CN215602244U - Sprinkling irrigation equipment for dendrobii officmalis caulis - Google Patents

Abstract

The utility model discloses a sprinkling irrigation device for dendrobium officinale, which comprises a sprinkling irrigation mechanism and a drip irrigation part which are arranged in a greenhouse, wherein a water tank is arranged outside the greenhouse, and the sprinkling irrigation mechanism and the drip irrigation part are both communicated with the water tank; a temperature and humidity sensor is arranged in the greenhouse and is electrically connected with a control terminal; the sprinkling irrigation mechanism comprises a water delivery pipe fixedly connected to the top end of the greenhouse, a plurality of spraying parts are mounted on the water delivery pipe, the spraying parts are communicated with the water delivery pipe, and the water delivery pipe is communicated with the water tank. According to the utility model, the dendrobium seedlings are supplemented with water through the spraying mechanism, the sprayed water falls onto the liquid seepage plate and permeates into soil along the water seepage holes, the spraying uniformity is ensured, the seedlings are fertilized through the drip irrigation part, the water supplement amount in the fertilization process is accurately controlled, excessive water supplement amount during fertilization is avoided, the spraying part and the internal circulation air pump work in a matching manner, and the water flow is atomized by utilizing the principle of gas-liquid mixing, so that the humidity supplement of air in the greenhouse is realized.

Description

Sprinkling irrigation equipment for dendrobii officmalis caulis

Technical Field

The utility model relates to the technical field of sprinkling irrigation devices, in particular to a sprinkling irrigation device for dendrobium officinale.

Background

The dendrobium officinale is listed as the first nine-big immortal grass in China, and has the effects of nourishing yin, clearing heat, promoting fluid production, nourishing stomach, enhancing immunity and the like. However, wild dendrobium officinale resources are harvested in a man-made extinction mode, and the wild dendrobium officinale resources become a main production mode of the current dendrobium officinale through artificial cultivation. The dendrobium officinale prefers a cool and humid environment, which requires that the humidity management is enhanced in the artificial cultivation of the dendrobium officinale.

Moisture management is one of the key links in the dendrobium officinale cultivation process. The dendrobium seedlings which are just transplanted are most sensitive to moisture, the moisture content of the matrix is preferably controlled to be 60-70%, and the matrix is preferably grasped by hands to feel wet but not drip water during specific operation. The air humidity is kept at about 90% within 7 days after transplanting (the seedlings do not grow new roots), and the plants start to grow new roots after 7 days, and the air humidity is kept at 70% -80%.

Current sprinkling irrigation device is spraying the in-process to the stem of noble dendrobium seedling and often is judging how much the water spray volume through the experience of grower, and this kind of mode can cause great water spray volume estimation error, leads to the stem of noble dendrobium moisturizing too much or not enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sprinkling irrigation device for dendrobium officinale, which is used for solving the problems in the prior art.

In order to achieve the purpose, the utility model provides the following scheme: the utility model provides a sprinkling irrigation device for dendrobium officinale, which comprises a sprinkling irrigation mechanism and a drip irrigation part, wherein the sprinkling irrigation mechanism and the drip irrigation part are arranged in a greenhouse; a temperature and humidity sensor is arranged in the greenhouse and is electrically connected with a control terminal;

the sprinkling irrigation mechanism comprises a water delivery pipe fixedly connected to the top end of the greenhouse, a plurality of spraying parts are installed on the water delivery pipe at equal intervals and communicated with the water delivery pipe, and the water delivery pipe is communicated with the water tank.

