阅读说明：本技术 一种魔芋精粉循环存储塔 (Konjak refined flour circulation storage tower ) 是由 聂武斌 陈文� 于 2020-04-30 设计创作，主要内容包括：本发明一种魔芋精粉循环存储塔属于加工设施领域,在存储塔底部的四个角垂直安装四根立柱,在存储塔底部的中央横向安装圆筒状的出料管、出料管内部安装螺旋形的推进器,在存储塔的上方安装S型的进料管,在存储塔的顶部设置圆形的出风口、在出风口的上面安装圆形的盖板、在出风口的里面安装圆形的棉布过滤网、在出风口的下面安装U型的托架、在托架的上面安装圆柱形的减速电机、在减速电机上方的中轴上面安装十字形的刷板,当魔芋精粉被离心风机经进料管送入存储塔后、随着魔芋精粉一起进入存储塔里面的气流经过滤网挤出存储塔、需要加工魔芋精粉时由推进器将其从出料管推出落入调浆设施里面。(The invention relates to a konjak fine flour circulating storage tower, which belongs to the field of processing facilities, four upright posts are vertically arranged at four corners at the bottom of a storage tower, a cylindrical discharge pipe is transversely arranged at the center of the bottom of the storage tower, a spiral propeller is arranged inside the discharge pipe, an S-shaped feeding pipe is arranged above the storage tower, a round air outlet is arranged at the top of the storage tower, a round cover plate is arranged above the air outlet, a round cotton cloth filter screen is arranged in the air outlet, a U-shaped bracket is arranged below the air outlet, a cylindrical speed reducing motor is arranged above the bracket, a cross-shaped brush plate is arranged above a middle shaft above the speed reducing motor, when the konjac fine powder is fed into the storage tower through the feeding pipe by the centrifugal fan, the konjac fine powder enters the storage tower along with the konjac fine powder, flows through the filter screen and is extruded out of the storage tower, and when the konjac fine powder needs to be processed, the konjac fine powder is pushed out of the discharging pipe by the propeller and falls into the size mixing facility.)

1. A konjak fine flour circulating storage tower is characterized by comprising an upright post, a storage tower, a feed opening, a discharge pipe, a propeller, a servo motor, a discharge opening, a feed pipe, an air outlet, a speed reducing motor, a cover plate, a filter screen, a sealing ring, a bracket, a brush plate, a control box, a power supply, a multi-path controller, a display screen and a power line;

the storage tower is composed of two parts, the upper part is in a hollow cuboid shape, the lower part is in a hollow triangle shape, four corners of the lower part are respectively and vertically provided with a rectangular upright post, the central horizontal level of the bottom is provided with a rectangular feed opening, the upper part of the side surface is provided with a feed inlet, the outer part of the feed inlet is provided with a round feed pipe, and the central part of the top is provided with a round air outlet.

2. The storage tower of claim 1, wherein the discharge pipe is hollow cylindrical and horizontally disposed below the storage tower after being connected to the discharge port through a rectangular opening at the upper left side, the cylindrical servo motor is disposed at the left side, the spiral propeller is disposed inside, the center shaft at the left side of the propeller is connected to the center shaft of the servo motor, the center shaft at the right side of the propeller is connected to the circular baffle plate at the right top end of the discharge pipe through a circular bearing seat, and the cylindrical discharge port is disposed below the right top end.

3. The konjak fine flour circulating storage tower of claim 1, wherein the filter screen is circular and is arranged inside the air outlet, and the diameter of the filter screen is less than 0.2 mm;

the sealing ring is an annular rubber ring and is arranged outside the upper part of the air outlet;

the cover plate is made of aluminum plates and is arranged above the air outlet, the diameter of the cover plate is larger than that of the air outlet, and the rear part of the cover plate is connected with the upper surface of the storage tower through a rectangular hinge;

the bracket is U-shaped, two crossed parts are arranged below the air outlet in a cross shape, the center of the upper part is vertically provided with a cylindrical speed reducing motor, a round tray is arranged on a middle shaft above the speed reducing motor, a cross-shaped brush board is arranged on the tray, brush bristles are uniformly arranged on the brush board and contact with the lower part of the filter screen.

