CN203824201U - Miniature energy-saving and environmentally-friendly fruit and vegetable fresh-keeping storehouse - Google Patents

Abstract

The utility model provides a miniature energy-saving and environmentally-friendly fruit and vegetable fresh-keeping storehouse. The problems that an existing fruit and vegetable fresh-keeping storehouse is of high construction cost and high power consumption are solved. The miniature energy-saving and environmentally-friendly fruit and vegetable fresh-keeping storehouse comprises a storehouse body, a refrigerating system, a natural cold source conversion system, a big-tent gas conditioning system and a water circulation cooling system. The big-tent gas conditioning system includes a big tent arranged in the storehouse body. The big tent is provided with intake holes, exhaust holes and silicon windows. Two opposite ventilating blowers are fixed on the storehouse body. The water circulation cooling system comprises a water inlet pipe, a water outlet pipe, a circulating water pump and a water tank. The water tank is located below the ground where the storehouse body is located. One end of the water inlet pipe extends into the water tank, and the other end of the water inlet pipe is connected with the circulating water pump and the water outlet pipe in sequence. The water is drained to the water tank through the water outlet pipe. The storehouse body is made of thermal insulation materials. The miniature energy-saving and environmentally-friendly fruit and vegetable fresh-keeping storehouse is low in cost; the natural cold source conversion system, the big-tent gas conditioning system, the water circulation cooling system and other systems relevant to clean energy are utilized for cooling, which is safe; the refrigerating system is only started when necessary, and therefore power consumption is extremely low.

Description

Energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse

Technical field

The utility model relates to a kind of energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse.

Background technology

Current large-scale preserving fruit and vegetable utilizing storehouse, cost is up to millions of, and peasant can not make, oneself vegetables and fruits can only be transported to large-scale preserving fruit and vegetable utilizing storehouse and preserve, while waiting vegetables and fruits price suitable, then vegetables and fruits be taken out and sold, the cost that has increased transport and stored to peasant, has also wasted labour simultaneously.

And existing large-scale preserving fruit and vegetable utilizing storehouse, mainly relies on refrigeration system cooling fresh-keeping, power consumption is huge, not energy-conserving and environment-protective.

Summary of the invention

The utility model provides a kind of energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse, solves existing preserving fruit and vegetable utilizing storehouse cost high, the technical problem that power consumption is large.

Technical solution of the present utility model is:

Energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse, comprises storehouse body and refrigeration system, and its special character is: described energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse also comprises natural cooling source converting system, large account formula Air-conditioning system and hydrologic cycle cooling system;

Described large account formula Air-conditioning system comprises the large account being arranged in the body of storehouse, on large account, is provided with air admission hole and steam vent, on large account, is provided with silicon window;

On the body of described storehouse, be fixed with two relative pressure fans, pressure fan is delivered to natural wind in the space between storehouse body and large account;

Described hydrologic cycle cooling system comprises water inlet pipe, outlet pipe, water circulating pump and tank, tank is positioned at the below on body ground, storehouse, tank is stretched in one end of water inlet pipe, and the other end of water inlet pipe connects water circulating pump and outlet pipe successively, and water is expelled to tank by outlet pipe;

Described storehouse body is made up of insulation material.

The saturation of above-mentioned storehouse body is ten tons to 50 tons.

The quantity of above-mentioned large account is one or more.

On above-mentioned large account, be provided with measured hole, measure oxygen and temperature humidity for oxygen analyser and temperature & relative humidity indicator.

At least one face wall of above-mentioned storehouse body is mobile wall, and described mobile wall can move to relative wall.

Above-mentioned refrigeration system comprises two indoor sets, and above-mentioned two indoor sets are separately positioned on the relative wall in two sides.

The quantity of above-mentioned silicon window is four, and large account material is polyethylene or silastomer.

Above-mentioned bottom of gullet is provided with backwater hole, and backwater hole is connected to missile silo.

The enterprising pore of above-mentioned large account and steam vent position are oppositely arranged.

Above-mentioned water inlet pipe and/or outlet pipe are snakelike pipelines, are evenly fixed on storehouse body inwall.

The utility model has the advantages that:

(1) cost is low, builds a capacity and be the preserving fruit and vegetable utilizing storehouse of 10 tons, and cost only needs 10,000 yuan;

(2) energy-conserving and environment-protective, utilize the clean energy resource cooling insurances such as natural cooling source converting system, large account formula Air-conditioning system and hydrologic cycle cooling system, just start if desired refrigeration system, and power consumption is extremely low.

Brief description of the drawings

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model hydrologic cycle cooling system structural representation.

Wherein: 1-storehouse body; 2-natural cooling source converting system; The large account of 3-; 31-air admission hole; 32-steam vent; 4-silicon window; 5-tank; 6-water circulating pump; 7-backwater hole; 8-water inlet pipe; 9-outlet pipe.

