CN218587886U - Adjustable plant nursery cabinet - Google Patents

Abstract

The utility model discloses an adjustable plant frame of growing seedlings, including educating seedling tray and support frame, be equipped with the division board of separating four loculus rooms with the disk body in the disk body, four loculus rooms are two rows of mode arrangement settings of being listed as, it is the cultivation cavity in addition to send liquid cavity to be three loculus rooms to one of them loculus rooms in four loculus rooms, it is provided with three to cultivate the board, three cultivation board correspondence is in three cultivation cavity departments, three cultivation board is placed on the disk body with the mode that can transversely reach vertical translation, during the application, three cultivation board corresponds the three different nutrient solutions of cultivating in the cavity and can cultivate the spinach of different stages, it all shifts or wholly trades the nutrient solution to need not every stage to the spinach, and three stock solution chamber can add different nutrient solutions, need not mention the cultivation board and add the nutrient solution.

Description

Adjustable plant nursery cabinet

Technical Field

The utility model relates to a plant seedling growing technical field, concretely relates to adjustable plant seedling growing frame.

Background

The adjustable plant seedling frame is mainly used for cultivating the seedlings of the water-cultured vegetables.

Traditional adjustable plant seedling growing frame has educates seedling tray and support frame, educates seedling tray and is provided with two, and two educate seedling tray interval settings from top to bottom, and the seedling tray fixed mounting that educates that is in the below is on the lower part of support frame, and the mode that the seedling tray that educates that is in the top is installed on the upper portion of support frame with ability oscilaltion regulation, educates seedling tray and has the disk body and be in the cultivation board of disk body, and the disk body is the open cavity casing of top surface, sets up the stretching hole that a plurality of water supply was banked up with earth the seedling and is stretched into on the cultivation board.

However, the traditional adjustable plant seedling raising frame can only cultivate the same batch of hydroponic vegetables, the efficiency is not high, spinach is required to be divided into three stages in the hydroponic process, the spinach seedling stage just transplanting to the cultivation plate and only sprouting and growing leaves, the spinach seedling stage in the middle stage to be matured and the spinach ripening stage in the later stage are different, three kinds of nutrient solutions required in the three stages are different, so that spinach is required to be transferred in each stage, or the nutrient solution in the plate body is poured and replaced with new nutrient solution, and the method can not only cause the waste of the nutrient solution, but also has low efficiency.

Accordingly, the present inventors have made extensive studies on the above problems, and as a result, the present invention has been made.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a spinach is cultivated to high efficiency can not cause the waste of nutrient solution, and to carrying out the adjustable plant seedling frame of high-efficient change nutrient solution in spinach each stage.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an adjustable plant seedling raising frame comprises two seedling raising disks and a support frame, wherein the two seedling raising disks are arranged at intervals up and down, the seedling raising disk below is fixedly arranged on the lower part of the support frame, the seedling raising disk above is arranged on the upper part of the support frame in a way of being capable of being adjusted in an up-down lifting mode, the seedling raising disk is provided with a disk body and a cultivation plate in the disk body, the disk body is a hollow shell with an open top surface, and a plurality of extension holes for water supply seedling culture to extend into are formed in the cultivation plate; the method is characterized in that: the tray body is internally provided with a partition board which divides the tray body into four small cavities, the four small cavities are arranged in two rows and two columns, one of the four small cavities is a liquid feeding cavity, the other three small cavities are all cultivation cavities, the liquid feeding cavity is internally provided with three liquid storage cavities which divide the liquid feeding cavity into three non-communicated liquid storage cavities, one liquid storage cavity is communicated with one cultivation cavity, the other two liquid storage cavities are communicated with the other cultivation cavity, the three liquid storage cavities are communicated with the other cultivation cavity, the cultivation plate is provided with three cultivation plates, the three cultivation plates are correspondingly positioned at the three cultivation cavities, and the three cultivation plates are placed on the tray body in a transverse and longitudinal translation mode.

