CN108040852B

CN108040852B - Flower seedling breeding device of multiplicable survival rate

Info

Publication number: CN108040852B
Application number: CN201711296020.8A
Authority: CN
Inventors: 刘涔; 王志燕
Original assignee: Hangzhou Yezhen Technology Co Ltd
Current assignee: Hangzhou yezhen Technology Co.,Ltd.
Priority date: 2017-12-08
Filing date: 2017-12-08
Publication date: 2020-12-18
Anticipated expiration: 2037-12-08
Also published as: CN108040852A

Abstract

The invention discloses a flower seedling cultivation device capable of increasing survival rate, which comprises a supporting table, a cultivation platform, a first cultivation room and a supporting column, wherein a base is fixed in the middle of the lower portion of the supporting table, a water pump is installed below a water collecting tank, a water pipe is arranged on the outer side of the water collecting tank, water purifying filter elements are installed in the middle of the two sides of the supporting table, a water leakage valve is installed at the bottom of the cultivation platform, a rotating wheel is installed on the outer side of the upper portion of a hydraulic telescopic column, a micro motor is installed on the left side of the supporting column, a positioning wheel is installed above the supporting column, and a sun shading device is installed. This flower seedling breeding device of multiplicable survival rate can carry out nimble adjustment, not only can add water automatically to the flower seedling and can also filter waste water to can follow the new use, the device can also adjust the photosynthetic strength of flower seedling, avoids sunshine too strong or too weak survival rate that influences the flower seedling.

Description

Flower seedling breeding device of multiplicable survival rate

Technical Field

The invention relates to the technical field of flower cultivation, in particular to a flower seedling cultivation device capable of increasing survival rate.

Background

Fresh flowers are the reproductive organs of angiosperms (angiosperms, also known as flowering plants), and have the biological function of combining male sperm cells with female egg cells to produce seeds, the process starts with pollination, then fertilization, after which seeds are formed and propagated, for higher plants, the seeds are the next generation, the seeds grow into fresh flowers, and the flowers are pollinated and fertilized, so as to continue the life of the flower of the variety, and is a main means for the distribution of various species in the nature, the combination of flowers growing on the same plant is called an inflorescence, the broad sense fresh flower can refer to all plant reproductive organs with ornamental value, in the narrow sense, the flower refers to all flowering plants, and besides being used as reproductive organs of angiosperms, the fresh flowers are widely loved and used by people, mainly used for beautifying the environment and interpersonal communication, and also used as a food source.

Flowers are when beginning to cultivate, and especially some more precious flowers kind, and often the survival rate is not high, need cultivate on specific breeding device, and current flower breeding device survival rate is not high, uses not nimble enough, and water resource utilization is low moreover, can not realize the cyclic utilization of water resource, to above-mentioned condition, carries out technical innovation on current flower breeding device's basis.

Disclosure of Invention

The invention aims to provide a flower seedling cultivation device capable of increasing the survival rate, and aims to solve the problems that the conventional flower cultivation device in the background art is low in survival rate, not flexible to use, low in water resource utilization rate and incapable of realizing cyclic utilization of water resources.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a flowers seedling culture device of multiplicable survival rate, includes brace table, cultivates platform, first cultivation room and support column, brace table's below middle part is fixed with the base, and the header tank is all installed to the both sides of base, the water pump is installed to the below of header tank, and the left side of water pump installs the connecting valve, the outside of header tank is provided with the water pipe, brace table's both sides mid-mounting has the water purification filter core, and brace table's top both sides are fixed with the supporting seat, brace table's top mid-mounting has the boss, cultivate the bottom of platform and install the water leak valve, and cultivate the top that the platform is located the boss, the top both sides of cultivateing the platform all are fixed with the flexible post of hydraulic pressure, the right side of first cultivation room is provided with second cultivation room and third cultivation room respectively, and the second cultivation room is located the left side of third cultivation room, and first cultivation, The second cultivation room and the third cultivation room all are located the top of cultivating the platform, the runner is installed in the top outside of hydraulic stretching post, and the top of runner installs the water pipe connector, micro motor is installed in the left side of support column, and the support column is located the top of hydraulic stretching post, install the shower between the support column, and the below of shower is provided with the shower head, the locating wheel is installed to the top of support column, and the winding has the steel wire on the locating wheel, the internally mounted of support column has solar protection devices.

Preferably, the support platform is a boat-shaped structure.

Preferably, the number of the water collecting tanks is two, and the water collecting tanks are symmetrical with each other about a central axis of the supporting table.

Preferably, the water purification filter core includes filter core main part, active carbon filter layer and the cotton filter layer of PP, and the inside of filter core main part is installed active carbon filter layer and the cotton filter layer of PP respectively, and the active carbon filter layer is located the top of the cotton filter layer of PP moreover.

