CN210675093U - Boiling prilling granulator is used in soy protein production - Google Patents

Abstract

A boiling granulating device for producing soybean protein comprises a material container, an adhesive supply mechanism, an air heating supply mechanism, an induced draft fan, a trapping bag and a material supply mechanism. The utility model discloses a material feed mechanism dosing makes the likepowder soybean protein that gets into in the material container more fluffy simultaneously, makes likepowder soybean protein more even and adhesive polymerization, and the granule size that forms is more even unanimous, and the entrapment bag cooperatees with trembling bag cylinder, and is more energy-concerving and environment-protective, convenient to use; the air is sent in after filtering, has reduced dust pollution, and air heating feed mechanism, draught fan cooperate with air door cylinder, are convenient for adjust the suspension height of likepowder soybean protein to messenger likepowder soybean protein and adhesive can more fully polymerize.

Description

Boiling prilling granulator is used in soy protein production

Technical Field

The utility model relates to a soybean protein production facility technical field especially relates to a boiling prilling granulator is used in soybean protein production.

Background

The soybean is rich in protein, and the content of the protein is more than twice of that of cereal crops such as wheat, rice and the like, and is usually between 40% and 50%. In addition to storage proteins, soy proteins also contain some biologically active proteins. In terms of amino acid content, the soybean protein is the only reported vegetable protein which contains 9 essential amino acids required by human body and satisfies the requirement of human body, and is a well-known complete protein. The soy protein beverage is easier to digest and absorb than milk.

Soy protein also has disadvantages, for example, soy protein contains soy isoflavones which impart a certain fishy taste and smell to soy protein when eaten with water. The soybean protein contains trypsin inhibitor, so that the soybean protein has indigestion, flatulence and other uncomfortable reactions. The soybean protein is easy to deteriorate and has short shelf life.

In the process of producing the soybean protein, the powdery soybean protein needs to be prepared into required particles, the size and the diameter of the soybean protein particles granulated by the boiling granulating device for producing the soybean protein in the prior art are seriously uneven, and less soybean protein particles which meet the specification after screening, so the production efficiency is lower.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of above-mentioned technique, the utility model aims at providing a boiling prilling granulator is used in soybean protein production, it is fluffier during the feeding, and the air that its was supplied with reduces dust pollution through filtering, and the supply with of its adhesive is more even, makes the granulation size more even, improves production efficiency.

The utility model adopts the technical proposal that: a boiling granulating device for producing soybean protein comprises a material container, an adhesive supply mechanism, an air heating supply mechanism, an induced draft fan, a trapping bag and a material supply mechanism, the bottom of the material container is provided with an air inlet, the top of the material container is provided with an induced air port, the air heating and supplying mechanism comprises an air filtering chamber, an air heating chamber and a hot air conveying pipe which are sequentially connected, the hot air conveying pipe is communicated with the air inlet of the material container, an air inlet of the induced draft fan is communicated with the induced air port of the material container, the trapping bag is positioned in the material container and is arranged at one end close to the air inlet, the adhesive supply mechanism comprises an adhesive tank, a spray pipe, a spray head and an atomized compressed air pipe communicated with the adhesive tank, one end of the spray pipe is communicated with the adhesive box, the other end of the spray pipe is connected with a spray head, and the spray head is arranged in the material container and is positioned between the trapping bag and an air inlet of the material container.

Furthermore, an air flow distribution plate is arranged at an air inlet of the material container.

Further, a bag shaking cylinder is connected to the trapping bag.

Further, an air door is arranged at the top of the material container and connected with an air door cylinder.

Further, the material supply mechanism comprises a conical casing, a coupler, a motor and a screw rod arranged in the conical casing, wherein a feed inlet is formed in one end of the conical casing, a discharge outlet is formed in the other end of the conical casing, an extruder is arranged at the discharge outlet, the diameters of the cross sections of the conical casing and the screw rod are gradually reduced along the direction from the feed inlet to the discharge outlet of the conical casing, the screw rod is connected with the motor through the coupler, the conical casing is obliquely and downwards arranged along the direction from the feed inlet to the discharge outlet of the conical casing, the discharge outlet of the conical casing is communicated with a material container, and the discharge outlet.

