CN210688990U - Production device of soybean peptide powder - Google Patents

Abstract

The utility model discloses a soybean peptide powder production device, which comprises a drying oven, wherein a negative pressure cavity, a heating cavity and a positive pressure cavity which are connected in sequence are arranged in the wall of the drying oven, a dehumidifying mechanism is arranged in one end of the negative pressure cavity close to the heating cavity, a heating component and an air blowing component are arranged in the heating cavity, a plurality of tray supporting slide rails which are uniformly distributed along the vertical direction are arranged on the inner walls of the two sides of the drying oven, a return port communicated with the negative pressure cavity is arranged on the tray supporting slide rail at one side, an air inlet communicated with the positive pressure cavity is arranged on the tray supporting slide rail at the other side, the air in the drying oven circulates through the air inlet and the return port, the steam above the tray can be quickly taken away by the air current flowing from the air inlet to the, and a group of air inlets and a group of backflow ports are arranged above each tray, so that the drying speed of the soybean peptide powder on each tray is uniform.

Description

Production device of soybean peptide powder

Technical Field

The embodiment of the utility model relates to soybean peptide powder processing technology field, concretely relates to soybean peptide powder's apparatus for producing.

Background

The soybean peptide powder is a mixed peptide product which is composed of 2-6 amino acids and has the molecular weight of 200 plus 800 daltons, compared with the original protein and the amino acid preparation which is composed of the same, the soybean peptide powder is easier to be absorbed by human bodies, can directly enter small intestines to be absorbed without gastrointestinal digestion, and is not influenced by physical conditions, the soybean peptide powder contains various bioactive peptides, has various physiological activities, including oxidation resistance, blood pressure reduction, cholesterol reduction, blood fat reduction, fatigue resistance, immunity enhancement and the like, and can be widely used for health-care foods, infant foods, sports foods, fermentation products, clinical nutritional preparations and the like as a novel multifunctional nutritional ingredient.

In the prior art, after soybean protein is sterilized, subjected to enzymolysis, separated and concentrated, dried soybean peptide powder is prepared by drying equipment, for example, the application number is CN207649290, the patent name is the drying equipment for producing the soybean peptide powder, the flowing of air flow in a drying chamber is optimized by arranging a body with a cylindrical structure, the condition that the tray is heated and dried unevenly is avoided, but the problems that the drying speed is slow and the drying degree is inconsistent due to uneven air flow distribution and poor air flow circulation in the drying chamber are not fundamentally solved.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a soybean peptide powder's apparatus for producing is through setting up air intake and backward flow mouth on every layer of tray support slide rail to solve prior art, because the poor soybean peptide powder drying rate who leads to of air current circulation effect is slow with the inconsistent problem of drying degree in the drying chamber.

In order to achieve the above object, the embodiment of the present invention discloses the following technical solutions:

the utility model provides a production device of soybean peptide powder, includes the drying cabinet, negative pressure chamber, heating chamber and the malleation chamber that connects gradually have been seted up in the tank wall of drying cabinet, just the negative pressure chamber is close to install dehumidification mechanism in the one end in heating chamber, heating intracavity is installed heater block and air blast part, all install a plurality of on the inner wall of drying cabinet both sides along vertical evenly distributed's tray support slide rail, one side set up on tray support slide rail and the tank wall with the backward flow mouth of negative pressure chamber intercommunication, opposite side set up on tray support slide rail and the tank wall with the air intake of malleation chamber intercommunication, just the backward flow mouth with the air intake one-to-one.

As a preferred scheme of the utility model, dehumidification mechanism is including the porous box, the demountable installation that install the lid a plurality of layers of perforated plate in the porous box to and place a plurality of layers solid hygroscopic agent on the perforated plate, the porous box with all seted up on the perforated plate a plurality of with the punchhole that the negative pressure chamber is linked together, the porous box is installed the air intake top.

As a preferred scheme of the utility model, dehumidification mechanism is in the negative pressure intracavity is along the vertical a plurality of that is provided with, seted up on the drying cabinet outer wall with a plurality of socket of negative pressure chamber intercommunication, the sealed grafting of porous box is in the socket, install the support on the negative pressure chamber both sides chamber wall porous box guide rail.

As an optimized proposal of the utility model, a steady flow grid plate is arranged in the air inlet.

As an optimized proposal of the utility model, the return port is internally provided with a filter cloth used for filtering the soybean peptide powder in the airflow.

As an optimized scheme of the utility model, install in the backward flow mouth and vibrate the reed, the one end that vibrates the reed is connected with installs metal mesh on the tray supports the slide rail, the filter cloth cover is installed on the metal mesh.

The utility model discloses an embodiment has following advantage:

the utility model discloses gas in the drying cabinet drying chamber circulates through air intake and backward flow mouth, can take away the vapor of tray top fast by the air intake to the air current that the backward flow mouth flows, is favorable to accelerating the drying rate of soybean peptide powder, and all is provided with a set of air intake and backward flow mouth above every tray, is favorable to the even unanimity of soybean peptide powder drying rate on each tray.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a dehumidifying mechanism according to an embodiment of the present invention;

fig. 3 is a schematic view of an air inlet structure according to an embodiment of the present invention.

