CN203814328U - Plant wall with zero-pressure irrigation - Google Patents

Abstract

The utility model discloses a plant wall with zero-pressure irrigation. The plant wall with zero-pressure irrigation comprises a culturing pot wall body, a water supply flume, an overflow pipe and a return flume, wherein the culturing pot wall body comprises a bracket and culturing pots in multiple rows and multiple arrays mounted on the bracket in a suspended manner; the water supply flume is a zero-pressure water supply flume arranged above the culturing pot wall body; water discharge heads in disjunction distribution are formed in the water supply flume; the water supply flume supplies water to the culturing pots through the water discharge heads; the return flume is arranged below the culturing pot wall body; the water supply flume and the return flume are communicated through the overflow pipe; water in the culturing pot arranged on the bottommost layer flows into the return flume. The water supply flume of the plant wall with zero-pressure irrigation is the zero-pressure water supply flume which realizes zero-pressure water supply, so that the phenomenon that the water supply pipeline is leaked under a pressure is avoided; as the plant wall with zero-pressure irrigation adopts a lengthways water supply way, detachment of a culturing pot monomer can be realized conveniently.

Description

A kind of plant walls of irrigating without pressure

Technical field

The utility model relates to indoor or outdoors afforestation equipment, specifically relates to a kind of plant walls of irrigating without pressure.

Background technology

Plant is improving always and is beautifying the mankind's living environment since ancient times, and people also constantly improve environment by strengthening the plantation of outdoor plant.But indoor because being subject to the restriction in its space, or open air is under some specific condition, cannot use large area soil planting plants, at this moment just can adopt plant walls to carry out plant cultivation.

Plant walls generally comprises support, suspension is installed on cultivating container and the water supply installation on support, water supply installation adopts the horizontal supply channel of many rows to irrigate conventionally, the top that is every row's Culture basin is equipped with a water supply transverse tube, when single Culture basin generation filler stops up or other problems need to unload while safeguarding, due to the existence of top water supply transverse tube to cultivating container mount with dismantle produce hinder make to operate limited.

In addition, water supply installation adopts pipeline liquid injecting device, and it is more difficult that pressure is controlled, and is prone to water supply line and reveals, and very unbalanced problem supplies water.

Utility model content

The purpose of this utility model is to provide a kind of plant walls of irrigating without pressure, and its water supply line does not exist leakage, for hydrologic(al) budget, and can conveniently carry out the dismounting of cultivating container monomer.

For achieving the above object, the utility model is by the following technical solutions:

A kind of plant walls of irrigating without pressure, comprise Culture basin body of wall, supply flume, overflow pipe and return flume, described Culture basin body of wall comprises that support and multiple lines and multiple rows suspension are installed on the Culture basin on support, described supply flume is without pressure supply flume, described supply flume is located at Culture basin body of wall top, on described supply flume, be intervally distributed with Water outlet, described supply flume supplies water to Culture basin by Water outlet, described return flume is located at Culture basin body of wall below, described supply flume and return flume are communicated with by overflow pipe, and the water of being located in the Culture basin of one deck of the end flows in return flume.

The top of described return flume is provided with backwater hole, and the Culture basin lower end of being located at one deck of the end is provided with downcomer, and described downcomer is connected with described backwater hole non-tight.

Described Water outlet is columnar hollow structure, and described Water outlet is provided with throttle orifice.

Described overflow pipe is provided with the valve of controlling supply flume height of water level.

Preferably, in described Culture basin, be provided with for regulating the water-level regulator of height of water level.

Described water-level regulator comprises draw ring, piston type core valve, hollow out cover and for keeping the liquid level sleeve pipe of certain liquid level, described liquid level sleeve pipe is hollow structure, described liquid level bobbin seal is installed on Culture basin bottom, described piston type core valve pocket is located in liquid level sleeve pipe, described hollow out covers at outside piston type core valve and is connected with described liquid level bobbin seal, and described piston type core valve upper end is exposed to outside hollow out cover and is connected with draw ring; Described piston type core valve is hollow structure, which is provided with osculum.

Described downcomer is connected in the liquid level sleeve pipe lower end of bottom Culture basin, and the liquid level sleeve pipe of remainder layer Culture basin is connected with feed pipe, and described feed pipe connects the longitudinally Culture basin of correspondence of lower one deck; Described Water outlet is connected with feed pipe, supplies water in top one deck Culture basin.

