CN206212818U - One kind atomization cooling system - Google Patents

Abstract

The utility model discloses one kind atomization cooling system, for warmhouse booth, including blower fan apparatus, also include supersonic atomizer, blower fan apparatus include dissipating nebelwind machine, dissipate nebelwind machine and are communicated with supersonic atomizer, and droplet obtained in supersonic atomizer is blown into warmhouse booth.Water-cooled mode is used instead of traditional using supersonic atomizer, water is broken into by more uniform small droplet by ultrasonic wave, so that enough tiny of the small droplet for arriving, easily evaporation turns into water vapor absorption heat, and small droplet is blown into warmhouse booth by dissipating nebelwind machine, make small droplet be evenly distributed in warmhouse booth, effectively prevent cooling to be directed to the problem of local smaller area, make whole greenhouse uniformly to be lowered the temperature；This cooling thinking of mist is made using ultrasonic wave, with little need for water circulation is carried out, water circulation system easily occurs in existing wet curtain cooling system pollution or failure is effectively solved the problems, such as.

Description

One kind atomization cooling system

Technical field

The utility model is related to agricultural production equipment technical field, is used more specifically to one kind atomization cooling system In warmhouse booth.

Background technology

In modern agriculture greenhouse, widely used pad and fan cooling system.The system be by wet curtain, water circulation system, Axial flow blower and electrical control gear are constituted.Pad and fan cooling system exactly realizes the original of cooling using water vapour heat absorption Manage, specific work process is：Wet curtain is arranged on the North face in greenhouse, south face of the assembling in greenhouse.When cooling is needed, Start fan, the air in greenhouse is forced to extract out, cause negative pressure；Meanwhile, water pump is beaten water on wet curtain wall over there.It is outdoor When air is by negative pressure suction chamber, passed through from the gap of wet curtain with certain speed, cause moisture evaporation, cooling, cold air stream Through greenhouse, in absorption chamber after heat, discharged through fan, so as to reach cooling purpose.

But, on the one hand because the radiating and cooling effect of pad and fan cooling system is limited, in hot summer or inflammation Thermally area, generally wants the 24 hour operation cooling system, adds somewhat to the energy resource consumption of greenhouse summer operation.The opposing party Face, because China's most area belongs to continental climate, fine suspension is more in dry and air, with wet curtain wind The operation of system drops in machine, and filtered air micronic dust becomes many in wet curtain, can influence the cooling efficiency and circulating water quality of wet curtain.And And, the water smoke produced by wet curtain is uneven, and the water near wet curtain side can be relatively more, and water droplet is than larger, it is impossible to realize The uniform decrease in temperature in greenhouse.

In sum, the technical problems such as existing warmhouse booth cooling system using effect difference how are efficiently solved, is Current those skilled in the art's urgent problem.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of atomization cooling system, the knot of the atomization cooling system Structure design can efficiently solve the technical problems such as existing warmhouse booth cooling system using effect difference.

In order to achieve the above object, the utility model provides following technical scheme：

One kind atomization cooling system, it is described also including supersonic atomizer for warmhouse booth, including blower fan apparatus Blower fan apparatus include dissipating nebelwind machine, and the scattered nebelwind machine is communicated with the supersonic atomizer, by ultrasonic fog makeup Put obtained droplet and be blown into warmhouse booth.

Preferably, in above-mentioned atomization cooling system, it is provided between the supersonic atomizer and the scattered nebelwind machine Collecting cover, is connected the supersonic atomizer with the scattered nebelwind machine by the collecting cover.

Preferably, in above-mentioned atomization cooling system, the atomization cooling system also includes the second blower fan, second blower fan It is arranged at the warmhouse booth opposite side relative with the scattered nebelwind machine.

Preferably, in above-mentioned atomization cooling system, the supersonic atomizer is connected with intensity adjustment module, described strong Degree adjustment module includes the atomization adjuster for changing fogging degree.

Preferably, in above-mentioned atomization cooling system, the scattered nebelwind machine is provided with towards the side of the warmhouse booth can Regulation blade construction, for adjusting the angle being blown into.

Preferably, in above-mentioned atomization cooling system, the intensity adjustment module also includes control to the ultrasonic atomization The water regulator of device output.

Preferably, in above-mentioned atomization cooling system, the atomization cooling system also includes being arranged in the warmhouse booth Temperature sense module.

Preferably, in above-mentioned atomization cooling system, the temperature sense module is connected with the intensity adjustment modular electrical, Intensity adjustment module is controlled to change the working strength of supersonic atomizer by different temperature signals.

Preferably, in above-mentioned atomization cooling system, the temperature sense module includes being distributed in the warmhouse booth not With the temp probe of position, the temperature sense module is electrically connected with the adjustable vane structure, by diverse location The temperature signal control adjustable vane structure that the temp probe is passed back carries out the corresponding regulation for being blown into angle.