Preferably, the spraying part comprises a water outlet pipe fixed on the water delivery pipe, the water outlet pipe is communicated with the water delivery pipe, the water outlet pipe is far away from one end of the water delivery pipe and is fixedly connected with a three-way electromagnetic directional valve, two water outlets of the three-way electromagnetic directional valve can be detachably connected with a spraying part, one side of the water delivery pipe is fixedly connected with a gas delivery pipe, an internal circulation air pump is fixedly connected to the top end of the greenhouse, the output end of the internal circulation air pump is communicated with the gas delivery pipe, a plurality of gas inlet pipes are fixedly connected to one ends of the gas delivery pipe at equal intervals and are communicated with the gas delivery pipe, and the other ends of the gas inlet pipes are respectively communicated with any spraying part on the three-way electromagnetic directional valve.

Preferably, the spraying part comprises a first connecting pipe, one end of the first connecting pipe is in threaded connection with the three-way electromagnetic directional valve, a second connecting pipe is fixedly sleeved outside the first connecting pipe, a cavity is formed between the outer wall of the first connecting pipe and the inner wall of the second connecting pipe, and the air inlet pipe is communicated with the cavity;

a spray head is fixedly connected to one end, away from the three-way electromagnetic directional valve, of the second connecting pipe, an arc-shaped pore plate is fixedly connected to one side, away from the second connecting pipe, of the spray head, a baffle is fixedly connected to the inner wall, close to one end of the spray head, of the second connecting pipe, a water inlet hole is formed in the baffle, and the first connecting pipe is communicated with the spray head through the water inlet hole; the baffle plate is provided with an air inlet, the cavity is communicated with the spray head through the air inlet, a stirring wheel is installed in the spray head, and the stirring wheel is located between the baffle plate and the arc-shaped pore plate.

Preferably, the inner wall of the spray head is fixedly connected with an installation rod, one end of a rotating shaft of the stirring wheel is rotatably connected with the side wall of the installation rod, and the other end of the rotating shaft of the stirring wheel is rotatably connected with the blocking piece.

Preferably, a plurality of support rods are vertically and fixedly arranged on the ground of the greenhouse, and the top ends of the support rods are fixedly connected with a liquid seepage plate; the liquid seepage plate is provided with planting holes and water seepage holes; the drip irrigation part comprises drip irrigation belts which are arranged between the liquid seepage plate and the ground in parallel, a water inlet of each drip irrigation belt is communicated with the water tank, and the drip irrigation belts are fixedly connected to the supporting rods.

Preferably, two apopores are seted up to the water tank bottom, two all install the valve on the apopore, raceway, drip irrigation zone respectively through two the apopore with the water tank intercommunication, the water tank bottom is provided with the gravity-feed tank subassembly, the gravity-feed tank subassembly with control terminal electric connection.

Preferably, the inner wall of the spray head is circumferentially and fixedly connected with a plurality of elastic vibration pieces at equal intervals, and the elastic vibration pieces are located between the mounting rod and the arc-shaped pore plates.

Preferably, the support rod is arranged between two adjacent planting holes.

The utility model discloses the following technical effects: according to the utility model, the dendrobium seedlings are supplemented with water through the spraying mechanism, the sprayed water falls onto the liquid seepage plate and permeates into soil along the water seepage holes, the spraying uniformity is ensured, the seedlings are fertilized through the drip irrigation part, the water supplement amount in the fertilization process is accurately controlled, excessive water supplement amount during fertilization is avoided, the spraying part and the internal circulation air pump work in a matching way, water flow is atomized by utilizing the principle of gas-liquid mixing, so that the air humidity supplement in the greenhouse is realized, and the air humidity in the greenhouse is ensured to be kept in the optimal range.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a front view of the sprinkling irrigation apparatus for Dendrobium officinale of the present invention;

FIG. 2 is a cross-sectional view of a spray member of the present invention;

FIG. 3 is a cross-sectional view of the water tank of the present invention;

FIG. 4 is a schematic diagram of a liquid-permeable plate structure according to the present invention.

