CN212645086U - Starch processing drying device - Google Patents

Abstract

The utility model discloses a starch processing and drying device, which comprises an inner box body and an outer box body; the agglomerated starch is crushed by the aid of the rolling roller through interaction of the first motor, the first driving wheel, the first driving belt, the first driven wheel, the first fixing plate and the rolling roller, the rolled starch is compact, and then the starch is scattered by the aid of the vibration motor through interaction of the second motor, the second driving wheel, the second driving belt, the second driven wheel, the second fixing plate and the vibration motor, so that drying efficiency of the starch is improved; the utility model sucks the outside air through the draught fan, and the outside air is heated by the heating wires and then flows into the blast pipe and the communicating pipe to be sent into the inner box body, thereby realizing the efficient drying effect on the starch; in order to prevent the machine from being damaged due to overhigh temperature when the motor operates, the condensing mechanism is further arranged, hot air is sucked into the condensing box through the heat dissipation fan, the condensing pipe is refrigerated by the refrigerating unit, and the hot air finally condenses into water drops after touching the condensing pipe and is discharged from the water outlet.

Description

Starch processing drying device

Technical Field

The utility model relates to a food processing field specifically is a starch processing drying device.

Background

Starch is a high molecular carbohydrate, which is polymerized from glucose molecules. The basic constitutional unit of the compound is alpha-D-glucopyranose, and the molecular formula is (C6H10O 5) n. The starch includes amylose and amylopectin. The former is an unbranched helical structure; the latter is formed by connecting 24-30 glucose residues end to end through alpha-1, 4-glycosidic bonds, and alpha-1, 6-glycosidic bonds are formed at branched chains.

Most of the existing starch processing and drying devices adopt a drying mode to dry the surface of starch, and the drying device is difficult to completely dry the inside of the caked starch, so that the drying efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a starch processing drying device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a starch processing and drying device comprises an inner box body and an outer box body, wherein a vacuum layer is arranged between the inner box body and the outer box body, the inner box body is connected with the outer box body through a support frame at the bottom, vertically arranged air supply pipes are arranged on the left side and the right side of the outer box body at intervals, a plurality of communicating pipes are arranged on one side, close to the outer box body, of each air supply pipe at equal intervals, one end, close to the outer box body, of each communicating pipe penetrates through the outer box body and the inner box body, an electric heating wire is installed at the top end of each air supply pipe, the electric heating wire is fixedly connected with an induced draft fan through a hollow rod; the vacuum layer is characterized in that a first transmission mechanism, a second transmission mechanism and a rotating mechanism are arranged in the inner box body, the first transmission mechanism comprises a first motor, a first driving wheel, a first transmission belt, a first driven wheel, a first fixing plate and a rolling roller, the first motor is arranged on one side of the upper end of the vacuum layer, an output shaft of the first motor penetrates through the inner box body and extends to the inner cavity of the inner box body to be connected to the first driving wheel, the first driving wheel is connected with the first driven wheel through the first transmission belt, the first fixing plate is arranged between the first driving wheel and the first driven wheel, and the rolling roller is arranged above the first fixing plate; the second transmission mechanism is arranged below the first transmission mechanism and comprises a second motor, a second driving wheel, a second transmission belt, a second driven wheel, a second fixing plate and a vibration motor, the second fixing plate is obliquely arranged in the inner box body, the vibration motor is arranged in the first fixing plate, the second driving wheel and the second driven wheel are respectively arranged at two ends of the second fixing plate, the second driving wheel and the second driven wheel are connected through the second transmission belt, the second driving wheel is connected with the second motor, the second motor is fixedly connected in the vacuum layer, and the transmission directions of the first transmission mechanism and the second transmission mechanism are opposite; the rotating mechanism comprises a third motor, a rotating shaft and a rotating sheet, the output end of the third motor is connected with the rotating shaft, and the rotating sheet is sleeved on the outer surface of the rotating shaft.

The utility model discloses a refrigerator, including outer box bottom, branch pipe, condenser box, condenser pipe, refrigerating unit, the heat dissipation mechanism is installed to outer box bottom, the outer box bottom plate nestification has the heat dissipation fan, the heat dissipation fan passes through branch connection to the condenser box, install refrigerating unit in the condenser box and with the condenser pipe that refrigerating unit links to each other, the condenser pipe presents the heliciform, condenser box bottom is equipped with the outlet.

The rotating plate is in a spiral shape.