The tray body is of a rectangular structure, the length direction of the tray body is the left-right direction, the width direction of the tray body is the front-back direction, the two support frames are arranged oppositely left and right, concave notches which are closed-loop-shaped and communicated with the upper end port of the tray body are formed in the inner side of the top surface of the tray body, the four small chambers are rectangular chambers correspondingly, the length directions of the small chambers are the same as the length direction of the tray body, the partition plate is provided with a side vertical plate which is vertically arranged along the front-back direction in an extending mode and a transverse vertical plate which is vertically arranged along the left-right direction in an extending mode, the side vertical plate and the transverse vertical plate are arranged in a mutually perpendicular and crossed mode, and the groove bottom of each concave notch, the top surface of the side vertical plate and the top surface of the transverse vertical plate are on the same plane.

Two small cavities on the front side in the four small cavities are respectively a front left cavity and a front right cavity, two small cavities on the rear side are respectively a rear left cavity and a rear right cavity, the front right cavity is the liquid conveying cavity, the rear right cavity, the rear left cavity and the front left cavity are the cultivation cavities, a long partition plate extending in the left-right direction of the front right cavity is arranged in the front right cavity, the front right cavity is divided into the front cavity and the rear cavity by the long partition plate, a short partition plate extending in the front-rear direction of the rear cavity is arranged in the rear cavity, the rear cavity is divided into the left cavity and the right cavity by the short partition plate, a first liquid guide channel for communicating the rear right cavity with the right cavity is arranged on the transverse vertical plate, a second liquid guide channel for communicating the rear left cavity with the left cavity is arranged at the intersection of the side vertical plate and the transverse vertical plate, and a third liquid guide channel for communicating the front left cavity with the front cavity is arranged on the side vertical plate.

And the cavity wall of the front right cavity is positioned at the cavity walls of the first liquid guide channel, the second liquid guide channel and the third liquid guide channel, and is provided with a one-way liquid guide film matched with the first liquid guide channel, the second liquid guide channel and the third liquid guide channel, and the permeable surface of the one-way liquid guide film faces towards the front right cavity.

The tank bottom of above-mentioned notch groove is recessed to have along notch groove encircle the setting and be the first recess of closed loop form, the top surface undercut of above-mentioned side riser is equipped with the second recess that extends the setting along side riser length direction, the top surface undercut of above-mentioned horizontal riser is equipped with the third recess that extends the setting along horizontal riser length direction, first recess, second recess and third recess homogeneous phase intercommunication, first recess, second recess and third recess constitute a sliding tray, cultivate the board and stack in the tank bottom of notch groove, the top surface of side riser and on the top surface of horizontal riser, the bottom surface of cultivation board is installed its partial position and is stretched into in the sliding tray and can follow the gliding sliding ball of each direction of sliding tray.

The front side and the rear side of the bottom surface of the cultivation plate are respectively provided with a plurality of first circular cavities which are arranged at the same side in an upwards concave mode, the first circular cavities which are arranged at the same side in the length direction of the cultivation plate are arranged at intervals, the left side and the right side of the bottom surface of the cultivation plate are respectively provided with a plurality of second circular cavities which are arranged at the same side in an upwards concave mode, the second circular cavities which are arranged at the same side in the width direction of the cultivation plate are arranged at intervals, the sliding balls are steel balls, the steel balls are arranged in the first circular cavities and the second circular cavities, the lower portions of the steel balls extend out of the bottom surface of the cultivation plate, a limiting ring is sleeved outside the steel balls, the position of the maximum outer diameter of each steel ball is located above the limiting ring, the limiting ring is located in the cultivation plate and is adhered to the cultivation plate, and the groove walls of the first groove, the second groove and the third groove are concave arc grooves which can allow the sliding balls to slide out and slide in.