The device comprises a temperature and humidity sensor-1, a support rod-2, a drip irrigation belt-3, a liquid seepage plate-4, planting holes-401, water seepage holes-402, a water delivery pipe-5, a water tank-6, a gas delivery pipe-7, an internal circulation air pump-8, a three-way electromagnetic directional valve-9, a spray head-10, an air inlet pipe-11, a second connecting pipe-12, a first connecting pipe-13, a baffle-14, a stirring wheel-15, a mounting rod-16, an elastic vibrating piece-17, an arc-shaped pore plate-18 and a gravity sensing component-19.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

The utility model provides a sprinkling irrigation device for dendrobium officinale, which comprises a sprinkling irrigation mechanism and a drip irrigation part, wherein the sprinkling irrigation mechanism and the drip irrigation part are arranged in a greenhouse, a water tank 6 is arranged outside the greenhouse, a water outlet of the water tank 6 is provided with a water pump, and the sprinkling irrigation mechanism and the drip irrigation part are both communicated with the water tank 6 through the water pump; a temperature and humidity sensor 1 is arranged in the greenhouse, and the temperature and humidity sensor 1 is electrically connected with a control terminal;

the sprinkling irrigation mechanism comprises a water conveying pipe 5 fixedly connected to the top end of the greenhouse, a plurality of spraying parts are installed on the water conveying pipe 5 at equal intervals and communicated with the water conveying pipe 5, and the water conveying pipe 5 is communicated with the water tank 6.

Further, for sprinkling irrigation and keeping the air humidity in the big-arch shelter to in the big-arch shelter, set up the portion of spraying in the big-arch shelter, the portion of spraying is including fixing the outlet pipe on raceway 5, outlet pipe and raceway 5 intercommunication, the one end fixedly connected with tee bend magenetic exchange valve 9 of raceway 5 is kept away from to the outlet pipe, the equal detachable connection of two delivery ports of tee bend magenetic exchange valve 9 sprays the piece, 5 one side fixedly connected with gas-supply pipe 7 of raceway, big-arch shelter top fixedly connected with internal circulation air pump 8, 8 output of internal circulation air pump and 7 intercommunication of gas-supply pipe, a plurality of intake pipe 11 one ends of equidistant fixedly connected with on the gas-supply pipe 7, a plurality of intake pipe 11 all communicate with gas-supply pipe 7, a plurality of intake pipe 11 other ends spray a intercommunication with arbitrary on the tee bend magenetic exchange valve 9 respectively. The water delivery pipe 5 is communicated with a water inlet of the three-way electromagnetic directional valve 9 through a water outlet pipe, the three-way electromagnetic directional valve 9 is used for controlling the opening and closing of the two water outlets, the two water outlets are both connected with the spraying piece in a threaded manner, the spraying piece controls the sprayed water to be in a normal spraying state or in a mist state, the mist state is used for changing the air humidity, and the spraying state is used for supplementing water to the dendrobium seedlings.

Further, in order to control the state of water sprayed out of the two water outlets of the three-way electromagnetic directional valve 9, spraying pieces are respectively arranged on the two water outlets, each spraying piece comprises a first connecting pipe 13, one end of each first connecting pipe 13 is in threaded connection with the three-way electromagnetic directional valve 9, a second connecting pipe 12 is fixedly sleeved outside each first connecting pipe 13, a cavity is formed between the outer wall of each first connecting pipe 13 and the inner wall of each second connecting pipe 12, and the air inlet pipe 11 is communicated with the cavity;

