CN113854005A - Indoor equipment of cultivating of sealwort - Google Patents

Abstract

The invention discloses sealwort indoor cultivation equipment, which comprises a frame body and a controller, wherein the frame body comprises two vertical plates which are vertically arranged at intervals, and one end of each vertical plate, which is far away from the ground, is provided with a top plate; a plurality of transverse plates are arranged between the two vertical plates, one end of each transverse plate is connected with one vertical plate, the other end of each transverse plate is connected with the other vertical plate, and the transverse plates are arranged at intervals along the direction from the top plate to the ground; one side of each transverse plate facing the top plate is respectively provided with a plurality of seedling raising seats; each seedling raising seat is arranged at intervals from one end of the transverse plate to the other end of the transverse plate; lamp belts are respectively arranged on one side of the top plate facing the transverse plates and one side of the transverse plates, which is far away from the top plate, except the transverse plate close to the ground, and the lamp belts are respectively in signal connection with the controller; each lamp strip extends to another riser direction along one of them riser respectively. According to the technical scheme provided by the invention, the controller is used for controlling the illumination of each polygonatum seedling through the controller control lamp belt, so that each polygonatum seedling can obtain sufficient sunlight, and the growth states of all polygonatum seedlings are unified.

Description

Indoor equipment of cultivating of sealwort

Technical Field

The invention relates to the technical field of polygonatum cultivation, in particular to polygonatum indoor cultivation equipment.

Background

Rhizoma polygonati is also named: rhizoma Polygonati, herba Elsholtziae Pendulifoliae, rhizoma Gynurae Divaricatae, rhizoma Zingiberis recens, and radix Codonopsis Lanceolatae. Is a plant of Polygonatum with transverse rhizome, cylindrical shape and enlarged nodule. The impeller is raw and has no handle. The medicinal plant has the functions of invigorating spleen, moistening lung and promoting fluid production. Sealwort is generally grown in places such as under forests, brush trees or in wet grass slopes, so that the original ecological environment of sealwort is strictly needed for indoor sealwort seedling cultivation, and particularly, the illumination needs to be strictly controlled. But present indoor cultivation is all through will set up a plurality of superpositions in growing seedlings the indoor seedling tray that educates, then sets up the light source at the top of growing seedlings the room, but because the stack of growing seedlings the dish for some grow seedlings dish illumination too sufficient, and some grow seedlings dish illumination not enough again, lead to the growth state of each sealwort seedling in whole seedling raising room to differ, influence the quality of sealwort seedling.

Disclosure of Invention

The invention mainly aims to provide sealwort indoor cultivation equipment, and aims to solve the problem that different sealwort seedlings in the same batch have different growth states due to different illumination on the sealwort seedlings in the seedling cultivation process.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

an indoor polygonatum sibiricum cultivation device comprises a frame body and a controller, wherein the frame body comprises two vertical plates which are vertically arranged at intervals, each vertical plate is used for being arranged perpendicular to the ground, and a top plate is arranged at one end, far away from the ground, of each vertical plate; a plurality of transverse plates are arranged between the two vertical plates, one end of each transverse plate is connected with one vertical plate, the other end of each transverse plate is connected with the other vertical plate, and the transverse plates are arranged in parallel at intervals along the direction from the top plate to the ground; a plurality of seedling raising seats are respectively arranged on one side of each transverse plate facing the top plate, and each seedling raising seat is used for raising seedlings of polygonatum; each seedling raising seat is arranged at intervals from one end of the transverse plate to the other end of the transverse plate; lamp strips are respectively arranged on one side, facing to the transverse plates, of the top plate and one side, away from the top plate, of the transverse plates except the transverse plates close to the ground, the lamp strips are respectively in signal connection with the controller, and the controller is used for controlling the on and off of the lamp strips; each lamp strip extends towards the other vertical plate along one vertical plate so as to provide illumination for the sealwort seedlings in the corresponding seedling culture seats.