Preferably, the first culture chamber, the second culture chamber and the third culture chamber have the same structure, are distributed at equal intervals, and penetrate through the bottom of the culture platform through the water leakage valve.

Preferably, one end of the water pipe is respectively communicated with the water pump and the water collecting tank through a connecting valve, and the other end of the water pipe is communicated with the spraying pipe through a water pipe connector.

Preferably, solar protection devices includes splint, sunshading board, hasp and pivot, and the inside of splint is the cavity formula structure, and the internally mounted of splint has the sunshading board, and the top of splint is fixed with the hasp moreover, and one side of splint constitutes revolution mechanic through pivot and support column simultaneously.

Preferably, one end of the steel wire is connected with a micro motor, and the other end of the steel wire is connected with the lock catch by wrapping the positioning wheel.

Compared with the prior art, the invention has the beneficial effects that: this flower seedling breeding device of multiplicable survival rate, can carry out nimble adjustment, not only can add water and can also filter waste water to the flower seedling automatically, and can newly utilize, the device can also adjust the photosynthetic intensity of flower seedling, avoid sunshine too strong or too weak influence the survival rate of flower seedling, the device first cultivates the room, second cultivates the room and can cultivate three kinds of different flowers with the third cultivation room, the one end of water pipe is through connecing the valve respectively with water pump and header tank intercommunication, and the other end of water pipe leads to water piping connection head and shower intercommunication, the water pump utilizes the water pipe that purifies in the header to carry the inside of shower through the shower head is evenly sprayed in first cultivation room, the top of second cultivation room and third cultivation room, because one side of splint constitutes revolution mechanic through pivot and support column, the one end of steel wire is connected with micromotor, and the other end of steel wire is walked around the positioning wheel and is linked to each other with the hasp, and when the illumination intensity of flower seedling is adjusted to needs, micro motor passes through steel wire and hasp drive splint and rotates, and the sunshading board can contract in the inside of splint not only can carry out the sunshade and can also take shelter from the rain.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the water purification cartridge of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the sunshade device of the present invention.

In the figure: 1. the device comprises a base, 2, a support table, 3, a water collecting tank, 4, a water pump, 5, a connecting valve, 6, a water pipe, 7, a water purifying filter element, 701, a filter element main body, 702, an activated carbon filter layer, 703, a PP cotton filter layer, 8, a support seat, 9, a boss, 10, a cultivation table, 11, a water leakage valve, 12, a hydraulic telescopic column, 13, a first cultivation chamber, 14, a second cultivation chamber, 15, a third cultivation chamber, 16, a rotating wheel, 17, a water pipe connector, 18, a support column, 19, a micro motor, 20, a spraying pipe, 21, a spraying head, 22, a positioning wheel, 23, a steel wire, 24, a sun-shading device, 2401, a clamping plate, 2402, a sun-shading plate, 2403, a lock catch, 2404 and a rotating shaft.

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.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a flowers seedling breeding device of multiplicable survival rate, including brace table 2, cultivate the platform 10, first room 13 and support column 18 of growing up, the below middle part of brace table 2 is fixed with base 1, and the header tank 3 is all installed to the both sides of base 1, brace table 2 is the ship-shaped structure, the ship-shaped structure of brace table 2 can store a certain amount of moisture that comes from getting off through leaking water valve 11 seepage in the cultivate platform 10, header tank 3 is provided with two, and be symmetrical about the axis of brace table 2 between the header tank 3, header tank 3 can collect the water after the filtration, so that reuse, water pump 4 is installed to the below of header tank 3, and connecting valve 5 is installed in the left side of water pump 4, the outside of header tank 3 is provided with water pipe 6, the both sides mid-mounting of brace table 2 has water purification filter core 7, and the top both sides of brace table 2 are fixed with supporting seat 8, an activated carbon filter layer 702 and a PP cotton filter layer 703 are respectively arranged in the filter core main body 701, the activated carbon filter layer 702 and the PP cotton filter layer 703 are respectively arranged in the filter core main body 701, the activated carbon filter layer 702 is positioned above the PP cotton filter layer 703, the water purification filter core 7 filters wastewater flowing from the inside of the first culture chamber 13, the second culture chamber 14 and the third culture chamber 15 by using the activated carbon filter layer 702 and the PP cotton filter layer 703, a boss 9 is arranged in the middle of the upper part of the support platform 2, a water leakage valve 11 is arranged at the bottom of the culture platform 10, the culture platform 10 is positioned above the boss 9, hydraulic telescopic columns 12 are respectively fixed on two sides of the upper part of the culture platform 10, a second culture chamber 14 and a third culture chamber 15 are respectively arranged on the right side of the first culture chamber 13, the second culture chamber 14 is positioned on the left side of the third culture chamber 15, the first culture chamber 13, the second culture chamber 14 and the third culture chamber 15 are all positioned above the culture platform 10, and the first culture chamber 13, the second culture chamber 14 and the third culture chamber 15 are, The second culture chamber 14 and the third culture chamber 15 are identical in structure and are distributed at equal intervals, the bottoms of the three folding parts penetrate through the bottom of the culture platform 10 through a water leakage valve 11, the first culture chamber 13, the second culture chamber 14 and the third culture chamber 15 can culture three different flowers, a rotating wheel 16 is mounted on the outer side above a hydraulic telescopic column 12, a water pipe connector 17 is mounted above the rotating wheel 16, a micro motor 19 is mounted on the left side of the supporting column 18, the supporting column 18 is located above the hydraulic telescopic column 12, a spraying pipe 20 is mounted between the supporting columns 18, a spraying head 21 is arranged below the spraying pipe 20, one end of a water pipe 6 is respectively communicated with the water pump 4 and the water collecting tank 3 through a connecting valve 5, the other end of the water pipe 6 is communicated with the spraying pipe 20 through the water pipe connector 17, the water pump 4 conveys water purified in the collecting tank 3 to the inside of the spraying pipe 20 through the spraying head 21 and uniformly sprays the inside of the first culture chamber 13, the second culture chamber 14, the second, Above the second and

