CN211832250U - Automatic watering frame - Google Patents

Abstract

The utility model provides an automatic watering frame relates to the agricultural machine field, and automatic watering frame includes bedstead, retaining planting dish, water intake pipe, drain line and sets up the automatically controlled box of automatic watering on the bedstead, and the setting of retaining planting dish is on the bedstead, and water intake pipe is connected with the one end of retaining planting dish for supply water to the retaining planting dish, and drain line is connected with the other end of retaining planting dish, is used for discharging the water that the retaining was planted in the dish, and the automatically controlled box of automatic watering is used for controlling break-make water intake pipe and drain line. Compared with the prior art, the utility model discloses an automatic automatically controlled box of watering realizes that water intake pipe and water drainage pipe's automation is opened or is closed to automatic watering and self-cleaning's function has been realized.

Description

Automatic watering frame

Technical Field

The utility model relates to the field of agricultural machinery, particularly, relate to an automatic watering frame.

Background

At present, seed germination acceleration, fruit and vegetable seedling raising and grafting healing, seedbed frames used in the fields of agricultural production and agricultural scientific research for economic crop cultivation such as flower and fruit seedling raising and the like are all of single-layer plane or multi-layer three-dimensional layer frame flat plate structures, plug trays for cultivating the economic crops are placed on the layer frame flat plates of the frames, and the crops need to be manually sprayed and watered at fixed time and fixed post in the growth process.

After the growth period of the crops is over or after the crops are transferred, the cleaning and the cleaning of the frame sometimes need to be transferred, cleaned and maintained, and a large amount of labor is also needed, so that the maintenance and labor cost is increased. In addition, the crops need manual spraying and watering in a fixed post and fixed time in the growth process, so that the time is consumed by people, the hole tray cannot be uniformly and thoroughly watered, and the water quantity is difficult to control, so that excessive watering is easy to cause water drained from the bottom of the hole tray to flow along the laminate, the ground is soaked everywhere, and the risk of wetting and falling of shoes of operators is caused.

In view of this, it is important to design and manufacture an automatic watering carriage which is easy to control water amount, has good watering effect and can realize automatic watering and cleaning.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic watering frame, its water yield is easily controlled, watering is effectual and can realize automatic watering, abluent function.

The utility model is realized by adopting the following technical scheme.

The utility model provides an automatic watering frame, is in including bedstead, retaining planting dish, water intake pipe, drain line and setting automatically controlled box of watering on the bedstead, the retaining is planted the dish and is set up on the bedstead, water intake pipe with the one end that the dish was planted to the retaining is connected, be used for to the dish is planted to the retaining supplies water, drain line with the other end that the dish was planted to the retaining is connected, is used for discharging water in the dish is planted to the retaining, automatically controlled box of watering is used for controlling the break-make water intake pipe with drain line.

Furthermore, a water inlet electromagnetic valve is arranged on the water inlet pipeline, a water discharge electromagnetic valve is arranged on the water discharge pipeline, the automatic irrigation electric control box is respectively electrically connected with the water inlet electromagnetic valve and the water discharge electromagnetic valve, the water inlet electromagnetic valve is used for switching on and off the water inlet pipeline under the control of the automatic irrigation electric control box, and the water discharge electromagnetic valve is used for switching on and off the water discharge pipeline under the control of the automatic irrigation electric control box.

Further, the retaining is planted the dish and is a plurality of, and is a plurality of retaining is planted the dish interval and is set up on the bedstead, the inlet channel is respectively with a plurality of the retaining is planted the dish and is connected, just the inlet channel is provided with at least the initiating terminal of the direction of intaking the solenoid valve of intaking, drain line is respectively with a plurality of the retaining is planted the dish and is connected, just be provided with a plurality of drainage solenoid valves on the drain line, and is a plurality of the drainage solenoid valve one-to-one sets up in a plurality of the play water side of retaining planting the dish.

Further, the inlet channel includes into quick-operation joint, the total pipeline of intaking and a plurality of watering pipeline, the quick-operation joint of intaking sets up the top of the total pipeline of intaking for with external water piping connection, it is a plurality of watering pipeline respectively with a plurality of the dish one-to-one is planted in the retaining is connected, every the one end of watering pipeline with the total pipeline of intaking is connected, the other end with the dish is planted in the retaining is connected, the solenoid valve that intakes sets up the total pipeline of intaking is at the initiating terminal of the direction of intaking.

Furthermore, each irrigation pipeline is provided with an interlayer diversion stop valve.