Preferably, slide rails are respectively arranged on one side of the top plate facing to the transverse plates and one side of the transverse plates apart from the top plate except the transverse plates close to the ground, and the slide rails are respectively parallel to the lamp strip and positioned on one side of the lamp strip; each sliding rail is provided with an electric sliding seat in signal connection with the controller in a sliding manner, and the controller is used for controlling each electric sliding seat to slide along the extending direction of the sliding rail; the sealwort indoor cultivation equipment also comprises a box body and a plurality of connecting pipes, wherein the box body is used for loading liquid sprayed on sealwort seedlings; each electric sliding seat is respectively provided with an electric control nozzle which is in signal connection with the controller, each electric control nozzle is respectively communicated with the box body through a connecting pipe, and the controller is used for controlling the electric sliding seats to slide so that liquid in the box body is sprayed to the corresponding seedling culture seat through the electric control nozzles.

Preferably, a water collecting tank is arranged on one side of each transverse plate facing the top plate, and each water collecting tank extends along one vertical plate to the other vertical plate; a plurality of support columns are vertically arranged in each water collecting tank, each support column supports one seedling raising seat, and one end, close to the top plate, of each support column extends out of the water collecting tank, so that the seedling raising seats are located outside the water collecting tank.

Preferably, the seedling growing seat and the support column are detachably connected, one side of the seedling growing seat, which deviates from the top plate, is provided with a jack, one end of the support column, which is close to the top plate, is inserted into the jack, so that a flowing water space is reserved between the seedling growing seat and the bottom of the water collecting tank.

Preferably, a planting groove is formed in one side, facing the top plate, of each seedling raising seat surface, and a filtering hole is formed in the groove bottom of each planting groove, so that redundant liquid in each planting groove flows into the corresponding water collecting groove through the filtering hole.

Preferably, a drainage groove is formed in the bottom of the water collecting groove, and extends from one vertical plate to the other vertical plate; the vertical plate is provided with a plurality of drainage through holes, each drainage hole is arranged at intervals along one end of the vertical plate to the other end of the vertical plate, and each drainage hole is communicated with one drainage groove respectively, so that liquid in each drainage groove flows out of the water collecting groove through the corresponding drainage through hole.

Preferably, the depth of each drainage groove decreases progressively along the direction from the vertical plate provided with the drainage through hole to the other vertical plate.

Preferably, a vertical channel is formed in one side, away from each transverse plate, of each vertical plate provided with the drainage through hole, the vertical channel is perpendicular to the top plate, and each drainage through hole is communicated with the vertical channel respectively so that liquid passing through each drainage through hole enters the vertical channel; the outer side of the frame body is provided with a sewage tank, the sewage tank is positioned on one side, provided with the drainage through holes, of the vertical plates, which are deviated from the transverse plates, and the sewage tank is communicated with the vertical channel, so that liquid in the vertical channel flows into the sewage tank.

Preferably, the slide rail is an annular slide rail, and the annular slide rail surrounds the lamp strip.

Preferably, the top plate and the transverse plates except the transverse plate close to the ground are respectively provided with a water baffle plate, and the water baffle plates are used for preventing liquid of the transverse plates with higher horizontal height from flowing into the seedling raising seats of the transverse plates with lower horizontal height.

Compared with the prior art, the invention at least has the following beneficial effects:

the controller control lamp belt is used for controlling illumination of each sealwort seedling, so that each sealwort seedling can obtain sufficient sunlight, and the growth states of all sealwort seedlings are uniform.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of an indoor cultivation apparatus for Polygonatum sibiricum Red of the present invention;

FIG. 2 is a schematic structural view of the horizontal plate;

FIG. 3 is a schematic top view of the seedling-raising base of FIG. 2;

FIG. 4 is a schematic bottom view of FIG. 2;

FIG. 5 is a schematic structural view of a riser provided with drainage holes.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

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.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides sealwort indoor cultivation equipment.

