CN203072506U

CN203072506U - Energy-saving environmental-friendly multifunctional vegetable greenhouse

Info

Publication number: CN203072506U
Application number: CN2013201316905U
Authority: CN
Inventors: 武翰林
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-03-06
Filing date: 2013-03-06
Publication date: 2013-07-24
Anticipated expiration: 2023-03-06

Abstract

The utility model discloses an energy-saving environmental-friendly multifunctional vegetable greenhouse which comprises a greenhouse body, and also comprises a heat storage device, a circulating pump and a heat radiator, wherein the outer edge contour of the cross section of the greenhouse body is of a parabola that the highest point is positioned at a place which is 1/3 of the greenhouse body, the greenhouse body comprises an inner-layer greenhouse framework and an outer-layer greenhouse framework, a solar heat collector is laid between the inner-layer greenhouse framework and the outer-layer greenhouse framework and is laid on the reflective panel of the greenhouse body, an insulation board is arranged on the shady surface of the greenhouse body and is fixedly jointed on the outer-layer greenhouse framework, and a light-collecting plate covers the reflective panel of the greenhouse body. Compared with a conventional greenhouse, the energy-saving environmental-friendly multifunctional vegetable greenhouse has the advantages of greatly increasing the output and the income, greatly saving the occupation area, effectively utilizing land resources, fully utilizing solar energy, saving energy resources, avoiding environmental pollution, and the like.

Description

Energy saving and environment friendly multifunctional vegetable booth

Technical field

The utility model relates to a kind of green house of vegetables, particularly relates to a kind of energy saving and environment friendly multifunctional vegetable booth.

Background technology

At present, in the many areas of China, adopt green house to cultivate various vegetables, greenhouse gardening has become the important component part of modernization agricultural.In order to make the crops can normal growth, the temperature in the booth preferably remains in 25-30 ℃.For winter warming, people are through the thick cob wall of the shady face of the booth of being everlasting training 2-3 rice, if 100 meters of a booth is long, then cob wall will occupy 200-300 square metre soil, waste a large amount of land resourcess, in addition, heat insulation effect is not good.For guaranteeing that crops can not be damaged by frost, also need to adopt thermals source such as stove fire or electric heater to improve temperature of shed during winter, both wasted a large amount of coal equal energy sources, polluted environment again.Because booth has closure, the greenhouse temperature method of controlling of taking both at home and abroad at present is artificial forced ventilating, promptly open plastic film and make the high temperature air in the booth in time be discharged into the booth outside,, improved people's labour intensity greatly owing to will repeatedly take a breath in one day.

When snowing in the winter time, the accumulated snow that must be manually in time covers on the cleaning booth, the booth in order to avoid the blocked up pressure of accumulated snow is collapsed, labor cleaning's accumulated snow is very inconvenient, and labour intensity is big, clears up the untimely easy pressure booth that collapses, and has the person and property safety hidden danger.Most booths only design a space, can only plant the vegetables of same kind, and vegetable species is single.

The utility model content

The purpose of this utility model is to provide a kind of and saves that floor space, winter can be eliminated accumulated snow on the booth, can improve yield of vegetables and quality, energy saving and environment friendly multifunctional vegetable booth.

The purpose of this utility model is implemented by following technical scheme, a kind of energy saving and environment friendly multifunctional vegetable booth, its main body is the booth body, be provided with the solar heat-preservation system in the described booth body, described solar heat-preservation system includes regenerative apparatus, solar thermal collector, circulating pump and radiator, the external periphery outline of described booth body cross-section is that peak is positioned at the parabola shaped of described booth body 1/3rd places, described booth body comprises internal layer canopy skeleton, outer canopy skeleton, be equipped with solar thermal collector between described internal layer canopy skeleton and the described outer canopy skeleton, described solar thermal collector is layed in the phototropic face of described booth body, the shady face of described booth body is provided with warming plate, described warming plate fixedly is fitted on the described outer canopy skeleton, the phototropic face of described booth body is coated with plane skylight, described plane skylight fixedly is fitted on the described outer canopy skeleton, and described plane skylight is connected with the junction of described warming plate is airtight; Be provided with two stifled dividing walls in the described booth body, two stifled described dividing walls are divided into described booth body successively to light room, middle room and room backlight, are equipped with the ventilation door on the whenever stifled described dividing wall; Because vegetables are different to the favorable rating of sunlight, green vegetables are liked sunlight therefore can be planted in disliking sunlight to mushroom vegetables such as light room, mushrooms can planting in middle room and room backlight, and scorpion can also be cultured in room backlight.