Furthermore, the drainage pipeline comprises a plurality of water outlet pipelines and a drainage main pipeline, a water outlet is formed in the bottom of each water storage planting plate, the water outlet pipelines are connected with the water outlets in a one-to-one correspondence mode, the drainage main pipeline is connected with the water outlet pipelines respectively, and the drainage electromagnetic valves are arranged on the water outlet pipelines in a one-to-one correspondence mode.

Furthermore, the drainage pipeline further comprises a plurality of overflow pipelines, the overflow pipelines are in one-to-one correspondence with the water storage planting trays, overflow gaps are formed in the side walls of the water storage planting trays, the overflow gaps are higher than the water outlets, one ends of the overflow pipelines are connected with the corresponding water outlets, and the other ends of the overflow pipelines are connected with the drainage main pipeline or the corresponding water outlet pipelines.

Further, the retaining planting disc comprises a disc body, a water inlet end and a water outlet end, wherein the water inlet end and the water outlet end are respectively arranged at two ends of the disc body, the water inlet end is provided with a water inlet opening communicated with the disc body, the water outlet end is provided with a water drainage opening communicated with the disc body, a water inlet pipeline is connected with the water inlet end, and a water drainage pipeline is connected with the water outlet end.

Furthermore, a drainage primary filter baffle is arranged at the drainage opening, and a plurality of meshes are arranged on the drainage primary filter baffle.

Furthermore, a plurality of mutually communicated drainage grooves are formed in the bottom wall of the tray body, and at least one drainage groove extends to the water outlet end.

The utility model discloses following beneficial effect has:

the utility model provides a pair of automatic watering frame, its both ends through planting the dish at the retaining set up water intake pipe and water drainage pipe respectively to control by the automatically controlled box of automatic watering, realize that water intake pipe and water drainage pipe's automation is opened or is closed through the automatically controlled box of watering, thereby realized automatic watering and self-cleaning's function, and the water yield is controllable. Compared with the prior art, the utility model provides an automatic watering frame, its water yield is easily controlled, watering is effectual and can realize automatic watering, abluent function, has improved production efficiency and can prevent to water the excessive condition.

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 structural view of an automatic watering cart provided in an embodiment of the present invention at a first viewing angle;

fig. 2 is a schematic structural view of an automatic watering cart provided in an embodiment of the present invention at a second viewing angle;

fig. 3 is a schematic structural view of an automatic watering cart provided in an embodiment of the present invention at a third viewing angle;

fig. 4 is a schematic structural view of an automatic watering cart at a fourth viewing angle according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of an internal circuit of the automatic watering electronic control box of FIG. 1;

FIG. 6 is an enlarged partial schematic view of VI of FIG. 3;

FIG. 7 is a partially enlarged schematic view of VII of FIG. 4;

fig. 8 is a schematic structural view of the water impoundment planting disc in fig. 1.

Icon: 100-automatic watering frame; 110-bed frame; 111-plant growth lamps; 130-water storage planting trays; 131-a tray body; 133-water inlet end; 135-water outlet end; 137-a drainage primary filter baffle; 139-drainage gutter; 150-a water inlet pipeline; 151-quick water inlet joint; 153-water inlet main pipe; 155-irrigating a pipeline; 157-interlayer flow dividing stop valve; 160-water inlet electromagnetic valve; 170-a drain line; 171-an outlet conduit; 173-main drain; 175-an overflow conduit; 177-a water outlet; 179-overflow; 180-a drain solenoid valve; 190-automatic watering electric control box; 191-automatic irrigation switch; 193-manual irrigation switch; 195-a multi-session time controller; 197-a first intermediate relay; 198-a second intermediate relay; 199-timer.

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. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "vertical", "horizontal", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship that the products of the present invention are usually placed when in use, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "connected," "mounted," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As disclosed in the background art, the seedling raising frames in the prior art are usually watered by manual spraying, which is inefficient, time-consuming and labor-consuming, and the watering amount is difficult to control, which easily causes excessive local water amount, and water at the dripping position of the bottom of the plug tray flows along the laminate, causing the bottom surface to be slippery, and affecting the safety of personnel. In addition, current seedling frame does not have the effect of moisturizing soil moisture conservation usually, needs the staff to look over the cave dish soil moisture conservation and the condition of losing water regularly, has increased staff's work load. The utility model provides an automatic watering frame can realize automatic watering, automatic drainage's function, and the water yield is controllable simultaneously, can realize the moisture conservation and protect the soil moisture function, has improved the effect and the quality of watering, has saved the manpower.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Features in the embodiments described below may be combined with each other without conflict.

