CN215061672U - Automatic watering and greening lamp with telescopic spray head - Google Patents

Abstract

The utility model relates to the technical field of lighting fixtures, specifically disclose a take scalable shower nozzle and automatic watering afforestation's lamps and lanterns, include along the vertical body of rod that sets gradually active area, shower nozzle district, control area, install the light source in the active area, install the flexible shower nozzle in the shower nozzle district and install the control unit who just is connected with light source and flexible shower nozzle respectively in the control area. The utility model discloses an organic whole sets up effectual reduce cost.

Description

Automatic watering and greening lamp with telescopic spray head

Technical Field

The utility model relates to the technical field of lamps and lanterns, more specifically say, relate to a take scalable shower nozzle and automatic watering afforestation's lamps and lanterns.

Background

The garden lamp is generally used in municipal greening and landscape engineering and is installed in a greening area on a square or a garden side, the height of the greening area is 3-4 meters, and the distance between the greening areas and the garden side is 15-20 meters. The irrigation nozzles are arranged in the greening, the distance is 30-40 meters, the irrigation is carried out manually (arranged under the ground) or automatically by spraying water, the distance is 10-15 meters, and the height is 0.2-1.5 meters. In general, the lamps and the irrigation are separated and need to be arranged independently, the project is divided into two independent parts, and the construction is carried out twice, so that the cost is high; the spray head can not be stretched and reset; the spray head is positioned at the top of the lamp post, is inconvenient to maintain and replace when being integrated with a high-pole lamp, and is separately arranged, so that the appearance is not attractive; the spray head is positioned at the top, and when the spray head is combined with the high-pole lamp, the requirement on water supply pressure is high, so that additional cost is possibly increased; the water supply pipe penetrates through the whole lamp post, and if the pipe is broken, the influence on the lamp post is large, and the shape of the lamp post is influenced; the irrigation demand information cannot be accurately detected without combining a soil moisture sensor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a take scalable shower nozzle and automatic watering afforestation's lamps and lanterns are provided, adopt an organic whole to set up effectual reduce cost.

The utility model provides a solution that technical problem adopted is:

the utility model provides a take scalable shower nozzle and automatic watering afforestation's lamps and lanterns, includes along the vertical body of rod that sets gradually active light area, shower nozzle district, control area, install the light source in the active light area, install the flexible shower nozzle in the shower nozzle district and install in the control area and respectively with the light source with the control unit that flexible shower nozzle is connected.

The light source is arranged in the light source area, the telescopic spray head is arranged in the spray head area, when spray irrigation is needed, the telescopic spray head is controlled by the control unit to spray irrigation on plants, the control unit is opened to control the light source to be opened, and the spray irrigation and the lamp are combined together, so that the construction and installation cost is effectively reduced;

in some possible embodiments, for effective environmental monitoring and soil relative humidity monitoring, so that sprinkler irrigation can meet plant growth requirements; the device also comprises a rainfall sensor and an evaporation sensor which are arranged in the light source area, and a soil humidity sensor which is positioned at the bottom of the rod body; the soil humidity sensor, the rainfall sensor and the evaporation sensor are respectively connected with the control unit.

In some possible embodiments, in order to effectively realize the installation of the light source and the telescopic spray head; the light source region is provided with a light source installation chamber and a pipeline chamber I; the spray head area is provided with a pipeline chamber II communicated with the pipeline chamber I and a spray head installation cavity used for installing the telescopic spray head; an opening is formed in the side face of the spray head mounting cavity; the control area comprises a pipeline chamber III and a water pipe installation cavity which are communicated with the pipeline chamber I; a water supply pipe connected with the input end of the telescopic spray head is arranged in the water pipe installation cavity.

In some possible embodiments, the control unit is installed in the pipeline chamber three and is respectively connected with the telescopic spray head, the soil humidity sensor, the rainfall sensor and the evaporation sensor through pipelines.

In some possible embodiments, in order to effectively realize the sprinkling irrigation of the telescopic sprayer, the telescopic sprayer comprises a sprayer body with a telescopic function and a steering engine which is connected with the outer side of the sprayer body, is used for controlling the sprayer body to rotate and is positioned in a sprayer mounting cavity; the steering engine and the nozzle body are respectively connected with the control unit.