Preferably, described Water outlet is connected with single head water knockout drum, described single head water knockout drum comprises three-way body, the first spool, the first water diversing head and the first knob, described the first spool is located in three-way body, described three-way body and the first water diversing head are tightly connected, described the first water diversing head is provided with apopore, and described the first knob is connected with the first spool.

The bottom of bottom Culture basin is communicated with single bypass outlet device, and the bottom of remainder layer Culture basin is communicated with two bypass water knockout drums; Two bypass water knockout drums of upper strata Culture basin are connected with two bypass water knockout drums of lower floor Culture basin by bypass pipe; Two bypass water knockout drums of the Culture basin of top layer are connected by bypass pipe with corresponding single head water knockout drum, and described downcomer is connected in described single bypass outlet device lower end.

Described pair of bypass water knockout drum comprises four-way housing, the second spool, the second water diversing head and the second knob, described the second spool is located in described four-way housing, the lower end of described four-way housing and the second water diversing head are tightly connected, the both sides of described four-way housing connect described bypass pipe, described the second knob is connected with the second spool, and described the second water diversing head is provided with apopore.

Adopt after technique scheme, the utility model is compared with existing background technology, and tool has the following advantages:

1, supply flume of the present utility model is without pressure supply flume, realize without pressure water supply, and the phenomenon that there will not be water supply line pressurized to reveal, supply flume can be for the plant walls of indoor and outdoor.

2, the setting of overflow pipe and Water outlet, can keep supply flume to supply hydrologic(al) budget to each file Culture basin.

3, the utility model adopts longitudinal way of supplying water, owing to not having horizontal supply channel to hinder, can conveniently realize the dismounting of Culture basin monomer.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment mono-;

Fig. 2 is the partial enlarged drawing of Fig. 1;

Fig. 3 is the structural representation of return flume;

Fig. 4 is the Culture basin structural representation of the present embodiment one;

Fig. 5 is the Culture basin of the present embodiment one and the STRUCTURE DECOMPOSITION schematic diagram of water flowing joint;

Fig. 6 is supply flume structural representation of the present utility model;

Fig. 7 is the structural representation of Water outlet of the present utility model;

Fig. 8 is the structural representation of the utility model embodiment bis-;

Fig. 9 is the structural representation that the Culture basin of embodiment bis-is combined with Water outlet;

Figure 10 is the Culture basin of embodiment bis-and the decomposition texture schematic diagram of Water outlet;

Figure 11 is the structural representation of the piston type core valve of embodiment bis-;

Figure 12 is the structural representation of the water-level regulator of embodiment bis-;

Figure 13 is the structural representation of embodiment tri-;

Figure 14 is another angle structural representation of embodiment tri-;

Figure 15 is that embodiment tri-is except the structural representation of other Culture basin of the bottom;

Figure 16 is the decomposition texture schematic diagram of two bypass water knockout drums of embodiment tri-;

Figure 17 is the structural representation of the Culture basin of embodiment tri-bottoms;

Figure 18 is the decomposition texture schematic diagram of single bypass outlet device of embodiment tri-;

Figure 19 is the supply flume of embodiment tri-and the structural representation of single head water knockout drum;

Figure 20 is the decomposition texture schematic diagram of the single head water knockout drum of embodiment tri-.

Reference numeral explanation:

Supply flume 1, Water outlet 11, throttle orifice 111, single head water knockout drum 12, three-way body 121, O type circle 122, the first spool 123, O type circle 124, the first water diversing head 125, apopore 1251, the first knob 126, ventilation hole 13, overflow pipe 2, valve 21, return flume 3, backwater hole 31, Culture basin 4, Culture basin body 41, installing hole 411, plant placing frame 42, water-level regulator 43, draw ring 431, piston type core valve 432, osculum 4321, hollow out cover 433, O type circle 434, liquid level sleeve pipe 435, O type circle 436, water supply sebific duct 44, Culture basin 5, filtration members 51, lower water swivel 52, O type circle 53, two bypass water knockout drums 54, four-way housing 541, O type circle 542, the second spool 543, O type circle 544, the second water diversing head 545, the second knob 546, single bypass outlet device 55, three-way body 551, O type circle 552, lower head 553, downcomer 56, bypass pipe 6, Culture basin 7, downcomer 71, filtration members 72, water flowing joint 73, O type circle 74.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Embodiment mono-

