CN105495358A - Fermented-soybean-meal smashing and cooling method and device - Google Patents

Abstract

The invention relates to a fermented-soybean-meal smashing and cooling method and device. The method includes the steps that firstly, dried fermented soybean meal materials are fed into a first-stage cooler to be cooled; secondly, the fermented soybean meal materials subjected to first-stage cooling are fed into a smashing machine to be smashed; finally, the smashed materials are fed into a second-stage cooler to be cooled and discharged from the second-stage cooler after being cooled to a certain temperature, and a finished product is obtained through detection. The first-stage cooler and the second-stage cooler are both impeller-type counter-current coolers. The device comprises the coolers, the smashing machine and conveyors; the two coolers are both the impeller-type counter-current coolers. The fermented-soybean-meal smashing and cooling method and device have the advantages that in the production process, material caking is reduced, the moisture content of the materials is stabilized, the temperature of the materials is controlled, the smashed efficiency of the materials is improved, it is prevented that the product quality is influenced by the excessively high temperature, cooling efficiency is high, and energy consumption is low.

Description

A kind of fermented bean dregs pulverizes cooling means and device

Technical field

The present invention relates to a kind of fermented bean dregs and pulverize cooling means and device, belong to and pulverize cooling technology field.

Background technology

At present, what fermented bean dregs industry major part adopted is traditional fluidized bed type cooling, and this type of cooling efficiency is lower, and power consumption is high, and volume is large, and is much suitable only for coarse fodder (before pulverizing) cooling.And the novel vane type counter-current cooler cooling effectiveness of same volume and power exceeds more than 1.5 times than fluidized bed type cooler, and slightly, fines cooling is all applicable.In fermented bean dregs is produced, pulverize the operation that is absolutely necessary, if before merely cooler being arranged on pulverizing, so, even if cooling effectiveness maximizes, that is after cooling, temperature of charge equals environment temperature, after pulverizing, temperature can continue to rise, and finished product temperature is still higher.If arrange after being pulverized, before pulverizing first, material temperature is too high, and material to be comminuted is in stronger toughness, affect crush efficiency, second the single stage cooling material temperature that can reduce is usually at about 12 DEG C, the words that after pulverizing, material temperature initial value is too high, even if reduce about 12 DEG C, finished product temperature also can exceed room temperature far away.

Summary of the invention

The object of the invention is to, there is provided a kind of fermented bean dregs to pulverize cooling means and device, make in production process, to reduce material caking, stablize material moisture value, control temperature of charge, improve crushing material efficiency, prevent Yin Wendu too high and affect product quality, and cooling effectiveness is high, energy consumption is low.

The technical scheme that fermented bean dregs of the present invention pulverizes cooling means is:

A kind of fermented bean dregs pulverizes cooling means, the steps include: first the fermented bean dregs material of drying to be sent into the cooling of first order cooler, then the fermented bean dregs material that the first order cools is sent into pulverizer to pulverize, finally comminuting matter is sent into second-stage cooler cooling, this comminuting matter is discharged from second-stage cooler after being cooled to uniform temperature, becomes finished product through inspection; Described first order cooler and second-stage cooler are vane type counter-current cooler.

Further technical scheme is:

Described fermented bean dregs pulverizes cooling means, its fermented bean dregs material of drying to be the temperature being delivered to drying machine drying from fermentation procedure be fermented bean dregs material of 40 DEG C ~ 55 DEG C.

Described fermented bean dregs pulverizes cooling means, and the cooling of its first order cooler is that the temperature of the fermented bean dregs material of oven dry is dropped to 32 DEG C ~ 39 DEG C; Comminuting matter cool to room temperature or discharge from second-stage cooler higher than after room temperature 1 DEG C ~ 2 DEG C.

Described fermented bean dregs pulverizes cooling means, and its fermented bean dregs material of drying is the cooler bin entering into cooler from first order cooler top, drops on the impeller discharge mechanism in cooler bin; Cold wind from the cavity inner wall of cooler bin and impeller discharge mechanism between gap from bottom to top enter cooler bin, the fermented bean dregs material of drying is lowered the temperature, discharges from cooler bin top after absorbing heat; Deliver to pulverizer through the cooled fermented bean dregs material of first order cooler from the aggregate bin discharge of first order cooler bottom to pulverize.