In some possible implementation modes, in order not to influence spray irrigation, the phenomenon that water is wasted due to overhigh lamp and the influence on the downward passing of people by the lamp is avoided, and the maintenance is convenient. When irrigation is carried out, the height between the sprayer body and the ground is H, and H is less than or equal to 1.2 m.

In some possible embodiments, the spray head body comprises a hose connected with the water supply pipe, a pipe sleeve sleeved outside the hose, an extension pipe slidably installed in the pipe sleeve and connected with the hose, an extension device installed in the pipe sleeve and used for driving the extension pipe to move along the axial direction of the pipe sleeve, and a spray head connected with one end of the extension pipe away from the hose; the outer side of the pipe sleeve is connected with a steering engine.

In some possible embodiments, in order to effectively guide the sliding direction of the telescopic tube; the outer side of the telescopic pipe is provided with a sliding groove along the axis direction of the telescopic pipe, and a cushion block matched with the sliding groove is arranged in the pipe sleeve.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model integrates the telescopic spray head and the lamp, effectively reduces the cost, and can finish the installation of the lighting and sprinkling irrigation facilities by constructing and installing in sequence;

the utility model discloses an increase rainfall sensor, evaporation capacity sensor, soil moisture sensor to according to the plant to the moisture demand, in time transmit the place plant watering demand to control center, control center transmits to the control unit, timing control sprinkling irrigation switch and water spray time;

the utility model discloses a set up flexible shower nozzle, when not using, flexible shower nozzle will be located the body of rod inside, does not influence lamps and lanterns molding and pleasing to the eye.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the nozzle body of the present invention;

wherein: 1. a rod body; 11. a light source region; 12. a showerhead area; 13. a control area; 131. a control unit; 21. a rainfall sensor; 22. an evaporation amount sensor; 23. a soil humidity sensor; 3. a telescopic spray head; 31. a steering engine; 32. a nozzle body; 321. a hose; 322. pipe sleeve; 323. a telescopic pipe; 324. a spray head; 325. and a cushion block.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are described in detail and completely, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention. Thus, the detailed description of the embodiments of the present invention provided below is not intended to limit the scope of the claimed invention, but is merely representative of selected embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the equipment or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the drawings of the present invention, it should be understood that different technical features which are not mutually alternative are shown in the same drawing, and the embodiment described with reference to the drawings is not indicated or implied to include all the technical features in the drawings only for the convenience of simplifying the drawing description and reducing the number of drawings, and thus should not be understood as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. Reference herein to "first," "second," and similar words, does not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. In the implementation of the present application, "and/or" describes an association relationship of associated objects, which means that there may be three relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In the description of the embodiments of the present application, the meaning of "a plurality" means two or more unless otherwise specified. For example, the plurality of positioning posts refers to two or more positioning posts. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The present invention will be described in detail below.

As shown in figures 1-2 of the drawings,

a lamp with a telescopic nozzle and capable of automatically irrigating and greening is arranged on the ground and comprises a rod body 1, a light source region 11, a nozzle region 12 and a control region 13, wherein the rod body 1 is vertically and sequentially provided with the light source region 11, the nozzle region 12, the control region 13, the light source arranged in the light source region 11, the telescopic nozzle 3 arranged in the nozzle region 12 and a control unit 131, the control unit is arranged in the control region 13 and is respectively connected with the light source and the telescopic nozzle 3; where the control area 13 is close to the ground.

The light source is arranged in the light source area 11, the telescopic spray head 3 is arranged in the spray head area 12, when spray irrigation is needed, the telescopic spray head 3 is controlled by the control unit 131 to spray irrigation on plants, when the control unit 131 needs to be opened, the light source is controlled to be opened, and the spray irrigation and the lamp are combined together, so that the construction and installation cost is effectively reduced by adopting an integrated arrangement;

in some possible embodiments, for effective environmental monitoring and soil relative humidity monitoring, so that sprinkler irrigation can meet plant growth requirements; the device also comprises a rainfall sensor 21 and an evaporation sensor 22 which are arranged in the light source area 11, and a soil humidity sensor 23 which is positioned at the bottom of the rod body 1; the soil humidity sensor 23, the rainfall sensor 21 and the evaporation sensor 22 are respectively connected with the control unit 131.

