CN109405509B - Automatic production equipment for multi-loop impact polymerization in bean flour treatment - Google Patents

Abstract

The invention discloses an automatic production device for multi-loop impact reunion in bean flour treatment, which structurally comprises a machine head, a conveyor belt, a control rack, an air inlet machine, an air outlet machine and a drying machine set, wherein a circuit control system in the machine head is electrically connected to signal ends of the air inlet machine and the air outlet machine respectively, the air inlet machine and the air outlet machine are fixed on the control rack, shells of the machine head and the drying machine set are mechanically fixed on the control rack, the drying machine set is positioned at the bottom of the machine head, one end of an air inlet cavity extending out of the machine head is connected with the air inlet machine, formed large air flows out of a first crescent pipe and a second crescent pipe from a first nozzle and a second nozzle on two sides of the air inlet cavity and is matched with the first crescent pipe and the second crescent pipe, the first crescent pipe and the second crescent pipe are in crescent structures, air openings between every two crescent pipes are opposite, and formed air flow impact is avoided, so that powder is not easily infected when air is dried.

Description

Automatic production equipment for multi-loop impact polymerization in bean flour treatment

Technical Field

The invention relates to the field of bean flour production, in particular to automatic production equipment for multi-loop impact polymerization in bean flour treatment.

Background

Contain abundant, high-quality protein and grease in the soybean, and do not contain cholesterol, in recent years, the instant soybean powder of ubiquitous appearance in the market, because the producer of most production soybean powder all utilizes the drying tower of original production milk powder to produce the soybean powder, the wet powder phenomenon often appears in production, has reduced the quality of product, influences production efficiency, does not solve this problem, and prior art is through increaseing the amount of wind of air inlet and air exhaust, and then improves drying effect, but in this operation:

because the soybean powder is a powdery substance and is dried under the condition of increasing the air volume, the soybean powder can be irregularly diffused in a large area in the containing cavity because of large air volume, and the diffused powder can be stained on the nozzle to cause difficulty in later cleaning.

Disclosure of Invention

Aiming at the problems, the invention provides automatic production equipment for multi-loop impact polymerization in bean flour treatment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the automatic production equipment for multi-loop impact and reunion in bean flour treatment structurally comprises a machine head, a conveyor belt, a control rack, an air inlet machine, an exhaust machine and a drying unit, wherein the conveyor belt penetrates through the machine head, a circuit control system inside the machine head is electrically connected to signal ends of the air inlet machine and the exhaust machine respectively, the air inlet machine and the exhaust machine are fixed on the control rack, shells of the machine head and the drying unit are mechanically fixed on the control rack, and the drying unit is located at the bottom of the machine head.

As a further improvement of the invention, the exhaust fan is communicated with an air outlet cavity inside an air inlet integrated with the air inlet fan through an air outlet.

As a further improvement of the invention, the air inlet is of a circular structure, and a first nozzle, a second nozzle, an air inlet cavity and an air outlet cavity are respectively arranged in the air inlet, wherein the air inlet cavity and the air outlet cavity are identical in structure and are mutually attached in an upper outer contour and a lower outer contour to form a Z-shaped structure, and the first nozzle and the second nozzle are respectively provided with two parts, are integrated with the air inlet cavity and are communicated with an axle center through hole of the air inlet cavity.

As a further improvement of the invention, the air inlet and the air outlet are both arranged inside the drying unit.

As a further improvement of the invention, the first nozzles on two sides of the air inlet are respectively communicated with the first crescent pipe and welded into a whole, the second nozzle is integrated with the second crescent pipe, and the first nozzle and the second nozzle are internally communicated.

As a further improvement of the invention, the drying unit comprises a drying cavity and a discharge hole, the drying cavity is surrounded by a first crescent pipe and a second crescent pipe on two sides to form a cavity body with a circular structure, and the discharge hole with a funnel-shaped structure is welded at the bottom of the drying cavity.

As a further improvement of the present invention, the first nozzle and the second nozzle are fan-shaped, and a narrower port of the first nozzle is fitted to the air inlet chamber, and a wider port of the first nozzle is connected to the first crescent pipe and the second crescent pipe, respectively.