The top of the inner box body is provided with a feeding port which penetrates through the outer box body, and the bottom of the inner box body is positioned under the rotating shaft and is provided with a discharging port which penetrates through the outer box body.

The inner box body is internally provided with a temperature sensor, the outer box body is provided with a control panel, a single chip microcomputer is fixed inside the control panel, and the single chip microcomputer is electrically connected with the temperature sensor, the first motor, the second motor, the vibration motor and the third motor.

Two support columns are symmetrically arranged on the left side and the right side of the bottom surface of the outer box body, and bases are installed at the bottom ends of the support columns.

As a further aspect of the present invention: as a further aspect of the present invention:

compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a first motor, first action wheel, first drive belt, first from the driving wheel, first fixed plate and the interact who rolls the roller, the utilization rolls the starch of roller caking on with first drive belt and pulverizes, nevertheless the starch after rolling is comparatively compact, so, later rethread second motor, the second action wheel, the second drive belt, the second is from the driving wheel, the interact of second fixed plate and shock dynamo, utilize shock dynamo to break up the starch on the second drive belt, thereby more be favorable to the drying to starch, the drying efficiency of starch is improved.

2. The utility model discloses a draught fan inhales the outside air, flows into blast pipe and communicating pipe after the heater strip heating and is sent into interior box to realize the dry effect of efficient to starch.

3. The utility model discloses a prevent that the motor from high temperature when moving, causing the machine to damage, still be equipped with condensation mechanism, inhale the condenser box with steam through the heat dissipation fan, refrigerate the condenser pipe by refrigerating unit, steam finally condenses into the drop of water and discharges from the outlet after touching the condenser pipe.

Drawings

FIG. 1 is a schematic view of a starch processing and drying apparatus.

FIG. 2 is a schematic structural diagram of a second transmission mechanism in a starch processing and drying device.

Fig. 3 is a schematic structural diagram of a heat dissipation mechanism in a starch processing and drying device.

FIG. 4 is a schematic view of a structure of a rotating shaft in a starch processing and drying apparatus.

The labels in the figures are respectively: the cooling device comprises an inner box body 1, a temperature sensor 11, an outer box body 2, a control panel 21, a single chip microcomputer 22, a feeding port 23, a discharging port 24, an induced draft fan 3, a heating wire 31, a hollow rod 32, an air supply pipe 33, a communicating pipe 34, a supporting rod 35, a first motor 4, a first driving wheel 41, a first driving belt 42, a first driven wheel 43, a first fixing plate 44, a rolling roller 45, a second motor 5, a second driving wheel 51, a second driving belt 52, a second driven wheel 53, a second fixing plate 54, a vibrating motor 55, a third motor 6, a rotating shaft 61, a rotating piece 62, a cooling mechanism 7, a cooling fan 71, a branch pipe 72, a condensing box 73, a condensing pipe 74, a refrigerating unit 75, a supporting column 8 and a base 81.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example 1

Referring to fig. 1-4, a starch processing and drying device comprises an inner box body 1 and an outer box body 2, wherein a vacuum layer is arranged between the inner box body 1 and the outer box body 2, the inner box body 1 and the outer box body 2 are connected through a support frame at the bottom, vertically arranged air supply pipes 33 are arranged at the left side and the right side of the outer box body 2 at intervals, a plurality of communicating pipes 34 are arranged on one side of each air supply pipe 33 close to the outer box body 2 at equal intervals, one end of each communicating pipe 34 close to the outer box body 2 penetrates through the outer box body 2 and the inner box body 1, a heating wire 31 is arranged at the top end of each air supply pipe 33, the heating wire 31 is fixedly connected with an induced draft fan 3 through a hollow rod 32, and the induced draft fan 3 is fixedly; a first transmission mechanism, a second transmission mechanism and a rotating mechanism are arranged in the inner box body 1, the first transmission mechanism comprises a first motor 4, a first driving wheel 41, a first transmission belt 42, a first driven wheel 43, a first fixing plate 44 and a rolling roller 45, the first motor 4 is arranged on one side of the upper end of the vacuum layer, an output shaft of the first motor 4 penetrates through the inner box body 1 and extends to the inner cavity of the inner box body 1 to be connected to the first driving wheel 41, the first driving wheel 41 is connected with the first driven wheel 43 through the first transmission belt 42, the first fixing plate 44 is arranged between the first driving wheel 41 and the first driven wheel 43, and the rolling roller 45 is arranged above the first fixing plate 44; the second transmission mechanism is arranged below the first transmission mechanism and comprises a second motor 5, a second driving wheel 51, a second transmission belt 52, a second driven wheel 53, a second fixing plate 54 and a vibration motor 55, the second fixing plate 54 is obliquely arranged in the inner box body 1, the vibration motor 55 is arranged in the first fixing plate 44, the second driving wheel 51 and the second driven wheel 53 are respectively arranged at two ends of the second fixing plate 54, the second driving wheel 51 and the second driven wheel 53 are connected through the second transmission belt 52, the second driving wheel 51 is connected with the second motor 5, the second motor 5 is fixedly connected in the vacuum layer, and the transmission directions of the first transmission mechanism and the second transmission mechanism are opposite; the rotating mechanism comprises a third motor 6, a rotating shaft 61 and a rotating sheet 62, the output end of the third motor 6 is connected with the rotating shaft 61, and the rotating sheet 62 is sleeved on the outer surface of the rotating shaft 61.

