CN211509976U - Can prevent farming big-arch shelter of condensation pearl cooling - Google Patents

Abstract

The utility model provides an agricultural planting greenhouse capable of preventing condensation drop and cooling, which belongs to the technical field of planting greenhouses and comprises a support, an arch frame, an arch bar and a greenhouse film, wherein the two sides of the support are fixedly connected with the arch frame through bolts, the middle part of the arch frame is fixedly connected with a longitudinal beam through bolts, the upper end of the longitudinal beam is fixedly connected with the arch bar through bolts, the top of the arch bar is provided with the greenhouse film, and the two ends of the greenhouse film are provided with ventilating ports, the utility model can collect condensed water drops at the lower end of a circular truncated cone boss when the condensed water drops on the top surface in the greenhouse are condensed, avoid the condensed water drops from hanging on the greenhouse film, recycle the condensed water drops, guide the recycled condensed water drops to a cooling cloth, absorb and keep the water flowing down by the high-water-absorption and moisture-absorption fiber cooling cloth, and evaporate the water in the cooling cloth through the principle of evaporation and heat absorption when the temperature in the greenhouse is, absorb the heat in the greenhouse, thereby intelligently cooling the greenhouse.

Description

Can prevent farming big-arch shelter of condensation pearl cooling

Technical Field

The utility model relates to a plant big-arch shelter technical field, specifically a plant big-arch shelter.

Background

The currently published patent numbers are: the CN201820974991.7 environment-friendly agricultural planting greenhouse has the following defects when in use: although waterlogging can be prevented, in practical use, as the greenhouse is relatively humid and the temperature difference between the inside and the outside of the greenhouse is large, particularly at night, the temperature in the greenhouse is far higher than the outside, condensed water can be generated on the greenhouse, and condensed water drops not only influence the light transmittance and seriously influence the photosynthesis of crops in the greenhouse; the greenhouse is influenced by strong illumination at high temperature, and the normal growth of plants is influenced by overhigh temperature;

because the problem leads to planting the big-arch shelter to use inconveniently, consequently, need carry out further research on current planting big-arch shelter, provide a new farming big-arch shelter that can prevent the cooling of condensation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that the temperature difference between the inside of the existing planting greenhouse and the outside causes condensate water to be generated on the greenhouse, condensate water drops not only affect the light permeability and seriously affect the photosynthesis of crops in the greenhouse, but also the greenhouse is affected by intense illumination at high temperature and the normal growth of plants is affected by overhigh temperature, and provides an agricultural planting greenhouse capable of preventing the condensate water drops from cooling, the condensate water drops on the top surface in the greenhouse can be gathered at the lower end of a circular truncated cone bulge to drip when being condensed, the condensate water drops are prevented from being hung on a greenhouse film and can be recycled, the recycled condensate water drops are guided to cooling cloth, the high-water-absorption and moisture-absorption fiber cooling cloth absorbs and keeps the flowing water, when the temperature in the greenhouse is raised, the water in the cooling cloth is evaporated by an evaporation and heat absorption principle to absorb the heat in the greenhouse, thereby carrying out intelligent cooling to the big-arch shelter.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a can prevent farming big-arch shelter of cooling of condensing pearl, includes support, bow member, arch bar and big-arch shelter membrane, bolt fixedly connected with bow member is passed through to the both sides of support, the middle department of bow member passes through bolt fixedly connected with longeron, bolt fixedly connected with arch bar is passed through to the upper end of longeron, the top of arch bar is provided with the big-arch shelter membrane, the both ends of big-arch shelter membrane are provided with ventilative mouthful, bolt fixedly connected with gallows is passed through to the lower extreme of bow member, bolt fixedly connected with water catch bowl is passed through to the upper end of support, bolt fixedly connected with (window) curtain lift is passed through to the lower extreme of support, the supporting cooling cloth that is provided with in.