The utility model relates to an adjustable plant nursery cabinet, during the application, the user corresponds the three stock solution intracavity that injects into the liquid cavity that send with different nutrient solution, make the different nutrient solution in the three stock solution intracavity respectively enter into the three cultivation cavity that corresponds at last, place three cultivation on the cavity with three cultivation board again, through the user with sprouting on the spinach seedling transplantation trunk of living leaf arrives the cultivation board on the cultivation cavity of depositing the nutrient solution that corresponds, place the root of spinach seedling one by one and stretch out downtheholely, grow to middle stage portable cultivation board when the spinach, move the cultivation board to the cultivation cavity of depositing spinach middle stage required nutrient solution and corresponding, and the cultivation cavity of vacancy cultivation board then removes by another cultivation board and covers, and can cultivate new spinach seedling, so on, three cultivation board corresponds different nutrient solutions in the three cultivation cavity and can cultivate the spinach of different stages and cultivate, need not all to shift the spinach in every stage or wholly change the nutrient solution, and three stock solution can add different nutrient solutions, need not to mention the cultivation board.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is an exploded view of the nursery site;

FIG. 3 is a top view of the tray body;

FIG. 4 is a perspective view of the plate with the bottom plate facing upward;

fig. 5 is an enlarged view of a.

Detailed Description

The utility model discloses an adjustable plant frame of growing seedlings, as shown in fig. 1-5, including educating seedling tray and support frame 1, it is provided with two to educate seedling tray, two educate seedling tray upper and lower intervals and set up, educate seedling tray fixed mounting on support frame 1's lower part in the below, the mode that educates seedling tray with ability oscilaltion regulation of being in the top is installed on support frame 1's upper portion, educate seedling tray and have disk body 2 and be in the culture plate 3 of internal, disk body 2 is the open cavity casing of top surface, it supplies water to set up a plurality of on the culture plate 3 and banks up the hole 100 that stretches out that the seedling stretches into, excellent, respectively stretch out the top surface that hole 100 intervals were covered with culture plate 3.

The tray body 2 is internally provided with a partition board which divides the tray body into four small chambers, the four small chambers are arranged in two rows and two columns, preferably, the tray body 2 is of a rectangular structure, the length direction of the tray body 2 is the left-right direction, the width direction of the tray body 2 is the front-back direction, the two support frames 1 are oppositely arranged left and right, the four small chambers are correspondingly rectangular chambers, the length direction of the small chambers is the same as the length direction of the tray body 2, the partition board is provided with a side vertical plate 21 which extends and is vertically arranged along the front-back direction and a transverse vertical plate 22 which extends and is vertically arranged along the left-right direction, the side vertical plate 21 and the transverse vertical plate 22 are mutually and crosswise arranged, one small chamber of the four small chambers is a liquid feeding chamber, the other three small chambers are cultivation chambers, the liquid feeding chamber is internally provided with three liquid storage chambers which are not communicated with each other, one liquid storage chamber is communicated with one cultivation chamber, and the other liquid storage chamber is communicated with the other cultivation chamber, the three liquid storage cavities are communicated with another cultivating cavity, specifically, two small cavities at the front side in the four small cavities are respectively a front left cavity 23 and a front right cavity 24, two small cavities at the rear side are respectively a rear left cavity 25 and a rear right cavity 26, the front right cavity is a liquid feeding cavity, the front left cavity 23, the rear left cavity 25 and the rear right cavity 26 are both cultivating cavities, a long partition board 241 extending along the left-right direction of the front right cavity is arranged in the front right cavity 24, the front right cavity is divided into a front cavity 242 and a rear cavity by the long partition board 24, a short partition board 243 extending along the front-rear direction of the rear cavity is arranged in the rear cavity, the rear cavity is divided into a left cavity 244 and a right cavity 245 by the short partition board, a first liquid guide channel 200 communicating the rear right cavity 26 with the right cavity 245 is arranged on the transverse vertical plate 22, a second liquid guide channel 300 communicating the rear left cavity 25 with the left cavity 244 is arranged at the intersection of the partition board at the side vertical plate 21 and the transverse vertical plate 22, the third liquid guide channel 400 communicated with the front left chamber 23 and the front chamber 242 is arranged on the side vertical plate 21, when the device is applied, different nutrient liquids are injected into the right chamber 245 communicated with the rear right chamber 26, the left chamber 244 communicated with the rear left chamber 25 and the front chamber 242 communicated with the front left chamber 23 by a worker, so that different nutrient liquids can be respectively stored in the rear front left chamber 23, the rear left chamber 25 and the right chamber 26, and the nutrient liquids only need to be added into the front chamber 242, the left chamber 244 and the right chamber 245 in the following process without lifting the cultivation plate 3 for adding, the nutrient liquids required by spinach seedlings are in the rear right chamber 26, the nutrient liquids required by spinach in the middle growth period are in the rear left chamber 25, and the nutrient liquids required by the rear ripening of the spinach are in the front left chamber 23.