As shown in fig. 1 to 5, an indoor polygonatum sibiricum cultivation device comprises a frame body 1 and a controller, wherein a main body of the frame body 1 comprises two vertical plates 11 which are vertically arranged at intervals, each vertical plate 11 is used for being arranged perpendicular to the ground, and one end, far away from the ground, of each vertical plate 11 is provided with a top plate 18; a plurality of transverse plates 12 are arranged between the two vertical plates 11, one end of each transverse plate 12 is connected with one vertical plate 11, the other end of each transverse plate 12 is connected with the other vertical plate 11, and the transverse plates 12 are arranged in parallel at intervals along the direction from the top plate 18 to the ground; one side of each transverse plate 12 facing the top plate 18 is respectively provided with a plurality of seedling raising seats 4, and each seedling raising seat 4 is used for raising sealwort seedlings; each seedling raising seat 4 is arranged at intervals from one end of the transverse plate 12 to the other end of the transverse plate 12; the lamp strips 2 are respectively arranged on one side of the top plate 18 facing the transverse plates 12 and one side of each transverse plate 12, which is far away from the top plate 18, except the transverse plate 12 close to the ground, and each lamp strip 2 is respectively in signal connection with a controller which is used for controlling the on and off of each lamp strip 2; each lamp strip 2 extends to another riser 11 direction along one of them riser 11 respectively to make each lamp strip 2 provide illumination to the sealwort seedling in the seedling culture seat 4 that corresponds respectively.

The controller control lamp strip 2 is used for controlling illumination of each sealwort seedling, so that each sealwort seedling can obtain sufficient sunlight, and the growth states of all sealwort seedlings are uniform.

Specifically, the sealwort indoor cultivation equipment further comprises a camera device in signal connection with the controller, and the camera device is used for shooting the growth state of sealwort seedlings in each seedling raising seat 4; the controller is also used for controlling the brightness and the illumination time of each lamp strip 2 so as to enable sealwort seedlings in each transverse plate 12 to present different growth states; the user can obtain the optimal illumination time and the illumination intensity of each variety of sealwort through different illumination intensity and illumination time to the growing image that the cooperation camera device was shot is stored to the controller together in, makes sealwort indoor cultivation equipment can be used for scientific research and cultivation, all real-time optimal illumination scheme to the sealwort of different varieties.

Specifically, a plurality of liquid cavities are arranged in the box body, each liquid cavity is communicated with the connecting pipe through a liquid outlet pipe, and each liquid outlet pipe is provided with an electric control valve which is in signal connection with the controller. Different liquids (such as water, pesticide liquid, fertilizer increasing liquid and the like) are respectively contained in the liquid chambers, and the controller controls the opening and closing of the different electric control valves so that the spray head can completely and effectively fertilize, water and prevent insects.

Referring to fig. 1 to 4, the side of the top plate 18 facing the transverse plates 12 and the side of the transverse plates 12 away from the top plate 18 except the transverse plate 12 close to the ground are respectively provided with a sliding rail 3, and each sliding rail 3 is respectively parallel to the lamp strip 2 and is positioned at one side of the lamp strip 2; each slide rail 3 is respectively provided with an electric slide seat 31 which is connected with a controller in a sliding way, and the controller is used for controlling each electric slide seat 31 to slide along the extending direction of the slide rail 3; the sealwort indoor cultivation equipment also comprises a box body and a plurality of connecting pipes, wherein the box body is used for loading liquid sprayed on sealwort seedlings; each electric sliding seat 31 is respectively provided with an electric control spray head 32 which is connected with a controller through a signal, each electric control spray head 32 is respectively communicated with the box body through a connecting pipe, and the controller is used for controlling the electric sliding seats 31 to slide so that liquid in the box body is sprayed to the corresponding seedling raising seats 4 through the electric control spray heads 32. The controller controls the electronic sliding bases to move so that the electronic sliding bases drive the electronic control spray heads 32 to move along the length direction of the transverse plate 12, and the electronic control spray heads 32 spray liquid to the adjacent seedling raising bases 4 with lower horizontal heights.

One side of each transverse plate 12 facing the top plate 18 is provided with a water collecting tank 13, and each water collecting tank 13 extends towards the other vertical plate 11 along one vertical plate 11; a plurality of support columns 14 are vertically arranged in each water collecting tank 13, each support column 14 supports one seedling raising seat 4, and one end, close to the top plate 18, of each support column 14 extends out of the water collecting tank 13, so that the seedling raising seat 4 is positioned outside the water collecting tank 13. The water collecting tank 13 is arranged to collect the redundant liquid sprayed by the electric control nozzle 32 in the water collecting tank 13, so as to prevent the liquid from flowing outwards.

