CN219698972U - Walnut dehydration equipment for producing walnut powder - Google Patents

Abstract

The utility model discloses walnut dehydration equipment for producing walnut powder, which comprises a box body, a smashing component, a recycling component and at least two hot air components, wherein during operation, the walnut powder is input from a feed inlet, under the action of the smashing component, rotating fan blades hit the walnut powder to scatter agglomerated walnut powder, the walnut powder naturally falls down, under the action of the hot air components at two sides, hot air is inclined upwards to enable the walnut powder to form a hedging state and blow upwards, so that the hot air dehydration time is longer, then under the action of a vibrating screen, the walnut powder meeting the standard granularity can pass through the vibrating screen, in the recycling component, hot air with water vapor enters a dryer from an air outlet, after moisture is removed, the walnut powder falling from the vibrating screen is transferred to a nozzle under the action of an air pump, and the walnut powder falling from the vibrating screen is dehydrated through secondary drying of the nozzle, so that the full utilization of heat is realized.

Description

Walnut dehydration equipment for producing walnut powder

Technical Field

The utility model relates to the technical field of production and processing of walnut powder, in particular to walnut dehydration equipment for producing walnut powder.

Background

The walnut can be called as antioxidant "king", and the nutritive value of the walnut is very high. The american diet association suggests that it is preferable to eat walnuts twice and three times a week, especially for middle-aged and elderly people and menopausal women, because arginine, oleic acid, antioxidant substances and the like contained in walnuts are very useful for protecting cardiovascular system, preventing coronary heart disease, stroke, senile dementia and the like. The walnut powder product belongs to solid beverage, and the high-quality walnut powder is prepared from high-quality walnut kernel, white granulated sugar and full-fat milk powder as main raw materials by the steps of walnut kernel soaking, grinding, pulp-residue separation (removing bitter brown skin), deodorization, proportioning, homogenization, concentration sterilization and drying.

However, in the related art, the material is usually directly spray-dehydrated or hot air-dried dehydrated, and the agglomeration of the walnut powder is not treated, which results in poor dehydration effect, and the hot air is usually directly discharged after drying the walnut powder, so that the heat is not fully utilized.

Disclosure of Invention

The utility model provides walnut dehydration equipment for producing walnut powder, which can break up agglomerated walnut powder, improve dehydration effect, and recover discharged hot air to carry out secondary drying on the walnut powder, so that full utilization of heat is realized.

The utility model is realized by the following technical scheme:

a walnut dehydration device for producing walnut powder comprises a box body, a breaking component, a recycling component and at least two hot air components;

the box body is internally provided with a containing cavity, the upper part of the containing cavity is connected with a feed inlet and an air outlet, a filter screen is arranged at the air outlet, the lower part of the containing cavity is connected with a discharge outlet, the lower part of the containing cavity is provided with a conical part, and the conical part is folded at the discharge outlet;

the smashing assembly comprises a motor and a rotating shaft connected with the driving end of the motor, the motor is fixed at the top of the box body, the rotating shaft vertically stretches into the accommodating cavity, and fan blades are arranged on the circumference of the rotating shaft stretching into the accommodating cavity;

the at least two hot air components are respectively arranged on two opposite sides of the accommodating cavity, the at least two hot air components are positioned below the fan blades, air outlets of the two hot air components are obliquely upwards and oppositely arranged, and a vibrating screen is horizontally arranged below the air outlets;

the recovery assembly comprises a dryer and an air pump which are sequentially communicated, the input end of the dryer is communicated with the air outlet, the output end of the air pump is connected with a plurality of nozzles, and the nozzles are installed on the inner wall of the conical part and are oppositely arranged.

Further, the number of the hot air assemblies is two.

Further, the cross section of the conical part is circular.

Further, the nozzle is disposed toward a central axis of the cone.

Further, the nozzle is oriented obliquely upward.

