DE4023366A1 - Mist generator in greenhouse - incorporates block of pressure-pulverising nozzles - Google Patents

Abstract

The device for misting in greenhouses and conservatories has one or several batteries of nozzles fed with water (9) from a container (8) by a high-pressure pump (10). The nozzle battery (1) has one or several threaded apertures (4) on the periphery or ends, containing the latest pressure pulverising nozzles (5) in a size of 0.6 to 1 US GPH with a spray angle between 45 and 80 degrees. USE/ADVANTAGE - Produces the largest possible uniformly distributed mist spray and quickly achieves high air humidity.

Description

The invention relates to a device designed as a nozzle block for generating mist for moistening and air conditioning plants preferably in a greenhouse or conservatory.

Known humidification systems for plants in a crop use aerosol cans to spray water for humidification tung. By sprinkling the plants, rain conditions become si mulated. Uneven droplet distribution complicates or prevents even spraying with liquid. Especially em Tropical plants are sensitive, their flowers when the What water droplets can be easily damaged. Other devices like them are shown and described for example in DE-PS 34 23 574, are mechanically quite complex and because of the use of humidification mats very susceptible to wear. These devices also need to depending on the size of the greenhouse, be specially designed technically to achieve the desired level of moisture or more rere of these complex devices can be used.

The invention has for its object a device for generating the largest possible and evenly distributable spray specify, the finest particles of a quickly accessible high air Ensure moisture for the humidification of plants in greenhouses continuous

This object is achieved in that one or several distributed pressure atomizing nozzles for oil burners are arranged. The nozzle block is connected to the pipeline or hoses using a moto rically driven pump with a pressure of 50-75 kg / cm² from one Reservoir supplied with water. Without droplet formation a fine spray that distributes itself evenly in the room and quickly reaches a saturation level of 100% of the air. As a special purpose The measure proved to be moderate, the individual nozzle blocks in egg to be distributed in a greenhouse at a distance of approximately one meter. To the Example is in a small greenhouse with approx. 30 m³ of enclosed space using four nozzle blocks with two pressure atomizing nozzles 0.8 US GPH each Spray angle 60 ° reaches a humidity of 100% in one minute. As a rule, pressure atomizing nozzles have a size between Special 0.6 to 1 US GPH with a spray angle between 45 ° to 80 ° proven. Filters arranged directly on the pressure atomizing nozzles  ensure clean water for the spray mist.

The advantage of the invention is that you can quickly in a greenhouse achieve the desired level of moisture and use the can. Furthermore, through fixed or variable connections individual nozzle blocks near plants and between several Easy to move and change greenhouses. Due to the low The individual nozzle blocks are very inexpensive. Liquid fertilizer ger and pesticides can be added to the spray water and with spread the spray. With heated or cooled spray water due to the rapidly spreading spray mist a short-term ver achieve and maintain change in room temperature. Strong wet solutions, algae, mold, calcifications and salinization largely avoided.

Preferred embodiments of the invention are shown in the drawing and are explained in more detail below. It shows

Fig. 1 shows a first embodiment of a nozzle block with two Druckzer stäubungsdüsen in cross-section,

Fig. 2 is a front view of a nozzle block with a modified voltage Anord two pressure atomized nozzles,

Fig. 3 shows an embodiment in a greenhouse.

In the embodiment according to FIG. 1, the nozzle block 1 has a bore 2 passing through the center. There is a threaded connection 3 at each end. Laterally offset, threaded holes 4 lead from the outer jacket to the hole 2 going through the middle, into which pressure atomizing nozzles 5 are screwed. The pressure atomizing nozzles 5 are provided with a filter 6 at the inlet.

In FIG. 2, the pressure atomized nozzles 5 are displaced by 90 ° angeord net. A different arrangement can be chosen freely. It is also possible to arrange a pressure atomizing nozzle 5 on one of the threaded connections 3 .

The embodiment shown in Fig. 3 shows an arrangement in a greenhouse, not shown. The nozzle blocks 1 with the inserted pressure atomizing nozzles 5 are fixed at intervals by means of tubes 7 or variably connected with high pressure hoses. The spray water 9 available in a container 8 is supplied by means of a pump 10 and motor 11 to the nozzle blocks 1 via a high-pressure hose 12 and discharged through the pressure atomizing nozzles 5 into the free space as a fine mist (not shown). With the help of a setpoint generator 13 , the desired air humidity is kept constant.

Claims (3)

1. A device for generating fog preferably for greenhouses and conservatories with one or more nozzle blocks, spray water being fed from a storage container by means of a high-pressure pump, characterized in that the nozzle block ( 1 ) is provided with one or more threaded bores on the circumference or end faces ( 4 ) is provided, in which pressure atomization nozzles ( 5 ) known from the prior art are used in a size of 0.6 to 1 US GPH with a spray angle between 45 ° to 80 °. 2. Devices according to claim 1, characterized in that the pressure atomizing nozzles ( 5 ) have a filter ( 6 ). 3. Apparatus according to claim 1 or 2, characterized in that the nozzle block ( 1 ) supplied spray water ( 9 ) is carried out at a pressure between 50-75 kg / cm².