Preferably, the soil humidity sensor 23 is installed in the soil, so as to monitor the soil humidity;

in the utility model, the soil humidity sensor 23, the rainfall sensor 21 and the evaporation sensor 22 are all sensors in the prior art, and can be directly purchased and assembled on the market during assembly; the model is not limited, and the improvement point of the present invention is not in the internal connection relationship among the soil moisture sensor 23, the rainfall sensor 21 and the evaporation sensor 22, and therefore, detailed description thereof is omitted.

In some possible embodiments, in order to effectively implement the installation of the light source, the telescopic nozzle 3; the light source area 11 is provided with a light source installation chamber and a pipeline chamber I; the spray head area 12 is provided with a pipeline chamber II communicated with the pipeline chamber I and a spray head installation cavity for installing the telescopic spray head 3; an opening is formed in the side face of the spray head 324 where the installation cavity is installed; the control area 13 comprises a pipeline chamber III and a water pipe installation cavity which are communicated with the pipeline chamber I; a water supply pipe connected with the input end of the telescopic spray head 3 is arranged in the water pipe installation cavity.

The rainfall sensor 21 and the evaporation sensor 22 are arranged on the side surface or the top surface of the light source area 11, so that the environment is monitored;

preferably, the light source area 11 is respectively provided with a light source installation chamber and a pipeline chamber, so that the light source and the pipeline are effectively prevented from interfering with each other; preferably, the light source is an LED light source, and other light sources can also be adopted;

the spray head area 12 is divided into a pipeline chamber II communicated with the pipeline chamber I and a spray head installation cavity for installing the telescopic spray head 3; the first pipeline chamber and the second pipeline chamber are communicated for installing a wire, and the spray head installation cavity is only used for installing the telescopic spray head 3 to avoid interference of the telescopic spray head and the spray head.

In some possible embodiments, the control unit 131 is installed in the pipeline chamber three and is connected to the retractable nozzle 3, the soil humidity sensor 23, the rainfall sensor 21 and the evaporation sensor 22 through pipelines.

In some possible embodiments, in order to effectively achieve sprinkling irrigation of the telescopic sprinkler 3; the telescopic sprayer 3 comprises a sprayer body 32 with a telescopic function and a steering engine 31 which is connected with the outer side of the sprayer body 32, is used for controlling the sprayer body 32 to rotate and is positioned in the sprayer mounting cavity; the steering engine 31 and the nozzle body 32 are respectively connected with the control unit 131.

The steering engine 31 is installed in the spray head installation cavity, an output shaft of the steering engine 31 is connected with the spray head body 32 and used for controlling the spray head body 32 to rotate towards one side of the opening, so that the telescopic spray head 3 extends out of the spray head installation cavity for irrigation when sprinkling irrigation is carried out, and after the sprinkling irrigation is finished, the steering engine 31 rotates reversely to enable the telescopic spray head 3 to return to the spray head installation cavity, so that the overall attractiveness is not wanted;

in some possible implementation modes, in order not to influence spray irrigation, the phenomenon that water is wasted due to overhigh lamp and the influence on the downward passing of people by the lamp is avoided, and the maintenance is convenient. When irrigation is carried out, the height between the sprayer body 32 and the ground is H, and H is less than or equal to 1.2 m.

In some possible embodiments, the spray head body 32 comprises a hose 321 connected to the water supply pipe, a pipe sleeve 322 sleeved outside the hose 321, a telescopic pipe 323 slidably installed in the pipe sleeve 322 and connected to the hose 321, a telescopic device installed in the pipe sleeve 322 and used for driving the telescopic pipe 323 to move along the axial direction of the pipe sleeve 322, and a spray head 324 connected to one end of the telescopic pipe 323 away from the hose 321; the outer side of the pipe sleeve 322 is connected with the steering engine 31.