Described fermented bean dregs pulverizes cooling means, and its comminuting matter enters into the cooler bin of cooler from second-stage cooler top, drops on the impeller discharge mechanism in cooler bin; Cold wind from bottom to top enters cooler bin from the gap between the cavity inner wall and impeller discharge mechanism of cooler bin, lowers the temperature to comminuting matter, discharges after absorbing heat from cooler bin top; Discharge through the aggregate bin of the cooled comminuting matter of second-stage cooler from cooler bottom, and send examination, packaging.

Pulverize a device for cooling means for fermented bean dregs of the present invention, it comprises cooler, pulverizer, and conveyer; Described cooler has 2, is first order cooler and second-stage cooler respectively, is vane type counter-current cooler; First order cooler charging aperture passes through the discharging opening UNICOM of the first conveyer and dryer; First order cooler discharging opening is by the charging aperture UNICOM of second conveyor and pulverizer; Second-stage cooler charging aperture passes through the discharging opening UNICOM of the 3rd conveyer and pulverizer.

Further technical scheme is:

The described device pulverizing cooling means for fermented bean dregs, its first conveyer is bucket elevator, and second conveyor is drag conveyor, and the 3rd conveyer is negative-pressure pneumatic conveyer; Described pulverizer is twin shaft beater disintegrating machine.

The described device pulverizing cooling means for fermented bean dregs of the present invention, comprise frame and be arranged on the cooler bin in this frame, an air-out top cover is installed at this cooler bin top, and airlock is installed at this air-out top cover top; In this airlock, a distributing device is installed; Install an impeller discharge mechanism bottom cooler bin, this impeller discharge mechanism bottom connects infundibulate aggregate bin; Described cooler bin outer wall installs a level detector; Between the cavity inner wall of described cooler bin and impeller discharge mechanism, there is the gap entering into cooler bin for cold wind from below to up.

The described device pulverizing cooling means for fermented bean dregs of the present invention, described impeller discharge mechanism comprises the reductor be fixed in frame, by bearing block several long-shaft type impellers rack-mounted; Reductor is in transmission connection by driving chain and impeller one end upper sprocket wheel.

The described device pulverizing cooling means for fermented bean dregs of the present invention, described distributing device has 2 for the pyramid of cloth, and this pyramid is by the exit of support installing at air-out top cover.

Technique effect of the present invention is: make to reduce material caking in production process, stablize material moisture value, control temperature of charge, prevent Yin Wendu too high and affect product quality, and cooling effectiveness is high, energy consumption is low.Accompanying drawing explanation

Fig. 1 is the schematic flow sheet that fermented bean dregs of the present invention pulverizes cooling means.

Fig. 2 is the device overall schematic pulverizing cooling means for fermented bean dregs of the present invention.

Fig. 3 is cooler schematic front view in apparatus of the present invention.

Fig. 4 is the left view of Fig. 3.

Fig. 5 is cooler internal structure and material and cold wind running route schematic diagram.

Fig. 6 is the distributing device schematic front view of cooler.

Fig. 7 is the top view of Fig. 6.

Fig. 8 is the structural representation of the impeller discharge mechanism of cooler.

Fig. 9 is material on marker impeller and cold wind running status schematic diagram.

In figure: 1-cooler, 2-pulverizer, 3-dryer, 4-the first conveyer, 5-second conveyor, 6-the three conveyer, 1.1-frame, 1.2-aggregate bin, 1.3-level detector, 1.4-cooler bin, 1.5-air-out top cover, 1.6-airlock, 1.7-impeller discharge mechanism, 1.71-reductor, 1.72-driving chain, 1.73-chain wheel cover, 1.74-sprocket wheel, 1.75-marker impeller, 1.76-bearing block, 1.77-cross wind net, 1.8-distributing device, 1.81-pyramid, 1.82-support, 1-a-first order cooler, 1-b-second-stage cooler.

Detailed description of the invention

Be described further as follows to fermented bean dregs pulverizing cooling means of the present invention and device in conjunction with the accompanying drawings and embodiments:

Embodiment 1: fermented bean dregs of the present invention pulverizes the basic embodiment of cooling means.As shown in Figure 1, 2, a kind of fermented bean dregs pulverizes cooling means, the steps include: first the fermented bean dregs material of drying to be sent into first order cooler 1-a cooling, then the fermented bean dregs material feeding pulverizer 2 first order being cooled 1-a is pulverized, finally comminuting matter is sent into second-stage cooler 1-b to cool, this comminuting matter is discharged from second-stage cooler 1-b after being cooled to uniform temperature, becomes finished product through inspection; Described first order cooler 1-a and second-stage cooler 1-b is vane type counter-current cooler.

