CN204860866U - System is fried to cereal - Google Patents

Abstract

The utility model relates to a system is fried to cereal, its characterized in that fries room and cooling chamber including being equipped with baking over a slow fire of air distributor, bakes over a slow fire and fries room intercommunication air heating room, first dust remover, and the feed inlet that the cooling chamber is connected to the discharge gate of frying the room is baked over a slow fire to the hot -blast air heating room of returning of first dust remover exhaust, cold air conduit of cooling chamber intercommunication and second dust remover, the hot -blast air heating room of returning after the heat transfer. The utility model discloses the state of seething heats down in making cereal, and heat exchange efficiency is high, the system of frying is fast, production efficiency is high, and has avoided use gravel, the sanitary no foreign matter of raw materials, and green, health nature has obtained the assurance, and owing to do not use gravel as heating medium, need not follow -up splitter, shortened the stir -fry system time, cereal protein denaturalization and starch gelatinization's degree control is effectual, and the raw materials is heated evenly, and the steady quality can not cause the raw materials to singe the scheduling problem.

Description

Cereal frying system

Technical field

The utility model relates to brewery installations, specifically refers to a kind of cereal frying system.

Background technology

Usually ripe wheat can be used in brewage process.The mode of traditional slaking wheat manually fries, and efficiency is low and the amount of cure of wheat is uneven, easily causes raw material to burn.Be developed sand bath wheat-frying machine for this reason, sand and wheat mixed heating of rolling together with being placed in baking box, again sand is separated with wheat after frying.The method increase production efficiency, alleviate labor strength.But separation circuit and separating difficulty that wheat method adds quartz sand and wheat are fried in sand bath, easily cause being separated not thorough, quartz sand remains in the wheat fried, and brings finished product hygienic issues.

In addition, also there is the problems such as energy consumption is high, cooling velocity is slow in existing stir-fry wheat equipment and method; Meanwhile, frying efficiency also needs to be improved further.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of health, efficient, energy-conservation cereal frying system for the present situation of prior art.

The utility model solves the problems of the technologies described above adopted technical scheme: this cereal frying system, it is characterized in that comprising and roast room and cooling chamber, the described indoor that roast are provided with the first gas distributor stoping wheat to be roasted to pass through, the described room of roasting is provided with the hot air inlet being communicated with hotair chamber, described hot air inlet is positioned at the below of described first gas distributor, the described end face roasting room is provided with the first charging aperture and second exhaust port, described second exhaust port connects the first deduster, the top gas outlet of described first deduster connects reflux line by the first pipeline, described reflux line connects described hotair chamber, described roasting on room is also provided with the first discharging opening, and described first discharging opening is communicated with the second charging aperture of described cooling chamber,

The second gas distributor stoping wheat to be cooled to pass through is provided with in described cooling chamber, described cooling chamber is provided with the cool air inlet being communicated with cold-air duct, described cool air inlet is positioned at the below of described second gas distributor, the end face of described cooling chamber is also provided with second exhaust port, described second exhaust port connects the second deduster, the top gas outlet of described second deduster connects described reflux line by second pipe, and described cooling chamber is provided with the second discharging opening for the good wheat discharging of frying.

In order to effectively control the humidity of backflow hot blast, thus control to enter the humidity roasting indoor hot air, can be provided with the first bypass on described first pipeline, described first bypass is provided with the first bypass air-valve;

Described second pipe is provided with the second bypass, and described second bypass is provided with the second bypass air-valve.

Described second discharging opening can be communicated with storage tank.The good cereal of frying is stored by storage tank.

Described reflux line and described hotair chamber are equipped with pressure relief opening.

The first blower fan is provided with between described hot air inlet and described hotair chamber; Described cold-air duct is provided with the second blower fan.

Described first charging aperture is provided with inlet valve, described charging forwards and comprises valve body, the outlet that described valve body is provided with import and is connected with described first charging aperture, rotating shaft is provided with in described valve body, in described rotating shaft, the axially spaced-apart of the rotating shaft on edge is provided with polylith valve plate, and the external end edge of each described valve plate is all conflicted on the inwall of described valve body.

Described first deduster and described second deduster are cyclone dust collectors, and the outlet at bottom of described first deduster and described second deduster is equipped with wind stopping device.

The described bottom roasting room roughly at right angles triangle body structure, described in roast room top be cube structure, described in roast room top connect the right-angle side roasting bottom, room; Described first gas distributor is arranged on and roasts the incline position of indoor bottom near wedge angle, and be connected with air flow chamber below the first gas distributor, the upper surface of this air flow chamber is docked with gas distributor, and the lower surface area of air flow chamber is less than the area of upper surface; Described first discharging opening is arranged on the position roasted near described first gas distributor in the right-angle surface of bottom, room;

The structure of described cooling chamber is identical with the described structure roasting room.

Described first gas distributor comprises distribution grid, and described distribution grid is evenly equipped with multiple pore, and the aperture of each pore is less than the particle diameter treating frying cereal;

The structure of described second gas distributor is identical with the structure of described first gas distributor.This structure is simple and distribution of gas is effective.