Compared with the prior art, the utility model discloses following beneficial effect has: the boiling granulating device for producing the soybean protein has the advantages that the material supply mechanism feeds the material quantitatively, meanwhile, the powdery soybean protein entering the material container is fluffier, the powdery soybean protein is more uniformly polymerized with the adhesive, the formed particle size is more uniform, the catching bag is matched with the bag shaking cylinder, the boiling granulating device is more energy-saving and environment-friendly, and the use is convenient; the air is sent in after filtering, has reduced dust pollution, and air heating feed mechanism, draught fan cooperate with air door cylinder, are convenient for adjust the suspension height of likepowder soybean protein to messenger likepowder soybean protein and adhesive can more fully polymerize.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the material supply mechanism of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 2, a boiling granulator for producing soy protein comprises a material container 1, an adhesive supply mechanism 2, an air heating supply mechanism 3, an induced draft fan 4, a collection bag 5 and a material supply mechanism 6.

The bottom of the material container 1 is provided with an air inlet, the top of the material container 1 is provided with an air induction port, the air heating and supplying mechanism 3 comprises an air filtering chamber 301, an air heating chamber 302 and a hot air conveying pipe 303 which are sequentially connected, the hot air conveying pipe 303 is communicated with the air inlet of the material container 1, an air flow distribution plate 7 is arranged at the air inlet of the material container 1, air enters the air heating chamber 302 through the filtering chamber 301 to be heated, the heated air enters the material container 1 through the hot air conveying pipe 303 by the air flow distribution plate 7, and the air distribution plate 7 enables the air entering the material container 1 to be more uniformly distributed.

The material supply mechanism 6 comprises a conical casing 601, a coupler 604, a motor 605 and a screw 602 arranged in the conical casing 601, wherein one end of the conical casing 601 is provided with a feed inlet, the other end of the conical casing 601 is provided with a discharge outlet, the discharge outlet is provided with an extruder 603, the diameters of the cross sections of the conical casing 601 and the screw 602 are gradually reduced along the direction from the feed inlet to the discharge outlet of the conical casing 601, the screw 602 is connected with the motor 605 through the coupler 604, the conical casing 601 is obliquely and downwards arranged along the direction from the feed inlet to the discharge outlet, the discharge outlet of the conical casing 601 is communicated with the material container 1, and the discharge outlet is arranged below the spray. The screw 602 is disposed obliquely downward in the direction from the inlet to the outlet of the conical housing 601 so that the screw 602 is disposed coaxially with the conical housing 601. The powdery soybean protein material is fed into the conical casing 601 from the feed port of the conical casing 601, is fed to the discharge port by the screw 602, and is extruded into the material container 1 by the extruder 603. The screw 602 transports the powdery soybean protein to make the powdery soybean protein fluffier, the material supply mechanism 6 has strong conveying capacity, the fluffy powdery soybean protein raw material can be quantitatively fed to the material container 1, the material supply mechanism 6 is not easy to block, the feeding is continuous, and the stability and the high yield in the production and processing process are realized.

