CN205337424U - Roast room drying system of energy -conserving ground rice - Google Patents

Abstract

The utility model discloses a roast room drying system of energy -conserving ground rice, including ground rice bakery, air heating system, air dehumidification system, air heating system includes that air heater, header tank, solar panel, air source heat pump and duo gen add the hot -water line, air source heat pump with solar panel passes through add hot water pipe connected, air source heat pump with pass through between the header tank add hot water pipe connected, air dehumidification system includes air condenser, cooling tower and condenser tube, air heater with it is provided with the ventilation pipe to connect between the air condenser, be provided with axial fan on the ventilation pipe, air heater with it is provided with the intake pipe to connect between the ground rice bakery, air condenser with it is provided with the outlet duct to connect between the ground rice bakery. The utility model has the advantages of drying efficiency is high, and is energy -concerving and environment -protective.

Description

A kind of energy-conservation rice flour barn drying system

Technical field

This utility model relates to grain processing field, particularly relates to a kind of energy-conservation rice flour barn drying system.

Background technology

Rice flour is one of traditional rice made products of liking of the south China people, according to statistics, China for about 1,000,000 tons of the rice of rice flour processing, accounts for the 1/3 of food processing rice total amount, in order to meet the wilderness demand in market every year, the current rice flour quick extrusion molding of many employings rice noodle forming machine, by helical axis pressing materials, produce to frictionally heat maturation, then pass through the extrusion cavities extrusion molding of discharging opening, after rice flour after extrusion molding cuts into specific length, hang warehouse-in with peg.But the rice flour temperature extruded by forming machine is higher, and water content is more, it is necessary to be dried process, traditional drying mode is for hanging natural air drying, it is clear that there is speed problem slow, inefficient, has a strong impact on the yield of rice flour finished product.

In existing rice flour production process, the rice flour dry run of rice flour manufacturing enterprise generally adopts the mode of electrical heating or fire coal, and without any dehydrating unit, bakery humidity is big, causes that rice flour is long for drying time, and energy consumption is excessive.

Utility model content

The purpose of this utility model is the problem in order to solve to be previously mentioned in above-mentioned background technology, it is provided that a kind of energy-conservation rice flour barn drying system.

To achieve these goals, the technical solution of the utility model is as follows:

A kind of energy-conservation rice flour barn drying system, including rice flour bakery, air heating system, air dehumidification system, described air heating system includes air heater, header tank, solar heat-collection plate, air source heat pump and Duo Gen heating pipe, one air flow heated water loop of formation is connected by two described heating pipes between described air heater and described header tank, described header tank and described solar heat-collection plate connect formation flow heated water loop, one water source by two described heating pipes, described air source heat pump is connected by described heating pipe with described solar heat-collection plate, connected by described heating pipe between described air source heat pump and described header tank, described air dehumidification system includes aerial condenser, cooling tower and cooling water pipe, described aerial condenser, described cooling tower connects one air cooling water flow circuits of formation by described cooling water pipe, it is connected with ventilation duct between described air heater and described aerial condenser, described ventilation duct is provided with axial flow blower, it is connected with air inlet pipe between described air heater and described rice flour bakery, it is connected with escape pipe between described aerial condenser and described rice flour bakery.

Preferably, the described heating pipe being connected with the water inlet of described air heater is provided with dry cycle water pump and first throttle valve.

Preferably, the described heating pipe being connected with the water inlet of described solar heat-collection plate is provided with hot-water circulating pump and second throttle, the described heating pipe being connected with the outlet of described solar heat-collection plate is provided with the 3rd choke valve.

Preferably, described cooling water pipe is provided with cooling circulating water pump and the 4th choke valve.

Preferably, the described heating pipe between described header tank and described air source heat pump is provided with the 5th choke valve.

Compared with prior art, the beneficial effects of the utility model are as follows:

1, this utility model utilizes the main energy source that solar energy dries, the advantage with energy-conserving and environment-protective as rice flour.

2, this utility model arranges air dehumidification system, first the air that the water content flowed out from rice flour bakery is high is carried out dehumidification treatments, it is heated again processing, enter back into rice flour bakery afterwards and be circulated dried, by such setting, this utility model can effectively shorten rice flour drying time, improves rice flour drying efficiency and drying effect.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, below the accompanying drawing used required during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation in the present embodiment；

Fig. 2 is the present embodiment air heating system fundamental diagram；

Fig. 3 is the present embodiment air dehumidification system fundamental diagram.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

Specific embodiment:

In conjunction with Fig. 1, Fig. 2, the energy-conservation rice flour barn drying system of one shown in Fig. 3, including rice flour bakery 1, air heating system, air dehumidification system, air heating system includes air heater 2, header tank 3, solar heat-collection plate 4, air source heat pump 5 and Duo Gen heating pipe 6, connected by two heating pipes 6 between air heater 2 and header tank 3 and form an air flow heated water loop, header tank 3 and solar heat-collection plate 4 connect formation flow heated water loop, one water source by two heating pipes 6, air source heat pump 5 is connected by heating pipe 6 with solar heat-collection plate 4, connect also by heating pipe 6 between air source heat pump 5 and header tank 3, air dehumidification system includes aerial condenser 7, cooling tower 8 and cooling water pipe 9, aerial condenser 7, cooling tower 8 connects one air cooling water flow circuits of formation by cooling water pipe 9, ventilation duct 10 it is connected with between air heater 2 and aerial condenser 7, ventilation duct 10 is provided with axial flow blower 11, air inlet pipe 12 it is connected with between air heater 2 and rice flour bakery 1, escape pipe 13 it is connected with between aerial condenser 7 and rice flour bakery 1.