First embodiment

Referring to fig. 1 to 4 in combination, the present embodiment provides an automatic watering frame 100, which can realize automatic watering and automatic drainage functions, save labor, control water amount, and achieve water retention and soil moisture preservation functions.

The automatic watering frame 100 provided by the embodiment comprises a bedstead 110, a water storage planting disc 130, a water inlet pipeline 150, a water discharge pipeline 170 and an automatic watering electronic control box 190 arranged on the bedstead 110, wherein the water storage planting disc 130 is arranged on the bedstead 110, the water inlet pipeline 150 is connected with one end of the water storage planting disc 130 and used for supplying water to the water storage planting disc 130, the water discharge pipeline 170 is connected with the other end of the water storage planting disc 130 and used for discharging water in the water storage planting disc 130, the water inlet pipeline 150 is provided with a water inlet electromagnetic valve 160, the water discharge pipeline 170 is provided with a water discharge electromagnetic valve 180, the automatic watering electronic control box 190 is respectively electrically connected with the water inlet electromagnetic valve 160 and the water discharge electromagnetic valve 180, the water inlet electromagnetic valve 160 is used for switching on and switching off the water inlet pipeline 150 under the control of the automatic watering electronic control box 190, and the water discharge.

In this embodiment, the bed frame 110 has four support legs at the bottom thereof, each support leg is provided with a universal moving wheel, and the bed frame 110 can be moved by the four universal moving wheels, so that the automatic watering cart 100 can be conveniently moved to a designated position.

In this embodiment, retaining planting dish 130 is the disk structure that has the recess, and its bottom has not opened the waterlogging caused by excessive rainfall hole, can play the retaining function, can directly discharge through the drain pipe during the drainage simultaneously, and the controllability is higher.

In this embodiment, the water storage planting plates 130 are plural, the water storage planting plates 130 are arranged on the bed frame 110 at intervals, the water inlet pipeline 150 is connected with the water storage planting plates 130 respectively, the water inlet pipeline 150 is provided with a water inlet electromagnetic valve 160 at least at the starting end of the water inlet direction, the water discharge pipeline 170 is connected with the water storage planting plates 130 respectively, the water discharge pipeline 170 is provided with a plurality of water discharge electromagnetic valves 180, and the water discharge electromagnetic valves 180 are arranged on the water outlet sides of the water storage planting plates 130 in a one-to-one correspondence manner.

It should be noted that, in this embodiment, the water inlet pipe 150 is provided with a water inlet solenoid valve 160 at the starting end, in other preferred embodiments of the present invention, the water inlet solenoid valve 160 may also be arranged on each layer, the control process is more precise, and independent water inlet and drainage on each layer can be realized.

In this embodiment, a plurality of water storage tray mounting brackets are spaced apart from each other on the bed frame 110, and each water storage tray mounting bracket is provided with a water storage planting tray 130. Specifically, the water storage planting tray 130 is directly detachably assembled on the water storage tray mounting bracket, and the water storage planting tray 130 is borne by the water storage tray mounting bracket, so that the water storage planting tray 130 is convenient to replace and maintain.

In this embodiment, a vegetation lamp 111 is further disposed on the bed frame 110, and the vegetation lamp 111 is disposed above the water storage planting tray 130. Specifically, the top of each layer of retaining planting disc 130 all is provided with vegetation lamp 111, is provided with the mounting groove on the water storage disc mounting bracket, and vegetation lamp 111 installs in the mounting groove. Simultaneously, additionally be provided with a vegetation lamp mounting bracket at bedstead 110 top, the convenient top of planting the dish 130 at the retaining at top sets up vegetation lamp 111, and every layer vegetation lamp 111 is through setting up the growth lamp switch independent control on water storage dish installation bracket simultaneously. The plant growth lamps 111 are respectively controlled to be started and stopped according to the requirement of cultivating crops in each layer of the water storage planting disk 130 through the growth lamp switches on the water storage disk mounting brackets on each layer.

In this embodiment, a power connector is further disposed on the top of the bed frame 110, and the power connector is connected to an external power source and is electrically connected to the automatic watering electronic control box 190 and the plant growth lamp 111 respectively to provide power.

The automatic watering electronic control box 190 can set the watering time period and the watering duration to ensure that the crops in the water storage planting tray 130 are watered according to the needs on time, and the water retention and moisture retention time of the crops in the water storage planting tray 130 is ensured by setting the water retention and moisture retention time.