The air intake of draught fan 4 is linked together with the induced air mouth of material container 1, and entrapment bag 5 is located material container 1 and entrapment bag 5 sets up the one end near air intlet, adhesive feed mechanism 2 includes adhesive case 201, spray tube 202, shower nozzle 203 and the atomizing compressed air pipe 204 that is linked together with adhesive case 201, the one end and the adhesive case 5 of spray tube 202 are linked together, and the other end is connected with shower nozzle 203, shower nozzle 203 sets up inside material container 1 and is located between the air intlet of entrapment bag 5 and material container 1. After the powdery soybean protein enters the material container 1, under the action of the draught fan 4 and the air heating and supplying mechanism 3, one is used for sucking air and the other is used for supplying air, so that the powdery soybean protein is suspended to form fluidization, and atomized compressed air carries part of the adhesive in the adhesive box 201 to be sprayed out by the spray nozzle 203, so that the adhesive is combined with the suspended powdery soybean protein to form granular soybean protein, namely a finished product; the powdery soybean protein which is not aggregated with the binder is adsorbed and collected by the trapping bag 5 and can be recycled.

Be connected with on the entrapment bag 5 and tremble a bag cylinder 8, tremble a bag cylinder 8 and drive entrapment bag 5 and remove for absorbent likepowder soy protein shakes off on the entrapment bag 5, has solved the technical problem that is difficult to clear up entrapment bag 5, and then retrieves and recycles, environmental protection and energy saving more.

The air door has been seted up at material container 1 top, and the air door is connected with air door cylinder 9, blocks the air door when the telescopic link of air door cylinder 9 stretches out to adjust the air pressure balance in the material container 1, solved the suction air and sent into the air and formed the too big or undersize of pressure differential and lead to the unable suspension of likepowder soybean protein in shower nozzle 203 below technical problem, further guarantee likepowder soybean protein and adhesive misce bene.

The above embodiments are based on the technical solution of the present invention, and detailed implementation and specific operation processes are given, but the present invention is not limited to the above embodiments.

Claims (5)

1. The utility model provides a soybean protein production is with boiling prilling granulator, includes material container (1), adhesive feed mechanism (2), air heating feed mechanism (3), draught fan (4), entrapment bag (5) and material feed mechanism (6), its characterized in that: material container (1) bottom is equipped with air inlet, and the top is equipped with the induced air mouth, air heating feed mechanism (3) are linked together including the air filter room (301), air heating room (302) and hot-blast conveyer pipe (303) that connect gradually, hot-blast conveyer pipe (303) and the air inlet of material container (1), and the air intake of draught fan (4) is linked together with the induced air mouth of material container (1), and entrapment bag (5) are located material container (1) and entrapment bag (5) set up the one end that is close to air inlet, adhesive feed mechanism (2) are including adhesive case (201), spray tube (202), shower nozzle (203) and atomized compressed air pipe (204) that are linked together with adhesive case (201), the one end and adhesive case (201) of spray tube (202) are linked together, and the other end is connected with shower nozzle (203), shower nozzle (203) set up inside material container (1) and are located the one end of entrapment bag (5) and material container (1) Between the air inlets.

2. The boiling granulation apparatus for soy protein production as defined in claim 1, wherein: an air flow distribution plate (7) is arranged at an air inlet of the material container (1).

3. The boiling granulation apparatus for soy protein production as defined in claim 1, wherein: the trapping bag (5) is connected with a bag shaking cylinder (8).

4. The boiling granulation apparatus for soy protein production as defined in claim 1, wherein: the air door is arranged at the top of the material container (1) and connected with an air door cylinder (9).

5. The boiling granulation apparatus for soy protein production as defined in claim 1, wherein: the material supply mechanism (6) comprises a conical casing (601), a coupler (604), a motor (605) and a screw rod (602) arranged in the conical casing (601), wherein a feed inlet is formed in one end of the conical casing (601), a discharge outlet is formed in the other end of the conical casing (601), an extruder (603) is arranged at the discharge outlet, the diameters of the cross sections of the conical casing (601) and the screw rod (602) are gradually reduced along the direction from the feed inlet to the discharge outlet of the conical casing (601), the screw rod (602) is connected with the motor (605) through the coupler (604), the conical casing (601) is obliquely and downwards arranged along the direction from the feed inlet to the discharge outlet of the conical casing (601), the discharge outlet of the conical casing (601) is communicated with the material container (1), and the discharge outlet.

Images