In the present embodiment, the heating pipe 6 being connected with the water inlet of air heater 2 is provided with dry cycle water pump 14 and first throttle valve 15.

In the present embodiment, the heating pipe 6 being connected with the water inlet of solar heat-collection plate 4 is provided with hot-water circulating pump 16 and second throttle 17, the heating pipe 6 being connected with the outlet of solar heat-collection plate 4 is provided with the 3rd choke valve 18.

In the present embodiment, cooling water pipe 9 is provided with cooling circulating water pump 19 and the 4th choke valve 20.

In the present embodiment, the heating pipe 6 between header tank 3 and air source heat pump 5 is provided with the 5th choke valve 21.

Air heating system in the present embodiment is in air heating process, heating system utilizes solar heat-collection plate 4 and air source heat pump 5 to combine and hot water is heated, store in header tank 3 after hot water heating, hot water after making heating again through dry cycle water pump 14 flows through air heater 2, realize the heat exchange between hot water and air, thus improving the temperature of air, time dry, when solar energy abundance, close air source heat pump 5, and by choke valve, its pipeline is switched over, individually adopt solar heat-collection plate 4 that water is heated, when solar energy is insufficient for demand for heat, adopt solar heat-collection plate 4 and air source heat pump 5 to combine hot water is heated.

Air dehumidification system in the present embodiment is in air dewetting process, dehumidification system utilizes cold water to carry out heat exchange at aerial condenser 7 with the hot and humid humid air flowed out from rice flour bakery 1, the humidity of humid air is dropped to below dew point, by the steam coagulation of humid air out, reduce the purpose of humid air water capacity, with the cold water after humid air heat exchange under the effect of cooling circulating water pump 19, enter cooling tower 8 to cool down, cold water after cooling carries out aerial condenser 7 again and carries out heat exchange with humid air, temperature due to humid air, humidity is all higher, it is cooled down by available tap water at normal temperature as coolant, refrigerating plant need not be added again it is freezed.

The present embodiment is in rice flour dry run, the air of the high temperature drying after air heating system processes enters rice flour bakery 1 from air inlet pipe 12, with rice flour carry out heat wet dry after, the temperature of air declines, humidity raises, become hot and humid humid air, humid air is under the effect of axial flow blower 11, after escape pipe 13 is discharged, the aerial condenser with air dehumidification system carries out heat exchange, humid air temperature in heat transfer process declines, when humid air reaches capacity state, just have the globule to bear, thus reducing water capacity in humid air, reach the purpose of dehumidifying, saturated humid air carries out heat exchange with air heater 2 again under the effect of axial flow blower 11, when air heating system provides high temperature heat source, the temperature of humid air rises, relative humidity declines, thus low temperature saturated air being processed into the state of high temperature drying, the air of high temperature drying enters in bakery then through air inlet pipe under the effect of axial flow blower 11 and carries out hot and humid area with rice flour, thus reducing the water content of rice flour, reach the purpose dried.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all make in protection domain of the present utility model any amendment, equivalent replacement etc., should be included within protection domain of the present utility model.

Claims (5)

1. an energy-conservation rice flour barn drying system, it is characterized in that, including rice flour bakery, air heating system, air dehumidification system, described air heating system includes air heater, header tank, solar heat-collection plate, air source heat pump and Duo Gen heating pipe, one air flow heated water loop of formation is connected by two described heating pipes between described air heater and described header tank, described header tank and described solar heat-collection plate connect formation flow heated water loop, one water source by two described heating pipes, described air source heat pump is connected by described heating pipe with described solar heat-collection plate, connected by described heating pipe between described air source heat pump and described header tank, described air dehumidification system includes aerial condenser, cooling tower and cooling water pipe, described aerial condenser, described cooling tower connects one air cooling water flow circuits of formation by described cooling water pipe, it is connected with ventilation duct between described air heater and described aerial condenser, described ventilation duct is provided with axial flow blower, it is connected with air inlet pipe between described air heater and described rice flour bakery, it is connected with escape pipe between described aerial condenser and described rice flour bakery.

2. the energy-conservation rice flour barn drying system of one according to claim 1, it is characterised in that be provided with dry cycle water pump and first throttle valve on the described heating pipe being connected with the water inlet of described air heater.

3. the energy-conservation rice flour barn drying system of one according to claim 1, it is characterized in that, the described heating pipe being connected with the water inlet of described solar heat-collection plate is provided with hot-water circulating pump and second throttle, the described heating pipe being connected with the outlet of described solar heat-collection plate is provided with the 3rd choke valve.

4. the energy-conservation rice flour barn drying system of one according to claim 1, it is characterised in that be provided with cooling circulating water pump and the 4th choke valve on described cooling water pipe.

5. the energy-conservation rice flour barn drying system of one according to claim 1, it is characterised in that be provided with the 5th choke valve on the described heating pipe between described header tank and described air source heat pump.