As shown in Figure 1, a kind of plant walls of irrigating without pressure, comprises Culture basin body of wall, supply flume 1, overflow pipe 2 and return flume 3, wherein:

Culture basin body of wall comprises that support (not shown) and multiple lines and multiple rows suspension are installed on the Culture basin 7 on support, and in the present embodiment, Culture basin 7 is for adopting the Culture basin of solid matrix filler cultivated plant.

Supply flume 1 is tubular structure with return flume 3, and supply flume 1 is located at Culture basin body of wall top.As shown in Figure 6, be intervally distributed with Water outlet 11 on supply flume 1, distribution distance is corresponding with Culture basin 7, and every row Culture basin 7 tops are to there being a Water outlet 11.Water outlet 11 is columnar hollow structure, and the middle and upper part of Water outlet 11 is provided with throttle orifice 111, and as shown in Figure 7, throttle orifice 111 is positioned under supply flume 1 water level.

Return flume 33 is located at Culture basin body of wall below, and supply flume 1 and return flume 3 are communicated with by overflow pipe 2, and the water of being located in the Culture basin 7 of one deck of the end flows in return flume 3.Overflow pipe 2 is provided with valve 21.The setting of overflow pipe 2, can make the water level in supply flume 1 remain on stable height, and valve 21 can further be controlled the height of water level in supply flume 1.

As shown in Figure 4, Figure 5, Culture basin 7 bottoms are connected with filtration members 72 and water flowing joint 73; Water flowing joint 73 is tightly connected by O type circle 74 and Culture basin 7.

As shown in Figure 3, the top of return flume 3 is provided with backwater hole 31, and the water flowing joint 73 of being located at the Culture basin 7 of one deck of the end is connected with downcomer 71, and downcomer 71 is connected with backwater hole 31 non-tights, as shown in Figure 2.Like this, return flume 3 is open, communicates with ambient atmosphere, overflow pipe 2 is draining under full state not, and therefore, supply flume 1, overflow pipe 2, return flume 3 are atmospheric pressure state, supply flume 1 can be realized without pressure water supply like this, the phenomenon that there will not be water supply line pressurized to reveal.

The present embodiment is applicable to outdoor use.It should be noted that the water of mentioning in the present embodiment, comprise the nutrient solution that plant production is required.Water in supply flume 1 flows in the corresponding Culture basin 7 of top one deck by Water outlet 11, when the solid matrix filling adsorption water in Culture basin 7 reaches capacity state, in the Culture basin 7 of unnecessary water by longitudinal correspondence of the lower one deck of water flowing joint 73 inflow, successively, the state until the water in the Culture basin 7 of one deck of the end reaches capacity, its unnecessary water enters in return flume 3 by downcomer 71.

Embodiment bis-

As shown in Figure 8, a kind of plant walls of irrigating without pressure, comprises Culture basin body of wall, supply flume 1, overflow pipe 2 and return flume 3, wherein:

Culture basin body of wall comprises that support (not shown) and multiple lines and multiple rows suspension are installed on the Culture basin 4 on support, and in the present embodiment, Culture basin 4 is for adopting the water planting basin of liquid culture plant.Culture basin 4 comprises Culture basin body 41 and plant placing frame 42.

As shown in Figure 8, shown in, supply flume 1 is located at Culture basin body of wall top, is intervally distributed with Water outlet 11 on supply flume 1.Water outlet 11 is with embodiment mono-.

As shown in Figure 8, return flume 3 is located at Culture basin 4 bodies of wall belows, and supply flume 1 and return flume 3 are communicated with by overflow pipe 2, and the water of being located in the Culture basin 4 of one deck of the end flows in return flume 3.Overflow pipe 2 is provided with valve 21.The setting of overflow pipe 2, can make the water level in supply flume 1 remain on stable height, and valve 21 can further regulate the height of water level in supply flume 1.Overflow pipe 2 coordinates Water outlet 11, can keep supply flume 1 to supply hydrologic(al) budget to each file Culture basin 4.