The inner side of the top surface of the tray body 2 is concavely provided with a concave slot 27 which is closed loop and is communicated with the upper end port of the tray body 2, four small chambers are positioned in a rectangular frame, the tank bottom of the concave slot 27, the top surface of the side vertical plate 21 and the top surface of the transverse vertical plate 22 are positioned on the same plane, three cultivation plates 3 are arranged at the three cultivation chambers correspondingly, the three cultivation plates 3 are stacked at the tank bottom of the concave slot 27 of the tray body 2, the top surface of the side vertical plate 21 and the top surface of the transverse vertical plate 22 in a transverse and longitudinal translation mode, in particular, the tray body 2 is positioned at the tank bottom of the concave slot 27 and is provided with a first groove 271 extending along the length direction of the tank bottom of the concave slot 27, the top surface of the side vertical plate 21 is concavely provided with a second groove 211 extending along the length direction of the side vertical plate 21, the top surface of the transverse vertical plate 22 is concavely provided with a third groove 221 extending along the length direction of the transverse vertical plate 22, the first groove 271, the second groove 211 and the third groove 221 are communicated, the first groove 271, the second groove 211 and the third groove 221 form a sliding groove, the cultivation plate 3 is stacked on the bottom of the concave groove 27, the top of the side vertical plate 21 and the top of the transverse vertical plate 22, sliding balls 31 with parts extending into the sliding groove and capable of sliding along each direction of the sliding groove are mounted on the bottom of the cultivation plate 3, a plurality of first circular concave cavities are upwardly and concavely arranged on the front side and the rear side of the bottom of the cultivation plate 3, preferably, the number of the first circular concave cavities is twelve, six of the front side and the rear side of the bottom of the cultivation plate 3 are respectively arranged, six first circular concave cavities on the same side are arranged at intervals along the length direction of the cultivation plate 3, a plurality of second circular concave cavities are upwardly and concavely arranged on the left side and the right side of the bottom of the cultivation plate 3, preferably, the number of the second circular concave cavities is six, three of the left side and the right side of the bottom of the cultivation plate 3, the three second circular cavities on the same side are arranged at intervals along the width direction of the cultivation plate 3, the sliding balls 31 are steel balls, the steel balls are arranged in the first circular cavities and the second circular cavities, the lower portions of the steel balls extend out of the bottom surface of the cultivation plate 3, limiting rings 32 are sleeved outside the steel balls, the positions of the maximum outer diameters of the steel balls are located above the limiting rings 32, the limiting rings 2 are located in the cultivation plate 3 and are adhered to the cultivation plate 3, and the groove walls of the first groove 241, the second groove 211 and the third groove 221 are all concave arc grooves in which the sliding balls 31 can slide out and in.

