Corn flour production and processing mechanism based on multidirectional feeding

A processing mechanism and cornmeal technology, which is applied to mixers with rotating stirring devices, mixers, conveyors, etc., can solve the problems of difficulty in ensuring the accuracy of feeding volume and poor work continuity

Active Publication Date: 2018-10-16
安徽双全面粉有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The former type of method has the inherent shortcomings of traditional manual operations such as manpower consumption and low efficiency; There is a unique conveying path between the feed inlets, and since the raw materials fed into the kneading device have a fixed ratio, the running conveyor belt or pump can only be set to feed intermitte

Method used

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  • Corn flour production and processing mechanism based on multidirectional feeding
  • Corn flour production and processing mechanism based on multidirectional feeding
  • Corn flour production and processing mechanism based on multidirectional feeding

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0057] Such as figure 1 As shown, this embodiment discloses a cornmeal production and processing mechanism based on multi-directional feeding, which includes a corn grain crushing device, a powder mixing device, and a powder running device in sequence from front to back according to the technological process.

[0058] Such as figure 2 As shown, the corn crushing device sequentially includes a crushing unit, a drying unit and a recycling unit in the order of the process flow. The crushing unit includes a crushing box 11, a rotating shaft 24, an impurity removal mechanism arranged in the crushing box 11, an upper crushing mechanism and a lower crushing mechanism. The top of the scrap box 11 has a feed inlet and an upper insertion opening for vertically inserting the rotating shaft 24 , and the bottom of the scrap box 11 has a discharge opening. The discharge port is hinged with a material door 13, which is used to close the discharge port of the scrap bin 11. The material doo...

Embodiment 2

[0071] Such as image 3 , 4 As shown, the difference between the present embodiment and the above-mentioned embodiments is that the feeding power mechanism includes a feeding rod 14 and a movable block 20, and the two ends of the feeding rod 14 are respectively hinged on the material door 13 and the movable block 20, and the movable block 20 Located below the material door 13, the movable block 20 is connected with the first power mechanism or the second power mechanism for horizontal movement.

[0072] Such as image 3 , 5 As shown, the first power mechanism includes telescopic rod 18 and blanking cylinder 19, movable block 20 is connected on the telescopic end of telescopic rod 18, and the telescopic end of telescopic rod 18 is connected with the piston end of blanking cylinder 19.

[0073] On the premise that the movable block 20 is connected to the first power mechanism, when it is necessary to open or close the discharge port of the crushed material box 11, the telesco...

Embodiment 3

[0092] Such as Figure 11-13 As shown, the difference between this embodiment and the above-mentioned embodiments is that the mixing device also includes a base 68 on which a rotating motor 681 is installed, the rotating motor 681 is connected to the mixing shaft 67, and several supporting legs 682 are installed on the base 68. Around the base 68 are also provided with some accommodation grooves 683, and a vertically arranged mixing cylinder 684 is installed in the accommodation groove 683. The upper end of the mixing cylinder 684 is fixedly connected with the base 68, and the lower end of the mixing cylinder 684 is equipped with universal wheels. 685.

[0093] Traditional powder mixing devices generally have a fixed base, which makes it cumbersome and time-consuming to move the entire device. There are also some powder mixing devices for the convenience of moving to install moving wheels on the lower part of the base, but they vibrate greatly when they are in motion, and the...

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PUM

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Abstract

The invention discloses a corn flour production and processing mechanism based on multidirectional feeding. The corn flour production and processing mechanism comprises a corn grain crushing device, apowder mixing device and a powder transfer device according to the technological process from front to back. The corn grain crushing device comprises a crushing unit, a drying unit and a material return device according to the technological process in sequence. The powder mixing device comprises a material mixing tank and a material mixing upper cover covering the material mixing tank, and a cavity of the material mixing tank is internally provided with a first material mixing and screening plate, a first mixing chamber, a second material mixing and screening plate and a crushing/mixing integrated chamber from top to bottom in sequence. The powder transfer device comprises a transfer conveyor belt, a turnover discharging device, a transfer baffle, a conveyer bucket, a transfer elastic device and a transfer lifting base station from front to back in sequence. The corn flour production and processing mechanism has the advantages of quality guarantee of produced corn flour, good mixing effect of corn flour and flour, high continuity of operation, precise single feeding quantity and high working efficiency, and is not liable to caking or blockage.

Description

technical field [0001] The invention relates to the technical field of agricultural machinery, in particular to a cornmeal production and processing mechanism based on multi-directional feeding. Background technique [0002] At present, food prepared from corn emerges in an endless stream, and common ones include corn pancakes, corn cakes, etc., among which corn noodles are the most popular in the market. Such as a kind of coarse grain noodles disclosed in patent application 201410055621.X, by mixing flour, corn flour, peanut flour, millet flour, pumpkin puree, yeast powder, and guar gum, noodles rich in various nutrients are prepared. Another example is a kind of Gallus fir noodles disclosed in patent application 201310270302.6 and a processing method thereof, by mixing 30-50 parts of noodles, rice flour, soybean flour, peanut flour, and oat flour, eggs, milk powder, yam powder, buckwheat flour, sweet potato flour, Black fungus powder, corn flour, transglutaminase and sodi...

Claims

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Application Information

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IPC IPC(8): B02C13/14B02C13/20B02C13/26B02C23/12B02C23/16B02C21/00B08B3/02B08B3/10B07B9/00B07B4/02B07B1/34B07B1/42B01F15/00B01F7/16B01F13/10B65G47/74
CPCB65G47/74B02C13/14B02C13/20B02C13/26B02C21/00B02C23/12B02C23/16B07B1/343B07B1/42B07B4/02B07B9/00B08B3/02B08B3/041B08B3/104B02C2023/165B65G2201/04B01F27/85B01F33/811B01F35/188B01F2101/06
Inventor 朱梁帅曾絮
Owner 安徽双全面粉有限公司
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