4. The konjak fine flour circulating storage tower of claim 1, wherein the control box is rectangular and is arranged on the side surface of the storage tower, a rectangular display screen is arranged in the front of the control box, and a power supply and a multi-path controller are arranged in the control box;

the power supply is connected with the multi-path controller through a power line, and the multi-path controller is connected with the display screen, the servo motor and the speed reducing motor through power lines respectively.

Technical Field

The invention discloses a konjak fine powder circulating storage tower, belongs to the field of processing facilities, and particularly relates to a facility capable of circularly storing processed konjak fine powder.

Background

The konjak fine powder is obtained by grinding konjak into powder. The existing enterprises for processing konjak food need to temporarily store the konjak fine powder in a turnover barrel when processing the konjak fine powder so as to facilitate future processing. However, when the konjac fine flour is temporarily stored, the konjac fine flour needs to be sequentially subpackaged in a turnover barrel, then stacked, and transported to the side of a size mixing facility for feeding when in use. The method is labor-consuming and time-consuming, has low efficiency, and is easy to generate dust to influence food sanitation. Therefore, there is a need for a fully enclosed, recyclable storage facility that can replace existing transfer drums.

Disclosure of Invention

The invention solves the difficulties by adopting a rectangular storage tower, four upright posts are vertically arranged at four corners of the bottom of the storage tower, a cylindrical discharge pipe is transversely arranged at the center of the bottom of the storage tower, a spiral propeller is arranged inside the discharge pipe, an S-shaped feeding pipe is arranged above the storage tower, a round air outlet is arranged at the top of the storage tower, a round cover plate is arranged above the air outlet, a round cotton cloth filter screen is arranged in the air outlet, a U-shaped bracket is arranged below the air outlet, a cylindrical speed reducing motor is arranged above the bracket, a cross-shaped brush plate is arranged above a middle shaft above the speed reducing motor, when the konjac fine powder is fed into the storage tower through the feeding pipe by the centrifugal fan, the konjac fine powder enters the storage tower along with the konjac fine powder, flows through the filter screen and is extruded out of the storage tower, and when the konjac fine powder needs to be processed, the konjac fine powder is pushed out of the discharging pipe by the propeller and falls into the size mixing facility.

A konjak fine flour circulating storage tower is characterized by comprising an upright post, a storage tower, a feed opening, a discharge pipe, a propeller, a servo motor, a discharge opening, a feed pipe, an air outlet, a speed reducing motor, a cover plate, a filter screen, a sealing ring, a bracket, a brush plate, a control box, a power supply, a multi-path controller, a display screen and a power line;

the storage tower is composed of two parts, the upper part is in a hollow cuboid shape, the lower part is in a hollow triangle shape, four corners of the lower part are respectively and vertically provided with a rectangular upright post, the central horizontal level of the bottom is provided with a rectangular feed opening, the upper part of the side surface is provided with a feed inlet, the outer part of the feed inlet is provided with a round feed pipe, and the central part of the top is provided with a round air outlet.

The discharging pipe is hollow and cylindrical, and is horizontally arranged below the storage tower after being connected with the discharging opening through a rectangular opening at the upper part of the left side, the cylindrical servo motor is arranged at the left side, the spiral propeller is arranged inside the discharging pipe, the center shaft at the left side of the propeller is connected with the center shaft of the servo motor, the center shaft at the right side of the propeller is connected with the circular baffle at the top end of the discharging pipe at the right side through a circular bearing seat, and the cylindrical discharging opening is arranged below the top end of the right side.

The filter screen is round and is made of cotton cloth with the aperture smaller than 0.2mm and is arranged in the air outlet;

the sealing ring is an annular rubber ring and is arranged outside the upper part of the air outlet;

the cover plate is made of aluminum plates and is arranged above the air outlet, the diameter of the cover plate is larger than that of the air outlet, and the rear part of the cover plate is connected with the upper surface of the storage tower through a rectangular hinge;

the bracket is U-shaped, two crossed parts are arranged below the air outlet in a cross shape, the center of the upper part is vertically provided with a cylindrical speed reducing motor, a round tray is arranged on a middle shaft above the speed reducing motor, a cross-shaped brush board is arranged on the tray, brush bristles are uniformly arranged on the brush board and contact with the lower part of the filter screen.