Further, an opening and closing window is arranged on the box body corresponding to the vibrating screen.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

the walnut dehydration equipment comprises a box body, a smashing component, a recycling component and at least two hot air components, wherein during operation, walnut powder is input from a feed inlet, under the action of the smashing component, rotating fan blades beat the walnut powder, the agglomerated walnut powder is scattered, then the walnut powder naturally falls down, under the action of the hot air components on two sides, hot air is inclined upwards, so that the walnut powder forms a opposite-impact state and is blown upwards, the hot air dehydration time is longer, then under the action of a vibrating screen, the walnut powder meeting the standard granularity can pass through the vibrating screen, in the recycling component, hot air with water vapor enters a dryer from an air outlet, after the water is removed, the walnut powder falling from the vibrating screen is dried and dehydrated through the second time of the nozzle under the action of the air pump, and finally the walnut powder is led out from a discharge outlet. According to the utility model, the agglomerated walnut powder can be smashed, the dehydration effect is improved, the discharged hot air can be recovered to carry out secondary drying on the walnut powder, and the full utilization of heat is realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a walnut dehydration device for producing walnut powder according to an embodiment of the utility model.

In the drawings, the reference numerals and corresponding part names:

10-a box body; 11-a receiving cavity; 111-a taper; 12-a feed inlet; 13-an air outlet; 14-a filter screen; 15-a discharge hole;

20-breaking up the assembly; 21-an electric motor; 22-rotating shaft; 23-flabellum;

30-a recovery assembly; 31-a dryer; 32-an air pump; 33-nozzles;

40-a hot air assembly;

50-vibrating screen.

Detailed Description

As described in the background art, the walnut can be called as antioxidant "king", and the nutritive value of the walnut is very high. The american diet association suggests that it is preferable to eat walnuts twice and three times a week, especially for middle-aged and elderly people and menopausal women, because arginine, oleic acid, antioxidant substances and the like contained in walnuts are very useful for protecting cardiovascular system, preventing coronary heart disease, stroke, senile dementia and the like. The walnut powder product belongs to solid beverage, and the high-quality walnut powder is prepared from high-quality walnut kernel, white granulated sugar and full-fat milk powder as main raw materials by the steps of walnut kernel soaking, grinding, pulp-residue separation (removing bitter brown skin), deodorization, proportioning, homogenization, concentration sterilization and drying.

However, in the related art, the material is usually directly spray-dehydrated or hot air-dried dehydrated, and the agglomeration of the walnut powder is not treated, which results in poor dehydration effect, and the hot air is usually directly discharged after drying the walnut powder, so that the heat is not fully utilized.

Based on the above, the inventor creates a walnut dehydration device for producing walnut powder, so as to solve the above technical problems.

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present utility model and the descriptions thereof are for illustrating the present utility model only and are not to be construed as limiting the present utility model.

Examples

Referring to fig. 1, a walnut dehydration apparatus for producing walnut powder includes a case 10, a breaking assembly 20, a recovery assembly 30, and at least two hot air assemblies 40. The box 10 is internally provided with a containing cavity 11, the upper part of the containing cavity 11 is connected with a feed inlet 12 and an air outlet 13, a filter screen 14 is arranged at the air outlet 13, the lower part of the containing cavity 11 is connected with a discharge outlet 15, and the lower part of the containing cavity 11 is provided with a conical part 111 and the conical part 111 is folded at the discharge outlet 15. For example, the inlet 12 may be configured as a funnel to facilitate feeding. Here, the screen 14 serves to block the walnut powder. For example, the tapered portion 111 may have a pyramid shape or a cone shape.

The breaking assembly 20 comprises a motor 21 and a rotating shaft 22 connected with the driving end of the motor 21, the motor 21 is fixed on the top of the box 10, the rotating shaft 22 vertically stretches into the accommodating cavity 11, and fan blades 23 are arranged on the circumference of the rotating shaft 22 stretching into the accommodating cavity 11. For example, the upper portion of the housing chamber 11 may have a cylindrical shape, and the fan blades 23 may cover the cylindrical cross section.

The at least two hot air components 40 are respectively installed at two opposite sides of the accommodating cavity 11, the at least two hot air components 40 are located below the fan blades 23, air outlets of the two hot air components 40 are obliquely upward and oppositely arranged, and a vibrating screen 50 is horizontally installed below the air outlets. Here, the vibrating screen 50 may be used to block walnut powder still in a knotted state or walnut powder having a particle size not yet reached the standard.