As shown in Fig. 9-Figure 12, in Culture basin 4, be provided with for regulating the water-level regulator 43 of height of water level.Water-level regulator 43 comprises draw ring 431, piston type core valve 432, hollow out cover 433 and for keeping the liquid level sleeve pipe 435 of certain liquid level, liquid level sleeve pipe 435 is hollow structure, Culture basin 4 bottoms are provided with installing hole 411, liquid level sleeve pipe 435 is installed in installing hole 411 and with O type circle 436 and seals, piston type core valve 432 is sheathed in liquid level sleeve pipe 435, hollow out cover 433 is located at outside piston type core valve 432 and with liquid level sleeve pipe 435 and is adopted O type circles 434 to be tightly connected, and piston type core valve 432 upper ends are exposed to outside hollow out cover 433 and are connected with draw ring 431; Piston type core valve 432 is hollow structure, which is provided with osculum 4321.Water-level regulator 43 adopts and is fastened and connected with Culture basin 4, connects simply easy accessibility.

Liquid level sleeve pipe 435 coordinates with piston type core valve 432, can make liquid in Culture basin 4 remain on the water level under the osculum 4321 of piston type core valve 432, and the liquid that exceeds tap 4321 height flows out from osculum 4321.Height by draw ring 431 pull regulating piston formula core valves 432, can make the liquid in Culture basin 4 remain on suitable water level.

As shown in Figure 8, in the present embodiment, liquid level sleeve pipe 435 lower ends of bottom Culture basin are connected with downcomer (not shown), and the liquid level sleeve pipe of remainder layer Culture basin is connected with feed pipe, feed pipe adopts water supply sebific duct 44, and water supply sebific duct 44 connects the longitudinally Culture basin 4 of correspondence of lower one deck; Water outlet 11 is connected with water supply sebific duct 44, supplies water in top one deck Culture basin 4.

The structure of return flume 3 is identical with embodiment mono-, and the downcomer that liquid level sleeve pipe 435 lower ends of bottom Culture basin connect is connected with backwater hole 31 non-tights.Like this, return flume 3 is open, communicates with ambient atmosphere, overflow pipe 2 is draining under full state not, and therefore, supply flume 1, overflow pipe 2, return flume 3 are atmospheric pressure state, supply flume 1 can be realized without pressure water supply like this, the phenomenon that there will not be water supply line pressurized to reveal.

It should be noted that the water of mentioning in the present embodiment, comprise the nutrient solution that plant production is required.Water in supply flume 1 by Water outlet 11 in water supply sebific duct 44 flows into the corresponding Culture basin 4 of top one deck, when the water in the Culture basin 4 of top one deck surpasses the osculum 4321 of its water-level regulator 43, in the Culture basin 4 of longitudinal correspondence that osculum 4321 and the water supply sebific duct 44 of unnecessary water by its water-level regulator 43 enters lower one deck, according to this, until the water in the Culture basin 4 of one deck of the end reaches suitable level, unnecessary water enters in return flume 3 by osculum 4321 and the water supply sebific duct 44 of its water-level regulator 43.

Embodiment tri-

As shown in Figure 13, Figure 14, a kind of plant walls of irrigating without pressure, comprises Culture basin body of wall, supply flume 1, overflow pipe 2 and return flume 3, wherein:

Culture basin body of wall comprises that support and multiple lines and multiple rows suspension are installed on the Culture basin 5 on support, and in the present embodiment, Culture basin 5 is for adopting the Culture basin of solid matrix filler cultivated plant.

Supply flume 1 is located at Culture basin body of wall top, is intervally distributed with Water outlet 11 on supply flume 1, and Water outlet 11 is with embodiment mono-.

Return flume 3 is located at Culture basin body of wall below, and the structure of return flume 3 is identical with embodiment mono-, and supply flume 1 and return flume 3 are communicated with by overflow pipe 2, is located in the water inflow return flume 3 in the Culture basin 5 of one deck of the end.Overflow pipe 2 is provided with valve 21.