The control box is rectangular and is arranged on the side surface of the storage tower, a rectangular display screen is arranged in front of the control box, and a power supply and a multi-path controller are arranged inside the control box;

the power supply is connected with the multi-path controller through a power line, and the multi-path controller is connected with the display screen, the servo motor and the speed reducing motor through power lines respectively.

Has the advantages that: the existing enterprises for processing konjak food need to temporarily store the konjak fine powder in a turnover barrel when processing the konjak fine powder so as to facilitate future processing. However, when the konjac fine flour is temporarily stored, the konjac fine flour needs to be sequentially subpackaged in a turnover barrel, then stacked, and transported to the side of a size mixing facility for feeding when in use. The method is labor-consuming and time-consuming, has low efficiency, and is easy to generate dust to influence food sanitation. A circular storage tower for refined konjak flour is composed of a rectangular storage tower, four vertical columns vertically installed at four corners of bottom of storage tower, a cylindrical discharge pipe is transversely arranged at the center of the bottom of the storage tower, a spiral propeller is arranged inside the discharge pipe, an S-shaped feeding pipe is arranged above the storage tower, a round air outlet is arranged at the top of the storage tower, a round cover plate is arranged above the air outlet, a round cotton cloth filter screen is arranged in the air outlet, a U-shaped bracket is arranged below the air outlet, a cylindrical speed reducing motor is arranged above the bracket, a cross-shaped brush plate is arranged above a middle shaft above the speed reducing motor, when the konjac fine powder is fed into the storage tower through the feeding pipe by the centrifugal fan, the konjac fine powder enters the storage tower along with the konjac fine powder, flows through the filter screen and is extruded out of the storage tower, and when the konjac fine powder needs to be processed, the konjac fine powder is pushed out of the discharging pipe by the propeller and falls into the size mixing facility.

Drawings

FIG. 1 is a schematic structural diagram of a konjac fine powder circulating storage tower;

FIG. 2 is a schematic structural diagram of a storage tower, an air outlet, a speed reduction motor, a cover plate, a filter screen, a sealing ring, a bracket and a brush plate;

FIG. 3 is a schematic diagram of a power supply connected to a multi-channel controller via power lines, the multi-channel controller connected to a display screen, a servo motor, and a reduction motor via power lines;

the marks in the above figures are a vertical column 1, a storage tower 2, a feed opening 3, a discharge pipe 4, a propeller 5, a servo motor 6, a discharge opening 7, a feed opening 8, a feed pipe 9, an air outlet 10, a speed reducing motor 11, a cover plate 12, a filter screen 13, a sealing ring 14, a bracket 15, a brush plate 16, a control box 17, a power supply 18, a multi-way controller 19, a display screen 20 and a power line 21.

Detailed Description

The shape and construction of the present invention will now be described in detail with reference to the accompanying drawings and reference numerals:

a konjak fine flour circulating storage tower is characterized by comprising an upright post 1, a storage tower 2, a feed opening 3, a discharge pipe 4, a propeller 5, a servo motor (AC 380V/> 2kw)6, a discharge opening 7, a feed opening 8, a feed pipe 9, an air outlet 10, a speed reducing motor (AC 380V/> 0.3kw)11, a cover plate 12, a filter screen 13, a seal ring 14, a bracket 15, a brush plate 16, a control box 17, a power supply (AC380V/30A)18, a multi-way controller (AC380V/30A, DC12V/3A)19, a display screen (DC12V/2A)20 and a power line 21;

the storage tower 2 is composed of two parts, the upper part is in a hollow cuboid shape, the lower part is in a hollow trigonid shape, four corners of the lower part are respectively and vertically provided with a rectangular upright post 1, the central horizontal level of the bottom is provided with a rectangular feed opening 3, the upper part of the side surface is provided with a feed inlet 8, the outer part of the feed inlet 8 is provided with a round feed pipe 9, and the central part of the top part is provided with a round air outlet 10.