third incubation chambers

14, 15, above the support columns 18 are mounted positioning wheels 22, a steel wire 23 is wound on the positioning wheel 22, a sun-shading device 24 is installed inside the supporting column 18, the sun-shading device 24 comprises a clamping plate 2401, a sun-shading plate 2402, a lock catch 2403 and a rotating shaft 2404, the clamping plate 2401 is of a hollow structure, the sun-shading plate 2402 is installed inside the clamping plate 2401, and a lock 2403 is fixed above the clamp plate 2401, one side of the clamp plate 2401 forms a rotating structure with the supporting column 18 through a rotating shaft 2404, one end of a steel wire 23 is connected with a micro motor 19, the other end of the steel wire 23 is connected with the lock 2403 through a positioning wheel 22, when the illumination intensity of the fresh flower seedlings needs to be adjusted, the micro motor 19 drives the clamping plate 2401 to rotate through the steel wire 23 and the lock catch 2403, the sunshade plate 2402 can be retracted inside the splint 2401 to shade not only the sun but also the rain.

The working principle is as follows: when the flower seedling cultivation device capable of increasing survival rate is used, firstly, the basic structure of the device is simply known, the support table 2 is of a ship-shaped structure, a certain amount of water leaked from the cultivation table 10 through the water leakage valve 11 can be stored in the ship-shaped structure of the support table 2, the two water collection tanks 3 are arranged, the water collection tanks 3 are symmetrical to each other about the central axis of the support table 2, the water collection tanks 3 can collect the filtered water for reuse, the water purification filter element 7 utilizes the activated carbon filter layer 702 and the PP cotton filter layer 703 to filter the wastewater flowing down from the inside of the first cultivation chamber 13, the second cultivation chamber 14 and the third cultivation chamber 15, the first cultivation chamber 13, the second cultivation chamber 14 and the third cultivation chamber 15 are identical in structure and are distributed at equal intervals, meanwhile, the three-folded bottoms all penetrate through the bottom of the cultivation table 10 through the water leakage valve 11, and the first cultivation chamber 13, the second cultivation chamber 14 and the third cultivation chamber 15, The second cultivating chamber 14 and the third cultivating chamber 15 can cultivate three different flowers, one end of the water pipe 6 is respectively communicated with the water pump 4 and the water collecting tank 3 through the joint valve 5, the other end of the water pipe 6 is communicated with the spray pipe 20 through the water pipe connector 17, the water purified in the water collecting tank 3 is conveyed by the water pump 4 through the water pipe 6 to the interior of the spray pipe 20 and is uniformly sprayed on the upper parts of the first cultivating chamber 13, the second cultivating chamber 14 and the third cultivating chamber 15 through the spray head 21, because one side of the clamping plate 2401 forms a rotating structure with the supporting column 18 through the rotating shaft 2404, one end of the steel wire 23 is connected with the micro motor 19, the other end of the steel wire 23 is wound around the positioning wheel 22 and is mutually connected with the locking buckle 2403, when the illumination intensity of the flower seedling needs to be adjusted, the micro motor 19 drives the clamping plate 2401 to rotate through the steel wire 23 and the locking buckle 2403, and the sun shield 2402 can shrink in the clamping plate, this is the working principle of the flower seedling cultivation device which can increase the survival rate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a flower seedling breeding device of multiplicable survival rate, includes brace table (2), cultivates platform (10), first cultivation room (13) and support column (18), its characterized in that: a base (1) is fixed in the middle of the lower portion of the supporting table (2), water collecting tanks (3) are mounted on two sides of the base (1), a water pump (4) is mounted below the water collecting tanks (3), a connecting valve (5) is mounted on the left side of the water pump (4), water pipes (6) are arranged on the outer side of the water collecting tanks (3), water purifying filter elements (7) are mounted in the middle of two sides of the supporting table (2), supporting seats (8) are fixed on two sides of the upper portion of the supporting table (2), a boss (9) is mounted in the middle of the upper portion of the supporting table (2), a water leakage valve (11) is mounted at the bottom of the cultivation table (10), the cultivation table (10) is located above