Preferably, circular truncated cone protrusions are distributed on the surface of the lower end of the greenhouse film in an array mode, and axial leads of the circular truncated cone protrusions of the greenhouse film are arranged along the radial direction of the longitudinal beam.

Preferably, the vent is provided with a movable louver in a matching way.

Preferably, the hanging brackets are arranged in a shape like a Chinese character tian, and the hanging brackets are concave groove bodies and are communicated with each other.

Preferably, the lower extreme department of gallows is provided with circular siphunculus, and the water catch bowl is located circular siphunculus under, and the lower extreme integration of water catch bowl is provided with the solenoid valve.

Preferably, the curtain lifter and the cooling cloth are provided with a plurality of groups and are distributed at the lower end of the bracket in a transverse array.

Preferably, the cooling cloth is high water absorption and moisture absorption fiber cooling cloth, and the cooling cloth is positioned at the lower opening of the water collecting tank.

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

(1) the agricultural planting greenhouse capable of preventing condensation beads from cooling is characterized in that circular truncated cone bulges are distributed on the surface of the lower end of a greenhouse film in an array mode, circular truncated cone-shaped bulges on the surface of the lower end of the greenhouse film can be gathered at the lower ends of the circular truncated cone bulges to drip when condensation water beads on the inner top surface of the greenhouse condense, the axial lead of the circular truncated cone bulges of the greenhouse film is radially arranged along a longitudinal beam, the whole condensation water beads longitudinally fall off, the hanging frame is arranged in a shape like a Chinese character tian, the hanging frames are concave groove bodies and are communicated with each other, when the condensation water beads on the inner top surface of the greenhouse condense, the condensation water beads can drip into the groove bodies of the hanging frames, the condensation water beads are prevented from being hung on the greenhouse film, the circular water collecting grooves are arranged at the lower ends of the hanging frames and are located at the right lower ends of the circular through pipes, the lower ends of the water collecting grooves are integrally provided with electromagnetic valves, the condensed water drops flow into the water collecting tank through the circular through pipe and are recycled.

(2) Secondly, when the temperature in the greenhouse is too high, a plurality of groups of curtain lifters and cooling cloth are arranged and are distributed at the lower end of the support in a transverse array mode, the cooling cloth distributed at the lower end of the support in the transverse array mode is arranged and floats above greenhouse plants, the cooling cloth is located at the lower end opening of the water collecting tank, an electromagnetic valve of the water collecting tank is opened, water flow collected in the water collecting tank falls downwards onto the cooling cloth, the cooling cloth is high water absorption and moisture absorption fiber cooling cloth and absorbs and keeps the flowing water flow, when the temperature in the greenhouse is raised, water in the cooling cloth evaporates through an evaporation and heat absorption principle, heat in the greenhouse is absorbed, and therefore the greenhouse is cooled intelligently.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the schematic view of the internal concrete connection structure of the bracket and the arch frame of the present invention.

Fig. 3 is a schematic view of the hanging bracket of the present invention.

Fig. 4 is a schematic view of the surface structure of the greenhouse film of the present invention.

In the figure: 1-a scaffold; 2-an arch frame; 3-longitudinal beams; 4-arch bar; 5-greenhouse film; 6-ventilating port; 7-a hanger; 8-a water collecting tank; 9-curtain lifters; 10-cooling cloth.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

Example (b):

as shown in figures 1-4;

the embodiment provides an agricultural planting greenhouse capable of preventing condensation bead cooling, including support 1, bow member 2, arch bar 3 and greenhouse film 5, bolt fixedly connected with bow member 2 is passed through to the both sides of support 1, the middle department of bow member 2 is through bolt fixedly connected with longeron 3, bolt fixedly connected with arch bar 4 is passed through to the upper end of longeron 3, the top of arch bar 4 is provided with greenhouse film 5, the both ends of greenhouse film 5 are provided with ventilative mouthful 6, bolt fixedly connected with gallows 7 is passed through to the lower extreme of bow member 2, bolt fixedly connected with water catch bowl 8 is passed through to the upper end of support 1, bolt fixedly connected with (window) curtain lift 9 is passed through to the lower extreme of support 1, the supporting cooling cloth 10 that is provided with in the inside of (window) curtain lift 9.

