CN216762956U - Loading rice husk uses former feed bin - Google Patents

Abstract

The utility model discloses a raw material bin for loading rice hulls, which belongs to the field of preparation of composite photocatalyst materials and comprises a raw material bin, wherein a dehumidifying component and a cooling component are arranged inside the raw material bin, a feed inlet and a discharge outlet are respectively formed in the top and the bottom of the raw material bin, the cooling component utilizes circularly cooled carbon dioxide to assist the cooling of the rice hulls, the temperature inside the raw material bin is reduced, the carbon dioxide is utilized to inhibit the breathing of the rice hulls, and the dehumidifying component is communicated with the cooling component and utilizes the circulated carbon dioxide to take away moisture inside the raw material bin. The utility model effectively reduces the internal temperature of the rice hulls and dehumidifies the rice hulls.

Description

Loading rice husk uses former feed bin

Technical Field

The utility model belongs to the field of preparation of composite photocatalyst materials, and relates to a raw material bin for loading rice hulls.

Background

Titanium dioxide is a common photocatalytic material, which can produce a substance with strong oxidizing property under light irradiation, and can be used for decomposing organic compounds, partially inorganic compounds, bacteria, viruses, and the like. However, titanium dioxide has a large forbidden bandwidth and has a good absorption effect on ultraviolet light with a wavelength of less than 387nm, the ultraviolet light with the wavelength only accounts for 5% of sunlight, in order to improve the photocatalytic efficiency, the titanium dioxide can be modified by using a carrier loading method, and rice hull carbon sintered from rice hulls is a good carrier and has a large specific surface area, so that the catalyst main body is prevented from being largely lost.

The unsintered rice hulls are loaded in the raw material bin, the biological activity and the microbial activity of the rice hulls cannot be effectively inhibited in the storage process, so that the rice hulls are easy to heat, the rice hulls rub with each other, the internal temperature of the rice hulls is increased, potential safety hazards can be caused, and part of water can be adhered in the conveying process of the rice hulls, so that the rice hulls mildew, and the subsequent sintering of the rice hulls is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a raw material bin for loading rice hulls, and aims to solve the problems that the biological activity and the microbial activity of the rice hulls cannot be effectively inhibited in the storage process, the rice hulls are easy to heat, the rice hulls rub with each other, the moisture on the surfaces of the rice hulls cannot be timely treated, and the subsequent sintering of the rice hulls is influenced.

The utility model provides a load former feed bin for rice husk, includes former feed bin, the inside in former feed bin is equipped with dehumidification subassembly and cooling subassembly, the top and the bottom in former feed bin are equipped with feed inlet and discharge gate respectively, the cooling subassembly utilizes the supplementary rice husk cooling of circulative cooling's carbon dioxide, reduces former feed bin internal temperature is and utilize carbon dioxide to restrain the rice husk and breathe, the dehumidification subassembly with cooling subassembly intercommunication and utilize the endless carbon dioxide to take away the inside moisture in former feed bin.

Preferably, the cooling subassembly includes water tank, trachea, carbon dioxide gas holder and suction fan, one side in former feed bin is equipped with water tank and carbon dioxide gas holder, the inlet end intercommunication of carbon dioxide gas holder has inside to be equipped with the intake pipe of suction fan just the tip of intake pipe communicates in the former feed bin, the end of giving vent to anger of carbon dioxide gas holder communicates the cooling coil of the inside of water tank, cooling coil's the end of giving vent to anger communicates with the help of the outlet duct former feed bin just the outlet duct intercommunication has a plurality ofly the trachea, tracheal surface is opened along its direction of height has a plurality of ventholes.

Preferably, the tip of intake pipe is equipped with the filter screen, one side intercommunication of water tank has inlet tube and outlet pipe just the intercommunication has circulating water pump on the inlet tube.

Preferably, the dehumidification assembly comprises a dehumidification tank and a desiccant, the dehumidification tank is communicated between the carbon dioxide gas storage tank and the raw material bin, and the desiccant is filled in the dehumidification tank.

Preferably, the dehumidifying agent is one of water-absorbent resin, calcium chloride and granular calcium oxide.