Referring to fig. 5, the automatic watering electronic control box 190 is provided with an automatic watering switch 191, a manual watering switch 193, a multi-period time controller 195, a first intermediate relay 197, a second intermediate relay 198 and a timer 199, the automatic watering switch 191 is used for starting the multi-period time controller 195 in a delayed manner, the multi-period time controller 195 is connected with the first intermediate relay 197, the first intermediate relay 197 is connected with the timer 199, and the timer 199 is connected with the second intermediate relay 198. In this embodiment, the water inlet solenoid valve 160 is a normally closed solenoid valve, and the water outlet solenoid valve 180 is a normally open solenoid valve.

The circuit control process in this embodiment is as follows: pressing the automatic irrigation switch 191, closing the contact after the multi-period time controller 195 reaches the set period, starting the normally closed water inlet electromagnetic valve 160, starting water inlet and triggering the first intermediate relay 197 in the automatic irrigation control box, triggering the timer 199 for preserving water and soil moisture by delaying disconnection in the automatic irrigation control box after the contact of the first intermediate relay 197 is closed, powering on the timer 199 to enable the normally open water drainage electromagnetic valve 180 on the multi-layer water storage planting disc 130 to be powered on and closed, and starting timing and water inlet by the water inlet duration T1 set by the multi-period time controller 195 and the water and soil moisture preservation duration T2 of the delaying disconnection timer 199; at the moment when the time delay disconnection timer 199 is powered on, the normally closed contact of the timer 199 is disconnected to make the second intermediate relay 198 power-off, and simultaneously the normally open contact of the timer 199 is closed to provide the time delay disconnection timer 199 with a self-locking power supply loop, so that when the water inlet time T1 of the multi-period time controller 195 reaches the power-off disconnection time, the time delay disconnection timer 199 still executes the time T2 of water retention and soil moisture retention; when the set water retention and soil moisture preservation time period T2 of the time delay disconnection timer 199 reaches, the electric shock action causes the normally open type drainage solenoid valve 180 to be powered off and opened to start drainage and draining, and the normally closed contact action of the timer 199 is closed to cause the second intermediate relay 198 to be powered on, and the normally closed contact action of the second intermediate relay breaks the self-locking power supply loop of the time delay disconnection timer 199 to cause the timer 199 to be powered off and restored to wait for the next triggering of the multi-period time controller 195.

When the water storage planting disc 130 needs to be cleaned, the normally closed water inlet solenoid valve 160, the first intermediate relay 197, the time-delay disconnected timer 199 for water conservation and soil moisture conservation and the normally open water discharge solenoid valve 180 are directly started to start water inlet after the manual irrigation switch 193 is pressed, and the control principle is the same as the above; when the time length T2 of the timing of the delayed disconnection for preserving water and soil moisture is set as 0, the irrigation switch is manually disconnected, and the water starts to be drained when the water stops flowing in, so that the water storage planting disc 130 is convenient to clean.

It should be noted that the above is merely an example of a control means and a control method, and the automatic irrigation electronic control box 190 may also adopt other types of control circuits to implement the functions of automatic irrigation, automatic cleaning, water retention and soil moisture preservation, which are not described herein.

Referring to fig. 6, the water inlet pipe 150 includes a water inlet quick coupling 151, a water inlet main pipe 153 and a plurality of irrigation pipes 155, the water inlet quick coupling 151 is disposed on the top end of the water inlet main pipe 153 and is used for connecting with an external water pipe, the irrigation pipes 155 are respectively connected with the water storage planting trays 130 in a one-to-one correspondence manner, one end of each irrigation pipe 155 is connected with the water inlet main pipe 153, the other end is connected with the water storage planting trays 130, and a water inlet solenoid valve 160 is disposed at the starting end of the water inlet main pipe 153 in the water inlet direction.

It should be noted that the water inlet quick connector 151 can also be connected to an external nutrient solution pipe, so as to introduce nutrient solution into the water storage planting tray 130.

In this embodiment, be provided with reposition of redundant personnel stop valve 157 between the layer on every watering pipeline 155, through setting up a plurality of reposition of redundant personnel stop valves, can manually close or open the switch of intaking on every layer to can control the number of piles of intaking according to actual demand, avoid appearing the extravagant phenomenon of intaking.

