CN212393501U - Movably connected type field planting plate and hydroponic planting equipment - Google Patents

Abstract

The utility model discloses a movable connection type field planting plate and hydroponic planting equipment, wherein the movable connection type field planting plate comprises a field planting plate provided with at least one field planting basket hole, a connecting boss connected with the first end of the field planting plate and a connecting plate connected with the second end of the field planting plate, the bottom of the connecting boss is provided with a connecting groove matched with the connecting plate, two adjacent field planting plates are connected with the connecting plate through the connecting boss, and the field planting plate is provided with a plurality of field planting basket holes; the hydroponic planting equipment comprises a planting groove, a guide rail assembly and a movably connected planting plate, wherein the planting groove is a V-shaped long groove, sealing plates are arranged at two ends of the planting groove, the guide rail assembly is arranged at the tops of two opposite side walls of the planting groove, and the planting plate covers the tops of the two guide rail assemblies; realize a plurality of field planting boards through being connected boss and connecting plate and be connected and cover planting the groove, a plurality of field planting boards remove simultaneously and are convenient for unified management, and the boss of being connected between the field planting board can prevent that dust and water from getting into with the connecting plate and planting inslot portion.

Description

Movably connected type field planting plate and hydroponic planting equipment

Technical Field

The utility model relates to a hydroponic planting device field, concretely relates to swing joint formula field planting board and hydroponic planting equipment.

Background

The existing hydroponic planting equipment in the market still stays in a floating plate type or pipeline type planting mode, the largest defect of the floating plate type is that when the floating plate type or pipeline type planting mode is used for planting, the ventilation and light supplement effects are not as good as those of the pipeline type, although a part of pipeline type products divide a planting groove into an upper part and a lower part, the upper part and the lower part cannot move freely, and automatic planting equipment is still difficult to carry; in addition, the ventilation environment and the sewage discharge capacity in the pipeline are not strong, which influences the rapid growth of plants;

therefore, the upper and lower planting grooves need to be changed into a planting structure with the upper part movable and detachable; a reasonable ventilation channel is arranged between the upper structure and the lower structure, so that the ventilation condition in the pipeline is effectively improved; the structure has the capability of rapid pollution discharge, and can thoroughly improve the growth environment of the plant roots; automatic equipment can be carried, so that the planting mode can be realized from head to tail and from head to tail, and the labor intensity is thoroughly reduced; especially in the aspect of planting leaf vegetables, the planting operation environment is not affected by the planting area;

in addition, in addition to the floating root method planting technique, tide type water culture technique, aerial fog cultivation technique and the like can be adopted in the planting technique.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a movable connection type field planting plate is provided, a plurality of field planting plates can be connected through the connection of a connecting boss and a connecting plate to cover a planting groove, the field planting plates can move simultaneously, the field planting plates can move uniformly, the connecting boss and the connecting plate between the field planting plates can prevent dust and water from entering the interior of the planting groove, a gap is arranged at the top of a field planting basket hole on the field planting plate, and air between an upper layer of field planting plate and a lower layer of field planting plate or between a plurality of layers of field planting plates can circulate;

guide rail set spare is all installed in the both sides of planting the groove and can be realized the removal of field planting board on the frame, and the baffle of addding has reduced the gap between planting groove and the field planting board, satisfies the flow of air when can preventing that the dust from getting into to plant inslot portion, can not cause nutrient solution, moisture evaporation too fast again because the air current is too strong for solve the defect that prior art leads to.

The utility model also provides a hydroponic planting device.

In order to solve the technical problem, the utility model provides a following technical scheme:

on the first hand, the movably connected type field planting plate comprises a field planting plate provided with at least one field planting basket hole, and a connecting boss connected with the first end of the field planting plate and a connecting plate connected with the second end of the field planting plate, wherein the bottom of the connecting boss is provided with a connecting groove matched with the connecting plate, two adjacent field planting plates are connected with the connecting plate through the connecting boss, linkage between the field planting plates is realized, no gap is formed between the two adjacent field planting plates after the connecting boss is connected with the connecting plate, rainwater scouring and dew accumulation on the top of the field planting plate can be prevented, dust and germs can be prevented from entering the inside of the field planting plate to the bottom of the field planting plate, as the field planting plate covers the upper side of the field planting groove, the germs can be effectively prevented from polluting nutrient solution, and the top of the field planting basket hole is provided with a gap, air between the upper layer and the lower layer or among multiple layers of planting plates can be enabled to circulate.

Foretell a swing joint formula field planting board, wherein, on the field planting board the connecting plate to the slope setting in the direction of connecting the boss, the spread groove with the connecting plate matches the slope setting.

Foretell a swing joint formula field planting board, wherein, the field planting board is provided with along the both sides of major axis and covers along, the field planting board all installs the rail guard along the both sides top of major axis.

The second aspect, a hydroponic planting equipment, wherein, contain and plant groove, guide rail set spare and swing joint formula field planting board, it is the convex V type elongated slot in bottom to plant the groove, the shrouding is all installed at the both ends of planting the groove, two relative lateral wall tops in planting the groove are all installed guide rail set spare, the field planting board covers two guide rail set spare's top.

The hydroponic planting device comprises two guide rail assemblies, wherein the two guide rail assemblies are symmetrically arranged, each guide rail assembly comprises a guide rail and a plurality of pulleys mounted on the top of the corresponding guide rail, grooves matched with the side walls of the planting grooves are formed in the bottoms of the corresponding guide rails, and fixing grooves for mounting the pulleys are formed in the tops of the corresponding guide rails.