The utility model has the following advantages:

the device is provided with a raw material bin, a cooling component and a dehumidifying component, wherein a carbon dioxide gas storage tank in the cooling component stores carbon dioxide inhibiting rice hull cell respiration, carbon dioxide at normal temperature flows through a water tank, water in the water tank is used for cooling the carbon dioxide, then the cooled carbon dioxide is conveyed to the interior of the raw material bin, a plurality of gas pipes are used for enabling the cooled carbon dioxide to be in full contact with the rice hulls in the raw material bin, the temperature in the rice hulls is reduced, the heated carbon dioxide is sucked into the carbon dioxide gas storage tank again by means of a suction fan, the carbon dioxide can drive certain moisture to float upwards, the carbon dioxide is sucked into the dehumidifying component by the suction fan for dehumidifying, and the dehumidified carbon dioxide returns to the water tank again for cooling, so that the cooling circulation of the carbon dioxide is realized. The utility model effectively reduces the internal temperature of the rice hulls and dehumidifies the rice hulls.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the internal structure of the structure shown in fig. 1.

Fig. 3 is a front view of the structure shown in fig. 1.

The labels in the figures are:

1. a raw material bin; 11. a feed inlet; 12. a discharge port; 13. a first water pipe; 14. a water pipe II;

2. a cooling assembly; 21. a carbon dioxide gas storage tank; 22. a water tank; 23. an air inlet pipe; 24. an air outlet pipe; 25. an air tube; 26. an air outlet; 27. a cooling coil; 28. a suction fan; 29. a filter screen;

3. a dehumidification assembly; 31. a dehumidification tank; 32. a dehumidifying agent.

Detailed Description

As shown in fig. 1-3, the utility model provides a raw material bin for loading rice hulls, which comprises a raw material bin 1, wherein a dehumidifying component 3 and a cooling component 2 are arranged inside the raw material bin 1, a feed inlet 11 and a discharge outlet 12 are respectively arranged at the top and the bottom of the raw material bin 1, the cooling component 2 utilizes circularly cooled carbon dioxide to assist in cooling the rice hulls, reduces the temperature inside the raw material bin 1 and utilizes the carbon dioxide to inhibit the breathing of the rice hulls, and the dehumidifying component 3 is communicated with the cooling component 2 and utilizes the circulated carbon dioxide to take away moisture inside the raw material bin 1.

Cooling module 2 includes water tank 22, trachea 25, carbon dioxide gas holder 21 and suction fan 28, one side of former feed bin 1 is equipped with water tank 22 and carbon dioxide gas holder 21, carbon dioxide gas holder 21's inlet end intercommunication has inside to be equipped with the intake pipe 23 of suction fan 28 just the tip of intake pipe 23 communicates in the former feed bin 1, carbon dioxide gas holder 21's the end of giving vent to anger communicates the cooling coil 27 of the inside of water tank 22, cooling coil 27's the end of giving vent to anger communicates with the help of outlet duct 24 former feed bin 1 just outlet duct 24 communicates has a plurality ofly trachea 25, trachea 25's surface is opened along its direction of height has a plurality of ventholes 26.

The inside carbon dioxide gas of carbon dioxide gas holder 21 enters into the inside cooling coil 27 of water tank 22 along the gas outlet in, utilize water to the carbon dioxide gas cooling, then carry the carbon dioxide gas after the cooling in outlet duct 24, the carbon dioxide gas after the cooling enters into raw materials storehouse 1 along venthole 26, make carbon dioxide gas fully contact with the rice husk, restrain the breathing of rice husk on the one hand, keep the integrality of rice husk, on the other hand carbon dioxide gas is refrigerated, can take away the heat of rice husk, make the inside temperature reduction of raw materials storehouse 1.

The tip of intake pipe 23 is equipped with the filter screen, one side intercommunication of water tank 22 has inlet tube and outlet pipe just the intercommunication has circulating water pump on the inlet tube.

Suction fan 28 absorbs the gas of raw materials storehouse 1 inside and enters into intake pipe 23 in, the filter screen avoids the rice husk to enter into intake pipe 23 in, circulating water pump carries water to the water tank 22 in, continuous supplementary cold water enters into water tank 22 in, fully absorbs the heat of carbon dioxide, makes its fully cooling.

The dehumidifying component 3 comprises a dehumidifying tank 31 and a dehumidifying agent 32, wherein the dehumidifying tank 31 is communicated between the carbon dioxide gas storage tank 21 and the raw material bin 1, and the dehumidifying agent 32 is filled in the dehumidifying tank 31. The dehumidifying agent 32 is one of water-absorbent resin, calcium chloride and granular calcium oxide.