As a further improvement of the invention, the air inlet of the drying cavity is directly matched with the air outlets of the first crescent pipe and the second crescent pipe.

As a further improvement of the invention, the first crescent is shorter than the second crescent in length so as to form impinging streams with different areas and improve powder diffusion.

Compared with the prior art, the invention has the following beneficial effects:

one end of the air inlet cavity extending out of the air inlet device is connected with an air inlet machine, formed large air volume flows out of a first nozzle and a second nozzle on two sides of the air inlet cavity and is matched with a first crescent pipe and a second crescent pipe, the first crescent pipe and the second crescent pipe are of crescent structures, air openings between every two crescent pipes are opposite, formed air flow is impacted, and therefore powder is not easily polluted when air is exhausted and dried.

The first nozzle and the second nozzle are respectively provided with two nozzles, so that the air output is improved under the combined action of the nozzles, the phenomenon of powder wetting is avoided, and the product quality is reduced.

According to the invention, the double air ports are combined into a Z-shaped structure by the air inlet in an up-and-down fit manner, the drying air is respectively gathered in the drying cavity from the first nozzle and the second nozzle through the first crescent pipe and the second crescent pipe, and then is discharged through the air outlet cavity, so that a circulating type air inlet and air outlet is formed, and the drying of the soybean powder is prevented from being influenced due to the fact that the drying air cannot be discharged in time and reused.

Drawings

FIG. 1 is a schematic view of the appearance structure of an automatic production apparatus for multi-loop impact polymerization in bean flour processing according to the present invention.

Fig. 2 is a schematic side view of the dryer assembly of the present invention.

Fig. 3 is a schematic cross-sectional view of the air inlet according to the present invention.

FIG. 4 is a schematic side view of FIG. 3 according to the present invention.

Fig. 5 is a schematic diagram showing the detailed internal structure of the drying unit according to the present invention.

Fig. 6 is a schematic diagram of the operation of the dryer assembly of the present invention.

In the figure: the device comprises a machine head-1, a conveyor belt-2, a control rack-3, an air inlet machine-4, an exhaust fan-5, a drying machine set-6, an air outlet-51, an air inlet-41, a first nozzle-a, a second nozzle-b, an air inlet cavity-c, an air outlet cavity-d, a first crescent-a 1, a second crescent-b 1, a drying cavity-61 and a discharge hole-62.

Detailed Description

To make the technical means, the creation features, the achievement objects and the effects of the present invention easy to understand, fig. 1 to fig. 6 schematically show the structures of the embodiments of the present invention, and the present invention is further described below with reference to the detailed embodiments.

Examples

As shown in figures 1-6, the invention provides an automatic production device for multi-loop impact polymerization in bean flour treatment, which structurally comprises a machine head 1, a conveyor belt 2, a control rack 3, an air inlet machine 4, an exhaust machine 5 and a drying machine set 6, wherein the conveyor belt 2 penetrates through the machine head 1, a circuit control system in the machine head 1 is electrically connected to signal ends of the air inlet machine 4 and the exhaust machine 5 respectively, the air inlet machine 4 and the exhaust machine 5 are fixed on the control rack 3, shells of the machine head 1 and the drying machine set 6 are mechanically fixed on the control rack 3, the drying machine set 6 is positioned at the bottom of the machine head 1, the exhaust machine 5 is communicated with an air outlet cavity in an air inlet 41 integrated with the air inlet machine 4 through an air outlet 51, the air inlet 41 is of a circular structure, and a first nozzle a, a second nozzle b, an air inlet cavity c and a circular air inlet cavity are arranged in the air inlet 41 respectively, An air outlet cavity d, wherein the air inlet cavity c and the air outlet cavity d are structurally identical and are mutually attached in an upper and lower outer contour to form a zigzag structure, the first nozzle a and the second nozzle b are respectively provided with two parts and are integrated with the air inlet cavity c and communicated with an axle center through hole of the air inlet cavity c, the air inlet 41 and the air outlet 51 are both installed inside the drying unit 6, the first nozzle a is respectively communicated with the first crescent a1 and welded into a whole at two sides of the air inlet 41, the second nozzle b is integrated with the second crescent b1 and communicated with the inside of the drying unit 6, the drying unit 6 comprises a drying cavity 61 and a discharge port 62, the drying cavity 61 is surrounded by the first crescent a1 and the second crescent b1 at two sides to form a cavity with a circular structure, the discharge port 62 with a funnel-shaped structure is welded at the bottom of the drying cavity 61, the first nozzle a and the second nozzle b are fan-shaped structures, the narrower port of the drying cavity 61 is matched with the air inlet cavity c, the wider port of the drying cavity is respectively connected to the first crescent tube a1 and the second crescent tube b1, the air inlet of the drying cavity 61 is directly matched with the air outlets of the first crescent tube a1 and the second crescent tube b1, and the length of the first crescent tube a1 is shorter than that of the second crescent tube b1, so that impact flows with different areas are formed, and powder diffusion is improved.

