CN208480417U - A kind of drip irrigation system of architecture greening roofing - Google Patents

Abstract

The utility model discloses a kind of drip irrigation systems of architecture greening roofing, including control device, it is responsible for (5), drip irrigation pipe network (6), water pump (4) and solenoid valve (3), it is characterized in that, the drip irrigation system further includes the photovoltaic panel (1) being mounted on above the water pump (4) and solenoid valve (3), the photovoltaic panel (1) tilts predetermined angle, the control device, water pump (4) and solenoid valve (3) are connect with the photovoltaic panel (1) respectively, photovoltaic panel (1) back side is equipped with cooling water pipe (2), the both ends of the cooling water pipe (2) are connected to the supervisor (5) respectively.The utility model structure is simple, easy for installation, can effectively extend the service life of drip irrigation system, reduce the application cost of drip irrigation system.

Description

A kind of drip irrigation system of architecture greening roofing

Technical field

The utility model relates to a kind of architecture greening roofing, especially a kind of drip irrigation system of architecture greening roofing.

Background technique

Architecture greening roofing drip irrigation technique mainly has timing drip irrigation technique and the automatic drip according to green plants soil moisture Irrigation technology, in order to control the operation of trickle irrigation, two kinds of drip irrigation techniques are required to the electric elements such as water pump, solenoid valve and control device, And since architecture greening roofing does not have shelter, water pump and solenoid valve are typically mounted at outdoor or are mounted on exclusively for water pump and electricity In the structure of keeping off the rain that magnet valve is built, if being mounted on outdoor, the service life that can reduce water pump and solenoid valve is used for a long time, if It is special to build structure of keeping off the rain and time-consuming and laborious.

Utility model content

To solve the above problems, the utility model provides a kind of drip irrigation system of building roof, the drip irrigation system is in water Setting photovoltaic panel is kept off the rain above pump and solenoid valve, and the photovoltaic panel is water pump and solenoid valve power supply again, effectively reduces water pump and electricity The wiring of magnet valve extends the service life of drip irrigation system.

For this purpose, the utility model adopts the following technical solutions: a kind of drip irrigation system of architecture greening roofing, including control Device, supervisor, drip irrigation pipe network, water pump and solenoid valve, the drip irrigation system further include being mounted on above the water pump and solenoid valve Photovoltaic panel, the photovoltaic panel tilts predetermined angle, and the control device, water pump and solenoid valve connect with the photovoltaic panel respectively It connects.

Further, the photovoltaic back be equipped with cooling water pipe, the both ends of the cooling water pipe respectively with the supervisor Connection.

Further, the surrounding of the photovoltaic panel is respectively equipped with water fender.

Further, the control device is mounted on the back side of the photovoltaic panel.

Further, the predetermined angle is 5 °~10 °.

The utility model has the beneficial effects that

(1) photovoltaic panel is set above water pump and solenoid valve, and is powered using photovoltaic panel, photovoltaic panel can be water pump and electromagnetism Valve guard rain, and electricity is directly used in the operation of water pump and solenoid valve, effectively extend the service life of drip irrigation system and is subtracted Connecting wires for drip irrigation system is lacked；

(2) cooling water pipe is set in photovoltaic back, cooling water pipe is connected to supervisor, can reduce the temperature of photovoltaic back Degree, improves the generating efficiency of photovoltaic panel；

(3) control device is mounted on photovoltaic back, connecing between water pump, solenoid valve and control device can be effectively reduced Line route reduces the application cost of drip irrigation system.

Detailed description of the invention

Fig. 1 is the drip irrigation system structural schematic diagram of architecture greening roofing.

Fig. 2 is the drip irrigation system side structure schematic diagram of architecture greening roofing.

Fig. 3 is that drip irrigation system is connected wires road connection figure.

Description of symbols: 1- photovoltaic panel, 2- cooling water pipe, 3- solenoid valve, 4- water pump, 5- supervisor, 6- drip irrigation pipe network, 7- Water fender.

Specific embodiment

The utility model is further described in detail below by specific embodiment and in conjunction with attached drawing.

As shown in Figure 1, Figure 2 and Figure 3, a kind of drip irrigation system of architecture greening roofing, including control device, supervisor 5, trickle irrigation Pipe network 6, water pump 4 and solenoid valve 3, the drip irrigation system further include the photovoltaic panel 1 for being mounted on 3 top of the water pump 4 and solenoid valve, The photovoltaic panel 1 tilts predetermined angle, and the control device, water pump 4 and solenoid valve 3 are connect with the photovoltaic panel 1 respectively.

For the back temperature for reducing photovoltaic panel, its generating efficiency is improved, 1 back side of photovoltaic panel is equipped with cooling water pipe 2, institute The both ends for stating cooling water pipe 2 are connected to the supervisor 5 respectively.

To be further reduced rainwater to the adverse effect of water pump and solenoid valve, the surrounding of the photovoltaic panel 1 is respectively equipped with gear Water plate 7.

In order to reduce the wiring of drip irrigation system, the control device is mounted on the back side of the photovoltaic panel 1.

Preferably, the predetermined angle is 5 °~10 °.

In the present invention, by the way that photovoltaic panel is arranged above water pump and solenoid valve, and it is arranged in photovoltaic panel surrounding and keeps off Water plate, when rainy, photovoltaic panel and water fender can block the rainwater above water pump and solenoid valve, reduce rainwater to water pump and electromagnetism The destruction of valve effectively extends the service life of drip irrigation system.

Further, since photovoltaic panel distance supervisor is closer, cooling water pipe, cooling water pipe medium and low temperature are set in photovoltaic back Water on the one hand be used for photovoltaic panel cooling, on the other hand absorb heat after be used for green plants trickle irrigation, can effectively reduce photovoltaic plate temperature, Improve its generating efficiency.

The protection scope of the utility model is not limited to foregoing description, any other under the enlightenment of the utility model Formal product, it is all that there is same or similar technical side with the utility model no matter making any change in shape or structure Case both is within the protection scope of the present invention.

Claims (5)

1. a kind of drip irrigation system of architecture greening roofing, including control device, supervisor (5), drip irrigation pipe network (6), water pump (4) and electricity Magnet valve (3), which is characterized in that the drip irrigation system further includes the photovoltaic panel being mounted on above the water pump (4) and solenoid valve (3) (1), the photovoltaic panel (1) tilts predetermined angle, the control device, water pump (4) and solenoid valve (3) respectively with the photovoltaic panel (1) it connects.

2. the drip irrigation system of architecture greening roofing according to claim 1, which is characterized in that photovoltaic panel (1) back side It is arranged cooling water pipe (2), the both ends of the cooling water pipe (2) are connected to the supervisor (5) respectively.

3. the drip irrigation system of architecture greening roofing according to claim 1, which is characterized in that the four of the photovoltaic panel (1) It is respectively equipped with water fender (7) week.

4. the drip irrigation system of architecture greening roofing according to claim 1, which is characterized in that the control device is mounted on The back side of the photovoltaic panel (1).

5. the drip irrigation system of architecture greening roofing according to claim 1, which is characterized in that the predetermined angle be 5 °~ 10°。