CN201640066U - Vegetation board for automatic water supply and irrigation device - Google Patents

Abstract

The utility model provides a vegetation board for automatic water supply and an irrigation device. A plurality of water storage spaces enclosed by flanges are formed on the vegetation board, communicated canals are arranged among the water storage spaces, at least one water storage space at the lateral side of the vegetation board is provided with guiding holes which are assembled with guiding holes of other vegetation boards through connecting tubes, and the guiding holes of the first vegetation board and the last vegetation board are respectively assembled and connected to a water inlet pipe and a water outlet pipe of a water tank, therefore, a circulated water supply system is formed to automatically supply water for turf irrigation of vegetations.

Description

The vegetation plate and the irrigation rig of automatic water-supply

Technical field

The utility model relates to a kind of vegetation plate and irrigation rig of automatic water-supply, refers to a kind of vegetation plate and the irrigation rig that can supply the turf irrigation water of vegetation automatically especially.

Background technology

See also TaiWan, China and announce No. 423266 " combined type vegetation plate structure ", patent for the previous research and development of the design people, it mainly is to be provided with the retaining edge in vegetation plate surrounding, and be provided with many tanks that are filled with water thereon with through hole, and in the tank that is filled with water, be installed with absorbent material, and be filled with water in each and be provided with the section of being connected with between the tank, and cross hollow-out parts by four section of being connected with frames that link to each other, and outside the retaining edge of vegetation plate, be provided with the portion of colluding with and colluded with portion, the multiple Web materials layer of on the vegetation plate, laying; In view of the above, the space size at visual desire vegetation place is laid, and utilizes the portion that colludes with that sets up on each vegetation plate to establish with corresponding the colluding of being colluded with portion, and acts in collusion each vegetation plate fixing, then on the Web materials layer, lay earth, turf, with effect such as reach heat insulation, beautify the environment.

Yet this TaiWan, China is announced No. 423266 the preceding case of " combined type vegetation plate structure " patent, still has its disappearance place on implementing, can only reach vegetation plate as the water of irrigating in the part, and can't be passed to other vegetation plate place, therefore, when irrigating, must be for it with manpower, moreover during irrigation, the user also must back and forth irrigate between each vegetation plate back and forth, so, on taking care of, very bother.

The utility model content

The purpose of this utility model is vegetation plate and the irrigation rig that is to provide a kind of automatic water-supply, particularly a kind of vegetation plate and the irrigation rig that can supply the turf irrigation water of vegetation automatically.

So, in order to reach above-mentioned enforcement purpose, the utility model proposes a kind of vegetation plate of automatic water-supply, be be formed with thereon a plurality of by water space that a plurality of flange surrounded, and make and be provided with irrigation canals and ditches between water space and the water space and be connected, make vegetation plate side be provided with pod apertures again, be provided with porous disc in the vegetation plate top surface again, and on this porous disc, be formed with a plurality of open-works.

The vegetation plate of aforesaid automatic water-supply, wherein, this pod apertures further includes the pod apertures of high and low water level.

The vegetation plate of aforesaid automatic water-supply wherein, is enclosed to form the interval that exceeds irrigation canals and ditches between the water space of this vegetation plate and irrigation canals and ditches, and further is provided with spillway hole on the interval, is formed with the raceway groove of guiding spillway hole again on the interval.

The vegetation plate of aforesaid automatic water-supply wherein, further is provided with enclosure wall in this water space, with around a seed room, and be provided with socket at the inboard wall that is positioned at the seed room, is formed with the gap again on this enclosure wall.

The vegetation plate of aforesaid automatic water-supply, wherein, this vegetation panel area further is provided with clinch.

The vegetation plate of aforesaid automatic water-supply, wherein, this vegetation plate further includes the overlap joint piece, overlapping mutually with clinch, and is provided with runner in the overlap joint piece, and pod apertures is formed on the clinch, communicates with the runner with the overlap joint piece.