A kind of atomization cooling system that the utility model is provided, for warmhouse booth, including blower fan apparatus, also including ultrasound Ripple atomising device, the blower fan apparatus include dissipating nebelwind machine, and the scattered nebelwind machine is communicated with the supersonic atomizer, by institute State droplet obtained in supersonic atomizer and be blown into warmhouse booth.The technical scheme that the utility model is provided uses ultrasonic atomization Device uses water-cooled mode instead of traditional, water is broken into relatively more uniform small droplet by ultrasonic wave, due to ultrasound Ripple is excellent in itself to smash function, so that enough tiny of the small droplet for arriving, easily evaporation turns into water vapor absorption heat, and Small droplet is blown into warmhouse booth by dissipating nebelwind machine, makes small droplet be evenly distributed in warmhouse booth, effectively prevent cooling only The problem of local smaller area can be directed to, makes whole greenhouse uniformly to be lowered the temperature；And due to making mist using ultrasonic wave This new cooling thinking, with little need for water circulation is carried out, effectively solves water circulation in existing wet curtain cooling system Pollution or the problem of failure that system easily occurs.In sum, the atomization cooling system that the utility model is provided effectively is solved The technical problems such as certainly existing warmhouse booth cooling system using effect difference.

Brief description of the drawings

In order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art, below will be to embodiment Or the accompanying drawing to be used needed for description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

The structural representation of the atomization cooling system that Fig. 1 is provided for the utility model embodiment.

Marked in accompanying drawing as follows：

Supersonic atomizer 1, collecting cover 2, scattered nebelwind machine 3, adjustable vane structure 4.

Specific embodiment

The utility model embodiment discloses a kind of atomization cooling system, is made with solving existing warmhouse booth cooling system With technical problems such as effect differences.

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, 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 for being obtained, belongs to the scope of the utility model protection.

Refer to Fig. 1, the structural representation of the atomization cooling system that Fig. 1 is provided for the utility model embodiment.

A kind of atomization cooling system that the utility model is provided, for warmhouse booth, including blower fan apparatus, also including ultrasound Ripple atomising device 1, the blower fan apparatus include dissipating nebelwind machine 3, and the scattered nebelwind machine 3 is communicated with the supersonic atomizer 1, Droplet obtained in the supersonic atomizer 1 is blown into warmhouse booth.

The technical scheme that the utility model is provided uses water-cooled mode using supersonic atomizer instead of traditional, passes through Water is broken into relatively more uniform small droplet by ultrasonic wave, function is smashed because ultrasonic wave is excellent in itself, so that arrives is small Enough tiny of droplet, easily evaporation turns into water vapor absorption heat.It is the liquid in vibration through studying ultrasonic atomization principle Surface produces ultrasonic wave, and the peak that shakes being made up of vibration amplitude is separated broken from surface drop.As ultrasonic frequency increases Plus, atomized drop is more and more thinner, and several micron-sized drops can be obtained under the vibration frequency effect of general ultrasonic wave.Its atomizing particle size Typically small (below 100 μm), preferably, its evenness index N is more than 2 to the uniformity of atomized drop.Due to ultrasonic atomizatio energy Enough that splendid atomization quality is obtained under very low liquid transmission speed, droplet sizes fine uniform atomizing effect is easily controlled, So the system uses supersonic atomizer, droplet tiny enough to ensure that easily carrying out for evaporative cooling.

And small droplet is blown into warmhouse booth by dissipating nebelwind machine, makes small droplet be evenly distributed in warmhouse booth, had Effect prevents from lowering the temperature can only be directed to the problem of local smaller area, make whole greenhouse uniformly to be lowered the temperature；And due to adopting This new cooling thinking of mist is made with ultrasonic wave, with little need for water circulation is carried out, existing Wet-curtain temperature reducing is effectively solved Water circulation system easily occurs in system pollution or the problem of failure.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, collecting cover 2 is provided between the supersonic atomizer 1 and the scattered nebelwind machine 3, will be described by the collecting cover 2 Supersonic atomizer 1 is connected with the scattered nebelwind machine 3.

The present embodiment sets collecting cover, and effect is gathered by collecting cover, by the substantial amounts of of supersonic atomizer generation Small droplet collapses to scattered nebelwind seat in the plane and puts, and small droplet is blown into warmhouse booth by the discrete motions for dissipating nebelwind machine, realizes The dispersion of droplet, setting collecting cover can improve the utilization rate for producing droplet, prevent droplet to be scattered and disappeared before greenhouse is entered, more Energy-conserving and environment-protective.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the atomization cooling system also includes the second blower fan, and second blower fan is arranged at warmhouse booth with the scattered phase of nebelwind machine 3 To opposite side.