a spray head 10 is fixedly connected to one end, far away from the three-way electromagnetic directional valve 9, of the second connecting pipe 12, an arc-shaped pore plate 18 is fixedly connected to one side, far away from the second connecting pipe 12, of the spray head 10, a baffle 14 is fixedly connected to the inner wall, near one end of the spray head 10, of the second connecting pipe 12, one end, near the first connecting pipe 13, of the first connecting pipe 13 is fixedly connected to one side of the baffle 14, a water inlet hole is formed in the baffle 14, and the first connecting pipe 13 is communicated with the spray head 10 through the water inlet hole; an air inlet is formed in the blocking piece 14, the cavity is communicated with the spray head 10 through the air inlet, a stirring wheel 15 is installed in the spray head 10, and the stirring wheel 15 is located between the blocking piece 14 and the arc-shaped pore plate 18. The water current flows into first connecting pipe 13 through arbitrary delivery port wherein of tee bend magenetic exchange valve 9, and get into shower nozzle 10 through the inlet opening on separation blade 14, and strike stirring wheel 15, make stirring wheel 15 rotate, interior circulating air pump 8 lets in high-pressure gas in to shower nozzle 10 through the inlet opening on cavity and the separation blade 14, the gas-liquid mixes under the stirring effect of stirring wheel 15, rivers and the gas mixture in making shower nozzle 10, atomize rivers, water smoke after the atomizing passes through arc orifice plate 18 blowout, carry out humidity to the big-arch shelter air and supply. And the other water outlet is not filled with gas, and water flow directly passes through the arc-shaped pore plate 18 and is sprayed out in a spraying manner to replenish water for the dendrobium seedlings.

Furthermore, in order to facilitate the installation of the stirring wheel 15, the inner wall of the nozzle 10 is fixedly connected with an installation rod 16, one end of a rotating shaft of the stirring wheel 15 is rotatably connected with the side wall of the installation rod 16, and the other end of the rotating shaft is rotatably connected with the blocking piece 14.

Further, in order to further improve the spraying uniformity of the spraying mechanism, a plurality of support rods 2 are vertically and fixedly arranged on the ground of the greenhouse, and liquid seepage plates 4 are fixedly connected to the top ends of the support rods 2; the liquid seepage plate 4 is provided with planting holes 401 and seepage holes 402. The water flow sprayed by the spray head 10 firstly falls on the liquid seepage plate 4 and permeates into the soil through the water seepage holes 402 on the liquid seepage plate 4, so that dead angles which cannot be sprayed when the spray head 10 sprays are avoided. Simultaneously for the convenience fertilizes the seedling, set up the drip irrigation portion between oozing liquid board 4 and the ground, drip irrigation portion includes the drip irrigation zone 3 of parallel arrangement between oozing liquid board 4 and ground, 3 water inlets of drip irrigation zone and 6 intercommunications of water tank. Directly carry the rich water to soil through drip irrigation zone 3, avoid rich water and seedling leaf contact, arouse the seedling of burning.

Further, for providing the water source to spraying mechanism and drip irrigation portion, the big-arch shelter sets up water tank 6 outward, and two apopores are seted up to 6 bottoms of water tank, all installs the valve on two apopores, and raceway 5, drip irrigation zone 3 communicate with 6 water tanks through two apopores respectively, and 6 bottoms of water tank are provided with gravity-feed tank and respond to subassembly 19, gravity-feed tank respond to subassembly 19 and control terminal electric connection. The gravity sensing device is connected with the control terminal, and can ensure that water is timely supplemented into the water tank 6 when the water tank 6 is lack of water. Also can set up water tank 6 into two, make it communicate with drip irrigation zone 3 and raceway 5 respectively, the water tank 6 that drip irrigation zone 3 is connected can guarantee to control fertilization concentration when fertilizeing the seedling, and raceway 5 sprays moisturizing and supplementary air humidity to the seedling.

Further, for further improving the atomization effect of the spray head 10 on water flow, a plurality of elastic vibration pieces 17 are fixedly connected to the inner wall of the spray head 10 at equal intervals in the circumferential direction, and the elastic vibration pieces 17 are located between the installation rod 16 and the arc-shaped pore plate 18. Carry out secondary vibration atomizing to preliminary atomizing rivers through elasticity vibrating plate 17, improve the atomization effect of shower nozzle 10.

Further, when avoiding fertilizing the seedling, fertilizer directly flows to the seedling root, arouses to burn the seedling, and bracing piece 2 sets up between two kinds of adjacent planting holes 401, and 3 fixed connection of drip irrigation zone are on bracing piece 2. The fertilizer water flows to the position between two adjacent seedlings, so that the fertilizer water is prevented from directly contacting with the roots and stems of the seedlings.

