CN215586396U - Automatic seasoning and mixing system for spicy strips - Google Patents

Abstract

The utility model discloses an automatic system for seasoning and mixing spicy strips, which belongs to the field of spicy strip processing devices and comprises a stirring barrel, wherein the front end of the stirring barrel is sleeved on a first connecting pipe through a first sealing bearing, the rear end of the stirring barrel is sleeved on a second connecting pipe through a second sealing bearing, a discharge hole is formed in the rear part of the stirring barrel, a first gear is sleeved outside the stirring barrel, the first gear is in meshing fit with a second gear, and the second gear is connected with an output shaft of a first motor; a stirring device is arranged in the stirring barrel and comprises a hollow shaft, stirring blades are arranged on the hollow shaft in an array mode, one end of the hollow shaft is connected with the oil inlet pipe, the other end of the hollow shaft penetrates through a second connecting pipe to enter the stirring barrel and is connected with a supporting plate in the stirring barrel, a third gear is arranged at the outer end of the hollow shaft, the third gear is matched with a fourth gear, and the fourth gear is connected with an output shaft of a second motor; and a heat radiation piece assembly is arranged on the wall of the stirring barrel.

Description

Automatic seasoning and mixing system for spicy strips

Technical Field

The utility model relates to the field of spicy strip processing devices, in particular to an automatic system for seasoning and mixing spicy strips.

Background

The spicy strips originate from the Yangtze river in Hunan in 1998, and are prepared by using wheat flour as a main raw material and auxiliary materials such as salt, sugar, water and the like as auxiliary materials through extrusion cooking, forming and cutting; then mixing and stirring the spicy hot pepper powder with oil hot pepper, spices and the like to obtain the spicy and hot leisure food. The Pingjiang people call it spicy because the spicy strip is spicy at the beginning, and the spicy taste is genuine. The spicy strips are spicy and hot in taste and unique in flavor, and are widely popular with young people. In recent years, spicy strips are endowed with the symbol of 'childhood taste' under the catalysis of network culture, and the annual output value of 600 billion yuan in the industry becomes the first 'net red' in leisure snacks.

The seasoning and stirring process is an important process in the production and processing process of the spicy strips, and the spicy strip raw materials, the edible oil, the chilli seeds and other seasonings need to be stirred and mixed together, so that the spicy strips are endowed with rich and outstanding mouthfeel. At present the material of mixing of flavouring is carried out to peppery strip to the universal adoption octagonal mixer, octagonal mixer includes the base, mixes storage bucket and motor, and the radial cross section of mixing the storage bucket is equilateral octagon, and the opening part of mixing the storage bucket is provided with mixes the material lid, mixes and is equipped with agitating unit in the material lid, and agitating unit comprises stirring vane and axis of rotation. Chinese patent with patent application number CN201922364191.0 discloses a raw materials mixer is used in peppery strip production, including base, mixing bucket, agitating unit and rotatory bulb, feeding device's lower extreme is connected with detachable agitating unit through rotatory bulb, and accessible rotatory bulb control agitating unit adjusts the stirring angle. But the material device of mixing among the prior art still has the easy too much material of adhesion of agitator inner wall, is difficult to not only clear up and influences the radiating effect of agitator for the influence to product taste and processingquality is caused to the high temperature in the bucket, and mixes the in-process part raw materials deposit easily and lead to mixing the material scheduling problem in the bottom.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems, and provides an automatic system for seasoning and mixing spicy strips.

In order to realize the purpose, the utility model adopts the technical scheme that:

the automatic spicy strip seasoning and mixing system comprises a stirring barrel, wherein the front end of the stirring barrel is sleeved on a first connecting pipe through a first sealing bearing, the rear end of the stirring barrel is sleeved on a second connecting pipe through a second sealing bearing, a discharge port is arranged at the rear part of the stirring barrel, a discharge valve is arranged at the discharge port, a first gear is sleeved outside the stirring barrel, the first gear is meshed and matched with the second gear, the second gear is connected with an output shaft of a first motor, and the front end of the first connecting pipe is connected with a feeding pipe; a stirring device is arranged in the stirring barrel and comprises a hollow shaft, stirring blades are arranged on the hollow shaft in an array mode, one end of the hollow shaft is connected with an oil inlet pipe, the other end of the hollow shaft penetrates through a second connecting pipe to enter the stirring barrel and is connected with a supporting plate in the stirring barrel, the supporting plate is L-shaped, one end of the supporting plate is connected with the pipe wall of the first connecting pipe, a third gear is arranged at the outer end of the hollow shaft, the third gear is matched with a fourth gear, and the fourth gear is connected with an output shaft of a second motor; and a heat radiation piece assembly is arranged on the wall of the stirring barrel.

