding blocks 304 to slide in the sliding cavities 303, and the stirring rods 307 are driven to slide in the sliding cavities 303 so as to improve the stirring effect and the stirring uniformity of the device.

As shown in fig. 6 and 7, the auxiliary stirring assembly 4 includes an auxiliary tank 401, a first communication pipe 402 is communicated with an outer wall of the auxiliary tank 401, a third control valve 403 is installed at a connection position of the first communication pipe 402 and the conveying pipe 104, a second communication pipe 404 is communicated with a bottom of the auxiliary tank 401, a fourth control valve 405 is installed at a connection position of the second communication pipe 404 and the auxiliary tank 401, a fifth control valve 406 is installed at a connection position of the second communication pipe 404 and the stirring barrel 102, a sleeve pipe 407 is clamped at a center of the top of the auxiliary tank 401, a pushing rod 408 is slidably attached to the sleeve pipe 407, one end of the pushing rod 408 is movably clamped with the clamping cylinder 206, a pressing 411 is installed at one end of the pushing rod 408 away from the clamping cylinder 206, an outer wall of the pressing disc 411 is slidably attached to an inner wall of the auxiliary tank 401, a pressing spring 410 is installed at the bottom of the sleeve plate 409, and the other end of the pressing spring 410 is installed at the top of the sleeve plate 401.

The second electric push rod 205 is started to drive the clamping cylinder 206 to descend, the clamping cylinder 206 is clamped with the pushing rod 408 after descending, then the fourth control valve 405 and the fifth control valve 406 are simultaneously opened, the second electric push rod 205 pushes the pushing rod 408 to descend, the pressing plate 411 is driven to descend in the descending process of the pushing rod 408, and the material is driven to enter the stirring barrel 102 through the second communicating pipe 404 in the descending process of the pressing plate 411.

In the process that the second electric push rod 205 pushes the push rod 408 to descend, the sleeve-joint rectangular plate 409 is driven to apply pressure to the pressing spring 410, when the second electric push rod 205 stops pushing, the pressing spring 410 starts to rebound, the push rod 408 is driven to reset and then used for next material conveying work, and when the subsequent material conveying is finished, the first control valve 106 and the third control valve 403 are opened, so that the second batch of materials needing to be stirred flow into the auxiliary box 401 to perform preheating work.

As shown in fig. 8, 9 and 10, the grinding assembly 5 includes a sleeve ring 501, an inner wall of the sleeve ring 501 is sleeved on an outer wall of the push rod 408, a plurality of groups of fifth electric push rods 502 are distributed in an annular array at the bottom of the sleeve ring 501, a group of sliding columns 503 are installed on output ends of each group of fifth electric push rods 502, outer walls of each group of sliding columns 503 are slidably connected to the pressing plate 411, a group of first protection rings 504 are slidably attached to outer walls of each group of sliding columns 503, tops of each group of first protection rings 504 are installed on the bottom of the pressing plate 411, a plurality of groups of second clamping holes 505 are formed in an annular array at edges of bottoms of each group of first protection rings 504, a sixth electric push rod 506 is installed on the bottoms of the first protection rings 504, the grinding ring 507 is installed on the output of the sixth electric putter 506, the inner wall of grinding ring 507 is slidingly attached to the outer wall of the sliding column 503, a group of vibrating motor boxes 508 are installed at the bottom of the sliding column 503, a group of vibrating motors are arranged in the vibrating motor boxes 508, a group of connecting discs 509 are connected to the output of the vibrating motors in a transmission mode, a group of filter screens 510 are sleeved on the outer wall of each connecting disc 509, a group of second protection circular rings 511 are installed on the outer wall of each filter screen 510, a plurality of groups of second clamping rods 512 are distributed on the top edge of each second protection circular ring 511 in an annular array mode, and the second clamping holes 505 are movably clamped with the second clamping rods 512.

The fifth electric push rod 502 is started to drive the bottoms of the groups of connecting discs 509 to be in sliding fit on the inner wall of the bottom of the auxiliary box 401, then the first control valve 106 is started, and the third control valve 403 is started at the same time, so that chocolate sugar processing materials placed in the storage box 105 flow into the auxiliary box 401, flow into the parts right above the groups of filter screens 510 evenly and equally, and heat the materials through the heated auxiliary box 401 in the conveying process.