The utility model relates to an adjustable plant seedling rack, when in use, a user correspondingly injects nutrient solution into a left chamber 244, a right chamber 245 and a front chamber 242, after the first drainage channel 200, the second drainage channel 300 and the third drainage channel 400 are used for transmitting the nutrient solution, nutrient solution can enter the rear right chamber 26, the rear left chamber 25 and the front left chamber 23, and finally three cultivation plates 3 are placed on the rear right chamber 26, the rear left chamber 25 and the front left chamber 23, a user transfers the spinach seedlings with the sprouting and leaf-growing leaves to the cultivation plates corresponding to the rear right chamber 26, the roots of the spinach seedlings are placed in the extending holes 100 one by one, when the spinach seedling grows to the middle stage, the user moves the cultivating plate 3 corresponding to the front left chamber 23 to the rear right chamber 26, moves the cultivating plate on the original rear right chamber 26 to the rear left chamber 25, then the corresponding cultivating plate on the left chamber 25 is moved to the front left chamber 23, then the vacant cultivating plate 3 on the right chamber 26 can be used for cultivating new spinach seedlings, after the spinach on the cultivating plate 3 corresponding to the rear left chamber 25 grows to the later stage, the cultivating plate 3 is moved to the front left chamber 23, so that the nutrient solution in the front left chamber 23 can finally ripen the spinach to be ripened, and so on, it is possible to cultivate spinach of different stages on the three cultivating plates 3. Compared with the prior art, spinach of different stages can be cultivated by the three cultivating plates 3 corresponding to the rear right chamber 26, the rear left chamber 25 and the front left chamber 23, without transferring the spinach of each stage or replacing the whole spinach with nutrient solution, and preceding cavity 242, left cavity 245 and right cavity 244 all can add different nutrient solution, need not mention and cultivate board 3 and add the nutrient solution, and it is more convenient to use.

The utility model discloses in, the chamber wall department of preceding right cavity is located first drain channel 200, the one-way liquid guide membrane of drain channel 300 and third drain channel 400 all installs and leads drain channel 200 with first drain channel 200, second drain channel 300 and third drain channel 400 assorted single-guide liquid membrane, one-way drain membrane can permeate water one side towards preceding right cavity 24, one-way liquid guide membrane is one kind can carry out the membrane of one-way conduction with liquid flow, for the well-known technique, do not describe here tiredly, in the time of using, the user pours nutrient solution into left cavity 244 into, right cavity 245 and preceding cavity 242, utilize first drain channel 200, the cooperation single-guide liquid membrane of second drain channel 300 and third drain channel 400 can lead to left cavity 26 after nutrient solution leading-in, in right cavity 25 of back and the preceding left cavity 23, right cavity 24 leads to the volatilizing waste of nutrient solution before avoiding left cavity 26 of back, right cavity 25 and preceding left cavity 23 reverse inflow.

The examples and drawings are not intended to limit the form and style of the product of the present invention, and any suitable changes or modifications made therein by those of ordinary skill in the art should be considered as not departing from the scope of the present invention.

Claims (6)

1. An adjustable plant seedling raising frame comprises two seedling raising trays and a support frame, wherein the two seedling raising trays are arranged at intervals up and down, the seedling raising tray positioned below is fixedly arranged on the lower part of the support frame, the seedling raising tray positioned above is arranged on the upper part of the support frame in a way of being capable of being adjusted in an up-and-down lifting mode, the seedling raising tray is provided with a tray body and a cultivation plate positioned in the tray body, the tray body is a hollow shell with an open top surface, and a plurality of extension holes for water supply seedling culture to extend into are formed in the cultivation plate; the method is characterized in that: the tray body is internally provided with a partition board which divides the tray body into four small cavities, the four small cavities are arranged in two rows and two columns, one of the four small cavities is a liquid feeding cavity, and the other three small cavities are all cultivation cavities, the liquid feeding cavity is internally provided with three liquid storage cavities which divide the liquid feeding cavity into three parts which are not communicated with each other, one liquid storage cavity is communicated with one cultivation cavity, the other two liquid storage cavities are communicated with the other cultivation cavity, the three liquid storage cavities are communicated with the other cultivation cavity, the cultivation plates are provided with three parts, the three cultivation plates are correspondingly positioned at the three cultivation cavities, and the three cultivation plates are placed on the tray body in a mode of horizontal and longitudinal translation.