The working principle of the automatic soybean powder production equipment in the technical scheme is explained as follows:

when the drying device is used, when the drying stage is carried out, the exhaust fan 5 and the air inlet fan 4 are opened, when air is discharged from the air inlet 41, the air respectively flows to the first nozzle a and the second nozzle b on two sides through the axis through hole and leads to the crescent pipes fixed together by the nozzles, because the air outlets of the crescent pipes are in a relative state, the air is collided oppositely during air outlet, the collided flow is forced to converge into the drying cavity 61, in the formed collided flow, powder is impacted into the drying cavity 61, and further pipeline blockage caused by the fact that the powder is stained with the crescent pipes and the nozzles is avoided, the air outlet in the drying cavity 61 is directly connected with the air outlet cavity d, and the dried air is discharged through the air outlet cavity d, so that one-time circulation type drying is formed, and the drying quality of bean flour is prevented from being influenced by repeated utilization of drying air quantity.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (1)

1. The utility model provides an automatic production facility that multiloop striking is repolymerized in bean flour is handled, its structure includes aircraft nose (1), conveyer belt (2), control frame (3), air inlet machine (4), exhaust fan (5), drying unit (6), its characterized in that:

the conveyor belt (2) penetrates through the machine head (1), a circuit control system in the machine head (1) is electrically connected to signal ends of an air inlet fan (4) and an air outlet fan (5) respectively, the air inlet fan (4) and the air outlet fan (5) are fixed on the control rack (3), shells of the machine head (1) and a drying unit (6) are mechanically fixed on the control rack (3), and the drying unit (6) is located at the bottom of the machine head (1);

the exhaust fan (5) is communicated with an air outlet cavity inside an air inlet (41) integrated with the air inlet fan (4) through an air outlet (51);

the air inlet (41) is of a circular structure, a first nozzle (a), a second nozzle (b), an air inlet cavity (c) and an air outlet cavity (d) are respectively arranged inside the air inlet (41), the air inlet cavity (c) and the air outlet cavity (d) are structurally identical and are mutually attached in an upper outer contour and a lower outer contour to form a Z-shaped structure, and the first nozzle (a) and the second nozzle (b) are respectively provided with two parts, are integrated with the air inlet cavity (c), and are communicated with an axle center through hole of the air inlet cavity (c);

the air inlet (41) and the air outlet (51) are both arranged in the drying unit (6);

the first nozzle (a) is respectively communicated with a first crescent pipe (a1) at two sides of the air inlet (41) and welded into a whole, the second nozzle (b) is integrated with a second crescent pipe (b1), and the first nozzle and the second nozzle are communicated with each other internally;

the drying unit (6) comprises a drying cavity (61) and a discharge hole (62), the drying cavity (61) is surrounded by a first crescent pipe (a1) and a second crescent pipe (b1) at two sides to form a cavity body with a circular structure, and the discharge hole (62) with a funnel-shaped structure is welded at the bottom of the drying cavity (61);

the first nozzle (a) and the second nozzle (b) are fan-shaped structures, the narrower ports of the first nozzle and the second nozzle are matched with the air inlet cavity (c), and the wider ports of the first nozzle and the second nozzle are respectively connected to the first crescent pipe (a1) and the second crescent pipe (b 1);

the air inlet of the drying cavity (61) is directly matched with the air outlets of the first crescent pipe (a1) and the second crescent pipe (b 1).

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