The utility model also proposes a kind of vegetation plate irrigation rig of automatic water-supply, comprises:

A plurality of vegetation plates are formed with a plurality ofly by the water space that a plurality of flange surrounded on each vegetation plate, and make and be provided with irrigation canals and ditches between water space and water space and be connected, and make vegetation plate side be provided with pod apertures again; Tube connector, correspondence are connected between the pod apertures of two vegetation plates; Water tank connects and stretches a water inlet pipe in its below, being connected in the pod apertures of first vegetation plate, and is provided with a switch valve between this water inlet pipe, and the pod apertures in the most last vegetation plate connects an outlet pipe again; The rainwater sensor is connected with switch valve.

The vegetation plate irrigation rig of aforesaid automatic water-supply, wherein, this outlet pipe further is connected to water tank top, and makes on this outlet pipe further that group is provided with pump.

The vegetation plate irrigation rig of aforesaid automatic water-supply, wherein, the vegetation plate irrigation rig of this automatic water-supply further is provided with water level controller, being mounted in the water tank, and further is connected with group with the water inlet unit.

The vegetation plate irrigation rig of aforesaid automatic water-supply, wherein, the vegetation plate irrigation rig of this automatic water-supply further is provided with water level sensor, in the water space that is mounted on the vegetation plate, and is electrically connected with switch valve.

Whereby, the vegetation plate and the irrigation rig of the automatic water-supply that the utility model proposes, below water tank, connect and stretch the pod apertures that a water inlet pipe is connected in first vegetation plate, utilize tube connector so that the pod apertures of the pod apertures of first vegetation plate and other vegetation plate is connected with group, then, make the pod apertures of the most last vegetation plate connect the outlet pipe of establishing again and be connected to water tank, in view of the above, just can form the water system of a circulation, turf with automatic supply vegetation is irrigated, and then avoids adopting manpower to irrigate the trouble that turf caused.

The utility model further is provided with water level controller in water tank, for the water level of detecting at any time in the water tank, make to keep an amount of water storage in the water tank at any time, irrigates required in order to automatic water-supply.

The utility model further is provided with the rainwater sensor again, whether with sensitive context is rainy state, and when rainy, promptly the coupled switch valve cuts out the water supply of water tank to the vegetation plate, to avoid water tank and rainwater to supply water simultaneously, cause the waste of water resource and the vegetation turf is produced infringement.

Description of drawings

Fig. 1 is a stereogram of the present utility model;

Fig. 2 is a partial enlarged drawing of the present utility model;

Fig. 3 is whole user mode figure of the present utility model;

Fig. 4 is a time embodiment partial enlarged drawing;

Fig. 5 is another embodiment stereogram of the present utility model;

Fig. 6 is another embodiment cutaway view of the present utility model;

Fig. 7 makes up enforcement figure for another embodiment of the present utility model;

Fig. 8 is another embodiment assembled sectional view of the present utility model;

Fig. 9 is the local user mode figure of another embodiment of the present utility model;

Figure 10 is the whole user mode figure of another embodiment of the present utility model.

The main element label declaration:

1,1 ' the vegetation plate, 10 flanges

11 water spaces, 12 irrigation canals and ditches

13 interval 131 raceway grooves

14 spillway holes, 15 pod apertures

16 clinch, 2 tube connectors

3 water tanks, 31 water inlet pipes

32 switch valves, 33 outlet pipes

34 pumps, 35 water level controllers

36 water level sensors, 4 rainwater sensors

5 porous discs, 51 open-works

52 receiving parts 6,6 ' the vegetation plate

60 flanges, 61 water spaces

62 irrigation canals and ditches, 63 enclosure walls

630 seed rooms, 631 sockets

632 gaps, 64 clinch

641 pod apertures, 642 envelope films

65 overlap joint pieces, 651 runners

66 fins, 661 gaps

67 protruded stigmas, 671 spillway holes

672 raceway grooves, 7 bodies of rod

Embodiment

Understand for technical characterictic of the present utility model, purpose and effect being had more clearly, now contrast description of drawings embodiment of the present utility model:

At first, see also shown in Fig. 1～3, be the vegetation plate and the irrigation rig of automatic water-supply of the present utility model, mainly formed by vegetation plate 1 and tube connector 2, water tank 3 and rainwater sensor 4; Wherein:

This vegetation plate 1, be formed with a plurality of water spaces 11 that surrounded by a plurality of flanges 10 thereon, and make and be provided with irrigation canals and ditches 12 between water space 11 and the water space 11 and be connected, and enclose to form in water space 11 and irrigation canals and ditches 12 and form the staggered raceway groove 131 of cross on the interval 13 that exceeds irrigation canals and ditches 12, and in the middle of the staggered raceway groove 131 of cross, be provided with spillway hole 14, make at least one water space 11 of vegetation plate 1 be provided with pod apertures 15 again, be provided with clinch 16 in vegetation plate 1 side again with high and low water level in the side;

This tube connector 2, correspondence are connected to 15 of the pod apertures of two vegetation plates 1;

This water tank 3, below it, connect and stretch a water inlet pipe 31, with the pod apertures 15 that is connected in first vegetation plate 1, and be provided with a switch valve 32 in 31 of this water inlet pipes, and make this switch valve 32 be electrically connected a water level sensor 36, and this water level sensor 36 is mounted in the water space 11 of vegetation plate 1, with the high low water level in the water space 11 of sensing vegetation plate 1, pod apertures 15 in the most last vegetation plate 1 connects an outlet pipe 33 again, and make this outlet pipe 33 be connected to water tank 3 tops, and group is provided with a pump 34 on this outlet pipe 33, is provided with water level controller 35 again in water tank 3, and this water level controller 35 and a water inlet unit are connected with group;

This rainwater sensor 4 is connected with switch valve 32.

In view of the above, when use implementing, please consult again shown in Fig. 1～2, make a plurality of vegetation plates 1 utilize its clinch 16 to overlap mutually, connect the pod apertures 15 of 1 of vegetation plates 1 and vegetation plate again with tube connector 2, so that the water route of 1 of each vegetation plate is conducting state;

Continue it, see also shown in Figure 3ly, the water inlet pipe 31 of water tank 3 is arranged in the pod apertures 15 of first vegetation plate 1, in addition the outlet pipe 33 of water tank 3 is connected in the pod apertures 15 of the most last vegetation plate 1 ', to finish the connection of its pipeline;

Continue it, the porous disc 5 that is formed with a plurality of open-works 51 on it is positioned over vegetation plate 1 end face, and on porous disc 5, lays soil, again turf is planted on soil;

In this, when at ordinary times, supply to give irrigation water by water tank 3, this irrigation water is the switch valve 32 of opening through water inlet pipe 31 by it after, be circulated to the pod apertures 15 of first vegetation plate 1 that joins, enter again in the water space 11, then via 11 irrigation canals and ditches that are connected 12 of water space 11 and water space, irrigation water is circulated in each water space 11, and the water of the irrigation canals and ditches 12 that overfill just can be flowed out outside the vegetation plate 1 by spillway hole 14;

In addition, when current pass to vegetation plate 1 each side when being provided with the water space 11 of pod apertures 15, water promptly is directed to another vegetation plate 1 by the tube connector 2 that is connected with water, whereby, can be so that irrigation water diffuse to the most last vegetation plate 1 by 1 circulation of first vegetation plate, to supply on each vegetation plate 1 the set turf required moisture of supporting one's family, then, the irrigation water that is circulated to the most last vegetation plate 1 is promptly pressurizeed through pump 34 by the outlet pipe 33 that is connected, and water is guided in the recovery tank 3, re-uses for recovery;

Moreover, when rainy, the set rainwater sensor 4 of the utility model just can this rainy state of sensing, and the switch valve 32 that interlock is connected cuts out, to suspend the irrigation water that is supplied to each vegetation plate 1 by water tank 3, so, just can avoid water tank 3 and rainwater simultaneously the turf of plantation on the vegetation plate 1 to be supplied water, and cause the waste of water resource, and excessive water supply is to the infringement of vegetation turf.