Furthermore, circular truncated cone bulges are distributed on the surface of the lower end of the greenhouse film 5 in an array mode, axial leads of the circular truncated cone bulges of the greenhouse film 5 are radially arranged along the longitudinal beam 3, the circular truncated cone bulges are distributed on the surface of the lower end of the greenhouse film 5 in an array mode, and the circular truncated cone bulges on the surface of the lower end of the greenhouse film 5 can be gathered at the lower ends of the circular truncated cone bulges to drip when condensation water drops on the top surface in the greenhouse condense.

Furthermore, the ventilation opening 6 is provided with a movable louver in a matched mode, and the ventilation opening 6 can be flexibly opened and closed by freely adjusting the movable louver.

Further, gallows 7 is the setting of field font, and gallows 7 is the concavity cell body, and intercommunication each other between the gallows 7, when the gathering drips when condensing on the top surface in the big-arch shelter drips at the protruding lower extreme of round platform, can drip in the cell body of gallows 7.

Further, the lower extreme department of gallows 7 is provided with circular siphunculus, and water catch bowl 8 is located circular siphunculus under, and the lower extreme integration of water catch bowl 8 is provided with the solenoid valve, and the condensation drop gathers into rivers in the cell body of gallows 7, flows into in water catch bowl 8 through circular siphunculus.

Further, curtain lift 9 and cooling cloth 10 are provided with the multiunit, and are horizontal array distribution at the lower extreme of support 1, and through setting up curtain lift 9 and cooling cloth 10, horizontal array distribution is in the cooling cloth 10 of support 1 lower extreme and is waved in the top of big-arch shelter plant species, and curtain lift 9 can go up and down to cooling cloth 10 to can not shelter from sunshine when not using.

Further, cooling cloth 10 is high moisture absorption fiber cooling cloth 10, and cooling cloth 10 is located the lower extreme opening part of water catch bowl 8, open the solenoid valve of water catch bowl 8, the rivers of collecting in the water catch bowl 8 fall into on cooling cloth 10 downwards, through setting up cooling cloth 10 for high moisture absorption fiber cooling cloth 10, cooling cloth 10 absorbs the rivers that flow down and keeps, when rising temperature in the big-arch shelter, through the evaporation heat absorption principle, the water in cooling cloth 10 evaporates, absorb the heat in the big-arch shelter, thereby carry out intelligence cooling to the big-arch shelter.

The working principle is as follows:

when the agricultural planting greenhouse capable of preventing the condensation beads from cooling provided by the utility model is used, the assembly of the greenhouse is completed, the firmness of the greenhouse is guaranteed, in the practical use, because the greenhouse is moist and the temperature difference between the inside and the outside of the greenhouse is large, particularly at night, the temperature in the greenhouse is far higher than the outside, condensed water can be generated on the greenhouse, circular truncated cone bulges are distributed on the surface of the lower end of the greenhouse film 5 in an array manner, the circular truncated cone bulges on the surface of the lower end of the greenhouse film 5 can be gathered at the lower ends of the circular truncated cone bulges to drip when the condensed water beads on the top surface in the greenhouse are condensed, the axial leads of the circular truncated cone bulges of the greenhouse film 5 are all arranged along the radial direction of the longitudinal beam 3, the condensed water beads wholly fall longitudinally, the hanging frames 7 are arranged in a shape like Chinese character 'tian', the hanging frames 7 are concave groove bodies and are mutually communicated, when the condensed water beads on the top, can drop into the groove body of the hanger 7 to avoid the condensed water drops from hanging on a greenhouse film, the circular through pipe is arranged at the lower end of the hanger 7, the water collecting groove 8 is positioned at the right lower end of the circular through pipe, the electromagnetic valve is integrally arranged at the lower end of the water collecting groove 8, the condensed water drops gather into water flow in the groove body of the hanger 7 and flow into the water collecting groove 8 through the circular through pipe to recycle the condensed water drops, when the temperature in the greenhouse is overhigh, a plurality of groups of cooling cloth 10 are arranged by arranging the curtain lifter 9, the cooling cloth 10 is transversely distributed at the lower end of the bracket 1 in an array manner, the cooling cloth 10 transversely distributed at the lower end of the bracket 1 floats above the greenhouse plants by arranging the curtain lifter 9 and the cooling cloth 10, the cooling cloth 10 is positioned at the lower end opening of the water collecting groove 8, the electromagnetic valve of the water collecting groove 8 is opened, the water flow collected in the water collecting groove 8 falls downwards onto the cooling, for high absorbent wet fiber cooling cloth 10 through setting up cooling cloth 10, cooling cloth 10 absorbs the rivers that flow down and keeps, when heaing up in the big-arch shelter, through the evaporation heat absorption principle, water in the cooling cloth 10 evaporates, absorbs the heat in the big-arch shelter to carry out intelligence cooling to the big-arch shelter.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (7)