Referring to fig. 7, the drain pipe 170 includes a plurality of water outlet pipes 171, a main drain pipe 173, and an overflow pipe 175, a water outlet 177 is provided at the bottom of each water storage planting tray 130, the plurality of water outlet pipes 171 are connected to the plurality of water outlets 177 in a one-to-one correspondence, the main drain pipe 173 is connected to the plurality of water outlet pipes 171, and the plurality of drain solenoid valves 180 are provided on the plurality of water outlet pipes 171 in a one-to-one correspondence. The plurality of overflow pipes 175 are arranged corresponding to the plurality of water storage planting trays 130 one by one, an overflow gap 179 is arranged on the side wall of each water storage planting tray 130, the overflow gap 179 is higher than the water outlet 177, one end of each overflow pipe 175 is connected with the corresponding water outlet 177, and the other end is connected with the main drainage pipe 173 or the corresponding water outlet pipe 171.

It should be noted that in the present embodiment, the water outlet 177 is disposed at the bottom side of the water storage planting tray 130, and the overflow pipe 175 is disposed at a position near the upper side edge of the sidewall of the water storage planting tray 130.

Referring to fig. 8, the water storage planting tray 130 includes a tray body 131, a water inlet end 133 and a water outlet end 135, the water inlet end 133 and the water outlet end 135 are respectively disposed at two ends of the tray body 131, the water inlet end 133 has a water inlet opening communicated with the tray body 131, the water outlet end 135 has a water discharge opening communicated with the tray body 131, a water inlet pipe 150 is connected with the water inlet end 133, and a water discharge pipe 170 is connected with the water outlet end 135.

In this embodiment, the water outlet 177 is formed at the bottom of the water outlet head 135, and the overflow 179 is formed at the upper portion of the sidewall of the water outlet head 135, so that the water is discharged or overflowed through the water outlet head 135. By arranging the overflow gap 179, the excessive water in the layer is discharged when the water inlet time is too long or the water distribution between the layers is not uniform, so that the irrigation water level in the tray body 131 is ensured to meet the irrigation requirement.

It should be noted that, in this embodiment, the tray body 131, the water inlet end 133 and the water outlet end 135 are integrally formed, and the water inlet end 133 and the water outlet end 135 are respectively disposed at the middle positions of the end portions of the tray body 131, so that uniform water inlet and water discharge can be realized to the greatest extent.

In this embodiment, the drainage opening is provided with a drainage primary filter baffle 137, and the drainage primary filter baffle 137 is provided with a plurality of meshes. Through setting up drainage preliminary filtration baffle 137, can prevent that the incidental of the interior crop of disk body 131, for example mud piece, matrix whereabouts etc. from entering into drainage pipe, prevent to take place the drainage jam condition, guarantee the unobstructed of drainage.

In this embodiment, the bottom wall of the tray 131 defines a plurality of interconnected drain channels 139, and at least one drain channel 139 extends to the outlet end 135. Specifically, the drainage channel 139 is arranged in a sinking manner, and is used for drainage after water retention and soil moisture preservation and matrix draining, so as to prevent root rot caused by insufficient oxygen uptake at the root due to long-time water retention of crops due to siphon action between the whole bottom of the seedling tray and the bottom wall of the tray body 131.

It should be noted that the drain channels 139 are uniformly distributed on the bottom wall of the tray body 131 and communicate with the water outlet head 135, so that water can be quickly and completely discharged to the water outlet head 135 and through the drain line during the draining stage.

In summary, the working principle of the automatic watering frame 100 provided in this embodiment is as follows: before use, the power connector and the water inlet quick connector 151 are respectively connected with a main power supply and water, in a water inlet stage, 1 or more irrigation time periods and irrigation water inlet time duration T1 in 24 hours a day are set according to crop cultivation and growth requirements under the control of an automatic irrigation control box, after an automatic irrigation switch 191 is started, the water inlet electromagnetic valve 160 is powered on, water flows into the water storage planting disc 130 to start irrigation after passing through the water inlet quick connector 151, the water inlet electromagnetic valve 160 water inlet main pipeline 153, the irrigation pipeline 155 and the interlayer diversion stop valve 157 of each layer in sequence, and accordingly water inlet action is completed. In the water conservation stage, the water conservation and soil moisture preservation time length T2 is set before the automatic irrigation switch 191 is started to open the water inlet electromagnetic valve 160, the water conservation and soil moisture preservation time length T2 is greater than 0, the drainage electromagnetic valve 180 of each layer of water storage planting disc 130 is in a closed state, and the water storage planting disc 130 starts water storage irrigation and water conservation and soil moisture preservation. In the drainage stage, when the set time period T2 for water retention and soil moisture preservation is reached, the drainage solenoid valve 180 is opened, and the water poured in the water storage planting disc 130 passes through the drainage primary filter baffle 137, the pre-valve protection filter, the drainage solenoid valve 180, the water outlet pipeline 171 and the main drainage pipeline 173 in the front section of the water outlet end 135 of the water storage planting disc 130 in sequence and then is drained to the connected drainage pipeline. Compare in prior art, the automatic watering frame 100 that this embodiment provided, it can realize automatic watering, automatic drainage and guarantor's moisture preservation function, and the water yield is controllable, waters effectually, has improved production efficiency and can prevent to water the excessive condition.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic watering frame, its characterized in that plants dish, water intake pipe, drain line and sets up including bedstead, retaining automatically controlled box of automatic watering on the bedstead, the dish setting is planted to the retaining is in on the bedstead, water intake pipe with the one end that the dish was planted to the retaining is connected, be used for to the dish water supply is planted to the retaining, drain line with the other end that the dish was planted to the retaining is connected, is used for discharging the water in the dish is planted to the retaining, automatically, water automatically controlled box is used for controlling the break-make water intake pipe with drain line.