Cross when hanging down when the water level in the water space 11 of vegetation plate 1 in addition, the water level sensor 36 that is mounted in the water space 11 of vegetation plate 1 also can produce the switch valve 32 that signal gives electrical connection, open with driving switch valve 32, make the water in the water tank 3 flow into vegetation plate 1 via water inlet pipe 31, the plant of planting on vegetation plate 1 is kept the skin wet in good time, and during the dilutional hyponatremia in water level sensor 36 senses the water space 11 of vegetation plate 1, just can send the signal of closing to switch valve 32, continue to flow to vegetation plate 1 so that the water in the water tank 3 is unlikely, and avoid the injury of too much moisture plantation plant on the vegetation plate 1.

See also shown in Figure 4ly again,, can form recessed receiving part 52 in water space 11 places in porous disc 5 in corresponding vegetation plate 1,, can easilier absorb the moisture in the water space 11 so that plant soil and turf on it for a time embodiment of the present utility model.

See also again shown in Fig. 5～6, be another vegetation plate 6 of the present utility model, be formed with a plurality of water spaces 61 that surrounded by a plurality of flanges 60 thereon, and make between water space 61 and the water space 61 and be provided with the irrigation canals and ditches 62 that are connected, in water space 61 wherein, be provided with enclosure wall 63 again, with around a seed room 630, and be provided with socket 631 in enclosure wall 63 inboards that are positioned at seed room 630, on this enclosure wall 63, be formed with gap 632 again, a plurality of clinch 64 are established in the bottom side around making vegetation plate 6 again, and shaping pod apertures 641 on clinch 64 is provided with envelope film 642 in pod apertures 641 again;

Other sees also shown in Fig. 7～8, be provided with overlap joint piece 65 again, to be connected with group with clinch 64, and in this overlap joint piece 65, be provided with runner 651, make vegetation plate 6 tops be positioned at pod apertures 641 all gussets again and be provided with fin 66, and on this fin 66, form gap 661, establish filter bodies such as sponge in the space that fin 66 is surrounded, make the water space 61 that is positioned at vegetation plate 6 central authorities protrude out protruded stigma 67 again, and be provided with the spillway hole 671 that runs through vegetation plate 6 by protruded stigma 67 in protruded stigma 67 tops, and make protruded stigma 67 top peripheries form the raceway groove 672 of a plurality of guiding spillway holes 671.

In view of the above, when implementing to use, please consult shown in Fig. 5～8 again, can be with each vegetation plate 6 by of the assembling of overlap joint piece 65 with the clinch 64 of vegetation plate 6, vertically reach horizontal combination and do, and make and overlap the clinch 64 that piece 65 is connected with group, the envelope film 642 of its pod apertures 641 is poked, so that pod apertures 641 communicates with the runner 651 of overlap joint piece 65, make the socket 631 grafting bodies of rod 7 (as shown in Figure 9) that are arranged in seed room 630 again;

Continue it, see also shown in Figure 10ly, again the water inlet pipe 31 of water tank 3 pod apertures 641 with first vegetation plate 6 is connected, in addition the outlet pipe 33 of water tank 3 is connected in the pod apertures 641 of the most last vegetation plate 6 ', to finish the connection of its pipeline;

Continue it, the plant seed of tendril forms such as grape, tomato is put into the seed room 630 of vegetation plate 6, and soil is gone up in covering, thereupon, start irrigation system, at this moment, the pod apertures 641 of first vegetation plate 6 that the water in the water tank 3 promptly joins via water inlet pipe 31 flows in first vegetation plate 6, and along irrigation canals and ditches 62 cross flows to each water space 61, and along with each water space 61 is arrived in the water cross flow, soil and the seed be located in the seed room 630 in the water space 61 can obtain irrigating;

In the time of around current pass to first vegetation plate 6, water is promptly gone in each pod apertures 641 through gap 661 seepage flow that fin 66 forms, and it is mobile toward the runner 651 of the overlap joint piece 65 that is connected with group through clinch 64, to flow in another adjacent vegetation plate 6, simultaneously, utilize set filter body in the space that fin 66 surrounds, with the silt that contains in the filtered water, really making the spatter property of the water quality that flows to another vegetation plate 6, and avoid silt to silt runner 651 up;