The cooled carbon dioxide gas enters the raw material bin 1 along the air outlet 26, and when the carbon dioxide gas is fully contacted with the rice hulls, on one hand, the heat generated by the respiration of the rice hulls is absorbed, on the other hand, the moist steam is driven to move upwards, the moist air is sucked away from the interior of the raw material bin 1 by the suction fan 28, the steam is driven to enter the dehumidifying tank 31, the moisture is sucked away by the dehumidifying agent 32, the rice hulls are prevented from being mildewed and rotten, and the use of the follow-up rice hulls is ensured.

When the utility model is used, the air inlet and the air outlet of the carbon dioxide air storage tank 21 are opened, the carbon dioxide gas in the carbon dioxide air storage tank 21 enters the cooling coil 27 in the water tank 22 along the air outlet, the carbon dioxide gas is cooled by water, then the cooled carbon dioxide gas is conveyed into the air outlet pipe 24, the cooled carbon dioxide gas enters the raw material bin 1 along the air outlet 26, the carbon dioxide gas is fully contacted with the rice hulls, on one hand, the respiration of the rice hulls is inhibited, the integrity of the rice hulls is kept, on the other hand, the carbon dioxide gas is cooled, the heat of the rice hulls can be taken away, the temperature in the raw material bin 1 is reduced, in addition, the carbon dioxide gas absorbing the heat drives the moist steam to move upwards, the moist air is sucked from the interior of the raw material bin 1 by the suction fan 28, and the steam is driven to enter the dehumidification tank 31, utilize desiccant 32 to absorb the moisture, avoid the rice husk to produce and milden and rot, guarantee the use of follow-up rice husk, absorb thermal carbon dioxide gas along the intake pipe entering into carbon dioxide gas holder 21 and water tank 22 once more, utilize water to take away carbon dioxide absorptive heat once more, circulating water pump carries water to water tank 22 in, continuous supplementary cold water enters into water tank 22 in, fully absorb carbon dioxide's heat, make its fully cooling, because continuous endless circulating carbon dioxide can fully be the rice husk cooling, and can dehumidify.

The utility model is described above with reference to the accompanying drawings, it is obvious that the specific implementation of the utility model is not limited by the above-mentioned manner, and it is within the scope of the utility model to adopt various insubstantial modifications of the inventive concept and solution of the utility model, or to apply the inventive concept and solution directly to other applications without modification.

Claims (5)

1. The utility model provides a load former feed bin for rice husk, includes former feed bin (1), its characterized in that: the inside in former feed bin (1) is equipped with dehumidification subassembly (3) and cooling subassembly (2), the top and the bottom in former feed bin (1) are equipped with feed inlet (11) and discharge gate (12) respectively, cooling subassembly (2) utilize circulative cooling's supplementary rice husk cooling of carbon dioxide, reduce former feed bin (1) inside temperature is and utilize carbon dioxide to restrain the rice husk and breathe, dehumidification subassembly (3) with cooling subassembly (2) intercommunication and utilize endless carbon dioxide to take away the inside moisture in former feed bin (1).

2. The bin for loading raw material for rice hulls according to claim 1, wherein: the cooling component (2) comprises a water tank (22), an air pipe (25), a carbon dioxide gas storage tank (21) and a suction fan (28), one side of the raw material bin (1) is provided with the water tank (22) and a carbon dioxide gas storage tank (21), the air inlet end of the carbon dioxide air storage tank (21) is communicated with an air inlet pipe (23) internally provided with the suction fan (28), the end part of the air inlet pipe (23) is communicated with the raw material bin (1), the air outlet end of the carbon dioxide gas storage tank (21) is communicated with a cooling coil (27) in the water tank (22), the air outlet end of the cooling coil (27) is communicated with the raw material bin (1) by an air outlet pipe (24), the air outlet pipe (24) is communicated with a plurality of air pipes (25), the surface of the air pipe (25) is provided with a plurality of air outlet holes (26) along the height direction.

3. The bin for loading raw material for rice hulls according to claim 2, wherein: the end part of the air inlet pipe (23) is provided with a filter screen, one side of the water tank (22) is communicated with a water inlet pipe and a water outlet pipe, and the water inlet pipe is communicated with a circulating water pump.

4. The bin for loading raw material for rice hulls according to claim 2, wherein: dehumidification subassembly (3) are including dehumidification jar (31) and desiccant (32), dehumidification jar (31) intercommunication is in carbon dioxide gas holder (21) with between raw materials storehouse (1), the inside packing of dehumidification jar (31) has desiccant (32).

5. The bin for loading raw material for rice hulls according to claim 4, wherein: the dehumidifying agent (32) is one of water-absorbing resin, calcium chloride and granular calcium oxide.

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