Compared with prior art, cereal frying system provided by the utility model by blowing out hot-air bottom cereal, heat under making state of seething in cereal, heat exchanger effectiveness is high, frying speed is fast, production efficiency is high, and avoid use gravel, raw material health foreign, environmental protection, wholesomeness is guaranteed; And owing to not using gravel as heat medium, without the need to later separation equipment, shorten the frying time; And the relation that can effectively control between heating-up temperature and heat time, thus control the degree of corn protein sex change and starch gelatinization, to reach best Baking Effect; Meanwhile, adopt air-flowing type to cure, raw material is heated evenly, steady quality, the problem such as can not cause that raw material burns; Roast the structural design of room and cooling chamber in preferred version, further increase energy conservation and consumption reduction effects, and improve operating efficiency.

The utility model is especially applicable to the frying of wheat.

Accompanying drawing explanation

Fig. 1 is the utility model embodiment assembling schematic diagram.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

As shown in Figure 1, this cereal frying system comprises:

Roast room 1, for heating wheat, shortening; Roast the bottom roughly at right angles triangle body structure of room 1, the top roasting room is cube structure, and roasts the right-angle side that the connection of top, room roasts bottom, room.Roast bottom in room 1 and be provided with the first gas distributor 11 stoping wheat to be roasted to pass through near wedge angle incline position, air flow chamber is connected with below first gas distributor 11, the upper surface of this air flow chamber is docked with the first gas distributor 11, and the lower surface area of air flow chamber is less than the area of upper surface.The lower surface of air flow chamber and the outlet of hot-air duct 54 connect, and the entrance of hot-air duct 54 is communicated with the hot air outlet of hotair chamber 5 by the first blower fan 71.This structure roasting room can be taken into account the smooth and easy feed needs of wheat, wheat and indoor seethe resistance and hot blast is blowing the effective wind rate of wheat roasting, and can fry wheat fast and efficiently and effectively prevent the waste of hot blast, energy-saving and cost-reducing.

The first gas distributor 11 in the present embodiment is mesh-plate structure, and it comprises distribution grid, distribution grid is evenly equipped with multiple pore, and the aperture of each pore is less than the particle diameter treating frying cereal.

The structure of following second gas distributor is identical with the structure of the first gas distributor.

Hotair chamber 5 is connected with burner 53, is heated the air in room during air heat 5 by burner 53 heat produced that burns.Burner can use combustion gas, also can use electrical heating, etc.

The end face roasting room is provided with the first charging aperture 13 and first row gas port 14, and wherein, the top gas outlet that first row gas port 14 connects the first deduster 3, first deduster 3 connects reflux line 51 by the first pipeline 16, and reflux line 51 connects hotair chamber 5.The outlet at bottom of the first deduster 3 is provided with wind stopping device 9, for stoping Leakage Gas and the wheat grain settled down being sent deduster.

Reflux line 51 and hotair chamber 5 are equipped with pressure relief opening 52, to ensure use safety.

First pipeline 16 is provided with the first bypass 17, first bypass 17 and is provided with the first bypass air-valve 18.

The bottom right angle face roasting room 1 is also provided with the first discharging opening 15 near the first gas distributor position.First charging aperture 13 is provided with inlet valve 8.

Inlet valve 8 comprises valve body 81, the outlet 82 that valve body is provided with import and is connected with described first charging aperture 13, rotating shaft 82 is provided with in described valve body 81, in described rotating shaft 82, the axially spaced-apart of the rotating shaft on edge is provided with polylith valve plate 83, and the external end edge of each described valve plate 83 is all conflicted on the inwall of described valve body.This inlet valve effectively can intercept air and by control rotating speed to control inlet amount.

Cooling chamber 2 is identical with the structure roasting room 1.The end face of cooling chamber is also provided with the second charging aperture 23 connecting and roast the first discharging opening 15 of room, the high temperature wheat after frying enters in cooling chamber 2 via the first discharging opening 15 and the second discharging opening 23.

Be provided with the second gas distributor 21 stoping wheat to be cooled to pass through in cooling chamber 2, the air flow chamber of cooling chamber is communicated with the cool air inlet 22 of cold-air duct 73, and the entrance that cold-air duct 73 is provided with the second blower fan 72, second blower fan 72 connects outside air.

The end face of cooling chamber is also provided with second exhaust port 24, second exhaust port 24 connects the second deduster 4, the top gas outlet of the second deduster 4 connects reflux line 51 by second pipe 26, and second pipe 26 is provided with the second bypass 27, second bypass 27 and is provided with the second bypass air-valve 28.The outlet at bottom of the second deduster 4 is provided with wind stopping device 9, and sends the wheat grain filtered out.The first deduster 3 in the present embodiment and described second deduster 4 are cyclone dust collectors.

The right-angle surface of cooling chamber 2 is provided with the second discharging opening 25 for the wheat discharging cooled near the second gas distributor position.Second discharging opening 25 is communicated with storage tank 6.