1. An agricultural planting greenhouse capable of preventing condensation and cooling comprises a bracket (1), an arch frame (2), arch bars (4) and a greenhouse film (5), it is characterized in that two sides of the bracket (1) are fixedly connected with an arch frame (2) through bolts, the middle part of the arch center (2) is fixedly connected with a longitudinal beam (3) through a bolt, the upper end of the longitudinal beam (3) is fixedly connected with an arch bar (4) through a bolt, a greenhouse film (5) is arranged on the top of the arch bar (4), two ends of the greenhouse film (5) are provided with ventilation ports (6), the lower end of the arch frame (2) is fixedly connected with a hanging bracket (7) through a bolt, the upper end of the bracket (1) is fixedly connected with a water collecting tank (8) through a bolt, the lower end of the bracket (1) is fixedly connected with a curtain lifter (9) through a bolt, the interior of the curtain lifter (9) is provided with cooling cloth (10) in a matching way.

2. The agricultural planting greenhouse capable of preventing the temperature of the condensation beads from being reduced according to claim 1, wherein circular truncated cone protrusions are distributed on the surface of the lower end of the greenhouse film (5) in an array mode, and axial leads of the circular truncated cone protrusions of the greenhouse film (5) are arranged along the radial direction of the longitudinal beams (3).

3. The agricultural planting greenhouse capable of preventing the temperature of the coagulated beads from being reduced according to claim 1, wherein movable shutters are arranged at the ventilation openings (6) in a matching manner.

4. The agricultural planting greenhouse capable of preventing the temperature of the coagulated beads from being reduced as claimed in claim 1, wherein the hanging frames (7) are arranged in a shape like a Chinese character 'tian', the hanging frames (7) are concave groove bodies, and the hanging frames (7) are communicated with one another.

5. The agricultural planting greenhouse capable of preventing the temperature of the coagulated beads from being reduced according to claim 1, wherein a circular through pipe is arranged at the lower end of the hanger (7), the water collecting tank (8) is positioned at the right lower end of the circular through pipe, and an electromagnetic valve is integrally arranged at the lower end of the water collecting tank (8).

6. The agricultural planting greenhouse capable of preventing the temperature of the coagulated beads from being reduced according to claim 1, wherein the curtain lifters (9) and the temperature reduction cloth (10) are provided with a plurality of groups and are distributed at the lower end of the bracket (1) in a transverse array.

7. The agricultural planting greenhouse capable of preventing the temperature of the condensation beads from being reduced according to claim 1, wherein the temperature reduction cloth (10) is high water absorption and moisture absorption fiber temperature reduction cloth (10), and the temperature reduction cloth (10) is positioned at the lower end opening of the water collecting tank (8).

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