When the utility model is used, firstly, a support rod 2 is vertically fixed in a greenhouse, a liquid seepage plate 4 is fixedly arranged on the support rod 2, a water delivery pipe 5 is fixedly connected at the top end of a greenhouse bracket, the water inlet end of the water delivery pipe 5 is communicated with a water tank 6, the side wall of the water delivery pipe 5 is fixedly connected with a water outlet pipe communicated with the water delivery pipe 5, the other end of the water outlet pipe is connected with the water inlet of a three-way electromagnetic directional valve 9, two water outlets of the three-way electromagnetic directional valve 9 are respectively provided with a spray part, the spray part connected with any one of the two water outlets of each three-way electromagnetic directional valve 9 is connected with an air inlet pipe 11, one side of the water delivery pipe 5 is fixedly connected with a gas delivery pipe 7, the gas delivery pipe 7 is communicated with the air inlet pipe 11, the inlet of the gas delivery pipe 7 is communicated with the output end of an internal circulation air pump 8, the internal circulation air pump 8 is fixed at the top end of the greenhouse bracket, a drip irrigation belt 3 is fixedly connected on the support rod 2, the drip irrigation belt 3 is arranged between two adjacent dendrobium seedlings, the water inlet of the drip irrigation belt 3 is communicated with the water tank 6. When the temperature and humidity sensor 1 senses that water needs to be supplemented in the greenhouse, a signal is transmitted to the control terminal, the control terminal controls the opening of a water outlet at one end of the three-way electromagnetic directional valve 9, which is connected with the internal circulating air pump 8, and the spray head 10 is used for mixing internal air and liquid to form water mist to be sprayed out; when needs fertilize, the weight of containing water in the gravity response subassembly 19 transmission water tank 6 in the water tank 6, the current soil moisture of temperature and humidity inductor 1 response, transmission signal to control terminal, control terminal confirm the moisturizing volume and control the water filling port on the water tank add water to the water tank, add fertilizer and stir in the water tank and dissolve to fertilizer, open the valve on drip irrigation zone 3 connection delivery port, fertilize the seedling.

According to the utility model, the dendrobium seedlings are supplemented with water through the spraying mechanism, the sprayed water falls onto the liquid seepage plate 4 and permeates into soil along the water seepage holes 402, so that the spraying uniformity is ensured, the seedlings are fertilized through the drip irrigation part, the water supplement amount in the fertilization process is accurately controlled, excessive water supplement amount during fertilization is avoided, the spraying part is matched with the internal circulation air pump 8 for use, the water flow is atomized by utilizing the principle of gas-liquid mixing, so that the air humidity supplement in the greenhouse is realized, and the air humidity in the greenhouse is ensured to be kept in the optimal range.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.

Claims (8)

1. The sprinkling irrigation device for the dendrobium officinale is characterized by comprising a sprinkling irrigation mechanism and a drip irrigation part which are arranged in a greenhouse, wherein a water tank (6) is arranged outside the greenhouse, a water pump is arranged at a water outlet of the water tank (6), and the sprinkling irrigation mechanism and the drip irrigation part are both communicated with the water tank (6) through the water pump; a temperature and humidity sensor (1) is arranged in the greenhouse, and the temperature and humidity sensor (1) is electrically connected with a control terminal;

sprinkling irrigation mechanism includes fixed connection and is in raceway (5) on big-arch shelter top, equidistant a plurality of portions that spray of installing on raceway (5), a plurality of the portion that sprays all with raceway (5) intercommunication, raceway (5) with water tank (6) intercommunication.

