CN207185394U - A kind of proportion of crop planting greenhouse - Google Patents

Abstract

The utility model discloses a kind of proportion of crop planting greenhouse, including greenhouse body, the first cushion block is fixedly connected with the left of the bottom of the greenhouse body, the second cushion block is fixedly connected with the right side of the greenhouse body bottom；Water collection sheet has been fixedly connected with the top of first cushion block and the second cushion block, photovoltaic panel is fixedly connected with the top of the water collection sheet, the bottom of the greenhouse body both sides has been fixedly connected with storage tank, the bottom of the water collection sheet is communicated with standpipe, the standpipe is fixedly connected on the top of storage tank, it is fixedly connected with battery at the top of the storage tank, the top of the storage tank and is fixedly connected with single-chip microcomputer on the right side of battery.For the utility model by the cooperation of water collection sheet, photovoltaic panel, storage tank, battery, booster pump and drip irrigation plate, substantial amounts of electric energy and water resource can be expended during watering, fertilising etc. by solving existing agricultural greenhouse, the problem of causing planting cost high.

Description

A kind of proportion of crop planting greenhouse

Technical field

Agricultural technology field is the utility model is related to, specially a kind of proportion of crop planting greenhouse.

Background technology

With the generation of high molecular polymer-polyvinyl chloride, polyethylene, plastic sheeting is widely used in agricultural.Japan and American-European countries succeeds the initial stage fifties using greenhouse film covering hotbed, and subsequent covering hut and greenhouse again also obtain good Good effect.China introduces poly agricultural film in autumn nineteen fifty-five, is used for hut covering vegetables in Beijing first, obtains morning The effect of ripe volume increase.Greenhouse original is the special equipment of vegetables production, as the application of the development greenhouse of production is all the more extensive.Currently Greenhouse has been used for potted flower and cut-flower cultivation；Production of fruit trees is used for cultivating grape, strawberry, watermelon, muskmelon, peach and citrus etc.；Forestry Produce the culture etc. for forest seedling growth, ornamental trees；Aquaculture is used to breeding silkworms, raise chickens, cowboying, pig, fish and fry etc., in A kind of good proportion of crop planting canopy of air permeability is proposed in state utility model CN206061663U, although the utility model air permeability Can be good, substantial amounts of electric energy and water resource can be expended during watering, fertilising etc., although existing solar energy planting greenhouse can To save electric energy, but can not solve the problems, such as watering, so as to which the cost of greenhouse gardening can not be reduced, therefore, it is proposed that one Kind proportion of crop planting greenhouse.

Utility model content

The purpose of this utility model is to provide a kind of proportion of crop planting greenhouse, possessed by rainwater-collecting and solar energy Generate electricity, the advantages of so as to reduce planting cost, solve existing agricultural greenhouse can be expended during watering, fertilising etc. it is substantial amounts of Electric energy and water resource, the problem of causing planting cost high.

To achieve the above object, the utility model provides following technical scheme：A kind of proportion of crop planting greenhouse, including it is big Canopy body, the first cushion block is fixedly connected with the left of the bottom of the greenhouse body, the right side of the greenhouse body bottom is fixed It is connected with the second cushion block；

Water collection sheet is fixedly connected with the top of first cushion block and the second cushion block, the top of the water collection sheet, which is fixed, to be connected Photovoltaic panel is connected to, the bottom of the greenhouse body both sides has been fixedly connected with storage tank, and the bottom of the water collection sheet is communicated with storage Water pipe, the standpipe are fixedly connected on the top of storage tank, and battery, the storage are fixedly connected with the top of the storage tank The top of water tank and single-chip microcomputer is fixedly connected with the right side of the battery, the storage tank is fixed close to the side of greenhouse body Booster pump is connected with, the booster pump is communicated with drip irrigation pipe close to the side of greenhouse body, and the top of the drip irrigation pipe, which is fixed, to be connected It is connected to drip irrigation plate；

The output end of the photovoltaic panel and the input of battery are unidirectionally electrically connected with, the output end and list of the battery The input of piece machine is unidirectionally electrically connected with, and the output end of the single-chip microcomputer and the input of booster pump are unidirectionally electrically connected with.

Preferably, the center of the greenhouse body bottom is fixedly connected with support column, the bottom of the support column both sides Portion has been fixedly connected with humidity sensor, and the output end of the humidity sensor and the input of single-chip microcomputer are unidirectionally electrically connected with.

Preferably, the bottom of the water collection sheet is fixedly connected with support bar, and the support bar is fixedly connected on storage tank Top.

Preferably, the front and back of the water collection sheet has been fixedly connected with leak preventing, and the leak preventing, which is fixed, to be connected It is connected on the front and back of greenhouse body.

Preferably, the front of the storage tank is fixedly connected with water-level gauge, the output end of the water-level gauge and single-chip microcomputer Input is unidirectionally electrically connected with.