As shown in Figure 19,20, Water outlet 11 is connected with single head water knockout drum 12, single head water knockout drum 12 comprises three-way body 121, the first spool 123, the first water diversing head 125 and the first knob 126, the first spool 123 is located at three-way body 121 and is tightly connected by O type circle 124 and the first water diversing head 125, three-way body 121 and the first water diversing head 125 are tightly connected by O type circle 122, the first water diversing head 125 is provided with apopore 1251, the first knobs 126 and is connected with the first spool 123.

As shown in Figure 15,17, Culture basin 5 bottoms are provided with lower water swivel 52 and the filtration members 51 being tightly connected with O type circle 53, and filtration members 51 is located at lower water swivel 52 tops.

As shown in Figure 13, Figure 14, the lower water swivel 52 of bottom Culture basin 5 is communicated with single bypass outlet device 55, and the lower water swivel 52 of remainder layer Culture basin 5 is communicated with two bypass water knockout drums 54; Two bypass water knockout drums 54 of upper strata Culture basin 5 are connected with two bypass water knockout drums 54 of corresponding lower floor's Culture basin 5 by bypass pipe 6; Two bypass water knockout drums 54 of the Culture basin 5 of top layer are connected by bypass pipe 6 with corresponding single head water knockout drum 12.Bypass pipe 6 be can be arbitrarily crooked sebific duct.

As shown in figure 16, two bypass water knockout drums 54 comprise four-way housing 541, the second spool 543, the second water diversing head 545 and the second knob 546, the second spool 543 is located in four-way housing 541 and is tightly connected with the second water diversing head 545 use O type circles 544, the lower end of four-way housing 541 and the second water diversing head 545 use O type circles 542 are tightly connected, the upper end of four-way housing 541 is connected with lower water swivel 52, the both sides connecting bypass pipe 6 of four-way housing 541, the second knob 546 is connected with the second spool 543, and the second water diversing head 545 is provided with apopore.

As shown in figure 18, single bypass outlet device 55 comprises three-way body 551 and lower head 553, and three-way body 551 adopts O type circle 552 to be tightly connected with lower head 553.The upper end of three-way body 551 connects the lower water swivel 52 of bottom Culture basin 5, the side connecting bypass pipe 6 of three-way body 551, and lower head 553 is connected with downcomer 56, and the water of bottom Culture basin 5 enters return flume 3 by single bypass outlet device 55.

The downcomer 56 of bottom Culture basin 5 is connected with backwater hole 31 non-tights.Like this, return flume 3 is open, communicates with ambient atmosphere, overflow pipe 2 is draining under full state not, and therefore, supply flume 1, overflow pipe 2, return flume 3 are atmospheric pressure state, supply flume 1 can be realized without pressure water supply like this, the phenomenon that there will not be water supply line pressurized to reveal.

It should be noted that the water of mentioning in the present embodiment, comprise the nutrient solution that plant production is required.Water in supply flume 1 flows into single head water knockout drum 12 by Water outlet 11, by the first water diversing head 125 of single head water knockout drum 12, flow into the Culture basin 5 of top one deck, when the solid matrix filling adsorption water in Culture basin 5 reaches capacity state, unnecessary water flows into two bypass water knockout drums 54 of these Culture basin 5 bottoms, and then flows in the longitudinal corresponding Culture basin 5 of lower one deck by the second water diversing head 545 of this pair of bypass water knockout drum 54.Meanwhile, the bypass pipe 6 that the water in supply flume 1 connects by single head water knockout drum 12 flows into two bypass water knockout drums 54 of top layer Culture basin 5 bottoms, and then in the Culture basin 5 of the second water diversing head 545 inflow second layers by this pair of bypass water knockout drum 54.Two bypass water knockout drums 54 of top layer Culture basin 5 flow into the water of overflow more than needed in two bypass water knockout drums 54 of lower floors by bypass pipe 6, successively, the state until the water in the Culture basin of one deck of the end reaches capacity, its unnecessary water enters in return flume 3 by the lower head 553 of single bypass outlet device 55.

The use of single head water knockout drum 12, two bypass water knockout drums 54, realizes longitudinal water supply of Culture basin.

Two bypass water knockout drums 54 and single bypass outlet device 55 adopted and are fastened and connected with being connected all of Culture basin, and single head water knockout drum 12, two bypass water knockout drum 54 are directly socketed with bypass pipe 6.This kind of pipeline connecting mode, connects simply, easy accessibility, and when obstruction or other problems appear in Culture basin, it is convenient to change.