Embodiment 2: be further embodiment on the basis of embodiment 1.Described fermented bean dregs pulverizes cooling means, and its fermented bean dregs material of drying is from fermentation procedure, be delivered to the fermented bean dregs material that temperature that dryer 3 dries is 40 DEG C ~ 55 DEG C.Described first order cooler 1-a cooling is that the temperature of the fermented bean dregs material of oven dry is dropped to 32 DEG C ~ 39 DEG C; Comminuting matter cool to room temperature or discharge from second-stage cooler 1-b higher than after room temperature 1 DEG C ~ 2 DEG C.The fermented bean dregs material of described oven dry is the cooler bin 1.4 entering into cooler from first order cooler 1-a top, drops on the impeller discharge mechanism 1.7 in cooler bin 1.4; Cold wind from the cavity inner wall of cooler bin 1.4 and impeller discharge mechanism 1.7 between gap from bottom to top enter cooler bin, the fermented bean dregs material of drying is lowered the temperature, discharges from cooler bin 1.4 top after absorbing heat; Deliver to pulverizer 2 through the cooled fermented bean dregs material of first order cooler 1-a from aggregate bin 1.2 discharge of first order cooler 1-a bottom to pulverize.Described comminuting matter enters into the cooler bin 1.4 of cooler from second-stage cooler 1-b top, drops on the impeller discharge mechanism 1.7 in cooler bin 1.4; Cold wind from bottom to top enters cooler bin 1.4 from the gap between the cavity inner wall and impeller discharge mechanism 1.7 of cooler bin 1.4, lowers the temperature to comminuting matter, discharges after absorbing heat from cooler bin 1.4 top; Discharge through the aggregate bin 1.2 of the cooled comminuting matter of second-stage cooler 1-b from cooler bottom, and send examination, packaging.

Embodiment 3: be a kind of basic embodiment of device pulverizing cooling means for fermented bean dregs of the present invention.As shown in Fig. 2 ~ 9, pulverize the device of cooling means for fermented bean dregs of the present invention, it comprises cooler 1, pulverizer 2, and conveyer; Described cooler 1 has 2, is first order cooler 1-a and second-stage cooler 1-b respectively, is vane type counter-current cooler; First order cooler 1-a charging aperture is by the discharging opening UNICOM of the first conveyer 4 with dryer 3; First order cooler 1-a discharging opening is by the charging aperture UNICOM of second conveyor 5 with pulverizer 2; Second-stage cooler 1-b charging aperture is by the discharging opening UNICOM of the 3rd conveyer 6 with pulverizer 2.

Embodiment 4: be further embodiment on the basis of embodiment 3.The described device pulverizing cooling means for fermented bean dregs, its first conveyer 4 is bucket elevator, and second conveyor 5 is drag conveyor, and the 3rd conveyer 6 is negative-pressure pneumatic conveyer; Described pulverizer 2 is twin shaft beater disintegrating machine.Described frame 1.1 and the cooler bin 1.4 be arranged in this frame, an air-out top cover 1.5 is installed at this cooler bin 1.4 top, and airlock 1.6 is installed at this air-out top cover 1.5 top; Install a distributing device 1.8 in this airlock 1.6, this distributing device is umbrella shape distributing device; Install an impeller discharge mechanism 1.7 bottom cooler bin 1.4, this impeller discharge mechanism 1.7 bottom connects infundibulate aggregate bin 1.2; Described cooler bin 1.4 outer wall installs a level detector 1.3; Between the cavity inner wall of described cooler bin and impeller discharge mechanism, there is the gap entering into cooler bin 1.4 for cold wind from below to up.Described impeller discharge mechanism 1.7 comprises the reductor 1.71 be fixed in frame 1.1, is arranged on several long-shaft type impellers 1.75 in frame 1.1 by bearing block 1.76; Reductor 1.71 is in transmission connection by driving chain 1.72 and impeller 1.75 one end upper sprocket wheel 1.74.Described distributing device 1.8 has 2 for the pyramid 1.81 of cloth, and this pyramid is arranged on the exit of air-out top cover 1.5 by support 1.82.