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

1st, rainwater can be collected by the utility model by the way that there is provided water collection sheet, water collection sheet, and will by standpipe Rainwater-collecting is stored into storage tank, and by being provided with photovoltaic panel on water collection sheet, photovoltaic panel can convert solar energy For electric energy, then stored by battery, by the way that photovoltaic panel is arranged on water collection sheet, avoid photovoltaic panel from blocking crops Light, so as to while using solar energy, ensure that crops can normal photosynthesis, by the way that there is provided booster pump and drop Fill plate so that rainwater can be reclaimed and irrigated by greenhouse, and be provided using the electric energy of solar energy conversion for booster pump Electric power, by the cooperation of water collection sheet, photovoltaic panel, storage tank, battery, booster pump and drip irrigation plate, solves existing agricultural greenhouse Substantial amounts of electric energy and water resource can be expended during watering, fertilising etc., the problem of causing planting cost high.

2nd, the utility model is by there is provided support column, ensure that the stability of greenhouse body, being passed by the way that there is provided humidity Sensor so that greenhouse can be irrigated according to the humidity of soil, by there is provided support bar, ensure that the stabilization of water collection sheet Property, by there is provided leak preventing, avoiding rainwater from leaking, by the way that there is provided water-level gauge so that storage tank can detect inside SEA LEVEL VARIATION.

Brief description of the drawings

Fig. 1 is the utility model structure diagram；

Fig. 2 is Tthe utility model system schematic diagram.

In figure：1 greenhouse body, 2 first cushion blocks, 3 second cushion blocks, 4 water collection sheets, 5 photovoltaic panels, 6 storage tanks, 7 standpipes, 8 Battery, 9 single-chip microcomputers, 10 booster pumps, 11 drip irrigation pipes, 12 drip irrigation plates, 13 support columns, 14 humidity sensors, 15 support bars, 16 are prevented Leak baffle plate, 17 water-level gauges.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Refer to Fig. 1-2, a kind of proportion of crop planting greenhouse, including greenhouse body 1, the left side of the bottom of greenhouse body 1 The first cushion block 2 is fixedly connected with, the second cushion block 3 is fixedly connected with the right side of the bottom of greenhouse body 1；

The top of first cushion block 2 and the second cushion block 3 has been fixedly connected with water collection sheet 4, and the top of water collection sheet 4 is fixedly connected with Photovoltaic panel 5, the bottom of the both sides of greenhouse body 1 have been fixedly connected with storage tank 6, and the bottom of water collection sheet 4 is communicated with standpipe 7, storage Water pipe 7 is fixedly connected on the top of storage tank 6, and the top of storage tank 6 is fixedly connected with battery 8, the top and position of storage tank 6 Single-chip microcomputer 9 is fixedly connected with the right side of battery 8, storage tank 6 is fixedly connected with booster pump close to the side of greenhouse body 1 10, booster pump 10 is communicated with drip irrigation pipe 11 close to the side of greenhouse body 1, and the top of drip irrigation pipe 11 is fixedly connected with drip irrigation plate 12；

The output end of photovoltaic panel 5 and the input of battery 8 are unidirectionally electrically connected with, output end and the single-chip microcomputer 9 of battery 8 Input be unidirectionally electrically connected with, the output end of single-chip microcomputer 9 is unidirectionally electrically connected with the input of booster pump 10, greenhouse body 1 The center of bottom is fixedly connected with support column 13, and the bottom of the both sides of support column 13 has been fixedly connected with humidity sensor 14, The output end of humidity sensor 14 and the input of single-chip microcomputer 9 are unidirectionally electrically connected with, by there is provided support column 13, ensure that big The stability of canopy body 1, the bottom of water collection sheet 4 are fixedly connected with support bar 15, and support bar 15 is fixedly connected on the top of storage tank 6 Portion, by the way that there is provided humidity sensor 14 so that greenhouse can be irrigated according to the humidity of soil, water collection sheet 4 front and The back side has been fixedly connected with leak preventing 16, and leak preventing 16 is fixedly connected on the front and back of greenhouse body 1, passes through setting Support bar 15, ensure that the stability of water collection sheet 4, by there is provided leak preventing 16, avoiding rainwater from leaking, storage tank 6 Front is fixedly connected with water-level gauge 17, and the output end of water-level gauge 17 is unidirectionally electrically connected with the input of single-chip microcomputer 9, passes through setting Water-level gauge 17 so that storage tank 6 can detect the SEA LEVEL VARIATION of inside, and by there is provided water collection sheet 4, water collection sheet 4 can will Rainwater is collected, and is stored into storage tank 6 rainwater-collecting by standpipe 7, by being provided with water collection sheet 4 Photovoltaic panel 5, photovoltaic panel 5 can convert solar energy into electrical energy, and then be stored by battery 8, by the way that photovoltaic panel 5 is set Put on water collection sheet 4, avoid photovoltaic panel 5 from blocking the light of crops, so as to while using solar energy, ensure that crops The normal photosynthesis of energy, by the way that there is provided booster pump 10 and drip irrigation plate 12 so that rainwater can be reclaimed and carried out by greenhouse Irrigation, and electric power is provided for booster pump 10 using the electric energy of solar energy conversion, pass through water collection sheet 4, photovoltaic panel 5, storage tank 6, storage The cooperation of battery 8, booster pump 10 and drip irrigation plate 12, solving existing agricultural greenhouse can expend greatly during watering, fertilising etc. The electric energy and water resource of amount, the problem of causing planting cost high.