According to this, can be so that irrigation water diffuses to the most last vegetation plate 6 ' by first vegetation plate 6 circulations, with the seed in the seed room 630 of supplying each vegetation plate 6 and the moisture of soil irrigation, and along with the growth gradually of seed, promptly can grow tendril, this tendril just can be along the body of rod 7 windings growth of being located in the seed room 630, so that yield positive results;

And on implementing, can further place porous disc 5, on porous disc 5, lay soil again, use for the turf plantation in these vegetation plate 6 end faces.

The above only is the schematic embodiment of the utility model, is not in order to limit scope of the present utility model.Any those skilled in the art, equivalent variations of having done under the prerequisite that does not break away from design of the present utility model and principle and modification all should belong to the scope that the utility model is protected.

Claims (10)

1. the vegetation plate of an automatic water-supply, it is characterized in that, be formed with a plurality of on the vegetation plate of described automatic water-supply by water space that a plurality of flange surrounded, being provided with irrigation canals and ditches between described water space and the water space is connected, described vegetation plate side is provided with pod apertures, described vegetation plate top surface is provided with porous disc, and is formed with a plurality of open-works on the described porous disc.

2. the vegetation plate of automatic water-supply as claimed in claim 1 is characterized in that, described pod apertures further includes the pod apertures of high and low water level.

3. the vegetation plate of automatic water-supply as claimed in claim 1, it is characterized in that, be enclosed to form the interval that exceeds described irrigation canals and ditches between the water space of described vegetation plate and described irrigation canals and ditches, further be provided with spillway hole on the described interval, be formed with the raceway groove of the described spillway hole of guiding on the described interval.

4. the vegetation plate of automatic water-supply as claimed in claim 1, it is characterized in that further be provided with enclosure wall in the described water space, described enclosure wall is around a seed room, and be provided with socket at the inboard wall that is positioned at described seed room, be formed with the gap on the described enclosure wall.

5. the vegetation plate of automatic water-supply as claimed in claim 1 is characterized in that, described vegetation panel area further is provided with clinch.

6. the vegetation plate of automatic water-supply as claimed in claim 5, it is characterized in that, described vegetation plate further includes the overlap joint piece, described overlap joint piece and described clinch overlap mutually, be provided with runner in the described overlap joint piece, described pod apertures forms on the described clinch, and described pod apertures communicates with the runner of described overlap joint piece.

7. the vegetation plate irrigation rig of an automatic water-supply is characterized in that, the vegetation plate irrigation rig of described automatic water-supply comprises:

A plurality of vegetation plates are formed with a plurality ofly by the water space that a plurality of flange surrounded on each described vegetation plate, be provided with irrigation canals and ditches between described water space and the described water space and be connected, and described vegetation plate side is provided with pod apertures;

Tube connector, its correspondence are connected between the pod apertures of two adjacent described vegetation plates;

Water tank, its below connects and puts in water pipe, and described water inlet pipe is connected in the pod apertures of first described vegetation plate, and is provided with switch valve between described water inlet pipe, and the pod apertures in the most last described vegetation plate connects outlet pipe again;

The rainwater sensor, it is connected with described switch valve.

8. the vegetation plate irrigation rig of automatic water-supply as claimed in claim 7 is characterized in that, described outlet pipe further is connected to described water tank top, further organizes on the described outlet pipe and is provided with pump.

9. the vegetation plate irrigation rig of automatic water-supply as claimed in claim 7, it is characterized in that, the vegetation plate irrigation rig of described automatic water-supply further is provided with water level controller, and described water level controller is mounted in the described water tank, and further is connected with group with the water inlet unit.

10. the vegetation plate irrigation rig of automatic water-supply as claimed in claim 7, it is characterized in that, the vegetation plate irrigation rig of described automatic water-supply further is provided with water level sensor, and described water level sensor is mounted in the water space of described vegetation plate, and is electrically connected with described switch valve.

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