In the figure:

1-drying oven; 2-a negative pressure cavity; 3-heating the cavity; 4-positive pressure cavity; 5-a dehumidifying mechanism; 6-heating means; 7-a blower component; 8-the tray supports the slide rail; 9-a reflux port; 10-air inlet; 11-a socket; 12-a metal mesh; 13-a flow stabilizing grid; 14-filter cloth; 15-a vibrating reed;

501-a porous box; 502-box cover; 503-a perforated plate; 504-solid moisture absorber.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 3, the utility model discloses a soybean peptide powder's apparatus for producing, including drying cabinet 1, negative pressure chamber 2 that connects gradually has been seted up in the tank wall of drying cabinet 1, heating chamber 3 and positive pressure chamber 4, and install dehumidification mechanism 5 in the other end in negative pressure chamber 2, install heater block 6 and blast air part 7 in the heating chamber 3, all install a plurality of along vertical evenly distributed's tray support slide rail 8 on the inner wall of drying cabinet 1 both sides, set up the backward flow mouth 9 with negative pressure chamber 2 intercommunication on one side tray support slide rail 8 and the tank wall, set up the air intake 10 with positive pressure chamber 4 intercommunication on opposite side tray support slide rail 8 and the tank wall, and backward flow mouth 9 and air intake 10 one-to-one.

The air blowing component 7 sucks dry air after moisture absorption by the dehumidifying mechanism 5 from the negative pressure cavity 2, the dry air is blown into the positive pressure cavity 4 through the heating holes of the heating component 6, negative pressure and positive pressure are respectively formed in the negative pressure cavity 2 and the positive pressure cavity 4 through the air blowing component 7, and the air is combined with the return port 9 and the air inlet 10, so that the air in the drying box 1 circularly flows in the negative pressure cavity 2, the heating cavity 3, the positive pressure cavity 4 and the drying chamber.

The tray is located between the vertical adjacent tray support slide rail 8, the heating part 6 heats the drying chamber through the air of circulation flow, make the soybean peptide powder of placing in the tray on both sides tray support slide rail 8 be heated, thereby moisture in the soybean peptide powder absorbs heat and evaporates, reach the purpose of dry soybean peptide powder, and circulation flow's air carries the vapor that evaporates and gets into in the negative pressure chamber 2, avoid moist air to flow slowly and lead to the problem that the soybean peptide powder drying rate is slow above the tray, and moist air passes through dehumidification mechanism 5 under the drive of blast air part 7, vapor in the moist air is absorbed by dehumidification mechanism 5, make the moist air through dehumidification mechanism 5 dry, realize the internal circulation of air in drying cabinet 1, thermal scattering and disappearing has been avoided, be favorable to practicing thrift the energy consumption.

The tray is located adjacent tray support slide rail 8, air intake 10 and backward flow mouth 9 set up on tray support slide rail 8, be favorable to practicing thrift the space of 1 drying chamber of drying cabinet, can take away the vapor of tray top fast to backward flow mouth 9 mobile air current by air intake 10, be favorable to accelerating the drying rate of soybean peptide powder, and every tray top all is provided with a set of air intake 10 and backward flow mouth 9, be favorable to the even unanimity of soybean peptide powder drying rate on each tray.

Wherein, the heating part 6 is an electric heating pipe arranged in one end of the heating cavity 3 close to the positive pressure cavity 4, the air blowing part 7 is a plurality of air blowing fans arranged in the other end of the heating cavity 3, air flow is driven by the air blowing fans to pass through the electric heating pipe, and the air flow is heated after absorbing heat, so as to raise the temperature in the drying box 1.

In addition, the air inlet 10 and the return port 9 are both horizontally arranged, the air inlet 10 and the return port 9 on the two tray supporting slide rails 8 supporting the same tray are positioned on the same horizontal plane, stable flow of air flow above the tray is facilitated, the soybean peptide powder in the tray is prevented from being raised due to airflow disorder, unstable air flow above the tray is prevented from occurring due to unstable air flow in the positive pressure cavity 4, the steady flow grid plate 13 is installed in the air inlet 10, the steady flow grid plate 13 is formed by criss-cross thin plates, the air flow in the air inlet 10 is vertically and horizontally guided through the steady flow grid plate 13, and stability of the air flow above the tray is ensured.

The dehumidifying mechanism 5 comprises a porous box 502 provided with a box cover 501, a plurality of layers of porous plates 503 detachably mounted in the porous box 502, and solid moisture absorbents 504 placed on the plurality of layers of porous plates 503, a plurality of holes communicated with the negative pressure cavity 2 are formed in the porous box 502 and the porous plates 503, and the porous box 502 is mounted above the air inlet 10.