Below in conjunction with to the principle of invention, technical solution of the present invention, effect are further described:

In fermented bean dregs production process, temperature of charge is one of key parameter determining product final mass, and be absolutely necessary within the scope how making temperature of charge be stabilized in technological requirement research topic.Vane type counter-current cooler is one of current cooler for particulate material, powder cooling effect the best, but single stage cooling can only make temperature of charge control more than environment temperature 3 DEG C-5 DEG C usually, there is the occasion of pulverizing process, temperature also has the bounce-back of certain amplitude, when product temperature exceeds room temperature more than 2 DEG C, a lot of powder can produce caking.Adopt vane type counter-current cooler, be configured at respectively before and after disintegrating process, realize secondary cooling, can effectively improve crushing material efficiency, also can reduce caking.

As shown in Figure 2, before pulverizer 2, arrange that a vane type counter-current cooler 1-a carries out coarse fodder cooling, tentatively cools by material to be comminuted and reduces material toughness.Also configure same model vane type counter-current cooler 1-b at the back segment of pulverizer 2, cooling twice is carried out to the powder of output, reduces material temperature further, finally realize finished product temperature to be controlled in more than room temperature or room temperature 1 DEG C of-2 DEG C of scope.

As shown in Figure 5, material is deposited in cooler bin 1.4 cavity through umbrella shape distributing device 1.8 by airlock 1.6 more equably, cold wind below cooler bin 1.4 cavity with comprehensively enter in cooler space, aggregate bin 1.2 top, and pass perpendicularly through the bed of material and thermal material carries out heat exchange, by air draft system sucking-off, thus material is cooled.Cool time is controlled jointly by level detector 1.3 position height and the time relay.When material bed reach controlling level time, level detector 1.3 stops operating, send signal, the time relay is started working, vane type discharge mechanism 1.7 starts discharge, when arriving the scheduled time time (material bed be in low controlling level), the time relay quits work, and vane type discharge mechanism 1.7 stops discharge.Constantly repeat the discharging process continued above.In above-mentioned whole process, cooling blower is open all the time.

Along with the rotation of marker impeller 1.75 arranges, material is mobile progressively slowly descending from top to down, and cooling air is by entering bottom cooler bin 1.4, from bottom to top (see Fig. 2,5), discharges after top outlet inlet is discharged through airduct, dust arrester finally by blower fan.Cooling air is by cold heating, and like this, in the course of the work, what the material of top heat ran into is hot blast, and what the cold material in bottom ran into is cold wind, material in descending process through all even sufficient cooling.

Umbrella shape distributing device 1.8 makes the material uniform spreading got off from airlock 1.6 be placed in cooler bin 1.4.Distributing device 1.8 forms (see Fig. 6,7) primarily of two and half icicle bodies 1.81 and support 1.82.Material can from icicle body 1.81 surrounding and middle neutral dispersed material.Distance between two and half icicle bodies 1.81 is adjustable, and can change material diffusion position, and material energy uniform spreading is placed in cooler bin 1.4.

Dry cooled fermented bean dregs than much better in hot (more than 40 DEG C) fragility, that is is conducive to pulverizing, and improves crush efficiency, improves grinding particle size.In addition, fine powder product there will be agglomeration problems in material temperature higher than during room temperature more than 2 DEG C, and moisture content of finished products also can be caused to change, and directly affects the stable of product quality.How in production control process, material temperature becomes the fundamental means solved the problem.In prior art fermented bean dregs production process, owing to have passed through oven dry (heating) before pulverizing, the remaining temperature of material is pulverized at about 50 DEG C, be unfavorable for pulverizing, the effective treatment measures of the present invention for cool for the first time in Flow of Goods and Materials process before pulverizing, and the equipment used is vane type counter-current cooler; After cooling for the first time, temperature of charge reduces about 12 DEG C, and before namely pulverizing, temperature is reduced to about 38 DEG C and pulverizes.Crushing material is the process of an acting, and by energy conversion principle, after pulverizing, overall material temperature certainly will rise, and different according to powder particles, temperature lifting range is 4 ~ 9 DEG C; It is 42 DEG C ~ 47 DEG C that pulverizing terminates rear actual material temperature, obviously higher than room temperature.For solving this problem, again must cool material; After have passed through cooling twice, temperature of charge drops to more than environment temperature or environment temperature 1 DEG C ~ 2 DEG C, meets technological requirement completely, obtains the product that quality is high.

Claims of the present invention is not limited to above-described embodiment.