Specifically, the method comprises the following steps: when the utility model is used, firstly, starch is thrown into the inner box body 1 from the feeding port 23; then the first motor 4 drives the first driving wheel 41 to drive the first driven wheel 43 to rotate, so that the starch is conveyed from the first transmission belt 42 to the second transmission mechanism, and during the conveying process, the rolling roller 45 kneads the agglomerated starch to make the agglomerated starch dry better; then, the second motor 5 drives the second driving wheel 51 to drive the second driven wheel 53 to rotate, so as to convey the starch to the rotating mechanism from the second transmission belt 52, and in the conveying process, the vibration motor 55 breaks up the ground starch, so that the starch is better dried; then, the third motor 6 drives the rotating shaft 61 to rotate, so as to drive the rotating sheet 62 to rotate, so that the starch finally flows out from the discharging port 24 at the bottom from top to bottom from the rotating sheet 62; in the process from feeding to discharging, the induced draft fan 3 introduces external air, and after the heating of the heating wire 31, hot air is sent into the inner box body 1 through the blast pipe 33 and the communicating pipe 34 to dry starch.

For faster discharge, the rotating blade 62 therefore assumes a helical shape.

The top of the inner box body 1 is provided with a feeding port 23 penetrating through the outer box body 2, and the bottom of the inner box body 1 is arranged under the rotating shaft 61 and is provided with a discharging port 24 penetrating through the outer box body 2.

Be equipped with temperature sensor 11 in the interior box 1, be equipped with control panel 21 on the outer box 2, control panel 21 inside is fixed with singlechip 22, just singlechip 22 electric connection temperature sensor 11, first motor 4, second motor 5, shock dynamo 55 and third motor 6, through the inside temperature of box 1 in the temperature sensor 11 control, through control panel 21 with singlechip 22 control opening and the end of temperature sensor 11, first motor 4, second motor 5, shock dynamo 55 and third motor 6.

In order to increase the stability of the device, two support columns 8 are symmetrically arranged on the left side and the right side of the bottom surface of the outer box body 2, and the bases 81 are mounted at the bottom ends of the two support columns 8.

Example 2

The present embodiment is a further improvement on the basis of embodiment 1, and specifically includes the following steps:

referring to fig. 1-4, in order to prevent the motor from being damaged due to over-high temperature during operation, therefore, the bottom of the outer box 2 is provided with a heat dissipation mechanism 7, the heat dissipation mechanism 7 comprises a heat dissipation fan 71, a branch pipe 72, a condensation box 73, a condensation pipe 74 and a refrigerating unit 75, the heat radiation fan 71 is nested on the bottom plate of the outer box body 2, the heat radiation fan 71 is connected to the condensation box 73 through the branch pipe 72, a refrigerating unit 75 and a condensing pipe 74 connected with the refrigerating unit 75 are installed in the condensing tank 73, the condensing pipe 74 presents a spiral shape, a water outlet is arranged at the bottom of the condensing tank 73, by the fan, the internal hot gas is sucked into the condenser tank 73, the condenser pipe 74 is refrigerated by the refrigerating unit 75, the hot gas is condensed into water drops when contacting the condenser pipe 74, and finally the water drops are more and more, so that a water source is formed and discharged from a water outlet at the bottom of the condenser tank 73.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two pieces, and may be a direct connection, "upper," "lower," "left," and "right," and the like are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed.

