CN211091162U - Movable intelligent greenhouse - Google Patents

Abstract

The utility model discloses a mobile intelligent greenhouse, which comprises a nutrient box, an isolation box arranged at the top of the nutrient box and a controller arranged adjacent to the isolation box, the top of the nutrient box is provided with a feeding groove, the inner bottom surface of the isolation box is provided with infusion tubes, the infusion tubes are sequentially inserted into the bottom of the isolation box and the top of the nutrient box and partially extend into the nutrient box, the side surface of the isolation box is provided with a temperature and humidity sensor, two pipeline shunts are arranged, and the two pipeline shunts are symmetrically distributed along the center point of the top of the isolation box, so that when the spray head sprays nutrient solution to reduce the temperature, the shower nozzle sprays each plant at the nutrient solution and can spray, has increased the area of spraying, two be equipped with the vegetation lamp between the pipeline shunt, be equipped with the vegetation lamp and provide the required light energy of vegetation, avoid indoor plant to influence the photosynthesis of plant because of illumination is not enough.

Description

Movable intelligent greenhouse

Technical Field

The utility model belongs to the technical field of warm canopy, concretely relates to portable intelligent warm canopy.

Background

For outdoor big-arch shelter is planted, and the planting area is big, and is numerous in the article of planting, but is not suitable for indoor planting, plants green when planting or vegetables at home, because of the time-saving is different, and the planting receives the temperature and the humidity of environment all to have certain influence, and moreover, traditional cultivation plant is cultivateed in earth for in the handling, comparatively hard, so how to design one kind can be at indoor planting, light in weight, and the intelligent warm canopy of being convenient for to remove becomes very important.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the prior art, the utility model provides a portable intelligence temperature canopy realizes being applicable to indoor planting, whole light in weight and remove more convenient advantage.

In order to solve the technical problem, the technical scheme of the utility model is that:

The utility model provides a portable intelligence temperature canopy, includes the trophox, locates the shielded box at trophox top and with the adjacent controller that sets up of shielded box, the pan feeding groove has been seted up at the top of trophox, the interior bottom surface of shielded box is equipped with the transfer line, and the transfer line passes inside the trophox of extending to after the bottom of shielded box, the top of trophox in proper order, the side of shielded box is equipped with temperature and humidity sensor, the top both sides of shielded box are equipped with the pipeline shunt, two respectively the bottom surface of pipeline shunt is equipped with the shower nozzle, the interior bottom surface of trophox is equipped with the water pump, this water pump respectively with two the pipeline shunt passes through the pipe connection, the interior bottom surface of shielded box is the rectangle, and its four edges do not has electric putter, four electric putter's push rod respectively with the top of shielded box is connected.

In the above structure: the seedling is placed at the pipe orifice of a liquid conveying pipe, meanwhile, nutrient solution is guided into the nutrient box from a feeding groove of the nutrient box, the root of the seedling absorbs the nutrient solution in the nutrient box through the liquid conveying pipe, growth factors such as water, fertilizer, gas and heat are provided for plants instead of soil, the whole weight is reduced, the movement or the carrying is more convenient, meanwhile, temperature and humidity detection of a temperature and humidity sensor to the isolation box is arranged, the nutrient solution is extracted by a controller control water pump, the extracted nutrient solution flows into a pipeline splitter through a pipe fitting and then is sprayed out from a spray head and descends to the bottom of the isolation box, the liquid conveying pipe returns to the nutrient box, a circulation process is formed, the effect of cooling and humidifying is played, meanwhile, the controller also controls an electric push rod to push a cover body at the top of the isolation box to lift, the opening or closing of the cover body at the top of the isolation box, the cover body at the top of the isolation box is kept balanced in the ascending or descending process.

Preferably, the bottom surface of the nutrition box is rectangular, rollers are respectively arranged at four corners of the bottom surface of the nutrition box, a motor for driving two rollers to rotate is further arranged at the bottom of the nutrition box, and a user can push the nutrition box by hand or drive the rollers to rotate through the motor, so that the nutrition box above the rollers can move along with the rollers, and manual carrying is replaced, and labor is saved.

Preferably, the transfer line is equipped with four groups, and every group has five transfer lines, and twenty transfer lines equidistant distribution is in the interior bottom surface of shielded box, and the user can cultivate many pearls plant, and even distribution is in the interior bottom surface of shielded box, the space of balanced each vegetation, makes the rare degree of plant more reasonable.