The delivery port of described solar thermal collector is connected with the water inlet pipeline of described regenerative apparatus, the delivery port of described regenerative apparatus is connected with the water inlet pipeline of described circulating pump, the delivery port of described circulating pump is connected with the water inlet of described solar thermal collector and the water inlet pipeline of described radiator respectively, the delivery port of described radiator is connected with the water inlet pipeline of described regenerative apparatus, connect the delivery port of described solar thermal collector and the water inlet pipeline of described regenerative apparatus and be provided with valve, or connect the delivery port of described circulating pump and the water inlet pipeline of described solar thermal collector is provided with valve; Connect the delivery port of described circulating pump and the water inlet pipeline of described radiator and be provided with valve, or connect the delivery port of described radiator and the water inlet pipeline of described regenerative apparatus is provided with valve.

Described regenerative apparatus comprises the insulation closed shell, be filled with heat-storage medium in the described insulation closed shell, be soaked with heat exchange coil in the described heat-storage medium, the two ends of described heat exchange coil pass described insulation closed shell respectively, one end of described heat exchange coil is the delivery port of described regenerative apparatus, and the other end is the water inlet of described regenerative apparatus.

Described heat-storage medium is a supersaturated sodium acetate solution.

Described a kind of energy saving and environment friendly multifunctional vegetable booth, also include air source heat pump, described air source heat pump is located on the described described dividing wall between light room and described middle room, the air inlet of described air source heat pump places described in the light room, the gas outlet of described air source heat pump is communicated with described middle room, and the delivery port of described air source heat pump is communicated with cistern.Damp-heat air in the booth is entered in the air source heat pump by the air inlet of air source heat pump and cools off, steam in the damp-heat air is cooled to water and enters in the cistern, cold air enters the temp. and humidity that middle room is regulated middle room by the gas outlet of air source heat pump, is again sunlight room dehumidifying and cooling simultaneously.

Described radiator is floor heating pipe, fin or radiating tube.

The groundbed of described booth body outside phototropic face is provided with the drain ditch, and described drain ditch is communicated with cistern, discharges snow-broth or rainwater, and snow-broth or rainwater are stored in the cistern, is used to water vegetables.

Be embedded with every freezing warming plate under the groundbed around the described booth body outside, floor heating pipe is embedded under the groundbed of booth, plays the effect of insulation every freezing warming plate.

Described solar thermal collector is a solar energy heat collection pipe.

The solar thermal collector course of work and principle: at first utilize solar thermal collector to collect heat in summer or bright day gas, water in the solar thermal collector is heated, hot water in the solar thermal collector flows in the heat exchange coil under the effect of circulating pump, the heat of the interior hot water of heat exchange coil is absorbed by heat-storage medium and is stored in the heat-storage medium, after the heat-storage medium heat absorption, hot water in the heat exchange coil becomes cold water, flow back in the solar thermal collector again and heat, so circulation, the heat that the solar energy conversion is come is stored in the heat-storage medium.In the winter time or when night, temperature was low, can't collect a large amount of solar energy, can utilize the heat that is stored in the heat-storage medium this moment, make the cold water in the radiator under the effect of circulating pump, flow into heat exchange coil, cold water in the heat exchange coil absorbs the heat in the heat-storage medium, temperature raises, and to flow back to radiator be that booth heats to hot water then.In addition, when snowing winter, can flow back to solar thermal collector with after the heating of the inflow of the cold water in solar thermal collector regenerative apparatus, solar thermal collector heat radiation like this, with the ceiling snow melting, the snow-broth of thawing is in the drain ditch flows into cistern.