In order to improve the even heating effect of material, start vibrating motor and drive filter screen 510 and begin vibrations, slowly rise in its vibrations in-process, improved dispersed heating effect when having avoided the material to pile up, when the filter screen risees to breaking away from the material, there is equivalent granular material to remain to the filter screen 510 on the surface, drive filter screen 510 and remove to the direction that is close to first protection ring 504 afterwards, drive grinding ring 507 through sixth electric putter 506 and descend to the filter screen surface afterwards, smash granular material afterwards, cooperation vibrating motor filters the material that finishes to the material that is carrying out heating through filter screen 510 in, reciprocating motion, material preheating effect has been improved when having avoided the inconvenient screening problem of granular material, follow-up stirring effect has been improved.

When the material needs to be conveyed into the stirring barrel 102, the fifth electric push rod 502 is started to drive the second protection ring 511 to rise, and then the second clamping hole 505 and the second clamping rod 512 are driven to be movably clamped for assisting the conveying of the material by the follow-up pressing disc 411, and meanwhile, the grinding ring 507 is started to be in sliding fit with the top of the filter screen 510, so that the material is prevented from remaining in the second protection ring 511 in the follow-up material conveying process.

After the water source rises to the specified temperature, the auxiliary box 401 is heated at constant temperature, the stirring barrel 102 is heated, the vibrating motor is started to grind the equivalent granular materials remained on the surface of the filter screen 510 in a reciprocating manner, so that the problem that the granular materials are inconvenient to screen is solved, the material preheating effect is improved, and the subsequent stirring effect is improved; the second motor 306 is started to drive the stirring rod 307 to rotate automatically, and the third motor 308 is started to drive the stirring rod 307 to stir in a sliding manner, so that the stirring uniformity effect of the device is improved, and meanwhile, the stirring compatibility effect of the device is improved.

The second control valve 108 is opened, the constant-temperature barrel 101 is irrigated through the water injection pipe 107, water injection is stopped after the water level overflows the first communication pipe 402, and then the heating block 109 is started to heat the water source, so that the problem that materials are stuck to the inner wall of the stirring barrel 102 is avoided while the subsequent stirring effect is improved, and the mixing effect of the subsequent stirring of the materials is improved; and after the follow-up stirring work is finished, the water source of accessible slow cooling plays the preheating effect to the material after the stirring, has improved follow-up clean effect when having avoided suddenly cooling to lead to the problem that the material solidifies.

Starting the first electric push rod 203 to drive the limit circular ring 204 to descend, and extruding air between the limit circular ring 204 and the inner wall of the bottom of the constant temperature barrel 101 in the descending process, so that the pressure intensity is increased, the preheating speed is increased, and the preheating temperature is increased; then, in order to improve the uniform heating effect of the materials, the vibration motor is started to drive the filter screen 510 to start vibrating, and the vibration motor slowly rises in the vibrating process, so that the material accumulation is avoided, and meanwhile, the dispersed heating effect is improved.

When the materials need to be conveyed into the stirring barrel 102, the fifth electric push rod 502 is started to drive the second protection ring 511 to ascend so as to assist the follow-up pressing disc 411 in conveying the materials, and meanwhile, the grinding ring 507 is started to be in sliding fit with the top of the filter screen 510, so that the materials are prevented from remaining in the second protection ring 511 in the follow-up material conveying process; after the subsequent material is conveyed, the first control valve 106 and the third control valve 403 are opened, so that the second batch of material to be stirred flows into the auxiliary box 401 to be preheated, and the working progress of the device is accelerated.

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (3)

1. The utility model provides a chocolate processing is with material agitating unit, includes agitator subassembly (1), its characterized in that: the top of the stirring barrel assembly (1) is movably clamped with a positioning assembly (2), the output end of the positioning assembly (2) is provided with a stirring assembly (3), an auxiliary stirring assembly (4) is arranged in the stirring barrel assembly (1), and the auxiliary stirring assembly (4) is sleeved with a grinding assembly (5);