Further, the feeding pipe is connected with a first connecting pipe through a first flange bearing, and the first connecting pipe is supported by a first supporting column; the oil inlet pipe is connected with the hollow shaft through a second flange bearing, the hollow shaft penetrates through a third sealing bearing of the second connecting pipe and is connected with the supporting bearing on the supporting plate, and the second connecting pipe is supported by the second supporting column.

Furthermore, an oil guide channel is arranged in the hollow shaft, the oil guide channel is connected with the oil guide branch pipe in the stirring blade, and an oil outlet is formed in the stirring blade and communicated with the oil guide branch pipe.

Furthermore, the stirring blades arranged on the hollow shaft in the array are only provided with oil outlets at one part close to the supporting plate.

Furthermore, the stirring blades are obliquely arranged on the hollow shaft, and an acute angle is formed between the vertical projection of the stirring blades and the axis of the hollow shaft.

Further, the radiating fin component comprises an internal radiating fin, and the internal radiating fin is arranged on the inner wall of the stirring barrel.

Further, be provided with a plurality of outside fin on the agitator outer wall, the agitator inner wall has been seted up a plurality of through-holes and is provided with the radiating block in the through-hole, the radiating block is connected outside fin with inside fin.

Furthermore, the external cooling fins are arranged at intervals.

The utility model has the beneficial effects that:

1. in order to solve the problem that the materials are excessively deposited at the bottom of the stirring barrel to enable the materials to be stirred unevenly, the stirring barrel is designed into a rotatable structure, and the materials are sufficiently stirred by matching with a stirring device inside the stirring barrel. The front end of the stirring barrel is sleeved on the first connecting pipe through a first sealing bearing, the rear end of the stirring barrel is sleeved on the second connecting pipe through a second sealing bearing, a first gear is sleeved on the outer wall of the stirring barrel, and the first gear is driven by the second gear to rotate so as to drive the stirring barrel to integrally rotate; the hollow shaft passes through the second connecting pipe and is connected with the supporting plate on the first connecting pipe, a third gear is arranged on the hollow shaft, and the hollow shaft is driven to rotate through the cooperation of a fourth gear of the second motor.

2. In order to solve the heat accumulation in the agitator too fast for the high problem that influences product quality of temperature in the agitator, through set up inside fin on the agitator inner wall, set up outside fin on the agitator outer wall, and link to each other through the radiating block between inside fin and the outside fin, make inside heat can be through the quick row of radiator unit and dispel. Meanwhile, the whole stirring barrel is of a rotatable structure, when the stirring barrel is in a rotating type, the windward side of the external radiating fins can be in continuous contact with new air, and radiating efficiency is further improved.

3. According to the utility model, the edible oil is fed through each stirring blade on the hollow shaft, and the oil outlet is formed only in the stirring blade at the front part of the hollow shaft, so that the raw material and the edible oil are mixed more uniformly by dispersing the oil, and the phenomenon that the edible oil enters the stirring box from the position close to the discharge port and does not contact the raw material sufficiently and flows out from the discharge port too early is also reduced.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic position diagram of the support plate of the present invention.

Fig. 3 is a schematic view of the connection between the hollow shaft and the second connecting pipe according to the present invention.

Fig. 4 is a schematic view showing that the stirring vanes of the present invention are obliquely installed on the hollow shaft.

The text labels in the figures are represented as: 1. a feed pipe; 2. a first flange bearing; 3. a first support column; 4. a first connecting pipe; 5. a first sealed bearing; 6. a support plate; 7. a stirring barrel; 8. an external heat sink; 9. a heat dissipating block; 10. an inner heat sink; 11. a first motor; 12. a first gear; 13. a second gear; 14. a discharge valve; 15. a discharge port; 16. a second support column; 17. a hollow shaft; 18. a second sealed bearing; 19. a second connecting pipe; 20. a second flange bearing; 21. an oil inlet pipe; 22. a second motor; 23. a support table; 24. a support bearing; 25. an oil outlet; 26. an oil guide branch pipe; 27. a stirring blade; 28. an oil guide channel; 29. a third sealed bearing; 30. a third gear; 31. a fourth gear.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

Please refer to fig. 1-4, which are schematic structural views of a preferred embodiment of the automated spicy strip seasoning system according to the present invention.