The seedling raising seat 4 and the support column 14 are detachably connected, one side, deviating from the top plate 18, of the seedling raising seat 4 is provided with a jack, and the jack is inserted into one end, close to the top plate 18, of the support column 14, so that a flowing water space is reserved between the bottoms of the seedling raising seat 4 and the water collecting tank 13. The support column 14 can be dismantled with the seat of growing seedlings 4 and be connected, and convenience of customers plants and detects the sealwort seedling, and the flowing water space is used for supplying the liquid flow in the water catch bowl 13.

The side of each seedling raising seat 4 facing the top plate 18 is provided with a planting groove 41, and the bottom of the planting groove 41 is provided with a filter hole, so that redundant liquid in the planting groove 41 flows into the corresponding water collecting tank 13 through the filter hole. The arrangement of the filter holes can avoid the liquid from accumulating in the planting tank 41 and influencing the normal growth of the seedlings.

Referring to fig. 1, 2 and 5, a drainage groove 15 is formed at the bottom of the water collection tank 13, and the drainage groove 15 extends from one vertical plate 11 to the other vertical plate 11; a plurality of drainage through holes 16 are formed in one vertical plate 11, each drainage through hole 16 is arranged at an interval along one end of the vertical plate 11 towards the other end of the vertical plate 11, and each drainage through hole 16 is communicated with one drainage groove 15 respectively so that liquid in each drainage groove 15 flows out of the water collecting tank 13 through the corresponding drainage through hole 16.

The depth of each drainage groove 15 decreases progressively along the direction from the vertical plate 11 provided with the drainage through hole 16 to the other vertical plate 11, so that liquid automatically flows to the drainage through hole 16 under the influence of gravity, and the support columns 14 are uniform in height due to the arrangement of the drainage grooves 15, and if the water collection grooves 13 are inclined to a certain extent, the support columns 14 can be different in length in order to ensure that the seedling raising seats 4 are at the same height.

One side, away from each transverse plate 12, of each vertical plate 11 provided with the drainage through holes 16 is provided with a vertical channel 17, each vertical channel 17 is perpendicular to the top plate 18, and each drainage through hole 16 is communicated with the vertical channel 17 so that liquid passing through each drainage through hole 16 enters the vertical channel 17; the outer side of the frame body 1 is provided with the sewage tank 5, the sewage tank 5 is positioned at one side of the vertical plate 11 provided with the drainage through hole 16 and deviated from each transverse plate 12, and the sewage tank 5 is communicated with the vertical channel 17, so that liquid in the vertical channel 17 flows into the sewage tank 5. Vertical passageway 17 and sewage case 5's setting make sewage case 5 can be same collect by drainage channel exhaust liquid, have guaranteed the indoor clean and tidy of growing seedlings.

The slide rail 3 is an annular slide rail 3, and the annular slide rail 3 is arranged around the lamp strip 2. The annular slide rail 3 can make the shower nozzle freely spray each side of sealwort seedling, prevents that the shower nozzle from spraying one side for a long time and making whole sealwort seedling grow malformation.

The top plate 18 and the transverse plates 12 except the transverse plate 12 close to the ground are respectively provided with a water baffle 6, and the water baffle 6 is used for preventing liquid of the transverse plate 12 with higher horizontal height from flowing into the seedling culture seat 4 of the transverse plate 12 with lower horizontal height. The water baffle 6 can prevent the liquid from entering the lower layer last time, and prevent the sealwort seedling of the lower layer from being polluted. Specifically, breakwater 6 and diaphragm 12 can be dismantled and be connected, can avoid the baffle to influence the user like this and detect or look over the growth state of sealwort seedling.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An indoor polygonatum sibiricum cultivation device is characterized by comprising a frame body and a controller, wherein the frame body comprises two vertical plates which are vertically arranged at intervals, each vertical plate is used for being arranged perpendicular to the ground, and a top plate is arranged at one end, far away from the ground, of each vertical plate; a plurality of transverse plates are arranged between the two vertical plates, one end of each transverse plate is connected with one vertical plate, the other end of each transverse plate is connected with the other vertical plate, and the transverse plates are arranged in parallel at intervals along the direction from the top plate to the ground; a plurality of seedling raising seats are respectively arranged on one side of each transverse plate facing the top plate, and each seedling raising seat is used for raising seedlings of polygonatum; each seedling raising seat is arranged at intervals from one end of the transverse plate to the other end of the transverse plate; lamp strips are respectively arranged on one side, facing to the transverse plates, of the top plate and one side, away from the top plate, of the transverse plates except the transverse plates close to the ground, the lamp strips are respectively in signal connection with the controller, and the controller is used for controlling the on and off of the lamp strips; each lamp strip extends towards the other vertical plate along one vertical plate so as to provide illumination for the sealwort seedlings in the corresponding seedling culture seats.