The setting direction of wherein the second blower fan is that standard wind direction should be with scattered nebelwind machine to same, i.e., the second blower fan is in normal rotation When outwards empty, negative pressure is produced in greenhouse, so as to the small droplet that is blown into scattered nebelwind machine is guided into greenhouse fully by air-flow Dispersion.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the supersonic atomizer 1 is connected with intensity adjustment module, and the intensity adjustment module is included for changing fogging degree Atomization adjuster.The technical scheme that the present embodiment is provided provides intensity adjustment module to change the work of supersonic atomizer Intensity, changes the quantity and atomization grain size of the small droplet of its generation, is targetedly made to take specific sublimity in greenhouse Mist is lowered the temperature, to reach more preferable cooling-down effect.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the scattered nebelwind machine 3 is provided with adjustable vane structure 4 towards the side of the warmhouse booth, for adjusting the angle being blown into Degree.Adjustable vane structure is set, and it is close to dissipate the setting of nebelwind machine before being located at scattered nebelwind machine, to change scattered nebelwind machine blowout Wind direction, so that with position the need for targetedly small droplet is blown in greenhouse.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the intensity adjustment module also includes water regulator of the control to the output of the supersonic atomizer 1.The present embodiment The technical scheme of offer sets water regulator to change the output to supersonic atomizer, especially can be for atomization The specific works situation of adjuster, adapts to the work of atomization adjuster, so as to make optimal adjustment to atomizing effect.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the atomization cooling system also includes the temperature sense module being arranged in the warmhouse booth.The skill that the present embodiment is provided Art scheme includes that temperature sense module can in real time sense the temperature in greenhouse, to join as the work of supersonic atomizer According to.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the temperature sense module is connected with the intensity adjustment modular electrical, and intensity adjustment is controlled by different temperature signals Module changes the working strength of supersonic atomizer 1.

It is preferred on the basis of above-described embodiment further to optimize above-mentioned technical proposal, above-mentioned atomization cooling system In, the temperature sense module includes being distributed in the temp probe of diverse location in the warmhouse booth, the temperature sense mould Block is electrically connected with the adjustable vane structure 4, and the temperature signal passed back by the temp probe of diverse location is controlled Adjustable vane structure 4 carries out the corresponding regulation for being blown into angle.The technical scheme that two embodiments of the above are given all has The temperature control system of feedback function, the connection by temperature sense and intensity adjustment module or with adjustable vane, by greenhouse very To be the real time temperature feedback of the information of diverse location to middle control module, by the middle control same adjusting strength adjustment module of module and can Regulation blade construction, so as to accomplish more flexibly to efficiently control canopy temperature, the temperature of different zones even in greenhouse, Optimize the automaticity of system.

Each embodiment is described by the way of progressive in this specification, and what each embodiment was stressed is and other The difference of embodiment, between each embodiment identical similar portion mutually referring to.

The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or new using this practicality Type.Various modifications to these embodiments will be apparent for those skilled in the art, determine herein The General Principle of justice can in other embodiments be realized in the case where spirit or scope of the present utility model are not departed from.Cause This, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The most wide scope consistent with features of novelty.

Claims (7)

1. it is a kind of to be atomized cooling system, for warmhouse booth, including blower fan apparatus, it is characterised in that also including ultrasonic atomization Device, the blower fan apparatus include dissipating nebelwind machine, and the scattered nebelwind machine is communicated with the supersonic atomizer, by the ultrasound Droplet obtained in ripple atomising device is blown into warmhouse booth；

Collecting cover is provided between the supersonic atomizer and the scattered nebelwind machine, by the collecting cover by the ultrasound Ripple atomising device is connected with the scattered nebelwind machine；

The atomization cooling system also includes the second blower fan, and second blower fan is arranged at warmhouse booth with the scattered nebelwind machine phase To opposite side.

2. atomization cooling system according to claim 1, it is characterised in that the supersonic atomizer is connected with intensity Adjustment module, the intensity adjustment module includes the atomization adjuster for changing fogging degree.

3. atomization cooling system according to claim 2, it is characterised in that the scattered nebelwind machine is towards the warmhouse booth Side be provided with adjustable vane structure, for adjusting the angle that is blown into.

4. atomization cooling system according to claim 3, it is characterised in that the intensity adjustment module also includes that control is right The water regulator of the supersonic atomizer output.

5. atomization cooling system according to claim 3, it is characterised in that the atomization cooling system also includes being arranged at Temperature sense module in the warmhouse booth.

6. atomization cooling system according to claim 5, it is characterised in that the temperature sense module is adjusted with the intensity Section modular electrical connection, controls the work of intensity adjustment module change supersonic atomizer strong by different temperature signals Degree.

7. atomization cooling system according to claim 6, it is characterised in that the temperature sense module includes being distributed in institute The temp probe of diverse location in warmhouse booth is stated, the temperature sense module is electrically connected with the adjustable vane structure, The temperature signal passed back by the temp probe of diverse location controls the adjustable vane structure to carry out corresponding being blown into angle Regulation.