The discharging pipe 4 is hollow and cylindrical, is horizontally arranged below the storage tower 2 after being connected with the discharging opening 3 through a rectangular opening at the upper left side, the cylindrical servo motor 6 is arranged at the left side, the spiral propeller 5 is arranged inside the discharging pipe, the middle shaft at the left side of the propeller 5 is connected with the middle shaft of the servo motor 6, the middle shaft at the right side of the propeller 5 is connected with the circular baffle plate at the top end at the right side of the discharging pipe 4 through a circular bearing seat, and the cylindrical discharging opening 7 is arranged below the top end at the right side.

The filter screen 13 is round and is made of cotton cloth with the aperture smaller than 0.2mm and is arranged in the air outlet 10;

the sealing ring 14 is an annular rubber ring and is arranged outside the upper part of the air outlet 10;

the cover plate 12 is made of an aluminum plate and is arranged above the air outlet 10, the diameter of the cover plate is larger than that of the air outlet 10, and the rear part of the cover plate is connected with the upper surface of the storage tower 2 through a rectangular hinge;

the bracket 15 is U-shaped, two crossed cross-shaped brackets are arranged below the air outlet 10, the center of the upper part is vertically provided with a cylindrical speed reducing motor 11, a round tray is arranged on a middle shaft above the speed reducing motor 11, a cross-shaped brush board 16 is arranged on the tray, bristles are uniformly arranged on the brush board 16 and contact with the lower part of the filter screen 13.

The control box 17 is rectangular and is arranged on the side surface of the storage tower 2, a rectangular display screen 20 is arranged in the front of the control box, and a power supply 18 and a multi-way controller 19 are arranged in the control box;

the power supply 18 is connected with the multi-channel controller 19 through a power line 21, and the multi-channel controller 19 is respectively connected with the display screen 20, the servo motor 6 and the speed reducing motor 11 through the power line 21.

When the konjak fine powder circulating storage tower is used, a worker firstly connects a discharge pipe of a pulverizer with a feed inlet of a centrifugal fan and connects the discharge pipe of the centrifugal fan with an inlet of a feed pipe of the storage tower, the worker seals a discharge outlet of the storage tower by plastic cloth, the worker turns on a power supply, turns on a speed reduction motor through an operation key on a display screen, drives a brush plate to rotate slowly, then turns on the pulverizer and the centrifugal fan, puts konjak dry pieces into the pulverizer, the konjak dry pieces are pulverized, are sucked by the centrifugal fan, are pressurized and are fed into the storage tower through the feed pipe, air flow and konjak fine powder circulate up and down in the storage tower, then the air flow is upwards extruded through a filter screen, the cover plate is slowly blown up, the storage tower is extruded from a gap between the cover plate and the seal ring, the konjak fine powder slowly falls into the storage tower, and the konjak fine powder is discharged from the lower part of the interior of the storage tower, The konjak fine flour attached to the lower part of the filter screen is brushed by the brush plate and then falls into the lower part of the storage tower along with the airflow, a worker checks whether the konjak fine flour is full through an observation window in the front of the storage tower and needs to stop the work of the crusher, the centrifugal fan and the speed reducing motor, when the worker modulates the konjak thick liquid, a multipath controller is arranged through an operation key on a display screen to control the number of turns of the servo motor in each rotation according to the capacity of the stirring pot and the viscosity of the konjak thick liquid, then plastic cloth on a discharge port is removed, the servo motor is started by clicking the operation key, the servo motor drives the propeller to rotate slowly, the propeller slowly pushes the konjak fine flour falling into the discharge pipe from the discharge port rightwards, when the konjak fine flour is pushed to the upper part of the discharge port, the konjak fine flour falls into the stirring pot through the discharge port to be stirred, and stops rotating after the propeller is driven to rotate to the set number of turns by the servo motor, And (5) sealing the discharge hole again by workers, and operating again according to the steps when waiting for stirring the konjak thick paste again.

The parts not described in detail above are prior art.