2. The indoor polygonatum sibiricum cultivation device according to claim 1, wherein slide rails are respectively disposed on one side of the top plate facing the transverse plates and one side of the transverse plates apart from the top plate except the transverse plates near the ground, and the slide rails are respectively parallel to and located on one side of the light strip; each sliding rail is provided with an electric sliding seat in signal connection with the controller in a sliding manner, and the controller is used for controlling each electric sliding seat to slide along the extending direction of the sliding rail; the sealwort indoor cultivation equipment also comprises a box body and a plurality of connecting pipes, wherein the box body is used for loading liquid sprayed on sealwort seedlings; each electric sliding seat is respectively provided with an electric control nozzle which is in signal connection with the controller, each electric control nozzle is respectively communicated with the box body through a connecting pipe, and the controller is used for controlling the electric sliding seats to slide so that liquid in the box body is sprayed to the corresponding seedling culture seat through the electric control nozzles.

3. The indoor polygonatum sibiricum cultivation equipment according to claim 2, wherein a water collection tank is formed in one side of each transverse plate facing the top plate, and each water collection tank extends along one of the vertical plates to the other vertical plate; a plurality of support columns are vertically arranged in each water collecting tank, each support column supports one seedling raising seat, and one end, close to the top plate, of each support column extends out of the water collecting tank, so that the seedling raising seats are located outside the water collecting tank.

4. The indoor polygonatum sibiricum cultivation equipment according to claim 3, wherein the seedling raising seat is detachably connected with the support column, one side of the seedling raising seat, which is away from the top plate, is provided with a jack, and one end of the support column, which is close to the top plate, is inserted into the jack, so that a flowing water space is reserved between the seedling raising seat and the bottom of the water collection tank.

5. The indoor polygonatum sibiricum cultivation equipment as claimed in claim 3, wherein each seedling raising seat surface is provided with a planting groove at one side facing the top plate, and the bottom of each planting groove is provided with a filtering hole, so that redundant liquid in each planting groove flows into the corresponding water collection groove through the filtering hole.

6. The indoor polygonatum sibiricum cultivation equipment according to claim 3, wherein a drainage groove is formed in the bottom of the water collection groove and extends from one of the vertical plates to the other vertical plate; the vertical plate is provided with a plurality of drainage through holes, each drainage hole is arranged at intervals along one end of the vertical plate to the other end of the vertical plate, and each drainage hole is communicated with one drainage groove respectively, so that liquid in each drainage groove flows out of the water collecting groove through the corresponding drainage through hole.

7. The indoor polygonatum sibiricum cultivation device according to claim 6, wherein the depth of each drainage groove decreases gradually along the direction from the vertical plate on which the drainage through hole is formed to the other vertical plate.

8. The indoor polygonatum sibiricum cultivation equipment according to claim 6, wherein a vertical channel is formed in one side, away from each transverse plate, of each vertical plate provided with the drainage through hole, the vertical channel is perpendicular to the top plate, and each drainage through hole is communicated with the vertical channel so that liquid passing through each drainage through hole enters the vertical channel; the outer side of the frame body is provided with a sewage tank, the sewage tank is positioned on one side, provided with the drainage through holes, of the vertical plates, which are deviated from the transverse plates, and the sewage tank is communicated with the vertical channel, so that liquid in the vertical channel flows into the sewage tank.

9. The indoor polygonatum sibiricum cultivation equipment according to any one of claims 2 to 8, wherein the slide rail is an annular slide rail, and the annular slide rail is disposed around the lamp strip.

10. An indoor sealwort cultivation device according to any one of claims 2 to 8, wherein water baffles are respectively arranged on the top plate and each of the transverse plates except the transverse plate close to the ground, and the water baffles are used for preventing liquid of the transverse plate with a higher level from flowing into the seedling raising seats of the transverse plate with a lower level.

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