The automatic spicy strip seasoning and mixing system comprises a stirring barrel 7, wherein the front end of the stirring barrel 7 is sleeved on a first connecting pipe 4 through a first sealing bearing 5, the rear end of the stirring barrel 7 is sleeved on a second connecting pipe 19 through a second sealing bearing 18, a discharge port 15 is arranged at the rear part of the stirring barrel 7, a discharge valve 14 is arranged at the discharge port 15, a first gear 12 is sleeved outside the stirring barrel 7, the first gear 12 is meshed and matched with a second gear 13, the second gear 13 is connected with an output shaft of a first motor 11, and the front end of the first connecting pipe 4 is connected with a feeding pipe 1; a stirring device is arranged in the stirring barrel 7 and comprises a hollow shaft 17, stirring blades 27 are arranged on the hollow shaft 17 in an array mode, one end of the hollow shaft 17 is connected with an oil inlet pipe 21, the other end of the hollow shaft 17 penetrates through a second connecting pipe 19 to enter the stirring barrel 7 and is connected with a supporting plate 6 in the stirring barrel 7, the supporting plate 6 is L-shaped, one end of the supporting plate 6 is connected with the pipe wall of the first connecting pipe 4, a third gear 30 is arranged at the outer end of the stirring barrel 7 of the hollow shaft 17, the third gear 30 is matched with a fourth gear 31, and the fourth gear 31 is connected with an output shaft of a second motor 22; and a heat sink assembly is arranged on the wall of the stirring barrel 7.

Discharge gate 15 department is provided with bleeder valve 14, and when agitator 7 stopped to rotate and need the unloading, agitator 7 resets and makes discharge gate 15 down, opens bleeder valve 14 and hollow shaft 17 continues to rotate simultaneously, promotes the continuous ejection of compact that carries on of material.

Preferably, referring to fig. 1 and 2, the feeding pipe 1 is connected to a first connecting pipe 4 through a first flange bearing 2, and the first connecting pipe 4 is supported by a first supporting column 3; the oil inlet pipe 21 is connected with the hollow shaft 17 through the second flange bearing 20, the hollow shaft 17 passes through the third sealing bearing 29 of the second connecting pipe 19 and is connected with the supporting bearing 24 on the supporting plate 6, and the second connecting pipe 19 is supported by the second supporting column 16. Because the first connecting pipe 4 and the second connecting pipe 19 are fixedly arranged, and the stirring barrel 7 is sleeved on the first connecting pipe 4 and the second connecting pipe 19 through the first sealing bearing 5 and the second sealing bearing 18 respectively, the rotation of the stirring barrel 7 can be realized.

Preferably, as shown in fig. 1, fig. 2 and fig. 3, an oil guide channel 28 is disposed in the hollow shaft 17, the oil guide channel 28 is connected to the oil guide branch pipe 26 in the stirring blade 27, and the stirring blade 27 is provided with an oil outlet 25 communicated with the oil guide branch pipe 26.

Preferably, as shown in fig. 1 and 2, the stirring blades 27 arranged on the hollow shaft 17 in the array are provided with oil outlets 25 only at a part close to the support plate 6. Carry out the dispersion oil feed of edible oil through oil-out 25 on the stirring vane 27, can make raw materials and edible oil mix more evenly on the one hand, on the other hand, because near stirring vane 27 of discharge gate 15 does not set up oil-out 25, also make edible oil can not fully and too fast flow out from discharge gate 15 with the raw materials contact.

Preferably, as shown in fig. 4, the stirring blade 27 is obliquely disposed on the hollow shaft 17, and a vertical projection of the stirring blade 27 forms an acute angle with the axis of the hollow shaft 17. The inclined arrangement of the stirring blades 27 can play a certain role in pushing the material while stirring the material, so that the material slowly moves towards the discharge hole 15.

Preferably, referring to fig. 1 and 3, the heat sink assembly includes inner heat sinks 10, and the inner heat sinks 10 are disposed on the inner wall of the stirring barrel 7.