Preferably, the pipeline shunt is two, follows the top central point symmetric distribution of shielded cell, ensures that the shower nozzle can spray each plant when the shower nozzle is spraying the nutrient solution cooling, has increased the area of spraying.

Preferably, a plant growth lamp is arranged between the two pipeline diverters and provides light energy required by plant growth, so that the photosynthesis of the plants is prevented from being influenced by insufficient illumination of indoor plants.

Preferably, the lateral wall of shielded cell is transparent plastic slab, and on the one hand, when the vegetation lamp supplied vegetation night, can also provide the illumination evening, and existing certain sight and practicality, transparent plastic slab simultaneously, convenience of customers observe vegetation's state.

The utility model has the advantages that:

1. The soilless culture technology is adopted, the greenhouse type soilless culture box is used for indoor greenhouse planting, soil culture is replaced, the whole is reduced, labor is saved in the moving process, nutrient solution is used for providing nutrients required by plant growth, the isolation box and an external channel are opened and closed by the electric push rod, and equipment for circularly cooling and humidifying is arranged in the box, so that the environment for plant growth is improved;

2. The motor is arranged to drive the roller, so that the nutrient box and the isolation box are moved, and manual carrying is replaced, and labor is saved;

3. Twenty liquid conveying pipes are distributed on the inner bottom surface of the isolation box at equal intervals, so that a user can cultivate multi-bead plants and uniformly distribute the multi-bead plants on the inner bottom surface of the isolation box to balance the growing space of each plant, and the density degree of the plants is more reasonable;

4. The two pipeline shunts ensure that the spray head can spray the nutrient solution to each plant when spraying the nutrient solution for cooling, thereby increasing the spraying area;

5. The plant growth lamp is arranged to provide light energy required by plant growth, so that the photosynthesis of the plant is prevented from being influenced by insufficient illumination of indoor plants;

6. The wall of shielded cell is transparent plastic slab, and the vegetation lamp supplies vegetation night, can also provide the illumination evening, and convenience of customers observes vegetation's state simultaneously.

Description of the drawings:

Fig. 1 is an overall perspective view of an embodiment of the present invention;

FIG. 2 is a schematic view of the internal connections of the nutrition box of an embodiment of the present invention;

Fig. 3 is a bottom connection schematic diagram of the nutrition box of the embodiment of the present invention.

Description of reference numerals:

1. A roller 2 and a nutrition box; 3. a feeding groove; 4. a nutrient solution; 5. a controller; 6. a transfusion tube; 7. an isolation box; 8. a temperature and humidity sensor; 9. a spray head; 10. a plant growing lamp; 11. a pipeline diverter; 12. a motor; 13. a pipe fitting; 14. a water pump; 15. an electric push rod.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example (b):

As shown in fig. 1-3, a mobile intelligent greenhouse comprises a nutrition box 2, an isolation box 7 arranged at the top of the nutrition box 2 and a controller 5 arranged adjacent to the isolation box 7, the top of the nutrient box 2 is provided with a feeding groove 3, the inner bottom surface of the isolation box 7 is provided with a transfusion pipe 6, the transfusion pipe 6 sequentially passes through the bottom of the isolation box 7 and the top of the nutrient box 2 and then extends to the interior of the nutrient box 2, a temperature and humidity sensor 8 is arranged on the side surface of the isolation box 7, pipeline shunts 11 are arranged on the two sides of the top of the isolation box 7, spray heads 9 are arranged on the bottom surfaces of the two pipeline shunts 11, a water pump 14 is arranged on the inner bottom surface of the nutrition box 2, the water pump 14 is respectively connected with the two pipeline flow dividers 11 through a pipe fitting 13, the inner bottom surface of the isolation box 7 is rectangular, wherein, four corners are provided with electric push rods 15, and the push rods of the four electric push rods 15 are respectively connected with the top of the isolation box 7.