2. The sprinkling irrigation device for dendrobium officinale according to claim 1, characterized in that: the spraying part comprises a water outlet pipe fixed on the water delivery pipe (5), the water outlet pipe is communicated with the water delivery pipe (5), one end of the water outlet pipe, which is far away from the water delivery pipe (5), is fixedly connected with a three-way electromagnetic directional valve (9), two water outlets of the three-way electromagnetic directional valve (9) can be detachably connected with a spraying piece, one side of the water delivery pipe (5) is fixedly connected with a gas delivery pipe (7), the top end of the greenhouse is fixedly connected with an internal circulation air pump (8), the output end of the internal circulation air pump (8) is communicated with the air delivery pipe (7), the gas pipe (7) equidistant fixedly connected with a plurality of intake pipe (11) one end, it is a plurality of intake pipe (11) all with gas pipe (7) intercommunication, it is a plurality of intake pipe (11) other end respectively with arbitrary on tee bend solenoid directional valve (9) spray a intercommunication.

3. The sprinkling irrigation device for dendrobium officinale according to claim 2, characterized in that: the spraying piece comprises a first connecting pipe (13), one end of the first connecting pipe (13) is in threaded connection with the three-way electromagnetic directional valve (9), a second connecting pipe (12) is fixedly sleeved outside the first connecting pipe (13), a cavity is formed between the outer wall of the first connecting pipe (13) and the inner wall of the second connecting pipe (12), and the air inlet pipe (11) is communicated with the cavity;

a spray head (10) is fixedly connected to one end, away from the three-way electromagnetic directional valve (9), of the second connecting pipe (12), an arc-shaped pore plate (18) is fixedly connected to one side, away from the second connecting pipe (12), of the spray head (10), a baffle (14) is fixedly connected to the inner wall, close to one end of the spray head (10), of the second connecting pipe (12), one end, close to the spray head (10), of the first connecting pipe (13) is fixedly connected to one side of the baffle (14), a water inlet hole is formed in the baffle (14), and the first connecting pipe (13) is communicated with the spray head (10) through the water inlet hole; an air inlet is formed in the blocking piece (14), the cavity is communicated with the spray head (10) through the air inlet, a stirring wheel (15) is installed in the spray head (10), and the stirring wheel (15) is located between the blocking piece (14) and the arc-shaped pore plate (18).

4. The sprinkling irrigation device for dendrobium officinale according to claim 3, characterized in that: shower nozzle (10) inner wall fixedly connected with installation pole (16), the pivot one end of stirring wheel (15) with installation pole (16) lateral wall rotates to be connected, the other end with separation blade (14) rotate to be connected.

5. The sprinkling irrigation device for dendrobium officinale according to claim 1, characterized in that: a plurality of support rods (2) are vertically and fixedly arranged on the ground of the greenhouse, and the top ends of the plurality of support rods (2) are fixedly connected with a liquid seepage plate (4); the liquid seepage plate (4) is provided with planting holes (401) and water seepage holes (402); drip irrigation portion is in including parallel arrangement ooze liquid board (4) with drip irrigation zone (3) between the ground, drip irrigation zone (3) water inlet with water tank (6) intercommunication, drip irrigation zone (3) fixed connection be in on bracing piece (2).

6. The sprinkling irrigation device for dendrobium officinale according to claim 5, characterized in that: two apopores are seted up to water tank (6) bottom, two all install the valve on the apopore, raceway (5), drip irrigation zone (3) are respectively through two the apopore with water tank (6) intercommunication, water tank (6) bottom is provided with gravity-feed tank subassembly (19), gravity-feed tank subassembly (19) with control terminal electric connection.

7. The sprinkling irrigation device for dendrobium officinale according to claim 4, characterized in that: shower nozzle (10) inner wall circumference equidistant fixedly connected with a plurality of elasticity pieces (17) that shake, it is a plurality of elasticity piece (17) that shake all is located installation pole (16) with between arc orifice plate (18).

8. The sprinkling irrigation device for dendrobium officinale according to claim 5, characterized in that: the support rod (2) is arranged between two adjacent planting holes (401).

Images