Advantage of the present utility model is that the more traditional booth of the utility model green house of vegetables is compared, and output and income all improve greatly; The cross section of the utility model green house of vegetables is designed to parabola shaped, and the commanding elevation is designed at 1/3rd places of canopy, reduces parados rear side shadow region area, distance between canopy and the canopy shortens, the booth parados adopts insulation material, saves floor space greatly, effectively utilizes land resources; The canopy film of the utility model green house of vegetables has solar thermal collector, cooperates with regenerative apparatus, and can heat up winter for booth, can also eliminate the accumulated snow on the booth, makes full use of solar energy, and energy savings is avoided contaminated environment; In summer, the cold water after the regenerative apparatus heat exchange flows into solar thermal collector, can absorb the heat in the booth, is the booth cooling, makes to remain the temperature and humidity that is fit to vegetable growth in the booth, improves yield of vegetables and quality greatly; The utility model green house of vegetables is divided into three spaces by sunlight face to shady face, according to the difference of temperature and daylighting, can plant dissimilar vegetables; Be provided with air source heat pump in the utility model green house of vegetables, can reduce air themperature and humidity in the booth summer, reduce labour intensity greatly, guarantee that vegetables grow under suitable temperature and humidity environment, improve yield of vegetables and quality.

Description of drawings

Fig. 1 is a kind of energy saving and environment friendly multifunctional vegetable booth structural representation.

Fig. 2 is the structural representation of regenerative apparatus.

Fig. 3 is the solar heat-preservation system schematic.

Booth body 1, regenerative apparatus 2, circulating pump 3, floor heating pipe 4, internal layer canopy skeleton 5, outer canopy skeleton 6, solar energy heat collection pipe 7, warming plate 8, plane skylight 9, dividing wall 10, to light room 11, middle room 12, room 13 backlight, ventilation door 14, valve 15, insulation closed shell 16, supersaturated sodium acetate solution 17, heat exchange coil 18, air source heat pump 19, drain ditch 20 is every freezing warming plate 21.

Embodiment: a kind of energy saving and environment friendly multifunctional vegetable booth, its main body is a booth body 1, be provided with solar heat-preservation system and air source heat pump 19 in the booth body 1, the solar heat-preservation system includes regenerative apparatus 2, solar energy heat collection pipe 7, circulating pump 3 and floor heating pipe 4, the external periphery outline of booth body 1 cross section is that peak is positioned at the parabola shaped of booth body 1/1st three place, booth body 1 comprises internal layer canopy skeleton 5, outer canopy skeleton 6, be equipped with solar energy heat collection pipe 7 between internal layer canopy skeleton 5 and the outer canopy skeleton 6, solar energy heat collection pipe 7 is layed in the phototropic face of booth body 1, the shady face of booth body 1 is provided with warming plate 8, warming plate 8 fixedly is fitted on the outer canopy skeleton 6, the phototropic face of booth body 1 is coated with plane skylight 9, plane skylight 9 fixedly is fitted on the outer canopy skeleton 6, and plane skylight 9 is connected with the junction of warming plate 8 is airtight; Be provided with two stifled dividing wall 10, two stifled dividing walls 10 in the booth body 1 booth body 1 is divided into successively to light room 11, middle room 12 and room backlight 13, be equipped with ventilation door 14 on the whenever stifled dividing wall 10; Because vegetables are different to the favorable rating of sunlight, green vegetables are liked sunlight therefore can be planted in disliking sunlight to mushroom vegetables such as light room 11, mushrooms can planting in middle room 12 and room backlight 13, and scorpion can also be cultured in room 13 backlight.Air source heat pump 19 is located on the dividing wall 10 between light room 11 and the middle room 12, and the air inlet of air source heat pump 19 places in light room 11, and the gas outlet of air source heat pump 19 is communicated with middle room 12, and the delivery port of air source heat pump 19 is communicated with cistern.Damp-heat air in the booth enters cooling in the air source heat pump 19 by the air inlet of air source heat pump 19, steam in the damp-heat air is cooled to water and enters in the cistern, cold air enters the temp. and humidity that middle room 12 is regulated middle room 12 by the gas outlet of air source heat pump 19, is again to light room 11 dehumidifying and coolings simultaneously.

Regenerative apparatus 2 comprises insulation closed shell 16, be filled with supersaturated sodium acetate solution 17 in the insulation closed shell 16, be soaked with heat exchange coil 18 in the supersaturated sodium acetate solution 17, the two ends of heat exchange coil 18 pass insulation closed shell 16 respectively, one end of heat exchange coil 18 is the delivery port of regenerative apparatus 2, and the other end is the water inlet of regenerative apparatus 2.