The recovery assembly 30 comprises a dryer 31 and an air pump 32 which are sequentially communicated, the input end of the dryer 31 is communicated with the air outlet 13, the output end of the air pump 32 is connected with a plurality of nozzles 33, and the nozzles 33 are installed on the inner wall of the conical portion 111 and are oppositely arranged.

The walnut dehydration equipment comprises a box body 10, a smashing component 20, a recycling component 30 and at least two hot air components 40, wherein during operation, walnut powder is input from a feed inlet 12, under the action of the smashing component 20, rotary fan blades 23 beat the walnut powder, the agglomerated walnut powder is scattered, then the walnut powder naturally falls down, under the action of the hot air components 40 on two sides, hot air is inclined upwards, so that the walnut powder forms a hedging state and is blown upwards, the hot air dehydration time is longer, then under the action of a vibrating screen 50, the walnut powder meeting the standard granularity can pass through the vibrating screen 50, in the recycling component 30, hot air with water vapor enters a dryer 31 from an air outlet 13, after moisture is removed, the walnut powder falling from the vibrating screen 50 is transmitted to a nozzle 33 under the action of an air pump 32, is dried and dehydrated through a secondary drying mode through the nozzle 33, and finally the walnut powder is led out from a discharge outlet 15. According to the utility model, the agglomerated walnut powder can be smashed, the dehydration effect is improved, the discharged hot air can be recovered to carry out secondary drying on the walnut powder, and the full utilization of heat is realized.

In further embodiments, the number of hot blast assemblies 40 is two. Through practical verification, the two hot air assemblies 40 can achieve good dehydration and drying effects, and the cost is low.

In further embodiments, the cross-section of the taper 111 is circular.

In further embodiments, the nozzle 33 is disposed toward the central axis of the cone 111. So set up, the walnut powder that falls down is under the hot-blast blowing of nozzle 33, and is mutually opposite, and stoving effect is good.

In further embodiments, the orientation of the nozzles 33 is inclined upwards. By the arrangement, the residence time of the walnut powder in the accommodating cavity 11 can be prolonged, and the dehydration effect is improved.

In another embodiment, an opening and closing window is formed on the box 10 corresponding to the vibrating screen 50. So set up, can open the window that opens and shuts, take out the walnut powder that is blocked above the shale shaker 50, the walnut powder of accessible manual work crushing caking is poured into dehydration stoving again from feed inlet 12.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. The walnut dehydration equipment for producing the walnut powder is characterized by comprising a box body, a smashing component, a recycling component and at least two hot air components;

the box body is internally provided with a containing cavity, the upper part of the containing cavity is connected with a feed inlet and an air outlet, a filter screen is arranged at the air outlet, the lower part of the containing cavity is connected with a discharge outlet, the lower part of the containing cavity is provided with a conical part, and the conical part is folded at the discharge outlet;

the smashing assembly comprises a motor and a rotating shaft connected with the driving end of the motor, the motor is fixed at the top of the box body, the rotating shaft vertically stretches into the accommodating cavity, and fan blades are arranged on the circumference of the rotating shaft stretching into the accommodating cavity;

the at least two hot air components are respectively arranged on two opposite sides of the accommodating cavity, the at least two hot air components are positioned below the fan blades, air outlets of the two hot air components are obliquely upwards and oppositely arranged, and a vibrating screen is horizontally arranged below the air outlets;

the recovery assembly comprises a dryer and an air pump which are sequentially communicated, the input end of the dryer is communicated with the air outlet, the output end of the air pump is connected with a plurality of nozzles, and the nozzles are installed on the inner wall of the conical part and are oppositely arranged.

2. The walnut dewatering equipment for producing walnut powder according to claim 1, wherein the number of the hot air assemblies is two.

3. Walnut dewatering equipment for producing walnut powder according to claim 1, characterized in that the cross section of the cone is circular.

4. A walnut dewatering device for producing walnut powder according to claim 3, characterized in that the nozzle is arranged towards the centre axis of the cone.

5. Walnut dewatering equipment for producing walnut powder according to claim 4, characterized in that the orientation of the nozzles is inclined upwards.

6. The walnut dewatering equipment for producing walnut powder according to any one of claims 1-5, wherein an opening and closing window is formed on the box body corresponding to the vibrating screen.