The solid moisture absorbent 504 is preferably a granular silica gel moisture absorbent, and the solid moisture absorbent 504 is placed on the multi-layer porous plate 503, so that the moisture absorption effect is ensured, the flat laying thickness of each layer of the solid moisture absorbent 504 is reduced, the gap formed after each layer of the solid moisture absorbent 504 is kept, the negative influence of the flat laying layer of the solid moisture absorbent 504 on the airflow speed is reduced, and the flowing circulation of the air in the drying box 1 is facilitated.

Dehumidification mechanism 5 is provided with a plurality of along vertical in negative pressure chamber 2, set up a plurality of socket 11 with negative pressure chamber 2 intercommunication on the 1 outer wall of drying cabinet, porous box 502 is pegged graft in socket 11, install on the 2 both sides chamber wall in negative pressure chamber and support porous box 502 guide rail 12, the design of socket 11 has made things convenient for the change of solid hygroscopic agent 504, and porous box 502 is located the outer one end of socket 11 and is connected to the protruding edge that extends all around, protruding edge is through screw and 1 outer wall connection of drying cabinet, thereby fix porous box 502, and protruding edge is connected through seal ring between 1 outer wall of drying cabinet, realize porous box 502 and socket 11's sealing connection.

After the soybean peptide powder is dried, the airflow above the tray inevitably carries a small amount of soybean peptide powder, so the filter cloth 14 for filtering the soybean peptide powder in the airflow is arranged in the backflow port 9, the soybean peptide powder is prevented from being carried by the airflow into the negative pressure cavity 2, the cleanness of the insides of the negative pressure cavity 2, the heating cavity 3 and the positive pressure cavity 4 is favorably kept, and the service life reduction of the solid moisture absorbent 504, the heating part 6 and the air blowing part 7 caused by the soybean peptide powder is also avoided.

And, the return port 9 is internally provided with a vibrating reed 15, the structure and vibrating principle of the vibrating reed 15 are the same as or similar to reeds in musical instruments such as cucurbit flute, reed sheng and the like, one end of the vibrating reed 15 is tilted, the other end of the vibrating reed 15 is connected with a metal net 12 arranged on a tray supporting slide rail 8, and a filter cloth 14 is covered and arranged on the metal net 12, when air flow passes through the flaky vibrating reed 15, the tilted end of the vibrating reed 15 is vibrated, the metal net 12 is driven to vibrate, soybean peptide powder attached to the filter cloth 14 is shaken off through the vibration of the metal net 12, and the fallen soybean peptide powder falls into a tray below the filter cloth, so that the soybean peptide powder on the filter cloth 14 does not need to be cleaned manually, the use is convenient, the service life of the filter cloth 14 is prolonged, the good gas permeability of the filter cloth 14 is maintained, and the negative influence of.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (6)

1. A production device of soybean peptide powder, which comprises a drying box (1) and is characterized in that, a negative pressure cavity (2), a heating cavity (3) and a positive pressure cavity (4) which are connected in sequence are arranged in the wall of the drying box (1), and a dehumidifying mechanism (5) is arranged in one end of the negative pressure cavity (2) close to the heating cavity (3), a heating component (6) and an air blowing component (7) are arranged in the heating cavity (3), all install a plurality of on drying cabinet (1) both sides inner wall along vertical evenly distributed's tray support slide rail (8), one side set up on tray support slide rail (8) and the tank wall with backward flow mouth (9) of negative pressure chamber (2) intercommunication, opposite side set up on tray support slide rail (8) and the tank wall with air intake (10) of positive pressure chamber (4) intercommunication, just backward flow mouth (9) with air intake (10) one-to-one.

2. The soybean peptide powder production device as claimed in claim 1, wherein the dehumidifying mechanism (5) comprises a porous box (502) with a box cover (501), a plurality of layers of porous plates (503) detachably mounted in the porous box (502), and a solid moisture absorbent (504) placed on the plurality of layers of porous plates (503), the porous box (502) and the porous plates (503) are provided with a plurality of holes communicated with the negative pressure cavity (2), and the porous box (502) is mounted above the air inlet (10).

3. The soybean peptide powder production device as claimed in claim 2, wherein the dehumidifying mechanism (5) is vertically provided with a plurality of sockets (11) communicated with the negative pressure cavity (2) on the outer wall of the drying box (1), and the porous box (502) is hermetically inserted in the sockets (11).

4. The soybean peptide powder production device as claimed in claim 1, wherein a steady flow grid plate (13) is installed in the air inlet (10).

5. The soybean peptide powder production device as claimed in claim 1, wherein a filter cloth (14) for filtering out soybean peptide powder in the air flow is installed in the return opening (9).

6. The soybean peptide powder production device as claimed in claim 5, wherein a vibrating reed (15) is installed in the return opening (9), one end of the vibrating reed (15) is connected with a metal net (12) installed on the tray supporting slide rail (8), and the filter cloth (14) is installed on the metal net (12) in a covering manner.

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