In the above structure: a first signal output end of the controller 5 is connected with signal input ends of four electric push rods 15, a second signal output end of the controller 5 is connected with a signal input end of a water pump 14, a signal output end of a temperature and humidity sensor 8 is connected with a signal input end of the controller 5, a third signal output end of the controller 5 is connected with a signal input end of the temperature and humidity sensor 8, then seedlings are placed at a pipe opening of a liquid conveying pipe 6, nutrient solution 4 is guided into the nutrient box 2 from a feeding groove 3 of the nutrient box 2, the roots of the seedlings can draw the nutrient solution 4 in the nutrient box 2 through the liquid conveying pipe 6, growth factors such as water, fertilizer, gas, heat and the like are provided for plants instead of soil, the weight of the whole body is reduced, the whole body is more convenient to move, meanwhile, the temperature and humidity of the isolation box 7 are detected by the temperature and humidity sensor 8, the water pump 14, then the nutrient solution 4 of extraction flows into pipeline shunt 11 back through pipe fitting 13, descend in isolation box 7 bottom from the blowout of shower nozzle 9, get back to in nutrition box 2 by transfer line 6, constitute a circulation process, play the effect of cooling humidification, and simultaneously, controller 5 still controls electric putter 15 and promotes the lid at isolation box 7 top and goes up and down, realize that the lid at isolation box 7 top opens or closes, and be equipped with four electric putter 15 and promote the lid at isolation box 7 top simultaneously, guarantee to rise or descend the in-process to make the lid at isolation box 7 top keep balance.

Example (b):

In one embodiment, as shown in fig. 3, the bottom surface of the nutrition box 2 is rectangular, the four corners of the nutrition box are respectively provided with the rollers 1, the bottom of the nutrition box 2 is further provided with the motor 12 for driving two of the rollers, and a user drives the rollers 1 to rotate by pushing the nutrition box 2 or the motor 12 by hand, so that the nutrition box 2 on the rollers 1 moves along with the rollers, and the manual transportation is replaced by labor saving.

Example (b):

In one embodiment, as shown in fig. 1, the infusion tubes 6 are provided with four groups, each group has five infusion tubes 6, and twenty infusion tubes 6 are equidistantly distributed on the inner bottom surface of the isolation box 7, so that a user can simultaneously cultivate a plurality of plants, and the plants are uniformly distributed on the inner bottom surface of the isolation box 7, thereby balancing the growing space of each plant and enabling the density degree of the plants to be more reasonable.

Example (b):

In one embodiment, as shown in fig. 1, the two pipeline diverters 11 are symmetrically distributed along the top center point of the isolation box 7, so that the spray head 9 can spray nutrient solution to each plant while the spray head 9 sprays nutrient solution 4 to reduce the temperature, and the spraying area is increased.

Example (b):

In one embodiment, as shown in fig. 1, a plant growth lamp 10 is disposed between the two pipeline diverters 11, and the plant growth lamp 10 is disposed to provide light energy required for plant growth, so as to prevent the photosynthesis of the plant from being affected by insufficient illumination of the indoor plant.

Example (b):

In one embodiment, as shown in fig. 1, the side wall of the isolation box 7 is made of a transparent plastic plate, on one hand, the plant growth lamp 10 can provide illumination while allowing plants to grow at night, so that the device has certain ornamental and practical properties, and meanwhile, the transparent plastic plate facilitates users to observe the growth state of the plants.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (6)

1. The utility model provides a portable intelligence temperature canopy, its characterized in that, including the shielded box at shielded box top, locate the shielded box at shielded box top and with the adjacent controller that sets up of shielded box, the pan feeding groove has been seted up at the top of shielded box, the interior bottom surface of shielded box is equipped with the transfer line, the transfer line passes the bottom of shielded box, inside the shielded box extends to behind the top of shielded box in proper order, the side of shielded box is equipped with temperature and humidity sensor, the top both sides of shielded box are equipped with the pipeline shunt respectively, two the bottom surface of pipeline shunt is equipped with the shower nozzle, the interior bottom surface of shielded box is equipped with the water pump, this water pump respectively with two the pipeline shunt passes through the pipe connection, the interior bottom surface of shielded box is the rectangle, and its four edges do not have electric putter, four electric putter's push rod respectively with the top of shielded box.

2. The mobile intelligent greenhouse of claim 1, wherein the bottom surface of the nutrition box is rectangular, rollers are respectively arranged at four corners of the bottom surface, and a motor for driving two rollers to rotate is further arranged at the bottom of the nutrition box.

3. The mobile intelligent greenhouse of claim 1, wherein the infusion tubes are provided with four groups, each group comprises five infusion tubes, and twenty infusion tubes are distributed on the inner bottom surface of the isolation box at equal intervals.

4. The mobile intelligent greenhouse of claim 1, wherein the number of the pipeline dividers is two, and the pipeline dividers are symmetrically distributed along the center point of the top of the isolation box.

5. The mobile intelligent greenhouse of claim 1, wherein a plant growth lamp is arranged between the two pipeline diverters.

6. The mobile intelligent greenhouse of claim 1, wherein the side wall of the isolation box is a transparent plastic plate.

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