2. The automatic irrigation carriage as claimed in claim 1, wherein a water inlet solenoid valve is disposed on the water inlet pipeline, a water outlet solenoid valve is disposed on the water outlet pipeline, the automatic irrigation electric control box is electrically connected to the water inlet solenoid valve and the water outlet solenoid valve, respectively, the water inlet solenoid valve is used for switching on and off the water inlet pipeline under the control of the automatic irrigation electric control box, and the water outlet solenoid valve is used for switching on and off the water outlet pipeline under the control of the automatic irrigation electric control box.

3. The automated watering frame of claim 2, wherein the number of the water-storing planting plates is plural, the plural water-storing planting plates are disposed on the frame at intervals, the water inlet pipe is connected to the plural water-storing planting plates, the water inlet pipe is provided with the water inlet solenoid valve at least at a start end of a water inlet direction, the water discharge pipe is connected to the plural water-storing planting plates, the water discharge pipe is provided with the plural water discharge solenoid valves, and the plural water discharge solenoid valves are disposed on water outlet sides of the plural water-storing planting plates in a one-to-one correspondence manner.

4. The automatic watering frame of claim 3 wherein the water inlet line comprises a water inlet quick connector, a water inlet header pipe and a plurality of watering pipes, the water inlet quick connector is disposed at the top end of the water inlet header pipe for connecting with an external water pipe, the watering pipes are respectively connected with the water storage planting plates in a one-to-one correspondence manner, one end of each watering pipe is connected with the water inlet header pipe, the other end of each watering pipe is connected with the water storage planting plates, and the water inlet solenoid valve is disposed at the starting end of the water inlet header pipe in the water inlet direction.

5. An automated watering frame according to claim 4 in which an interlaminar diverter stop valve is provided on each watering tube.

6. The automated watering frame of claim 3 or 4 in which the drain line comprises a plurality of water outlet pipes and a main drain pipe, a water outlet is provided at the bottom of each water storage planting tray, the plurality of water outlet pipes are connected with the plurality of water outlets in a one-to-one correspondence, the main drain pipe is connected with the plurality of water outlet pipes, respectively, and the plurality of solenoid drain valves are provided on the plurality of water outlet pipes in a one-to-one correspondence.

7. The automated watering frame of claim 6, wherein the drain line further comprises a plurality of overflow pipes, the plurality of overflow pipes are disposed in one-to-one correspondence with the plurality of water-storing planting trays, each water-storing planting tray has an overflow port on a side wall thereof, the overflow port is higher than the water outlet, one end of each overflow pipe is connected to the corresponding water outlet, and the other end of each overflow pipe is connected to the main drain pipe or the corresponding water outlet pipe.

8. The automatic watering frame of any one of claims 1-3 in which the water-retaining planting pan includes a pan body, a water inlet end and a water outlet end, the water inlet end and the water outlet end being disposed at respective ends of the pan body, the water inlet end having a water inlet opening in communication with the pan body, the water outlet end having a water outlet opening in communication with the pan body, the water inlet line being connected to the water inlet end, the water outlet line being connected to the water outlet end.

9. An automated watering truck carriage in accordance with claim 8 in which a drainage prefilter baffle is provided at the drainage opening, the drainage prefilter baffle having a plurality of mesh openings formed therein.

10. An automated watering frame according to claim 8 in which the bottom wall of the tray body defines a plurality of interconnected drainage channels, at least one of said drainage channels extending to said water outlet end.

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