2. The adjustable plant nursery sock of claim 1, wherein: the tray body is of a rectangular structure, the length direction of the tray body is the left-right direction, the width direction of the tray body is the front-back direction, the two support frames are arranged oppositely left and right, concave notches which are closed-loop-shaped and communicated with the upper end port of the tray body are formed in the inner side of the top surface of the tray body, the four small chambers are rectangular chambers correspondingly, the length directions of the small chambers are the same as the length direction of the tray body, the partition plate is provided with a side vertical plate which is vertically arranged along the front-back direction in an extending mode and a transverse vertical plate which is vertically arranged along the left-right direction in an extending mode, the side vertical plate and the transverse vertical plate are arranged in a mutually perpendicular and crossed mode, and the groove bottom of each concave notch, the top surface of the side vertical plate and the top surface of the transverse vertical plate are on the same plane.

3. The adjustable plant nursery sock of claim 2, wherein: the liquid feeding device comprises four small cavities, wherein two small cavities on the front side are respectively a front left cavity and a front right cavity, two small cavities on the rear side are respectively a rear left cavity and a rear right cavity, the front right cavity is the liquid feeding cavity, the rear right cavity, the rear left cavity and the front left cavity are the cultivation cavities, a long partition plate extending in the left-right direction of the front right cavity is arranged in the front right cavity, the long partition plate divides the front right cavity into the front cavity and the rear cavity, a short partition plate extending in the front-rear direction of the rear cavity is arranged in the rear cavity, the short partition plate divides the rear cavity into the left cavity and the right cavity, a first liquid guide channel communicating the rear right cavity with the right cavity is arranged on the transverse vertical plate, a second liquid guide channel communicating the rear left cavity with the left cavity is arranged at the intersection of the side vertical plate of the partition plate and the transverse vertical plate, and a third liquid guide channel communicating the front left cavity with the front cavity is arranged on the side vertical plate.

4. The adjustable plant seedling rack as set forth in claim 3, wherein: and the cavity wall of the front right cavity is positioned at the cavity walls of the first liquid guide channel, the second liquid guide channel and the third liquid guide channel, and is provided with a one-way liquid guide film matched with the first liquid guide channel, the second liquid guide channel and the third liquid guide channel, and the permeable surface of the one-way liquid guide film faces towards the front right cavity.

5. The adjustable plant seedling rack as set forth in claim 2, wherein: the tank bottom of above-mentioned notch groove is recessed to have along the notch groove encircles the first recess that sets up and be closed annular, the top surface undercut of above-mentioned side riser is equipped with the second recess that extends the setting along side riser length direction, the top surface undercut of above-mentioned horizontal riser is equipped with the third recess that extends the setting along horizontal riser length direction, first recess, second recess and third recess homogeneous phase intercommunication, first recess, second recess and third recess constitute a sliding tray, cultivate the board and fold the tank bottom of notch groove, the top surface of side riser and the top surface of horizontal riser on, cultivate the bottom surface of board and install its partial position and stretch into the sliding tray and can follow the gliding sliding ball of each direction of sliding tray.

6. The adjustable plant nursery sock of claim 5, wherein: the front side and the rear side of the bottom surface of the cultivation plate are respectively provided with a plurality of first circular cavities which are arranged on the same side in an upwards concave mode, the first circular cavities on the same side are arranged at intervals in the length direction of the cultivation plate, the left side and the right side of the bottom surface of the cultivation plate are respectively provided with a plurality of second circular cavities in an upwards concave mode, the second circular cavities on the same side are arranged at intervals in the width direction of the cultivation plate, the sliding balls are steel balls, the steel balls are arranged in the first circular cavities and the second circular cavities, the lower portions of the steel balls extend out of the bottom surface of the cultivation plate, limiting rings are sleeved outside the steel balls, the positions of the maximum outer diameters of the steel balls are located above the limiting rings, the limiting rings are located in the cultivation plate and are adhered to the cultivation plate, and the groove walls of the first groove, the second groove and the third groove are concave arc grooves for the sliding balls to slide out and in.

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