Detailed description of the invention

Energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse, comprises storehouse body 1 and refrigeration system, natural cooling source converting system 2, large account formula Air-conditioning system and hydrologic cycle cooling system;

Above-mentioned large account formula Air-conditioning system comprises the large account 3 being arranged in the body of storehouse, on large account, is provided with air admission hole 31 and steam vent 32, and the large enterprising pore of account and steam vent position are oppositely arranged, and on large account, is provided with silicon window 4; The quantity of large account is one or more; Can increase or reduce according to storage capacity the quantity of large account; On large account, be provided with measured hole, measure oxygen content, temperature humidity content and carbon dioxide content for oxygen analyser, temperature & relative humidity indicator and carbon dioxide meter.Large account material is polyethylene or silastomer; Grope through research, the quantity of silicon window is four, and large account material is while being silastomer, and insulation oxygen barrier effect is best.

Refrigeration system can adopt various types of refrigeration plants, such as air-conditioning, Air cooler etc. on existing market.Refrigeration system comprises indoor set and off-premises station; It is external that indoor set is fixed on storehouse, and off-premises station is fixed in the body of storehouse; Indoor set is two, is separately positioned on the relative wall in two sides.Indoor set is oppositely arranged, and makes body interior temperature in storehouse even.

On the body of above-mentioned storehouse, be fixed with two relative pressure fans 2, pressure fan is transported to the cold wind of the Nature in the space between storehouse body and large account, exchanges with the gas in storehouse the effect that reaches preserving fruit and vegetable utilizing.Blower setting is on relative storehouse, two sides body wall, and blowing forms cross-ventilation relatively, makes the temperature in large account even.

Above-mentioned hydrologic cycle cooling system comprises water inlet pipe 8, outlet pipe 9, water circulating pump 6, tank 5, tank is positioned at the below on body ground, storehouse, tank is stretched in one end of water inlet pipe, and the other end of water inlet pipe connects water circulating pump and outlet pipe successively, and water is expelled to tank by outlet pipe; Preferably, water inlet pipe and/or outlet pipe are snakelike pipelines, are evenly fixed on storehouse body inwall.The water of tank is from missile silo.Bottom of gullet is provided with backwater hole 7, and backwater hole is connected to missile silo.The water temperature of missile silo is handed over constant, is generally 7-8 degree left and right, starts after hydrologic cycle cooling system, and hydrologic cycle cooling system utilizes the temperature of underground water to take away the heat in large account, temperature in the body of storehouse can be down to 7-8 degree left and right.Hydrologic cycle cooling system can also be adjusted the humidity in the body of storehouse, does not need additionally to add humidifier.

Above-mentioned storehouse body is made up of insulation material.

The saturation of the utility model energy-saving micro environmental protection preserving fruit and vegetable utilizing Kuku body is ten tons to 50 tons.The fresh-keeping warehouse of one ten tons, its length, width and height are probably 3*3*2.5 successively.　

At least one face wall of storehouse body is mobile wall, and above-mentioned mobile wall can move to relative wall, can adjust according to storage capacity the capacity of storehouse body, and capacity is little, the required little energy of lowering the temperature, and efficiency is high, more energy-conserving and environment-protective.

Using method: in the time that environment temperature is higher (17 degree left and right), open ground water circulation, temperature in large account can be down to seven degree left and right, recycling refrigeration system is down to zero, and has saved temperature is down to the seven required electric energy in degree left and right by 17 degree left and right.

When environment temperature is during in subzero, open separately natural cooling source converting system, natural cooling source converting system is directly delivered to natural cold wind in the space being transported between storehouse body and large account, without opening refrigeration system and water-cooling system.

After natural cooling source converting system, large account formula Air-conditioning system and hydrologic cycle cooling system all start, still do not reach preservation temperature, enable refrigeration system.

Claims (10)

1. energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse, comprises storehouse body and refrigeration system, it is characterized in that: described energy-saving micro environmental protection preserving fruit and vegetable utilizing storehouse also comprises natural cooling source converting system, large account formula Air-conditioning system and hydrologic cycle cooling system;

Described large account formula Air-conditioning system comprises the large account being arranged in the body of storehouse, on large account, is provided with air admission hole and steam vent, on large account, is provided with silicon window;

On the body of described storehouse, be fixed with two relative pressure fans, pressure fan is delivered to natural wind in the space between storehouse body and large account;

Described hydrologic cycle cooling system comprises water inlet pipe, outlet pipe, water circulating pump and tank, tank is positioned at the below on body ground, storehouse, tank is stretched in one end of water inlet pipe, and the other end of water inlet pipe connects water circulating pump and outlet pipe successively, and water is expelled to tank by outlet pipe;

Described storehouse body is made up of insulation material.

2. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: the saturation of described storehouse body is ten tons to 50 tons.

3. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: the quantity of large account is one or more.

4. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: on large account, be provided with measured hole, measure oxygen and temperature humidity for oxygen analyser and temperature & relative humidity indicator.

5. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: at least one face wall of storehouse body is mobile wall, described mobile wall can move to relative wall.

6. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: described refrigeration system comprises two indoor sets, described two indoor sets are separately positioned on the relative wall in two sides.

7. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: the quantity of described silicon window is four, and large account material is polyethylene or silastomer.

8. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: bottom of gullet is provided with backwater hole, and backwater hole is connected to missile silo.

9. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: the large enterprising pore of account and steam vent position are oppositely arranged.

10. energy-saving micro environmental protection preserving fruit and vegetable utilizing according to claim 1 storehouse, is characterized in that: water inlet pipe and/or outlet pipe are snakelike pipelines, is evenly fixed on storehouse body inwall.