The operation principle of this cereal frying system is described below:

Wheat enters training and fries room after inlet valve metering; Hot-air after the indoor heating of air heat is sent into training by the first blower fan and is fried room, fry distributing again of the first gas distributor of room through training, hot blast evenly enters and roasts room, is blown afloat by wheat and makes it to be in fluidized state, thus quick and wheat transferring heat, wheat is fried rapidly.

Hot blast after heating wheat enters the first deduster via first row gas port, and isolated dust wheat shorts, discharges through wind stopping device; Isolated hot blast enters reflux line via the first pipeline, returns hotair chamber, continues to use after being heated to design temperature again.

The wheat fried enters cooling chamber via the first discharging opening, cold air enters from air flow chamber via the second blower fan, through distributing again of the second gas distributor, cold air enters cooling chamber equably, wheat is blown afloat and makes it to be in the state of seething, thus abundant and wheat transferring heat, wheat is cooled rapidly.Cooled wheat is stored in storage tank stand-by from the second discharging opening discharge.

The design of first, second air-valve is mainly used for regulating return air amount, the design of first, second bypass air-valve, to be used for refluxing the moisture of hot blast and humidity by discharge section hot blast.

Claims (9)

1. a cereal frying system, it is characterized in that comprising and roast room (1) and cooling chamber (2), described roast in room (1) to be provided with stop the first gas distributor (11) of passing through of wheat to be roasted, the described room of roasting is provided with the hot air inlet (12) being communicated with hotair chamber (5), described hot air inlet is positioned at the below of described first gas distributor (11), the described end face roasting room is provided with the first charging aperture (13) and second exhaust port (14), described second exhaust port (14) connects the first deduster (3), the top gas outlet of described first deduster (3) connects reflux line (51) by the first pipeline (16), described reflux line (51) connects described hotair chamber (5), described roasting on room (1) is also provided with the first discharging opening (15), and described first discharging opening (15) is communicated with second charging aperture (23) of described cooling chamber (2),

The second gas distributor (21) stoping wheat to be cooled to pass through is provided with in described cooling chamber (2), described cooling chamber is provided with the cool air inlet (22) being communicated with cold-air duct (73), described cool air inlet is positioned at the below of described second gas distributor (21), the end face of described cooling chamber is also provided with second exhaust port (24), described second exhaust port (24) connects the second deduster (4), the top gas outlet of described second deduster (4) connects described reflux line (51) by second pipe (26), described cooling chamber (2) is provided with the second discharging opening (25) for the good wheat discharging of frying.

2. cereal frying system according to claim 1, it is characterized in that described first pipeline (16) is provided with the first bypass (17), described first bypass (17) is provided with the first bypass air-valve (18);

Described second pipe (26) is provided with the second bypass (27), and described second bypass (27) is provided with the second bypass air-valve (28).

3. cereal frying system according to claim 1 and 2, is characterized in that described second discharging opening (25) is communicated with storage tank 6.

4. cereal frying system according to claim 3, is characterized in that described reflux line (51) and described hotair chamber (5) are equipped with pressure relief opening (52).

5. cereal frying system according to claim 4, is characterized in that being provided with the first blower fan (71) between described hot air inlet (12) and described hotair chamber (5); Described cold-air duct (73) is provided with the second blower fan (72).

6. cereal frying system according to claim 5, it is characterized in that described first charging aperture (13) is provided with inlet valve (8), described charging forwards (8) and comprises valve body (81), the outlet (82) that described valve body is provided with import and is connected with described first charging aperture (13), rotating shaft (82) is provided with in described valve body (81), the axially spaced-apart of the rotating shaft on the upper edge of described rotating shaft (82) is provided with polylith valve plate (83), and the external end edge of each described valve plate (83) is all conflicted on the inwall of described valve body.

7. cereal frying system according to claim 6, it is characterized in that described first deduster (3) and described second deduster (4) are cyclone dust collectors, the outlet at bottom of described first deduster (3) and described second deduster (4) is equipped with wind stopping device (9).

8. cereal frying system according to claim 7, the bottom roughly at right angles triangle body structure of room (1) is roasted described in it is characterized in that, the described top roasting room is cube structure, described in roast room top connect and roast the right-angle side of bottom, room; Described first gas distributor (11) is arranged on and roasts the incline position of room (1) interior bottom near wedge angle, first gas distributor (11) below is connected with air flow chamber, the upper surface of this air flow chamber is docked with gas distributor (11), and the lower surface area of air flow chamber is less than the area of upper surface; Described first discharging opening (15) is arranged on the position roasted near described first gas distributor in the right-angle surface of room (1) bottom;

The structure of described cooling chamber is identical with the described structure roasting room.

9. cereal frying system according to claim 8, is characterized in that described first gas distributor (11) comprises distribution grid, described distribution grid is evenly equipped with multiple pore, and the aperture of each pore is less than the particle diameter treating frying cereal;

The structure of described second gas distributor is identical with the structure of described first gas distributor.