the boss (9), hydraulic telescopic columns (12) are fixed on two sides of the upper portion of the cultivation table (10), a second cultivation chamber (14) and a third cultivation chamber (15) are arranged on the right side of the first cultivation chamber (, the second cultivation chamber (14) is located on the left side of the third cultivation chamber (15), the first cultivation chamber (13), the second cultivation chamber (14) and the third cultivation chamber (15) are located above the cultivation platform (10), a rotating wheel (16) is installed on the outer side of the upper portion of the hydraulic telescopic column (12), a water pipe connector (17) is installed above the rotating wheel (16), a micro motor (19) is installed on the left side of the supporting column (18), the supporting column (18) is located above the hydraulic telescopic column (12), a spraying pipe (20) is installed between the supporting columns (18), a spraying head (21) is arranged below the spraying pipe (20), a positioning wheel (22) is installed above the supporting column (18), a steel wire (23) is wound on the positioning wheel (22), and a sun shading device (24) is installed inside the supporting column (18); one end of the water pipe (6) is respectively communicated with the water pump (4) and the water collecting tank (3) through a connecting valve (5), and the other end of the water pipe (6) is communicated with the spray pipe (20) through a water pipe connector (17); the sunshade device (24) comprises a clamping plate (2401), a sunshade plate (2402), a lock catch (2403) and a rotating shaft (2404), the clamping plate (2401) is of a hollow structure, the sunshade plate (2402) is installed inside the clamping plate (2401), the lock catch (2403) is fixed above the clamping plate (2401), meanwhile, one side of the clamping plate (2401) forms a rotating structure with a supporting column (18) through the rotating shaft (2404), the supporting table (2) is of a ship-shaped structure,

the water purification filter element (7) comprises a filter element main body (701), an activated carbon filter layer (702) and a PP cotton filter layer (703), the activated carbon filter layer (702) and the PP cotton filter layer (703) are respectively arranged in the filter element main body (701), the activated carbon filter layer (702) is positioned above the PP cotton filter layer (703),

the first culture chamber (13), the second culture chamber (14) and the third culture chamber (15) have the same structure, are distributed at equal intervals, and the bottoms of the three folds penetrate through the bottom of the culture platform (10) through a water leakage valve (11),

this flower seedling breeding device of multiplicable survival rate, can carry out nimble adjustment, not only can add water and can also filter waste water to the flower seedling automatically, and can newly utilize, the device can also adjust the photosynthetic intensity of flower seedling, avoid sunshine too strong or too weak influence the survival rate of flower seedling, the device first cultivates the room, second cultivates the room and can cultivate three kinds of different flowers with the third cultivation room, the one end of water pipe is through connecing the valve respectively with water pump and header tank intercommunication, and the other end of water pipe leads to water piping connection head and shower intercommunication, the water pump utilizes the water pipe that purifies in the header to carry the inside of shower through the shower head is evenly sprayed in first cultivation room, the top of second cultivation room and third cultivation room, because one side of splint constitutes revolution mechanic through pivot and support column, the one end of steel wire is connected with micromotor, and the other end of steel wire is walked around the positioning wheel and is linked to each other with the hasp, and when the illumination intensity of flower seedling is adjusted to needs, micro motor passes through steel wire and hasp drive splint and rotates, and the sunshading board can contract in the inside of splint not only can carry out the sunshade and can also take shelter from the rain.

2. The device for cultivating fresh flower seedlings capable of increasing survival rate of plants as claimed in claim 1, wherein: the water collecting tanks (3) are arranged in two numbers, and the water collecting tanks (3) are symmetrical about the central axis of the supporting table (2).

3. The device for cultivating fresh flower seedlings capable of increasing survival rate of plants as claimed in claim 1, wherein: one end of the steel wire (23) is connected with a micro motor (19), and the other end of the steel wire (23) is connected with the lock catch (2403) by passing around the positioning wheel (22).