The delivery port of solar energy heat collection pipe 7 is connected with the water inlet pipeline of regenerative apparatus 2, the delivery port of regenerative apparatus 2 is connected with the water inlet pipeline of circulating pump 3, the delivery port of circulating pump 3 is connected with the water inlet of solar energy heat collection pipe 7 and the water inlet pipeline of floor heating pipe 4 respectively, the delivery port of floor heating pipe 4 is connected with the water inlet pipeline of regenerative apparatus 2, connects the delivery port of solar energy heat collection pipe 7 and the water inlet pipeline of regenerative apparatus 2 and is provided with valve 15; Connect the delivery port of circulating pump 3 and the water inlet pipeline of floor heating pipe 4 and be provided with valve 15.

The groundbed of booth body 1 outside phototropic face is provided with drain ditch 20, and drain ditch 20 is communicated with cistern, discharges snow-broth or rainwater, and snow-broth or rainwater are stored in the cistern, is used to water vegetables.

Be embedded with every freezing warming plate 21 under the groundbed around booth body 1 outside, floor heating pipe 4 is embedded under the groundbed of booth, plays the effect of insulation every freezing warming plate 21.

Claims

1. energy saving and environment friendly multifunctional vegetable booth, its main body is the booth body, it is characterized in that, be provided with the solar heat-preservation system in the described booth body, described solar heat-preservation system includes regenerative apparatus, solar thermal collector, circulating pump and radiator, the external periphery outline of described booth body cross-section is that peak is positioned at the parabola shaped of described booth body 1/3rd places, described booth body comprises internal layer canopy skeleton, outer canopy skeleton, be equipped with solar thermal collector between described internal layer canopy skeleton and the described outer canopy skeleton, described solar thermal collector is layed in the phototropic face of described booth body, the shady face of described booth body is provided with warming plate, described warming plate fixedly is fitted on the described outer canopy skeleton, the phototropic face of described booth body is coated with plane skylight, described plane skylight fixedly is fitted on the described outer canopy skeleton, and described plane skylight is connected with the junction of described warming plate is airtight; Be provided with two stifled dividing walls in the described booth body, two stifled described dividing walls are divided into described booth body successively to light room, middle room and room backlight, are equipped with the ventilation door on the whenever stifled described dividing wall; The delivery port of described solar thermal collector is connected with the water inlet pipeline of described regenerative apparatus, the delivery port of described regenerative apparatus is connected with the water inlet pipeline of described circulating pump, the delivery port of described circulating pump is connected with the water inlet of described solar thermal collector and the water inlet pipeline of described radiator respectively, the delivery port of described radiator is connected with the water inlet pipeline of described regenerative apparatus, connect the delivery port of described solar thermal collector and the water inlet pipeline of described regenerative apparatus and be provided with valve, or connect the delivery port of described circulating pump and the water inlet pipeline of described solar thermal collector is provided with valve; Connect the delivery port of described circulating pump and the water inlet pipeline of described radiator and be provided with valve, or connect the delivery port of described radiator and the water inlet pipeline of described regenerative apparatus is provided with valve.

2. according to the described a kind of energy saving and environment friendly multifunctional vegetable booth of claim 1, it is characterized in that, described regenerative apparatus comprises the insulation closed shell, be filled with heat-storage medium in the described insulation closed shell, be soaked with heat exchange coil in the described heat-storage medium, the two ends of described heat exchange coil pass described insulation closed shell respectively, and an end of described heat exchange coil is the delivery port of described regenerative apparatus, and the other end is the water inlet of described regenerative apparatus.

3. according to the described a kind of energy saving and environment friendly multifunctional vegetable booth of claim 1, it is characterized in that, it also includes air source heat pump, described air source heat pump is located on the described described dividing wall between light room and described middle room, the air inlet of described air source heat pump places described in the light room, the gas outlet of described air source heat pump is communicated with described middle room, and the delivery port of described air source heat pump is communicated with cistern.

4. according to the described a kind of energy saving and environment friendly multifunctional vegetable booth of claim 1, it is characterized in that described radiator is floor heating pipe, fin or radiating tube.

5. according to the described a kind of energy saving and environment friendly multifunctional vegetable booth of claim 1, it is characterized in that the groundbed of described booth body outside phototropic face is provided with the drain ditch, described drain ditch is communicated with described cistern.

6. according to the described a kind of energy saving and environment friendly multifunctional vegetable booth of claim 1, it is characterized in that, be embedded with every freezing warming plate under the groundbed around the described booth body outside.

7. according to the described a kind of energy saving and environment friendly multifunctional vegetable booth of claim 1, it is characterized in that described solar thermal collector is a solar energy heat collection pipe.