the stirring barrel assembly (1) comprises a constant temperature barrel (101), a stirring barrel (102) is arranged at the center of the inner wall of the bottom of the constant temperature barrel (101), the auxiliary stirring assembly (4) comprises an auxiliary box (401), and the grinding assembly (5) comprises a sleeved circular ring (501) and a plurality of groups of filter screens (510); a plurality of groups of first clamping holes (103) are formed in the edge of the top of the constant temperature barrel (101) in an annular array mode, a conveying pipe (104) is communicated with the outer wall of the constant temperature barrel (101), a storage box (105) is communicated with the other end of the conveying pipe (104), a first control valve (106) is arranged at the joint of the storage box (105) and the conveying pipe (104), a water injection pipe (107) is communicated with one end, far away from the conveying pipe (104), of the constant temperature barrel (101), a second control valve (108) is arranged at the other end of the water injection pipe (107), a plurality of groups of heating blocks (109) are distributed on the edge of the inner wall of the bottom of the constant temperature barrel (101) in an annular array mode, a vacuum pipe (110) is communicated with the outer wall of the stirring barrel (102), and a water pump (111) is arranged on the outer wall of the vacuum pipe (110); the positioning assembly (2) comprises a sealing disc (201), a plurality of groups of first clamping rods (202) are distributed at the edge of the bottom of the sealing disc (201) in an annular array, the first clamping rods (202) are movably clamped with the first clamping holes (103), a first electric push rod (203) is installed at the bottom of the sealing disc (201), a limiting circular ring (204) is installed at the output end of the first electric push rod (203), the outer wall of the limiting circular ring (204) is in sliding fit on the inner wall of the constant temperature barrel (101), and the inner wall is in sliding fit on the outer wall of the stirring barrel (102); the bottom of the limiting ring (204) is provided with a second electric push rod (205), the output end of the second electric push rod (205) is provided with a clamping cylinder (206), the bottom center of the sealing disc (201) is provided with a third electric push rod (207), and the output end of the third electric push rod (207) is provided with a first motor (208); the outer wall of the auxiliary tank (401) is communicated with a first communication pipe (402), a third control valve (403) is arranged at the joint of the first communication pipe (402) and the conveying pipe (104), a second communication pipe (404) is communicated with the bottom of the auxiliary tank (401), a fourth control valve (405) is arranged at the joint of the second communication pipe (404) and the auxiliary tank (401), a fifth control valve (406) is arranged at the joint of the second communication pipe (404) and the stirring barrel (102), and a sleeve pipe (407) is clamped at the center of the top of the auxiliary tank (401); the push rod (408) is slidably attached to the sleeve pipe (407), one end of the push rod (408) is movably clamped with the clamping cylinder (206), a pressing disc (411) is arranged at one end, far away from the clamping cylinder (206), of the push rod (408), the outer wall of the pressing disc (411) is slidably attached to the inner wall of the auxiliary box (401), a sleeve rectangular plate (409) is sleeved on the outer wall of the push rod (408), a pressing spring (410) is arranged at the bottom of the sleeve rectangular plate (409), and the other end of the pressing spring (410) is arranged at the top of the auxiliary box (401); the inner wall of the sleeved circular ring (501) is sleeved on the outer wall of the push rod (408), a plurality of groups of fifth electric push rods (502) are distributed at the bottom of the sleeved circular ring (501) in an annular array, a group of sliding columns (503) are arranged at the output end of each group of fifth electric push rods (502), the outer wall of each group of sliding columns (503) is slidably connected to the pressing disc (411), a group of first protection circular rings (504) are slidably attached to the outer wall of each group of sliding columns (503), and the top of each group of first protection circular rings (504) is arranged at the bottom of the pressing disc (411); a plurality of groups of second clamping holes (505) are formed in the edge of the bottom of each group of first protection circular rings (504) in an annular array, a sixth electric push rod (506) is mounted on the bottom of each first protection circular ring (504), a grinding ring (507) is mounted on the output end of each sixth electric push rod (506), the inner wall of each grinding ring (507) is in sliding fit with the outer wall of a sliding column (503), a group of vibrating motor boxes (508) are mounted on the bottom of each sliding column (503), a group of vibrating motors are arranged in each vibrating motor box (508), and a group of connecting discs (509) are connected to the output ends of the vibrating motors in a transmission mode; the inner wall of every group filter screen (510) all cup joints on one of them a set of connection pad (509), every group install a set of second protection ring (511) on the outer wall of filter screen (510), every group on the top edge of second protection ring (511) all be annular array and distribute and have a plurality of second clamping pole (512) of group.

2. The material stirring device for processing chocolate sugar according to claim 1, wherein: the stirring assembly (3) comprises a disc body (301) and a plurality of groups of fourth electric push rods (305), wherein a plurality of groups of sliding cavities (303) are formed in the bottom of the disc body (301) in an annular array, a plurality of groups of third motors (308) are arranged on the inner wall of the disc body (301) in an annular array, the output ends of the third motors (308) are all in transmission connection with a group of threaded rods (302), a group of second motors (306) are all arranged on the output ends of the fourth electric push rods (305), and a group of stirring rods (307) are all in transmission connection with the output ends of the second motors (306).

3. The material stirring device for processing chocolate sugar according to claim 2, wherein: the top transmission of disc body (301) is connected on the output of first motor (208), the outer wall of disc body (301) slides and laminates on the inner wall of agitator (102), every group equal threaded connection has a set of sliding block (304) on threaded rod (302), every group sliding block (304) all sliding connection is in sliding chamber (303), every group the top of fourth electric putter (305) is all installed on sliding block (304) bottom.