The steering engine 31 is connected with the outer side of the pipe sleeve 322, the hose 321 is installed in the pipe sleeve 322 and penetrates through one end of the pipe sleeve 322 to be connected with the water supply pipe, the other end of the hose 321 is located in the pipe sleeve 322, and the telescopic device is installed in the pipe sleeve and connected with the telescopic pipe 323; when the steering engine is used, the steering engine 31 is started, so that the pipe sleeve 322 rotates towards one side of the opening; when the pipe sleeve 322 reaches a proper position, the rotation is stopped, the expansion device is started, the expansion pipe 323 is controlled to move towards one side far away from the hose 321, the spray head 324 moves towards one side far away from the hose 321, the control unit 131 opens the water supply pipe, water is sprayed out from the spray head 324 under the action of the water pump, and spray irrigation is achieved; otherwise, the switch-off is performed;

the telescopic device can be a hydraulic cylinder, can also be manufactured by adopting a lead screw principle, an electric push rod and the like;

in some possible embodiments, in order to effectively guide the sliding direction of the bellows 323; a sliding groove is arranged on the outer side of the telescopic pipe 323 along the axial direction of the telescopic pipe, and a cushion block 325 matched with the sliding groove is arranged in the pipe sleeve 322.

Preferably, an annular boss is arranged at one end of the extension pipe 323 away from the water supply pipe; the telescopic pipe 323 penetrates through the circular boss to be connected with the spray head 324; this prevents the spray head 324 from entering the interior of bellows 323 under the restriction of the annular boss.

Preferably, the control area 13 is provided with a control panel connected with the control unit 131; manual irrigation can be realized through the control panel.

Preferably, the control unit 131 is provided with a data processing module; the light source area 11 is also provided with a temperature sensor, the environment temperature is monitored, and the soil humidity sensor 23, the rainfall sensor 21, the evaporation sensor 22 and the temperature sensor are analyzed through the data processing module, so that automatic sprinkling irrigation is realized.

The present invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification, and to any novel method or process steps or any novel combination of features disclosed.

Claims (8)

1. The utility model provides a take scalable shower nozzle and automatic watering afforestation's lamps and lanterns which characterized in that includes along the vertical body of rod that sets gradually light source district, shower nozzle district, control area, install the light source in the light source district, install the flexible shower nozzle in the shower nozzle district and install in the control area and respectively with the light source with the control unit that flexible shower nozzle is connected.

2. A lamp with retractable nozzle and automatic watering and greening functions as claimed in claim 1, further comprising a rainfall sensor and an evaporation sensor which are installed in the light source area, and a soil humidity sensor which is located at the bottom of the rod body; the soil humidity sensor, the rainfall sensor and the evaporation sensor are respectively connected with the control unit.

3. A lamp with retractable nozzle for automatic watering and greening according to claim 1, wherein the light source area is provided with a light source installation chamber and a pipeline chamber I; the spray head area is provided with a pipeline chamber II communicated with the pipeline chamber I and a spray head installation cavity used for installing the telescopic spray head; an opening is formed in the side face of the spray head mounting cavity; the control area comprises a pipeline chamber III and a water pipe installation cavity which are communicated with the pipeline chamber I; a water supply pipe connected with the input end of the telescopic spray head is arranged in the water pipe installation cavity.

4. A lamp with retractable nozzles for automatic watering and greening according to claim 3, wherein the control unit is installed in the third pipeline chamber and is connected to the retractable nozzles, the soil humidity sensor, the rainfall sensor and the evaporation sensor through pipelines.

5. A lamp with a retractable nozzle and an automatic watering and greening function as claimed in claim 3, wherein the retractable nozzle comprises a nozzle body with a retractable function, and a steering engine which is connected with the outer side of the nozzle body, is used for controlling the nozzle body to rotate and is positioned in the nozzle mounting cavity; the steering engine and the nozzle body are respectively connected with the control unit.

6. A lamp with retractable nozzle and automatic watering and greening functions as claimed in claim 5, wherein the height between the nozzle body and the ground is H, which is less than or equal to 1.2 m.

7. A lamp with a retractable nozzle and an automatic watering and greening function as claimed in claim 5, wherein the nozzle body comprises a hose connected with a water supply pipe, a pipe sleeve sleeved outside the hose, a retractable pipe slidably installed in the pipe sleeve and connected with the hose, a retractable device installed in the pipe sleeve and used for driving the retractable pipe to move along the axial direction of the pipe sleeve, and a nozzle connected with one end of the retractable pipe far away from the hose; the outer side of the pipe sleeve is connected with a steering engine.

8. A lamp with retractable nozzle and automatic watering and greening functions as claimed in claim 7, wherein the outside of the retractable tube is provided with a chute along the axial direction of the retractable tube, and the inside of the tube sleeve is provided with a cushion block matched with the chute.

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