Claims (10)

1. a fermented bean dregs pulverizes cooling means, it is characterized in that, step is: first the fermented bean dregs material of drying is sent into the cooling of first order cooler, then the fermented bean dregs material that the first order cools is sent into pulverizer to pulverize, finally comminuting matter is sent into second-stage cooler cooling, this comminuting matter is discharged from second-stage cooler after being cooled to uniform temperature, becomes finished product through inspection; Described first order cooler and second-stage cooler are vane type counter-current cooler.

2. fermented bean dregs according to claim 1 pulverizes cooling means, it is characterized in that, the fermented bean dregs material of described oven dry to be the temperature being delivered to drying machine drying from fermentation procedure the be fermented bean dregs material of 40 DEG C ~ 55 DEG C.

3. fermented bean dregs according to claim 1 pulverizes cooling means, it is characterized in that, described first order cooler cooling is that the temperature of the fermented bean dregs material of oven dry is dropped to 32 DEG C ~ 39 DEG C; Comminuting matter cool to room temperature or discharge from second-stage cooler higher than after room temperature 1 DEG C ~ 2 DEG C.

4. fermented bean dregs according to claim 1 pulverizes cooling means, and it is characterized in that, the fermented bean dregs material of described oven dry is the cooler bin entering into cooler from first order cooler top, drops on the impeller discharge mechanism in cooler bin; Cold wind from the cavity inner wall of cooler bin and impeller discharge mechanism between gap from bottom to top enter cooler bin, the fermented bean dregs material of drying is lowered the temperature, discharges from cooler bin top after absorbing heat; Deliver to pulverizer through the cooled fermented bean dregs material of first order cooler from the aggregate bin discharge of first order cooler bottom to pulverize.

5. fermented bean dregs according to claim 1 pulverizes cooling means, and it is characterized in that, described comminuting matter enters into the cooler bin of cooler from second-stage cooler top, drops on the impeller discharge mechanism in cooler bin; Cold wind from bottom to top enters cooler bin from the gap between the cavity inner wall and impeller discharge mechanism of cooler bin, lowers the temperature to comminuting matter, discharges after absorbing heat from cooler bin top; Discharge through the aggregate bin of the cooled comminuting matter of second-stage cooler from cooler bottom, and send examination, packaging.

6. pulverize a device for cooling means for fermented bean dregs described in claim 1, it is characterized in that, it comprises cooler (1), pulverizer (2), and conveyer; Described cooler (1) has 2, is first order cooler (1-a) and second-stage cooler (1-b) respectively, is vane type counter-current cooler; First order cooler (1-a) charging aperture is by the discharging opening UNICOM of the first conveyer (4) with dryer (3); First order cooler (1-a) discharging opening is by the charging aperture UNICOM of second conveyor (5) with pulverizer (2); Second-stage cooler (1-b) charging aperture is by the discharging opening UNICOM of the 3rd conveyer (6) with pulverizer (2).

7. fermented bean dregs according to claim 6 pulverizes the device of cooling means, and it is characterized in that, described the first conveyer (4) is bucket elevator, and second conveyor (5) is drag conveyor, and the 3rd conveyer (6) is negative-pressure pneumatic conveyer; Described pulverizer (2) is twin shaft beater disintegrating machine.

8. fermented bean dregs according to claim 6 pulverizes the device of cooling means, it is characterized in that, comprise frame (1.1) and be arranged on the cooler bin (1.4) in this frame, an air-out top cover (1.5) is installed at this cooler bin (1.4) top, and airlock (1.6) is installed at this air-out top cover (1.5) top; In this airlock (1.6), a distributing device (1.8) is installed; An impeller discharge mechanism (1.7) is installed in cooler bin (1.4) bottom, and this impeller discharge mechanism (1.7) bottom connects infundibulate aggregate bin (1.2); Described cooler bin (1.4) outer wall installs a level detector (1.3); Between the cavity inner wall of described cooler bin and impeller discharge mechanism, there is the gap entering into cooler bin (1.4) for cold wind from below to up.

9. fermented bean dregs according to claim 8 pulverizes the device of cooling means, it is characterized in that, described impeller discharge mechanism (1.7) comprises the reductor (1.71) be fixed in frame (1.1), is arranged on several long-shaft type impellers (1.75) in frame (1.1) by bearing block (1.76); Reductor (1.71) is in transmission connection by driving chain (1.72) and impeller (1.75) one end upper sprocket wheel (1.74).

10. fermented bean dregs according to claim 8 pulverize cooling means device, it is characterized in that, described distributing device (1.8) has 2 pyramids for cloth (1.81), and this pyramid is arranged on the exit of air-out top cover (1.5) by support (1.82).