Preferably, referring to fig. 1 and 3, a plurality of external heat dissipation fins 8 are disposed on an outer wall of the stirring barrel 7, a plurality of through holes are disposed on an inner wall of the stirring barrel 7, and heat dissipation blocks 9 are disposed in the through holes, wherein the external heat dissipation fins 8 are connected with the internal heat dissipation fins 10 by the heat dissipation blocks 9.

Preferably, as shown in fig. 1 and fig. 3, the external fins 8 are spaced apart from each other. The inside fin 10 of agitator 7 is connected through radiating block 9 with outside fin 8, can be with the quick heat conduction of carrying on of the inside heat of agitator 7 and diverge, simultaneously, too much heat-conduction can not take place each other in the interval setting of outside fin 8, and the continuous and new air contact of the windward side of outside fin 8 has also accelerated radiating efficiency when agitator 7 pivoted.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the technical features described above may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the utility model using its spirit and scope, as defined by the claims, should be considered as protection.

Claims (8)

1. The automatic spicy strip seasoning and mixing system comprises a stirring barrel (7) and is characterized in that the front end of the stirring barrel (7) is sleeved on a first connecting pipe (4) through a first sealing bearing (5), the rear end of the stirring barrel (7) is sleeved on a second connecting pipe (19) through a second sealing bearing (18), a discharge port (15) is arranged at the rear part of the stirring barrel (7), a discharge valve (14) is arranged at the discharge port (15), a first gear (12) is sleeved outside the stirring barrel (7), the first gear (12) is meshed and matched with a second gear (13), the second gear (13) is connected with an output shaft of a first motor (11), and the front end of the first connecting pipe (4) is connected with a feeding pipe (1); a stirring device is arranged in the stirring barrel (7), the stirring device comprises a hollow shaft (17), stirring blades (27) are arranged on the hollow shaft (17) in an array mode, one end of the hollow shaft (17) is connected with the oil inlet pipe (21), the other end of the hollow shaft (17) penetrates through a second connecting pipe (19) to enter the stirring barrel (7) and is connected with a supporting plate (6) in the stirring barrel (7), the supporting plate (6) is L-shaped, one end of the supporting plate is connected with the pipe wall of the first connecting pipe (4), a third gear (30) is arranged at the outer end, located on the stirring barrel (7), of the hollow shaft (17), the third gear (30) is matched with a fourth gear (31), and the fourth gear (31) is connected with an output shaft of a second motor (22); and the wall of the stirring barrel (7) is provided with a radiating fin assembly.

2. Automated spicy seasoning system according to claim 1, characterized in that the feeding pipe (1) is connected to a first connecting pipe (4) by means of a first flange bearing (2), the first connecting pipe (4) being supported by a first support column (3); the oil inlet pipe (21) is connected with the hollow shaft (17) through a second flange bearing (20), the hollow shaft (17) penetrates through a third sealing bearing (29) of a second connecting pipe (19) and is connected with a supporting bearing (24) on the supporting plate (6), and the second connecting pipe (19) is supported by a second supporting column (16).

3. The automatic spicy seasoning and seasoning system according to claim 2, wherein an oil guide channel (28) is arranged in the hollow shaft (17), the oil guide channel (28) is connected with an oil guide branch pipe (26) in the stirring blade (27), and an oil outlet (25) is formed in the stirring blade (27) and communicated with the oil guide branch pipe (26).

4. Automated spicy seasoning system according to claim 3, characterized in that the mixing blades (27) arranged in an array on the hollow shaft (17) are provided with oil outlets (25) only in a portion close to the support plate (6).

5. Automatic spicy seasoning and mixing system according to claim 4, characterized in that the mixing blade (27) is arranged on the hollow shaft (17) in an inclined manner, and the vertical projection of the mixing blade (27) forms an acute angle with the axis of the hollow shaft (17).

6. The automated spicy seasoning mixing system according to claim 1 wherein the heat sink assembly comprises internal heat sinks (10), the internal heat sinks (10) being arranged on the inner wall of the mixing drum (7).

7. The automatic spicy seasoning and mixing system according to claim 6, wherein the outer wall of the mixing tank (7) is provided with a plurality of external heat radiating fins (8), the inner wall of the mixing tank (7) is provided with a plurality of through holes and heat radiating blocks (9) are arranged in the through holes, and the heat radiating blocks (9) connect the external heat radiating fins (8) with the internal heat radiating fins (10).

8. The automated spicy seasoning system according to claim 7 wherein the outer cooling fins (8) are spaced apart.

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