In use, rainwater can be collected by the way that there is provided water collection sheet 4, water collection sheet 4, and by standpipe 7 by rain Water is collected into storage tank 6 and stored, and by being provided with photovoltaic panel 5 on water collection sheet 4, photovoltaic panel 5 can turn solar energy Electric energy is turned to, is then stored by battery 8, by the way that photovoltaic panel 5 is arranged on water collection sheet 4, avoids photovoltaic panel 5 from blocking The light of crops, so as to while using solar energy, ensure that the normal photosynthesis of crops energy, by the way that there is provided supercharging Pump 10 and drip irrigation plate 12 so that rainwater can be reclaimed and irrigated by greenhouse, and the electric energy converted using solar energy is Booster pump 10 provides electric power, passes through matching somebody with somebody for water collection sheet 4, photovoltaic panel 5, storage tank 6, battery 8, booster pump 10 and drip irrigation plate 12 Close, substantial amounts of electric energy and water resource can be expended during watering, fertilising etc. by solving existing agricultural greenhouse, cause planting cost The problem of high.

In summary：The proportion of crop planting greenhouse, pass through greenhouse body 1, the first cushion block 2, the second cushion block 3, water collection sheet 4th, the cooperation of photovoltaic panel 5, storage tank 6, standpipe 7, battery 8, single-chip microcomputer 9, booster pump 10, drip irrigation pipe 11 and drip irrigation plate 12, Substantial amounts of electric energy and water resource can be expended during watering, fertilising etc. by solving existing agricultural greenhouse, cause planting cost height The problem of.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of proportion of crop planting greenhouse, including greenhouse body（1）, it is characterised in that：The greenhouse body（1）Bottom Left side is fixedly connected with the first cushion block（2）, the greenhouse body（1）The second cushion block is fixedly connected with the right side of bottom（3）；

First cushion block（2）With the second cushion block（3）Top be fixedly connected with water collection sheet（4）, the water collection sheet（4）Top Portion is fixedly connected with photovoltaic panel（5）, the greenhouse body（1）The bottom of both sides has been fixedly connected with storage tank（6）, it is described to catchment Plate（4）Bottom be communicated with standpipe（7）, the standpipe（7）It is fixedly connected on storage tank（6）Top, the storage tank （6）Top be fixedly connected with battery（8）, the storage tank（6）Top and be located at battery（8）Right side be fixedly connected There is single-chip microcomputer（9）, the storage tank（6）Close to greenhouse body（1）Side be fixedly connected with booster pump（10）, the booster pump （10）Close to greenhouse body（1）Side be communicated with drip irrigation pipe（11）, the drip irrigation pipe（11）Top be fixedly connected with drip irrigation Plate（12）；

The photovoltaic panel（5）Output end and battery（8）Input be unidirectionally electrically connected with, the battery（8）Output End and single-chip microcomputer（9）Input be unidirectionally electrically connected with, the single-chip microcomputer（9）Output end and booster pump（10）Input list Electrotropism connects.

A kind of 2. proportion of crop planting greenhouse according to claim 1, it is characterised in that：The greenhouse body（1）Bottom Center be fixedly connected with support column（13）, the support column（13）The bottom of both sides has been fixedly connected with humidity sensor （14）, the humidity sensor（14）Output end and single-chip microcomputer（9）Input be unidirectionally electrically connected with.

A kind of 3. proportion of crop planting greenhouse according to claim 1, it is characterised in that：The water collection sheet（4）Bottom It is fixedly connected with support bar（15）, the support bar（15）It is fixedly connected on storage tank（6）Top.

A kind of 4. proportion of crop planting greenhouse according to claim 1, it is characterised in that：The water collection sheet（4）Front Leak preventing has been fixedly connected with the back side（16）, the leak preventing（16）It is fixedly connected on greenhouse body（1）Front and The back side.

A kind of 5. proportion of crop planting greenhouse according to claim 1, it is characterised in that：The storage tank（6）Front It is fixedly connected with water-level gauge（17）, the water-level gauge（17）Output end and single-chip microcomputer（9）Input be unidirectionally electrically connected with.