Secondly, in the utility model discloses in the embodiment drawings, only relate to the structure that involves with this disclosed embodiment, other structures can refer to common design, under the conflict-free condition, the utility model discloses same embodiment and different embodiments can the intercombination.

Finally, the above description is only a preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A starch processing and drying device, which comprises an inner box body (1) and an outer box body (2), it is characterized in that a vacuum layer is arranged between the inner box body (1) and the outer box body (2), the inner box body (1) is connected with the outer box body (2) through a supporting frame at the bottom, the left side and the right side of the outer box body (2) are provided with air supply pipes (33) which are vertically arranged at intervals, a plurality of communicating pipes (34) are arranged on one side of the blast pipe (33) close to the outer box body (2) at equal intervals, one end of the communicating pipe (34) close to the outer box body (2) penetrates through the outer box body (2) and the inner box body (1), the top end of the blast pipe (33) is provided with an electric heating wire (31), the electric heating wire (31) is fixedly connected with an induced draft fan (3) through a hollow rod (32), the draught fan (3) is fixedly connected with the outer box body (2) through a support rod (35); a first transmission mechanism, a second transmission mechanism and a rotating mechanism are arranged in the inner box body (1), the first transmission mechanism comprises a first motor (4), a first driving wheel (41), a first transmission belt (42), a first driven wheel (43), a first fixing plate (44) and a rolling roller (45), the first motor (4) is arranged on one side of the upper end of the vacuum layer, an output shaft of the first motor (4) penetrates through the inner box body (1) and extends to the inner cavity of the inner box body (1) to be connected to the first driving wheel (41), the first driving wheel (41) is connected with the first driven wheel (43) through the first transmission belt (42), the first fixing plate (44) is arranged between the first driving wheel (41) and the first driven wheel (43), and the rolling roller (45) is arranged above the first fixing plate (44); the second transmission mechanism is arranged below the first transmission mechanism and comprises a second motor (5), a second driving wheel (51), a second transmission belt (52), a second driven wheel (53), a second fixing plate (54) and a vibration motor (55), the second fixing plate (54) is obliquely arranged in the inner box body (1), the first fixing plate (44) is internally provided with the vibration motor (55), the two ends of the second fixing plate (54) are respectively provided with the second driving wheel (51) and the second driven wheel (53), the second driving wheel (51) is connected with the second driven wheel (53) through the second transmission belt (52), the second driving wheel (51) is connected with the second motor (5), the second motor (5) is fixedly connected in the vacuum layer, and the transmission directions of the first transmission mechanism and the second transmission mechanism are opposite; the rotating mechanism comprises a third motor (6), a rotating shaft (61) and a rotating sheet (62), the output end of the third motor (6) is connected with the rotating shaft (61), and the rotating sheet (62) is sleeved on the outer surface of the rotating shaft (61).

2. The starch processing drying device according to claim 1, characterized in that a heat dissipation mechanism (7) is installed at the bottom of the outer box (2), the heat dissipation mechanism (7) comprises a heat dissipation fan (71), a branch pipe (72), a condensation box (73), a condensation pipe (74) and a refrigeration unit (75), the heat dissipation fan (71) is nested on the bottom plate of the outer box (2), the heat dissipation fan (71) is connected to the condensation box (73) through the branch pipe (72), the refrigeration unit (75) and the condensation pipe (74) connected with the refrigeration unit (75) are installed in the condensation box (73), the condensation pipe (74) is spiral, and a water outlet is formed at the bottom of the condensation box (73).

3. A starch processing and drying apparatus as claimed in claim 1, wherein said rotating plate (62) is helical.

4. The starch processing and drying device according to claim 1, wherein a feeding port (23) penetrating through the outer box (2) is arranged at the top of the inner box (1), and a discharging port (24) penetrating through the outer box (2) is arranged at the bottom of the inner box (1) and is positioned right below the rotating shaft (61).

5. The starch processing and drying device according to claim 4, wherein a temperature sensor (11) is arranged in the inner box body (1), a control panel (21) is arranged on the outer box body (2), a single chip microcomputer (22) is fixed in the control panel (21), and the single chip microcomputer (22) is electrically connected with the temperature sensor (11), the first motor (4), the second motor (5), the vibration motor (55) and the third motor (6).

6. The starch processing and drying device as claimed in claim 5, wherein two supporting columns (8) are symmetrically arranged on the left and right sides of the bottom surface of the outer box body (2), and bases (81) are respectively arranged at the bottom ends of the two supporting columns (8).

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