The utility model adopts longitudinal way of supplying water, owing to not having horizontal supply channel to hinder, can conveniently realize the dismounting of Culture basin monomer.

The above; it is only preferably embodiment of the utility model; but protection domain of the present utility model is not limited to this; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the variation that can expect easily or replacement, within all should being encompassed in protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (10)

1. a plant walls of irrigating without pressure, it is characterized in that: comprise Culture basin body of wall, supply flume, overflow pipe and return flume, described Culture basin body of wall comprises that support and multiple lines and multiple rows suspension are installed on the Culture basin on support, described supply flume is without pressure supply flume, described supply flume is located at Culture basin body of wall top, on described supply flume, be intervally distributed with Water outlet, described supply flume supplies water to Culture basin by Water outlet, described return flume is located at Culture basin body of wall below, described supply flume and return flume are communicated with by overflow pipe, the water of being located in the Culture basin of one deck of the end flows in return flume.

2. a kind of plant walls of irrigating without pressure according to claim 1, is characterized in that: the top of described return flume is provided with backwater hole, and the Culture basin lower end of being located at one deck of the end is provided with downcomer, and described downcomer is connected with described backwater hole non-tight.

3. a kind of plant walls of irrigating without pressure according to claim 2, is characterized in that: described Water outlet is columnar hollow structure, and described Water outlet is provided with throttle orifice.

4. a kind of plant walls of irrigating without pressure according to claim 2, is characterized in that: described overflow pipe is provided with the valve of controlling supply flume height of water level.

5. according to a kind of plant walls of irrigating without pressure described in claim 2-4 any one, it is characterized in that: in described Culture basin, be provided with for regulating the water-level regulator of height of water level.

6. a kind of plant walls of irrigating without pressure according to claim 5, it is characterized in that: described water-level regulator comprises draw ring, piston type core valve, hollow out cover and for keeping the liquid level sleeve pipe of certain liquid level, described liquid level sleeve pipe is hollow structure, described liquid level bobbin seal is installed on Culture basin bottom, described piston type core valve pocket is located in liquid level sleeve pipe, described hollow out covers at outside piston type core valve and is connected with described liquid level bobbin seal, and described piston type core valve upper end is exposed to outside hollow out cover and is connected with draw ring; Described piston type core valve is hollow structure, which is provided with osculum.

7. a kind of plant walls of irrigating without pressure according to claim 6, it is characterized in that: described downcomer is connected in the liquid level sleeve pipe lower end of bottom Culture basin, the liquid level sleeve pipe of remainder layer Culture basin is connected with feed pipe, and described feed pipe connects the longitudinally Culture basin of correspondence of lower one deck; Described Water outlet is connected with feed pipe, supplies water in top one deck Culture basin.

8. according to a kind of plant walls of irrigating without pressure described in claim 2-4 any one, it is characterized in that: described Water outlet is connected with single head water knockout drum, described single head water knockout drum comprises three-way body, the first spool, the first water diversing head and the first knob, described the first spool is located in three-way body, described three-way body and the first water diversing head are tightly connected, described the first water diversing head is provided with apopore, and described the first knob is connected with the first spool.

9. a kind of plant walls of irrigating without pressure according to claim 8, is characterized in that: the bottom of bottom Culture basin is communicated with single bypass outlet device, and the bottom of remainder layer Culture basin is communicated with two bypass water knockout drums; Two bypass water knockout drums of upper strata Culture basin are connected with two bypass water knockout drums of lower floor Culture basin by bypass pipe; Two bypass water knockout drums of the Culture basin of top layer are connected by bypass pipe with corresponding single head water knockout drum, and described downcomer is connected in described single bypass outlet device lower end.

10. a kind of plant walls of irrigating without pressure according to claim 9, it is characterized in that: described pair of bypass water knockout drum comprises four-way housing, the second spool, the second water diversing head and the second knob, described the second spool is located in described four-way housing, the lower end of described four-way housing and the second water diversing head are tightly connected, the both sides of described four-way housing connect described bypass pipe, described the second knob is connected with the second spool, and described the second water diversing head is provided with apopore.