Foretell hydroponic plants equipment, wherein, the outside of planting groove both sides lateral wall all further is provided with the baffle, the baffle deviate from plant the groove one end with the inner wall contact of field planting board is connected, the baffle with certain space has between the field planting inboard wall, prevents that partial winged insect and dust from getting into when being convenient for carry out circulation of air inside the planting groove, also can prevent to cause too strong evaporation of nutrient solution, moisture because of the air current simultaneously.

The hydroponic planting device is characterized in that the baffle is arranged in an upward inclined mode, and the cover edges are arranged on the outer sides of two sides of the planting plate.

The hydroponic planting device is characterized in that the sealing plate is provided with a first drain pipe and a second drain pipe which are communicated with the interior of the planting groove, and the first drain pipe is arranged on the upper side of the second drain pipe.

In the hydroponic planting device, the inner wall of the bottom side of the second drain pipe and the inner wall of the bottom side of the planting groove are on the same horizontal plane, and in the existing pipeline planting mode, the water outlets are all higher than the bottom of the pipeline, so that liquid flow with a certain height can be generated in the pipeline, but in the planting process, sediments such as metabolites of plant roots or impurities in nutrient solution can be accumulated at the bottom of the pipeline, so that germs can grow and are difficult to clean; in addition, in hydroponic planting, when planting next time, the pipeline needs to be cleaned and disinfected to achieve the purpose of continuous operation, but the existing pipeline has no advantage in cleaning and disinfection, in order to solve the problem, an upper drainage pipe and a lower drainage pipe are respectively adopted as the first drainage pipe and the second drainage pipe, the inner wall of the bottom side of the second drainage pipe and the inner wall of the bottom side of the planting groove are in the same horizontal plane, so that water and nutrient solution on the bottom side of the planting groove can flow out conveniently, and the second drainage pipe is not opened in general and is opened only when tide type planting is used or complete drainage or bottom groove cleaning and other functions are needed.

Foretell hydroponic plants equipment, wherein, the planting tank bottom is convex structure, the planting tank bottom is connected with the couple, is convenient for plant for the efficient when carrying out multi-level planting, need carry out placing of light filling product, and the couple that increases is convenient for the installation of later stage lamps and lanterns product.

The utility model provides a hydroponic plants equipment can carry out the layer posture overall arrangement, but except the layer posture assembly type, also be applicable to other layer framves or monomer planting structure, in order to be applicable to various planting demands in addition, the utility model discloses a product size has multiple specification, can satisfy the planting use of multiple crop.

In use, the field planting plate is movable and can be planted from head to tail, so that a user only needs to transfer all nursery stocks to the field planting plate when planting, then sequentially places the field planting plate on the planting groove at one end of the water planting groove frame, and only needs to pull out the field planting plate one by one from the front end of the water planting groove frame for harvesting when harvesting, so that the labor intensity can be greatly reduced, the transportation distance of the nursery stocks and vegetables can be reduced, and automatic planting and harvesting can be realized when carrying automatic equipment, so that the field planting plate is retracted after harvesting plants, and the bottom of the planting groove can be conveniently cleaned and disinfected;

based on the above function, the utility model provides a technical scheme can be used for various big-arch shelter breeds, for example builds the planting frame on pond upper portion, then plants vegetables or forage grass, both can play the effect of shading for the pond, also can solve the problem that oxygen is not enough in the pond, also can use the water supply vegetables growth in the pond simultaneously, realizes the purpose of fish and vegetable intergrowth, and the while also can be with the utility model provides a technical scheme is used for big-arch shelters such as pig raising, chicken raising;

because the field planting plate in the technical proposal provided by the utility model can be independently disassembled, when the root system growth condition of the plant needs to be checked, the whole field planting plate can be turned up for checking, which is very convenient and practical; when the nutrient solution needs to be replaced, only the second water outlet pipe of each planting groove needs to be opened; in addition, heating or cooling equipment can be added at the nutrient solution supply end so as to adjust the temperature of the nutrient solution, in summer and winter, if the temperature of the nutrient solution needs to be reduced or increased, the second water outlet pipe can be opened for complete liquid drainage, and then the nutrient solution subjected to temperature adjustment can be circulated for multiple times so as to achieve the function of root temperature adjustment, and in addition, by the measure, the temperature in the whole greenhouse or the whole plant factory can be adjusted, which is incomparable to substrate cultivation, after all, the whole planting system is equivalent to a set of water cooling system, and the characteristic can be well applied to various cultivation greenhouses;

in addition, the technical scheme provided by the utility model still can be used to the land for growing field crops interplanting, if: in the seedling stage of the orchard, in order to improve the land utilization rate, the utility model can be used for interplanting in the forest;

in addition, the utility model is not only used for water cultivation, but also suitable for other soilless culture techniques and soil cultivation, and when used for substrate cultivation, a field planting plate can not be used;

in addition, the utility model can combine the liquid flow type arch back pipeline fruit and vegetable cultivation technology, and a semi-circular pipeline is added at the bottom of the planting groove, so that the use effect is better;

the planting plate is not only suitable for soilless culture planting grooves, but also can be independently used for other planting modes, such as soilless culture planting or other fog culture planting of Chinese yams.

The utility model provides a product structure, except adopting plastic materials, also can be processed with sheet metal materials or other materials, its pulley guide rail structure and function can also be replaced with other structures, such as track, in addition, other cambered surface structures can also be made on the surface of field planting board; the section of the bottom groove can be changed into a U-shaped structure and the like; in order to shade light, reflect light, preserve heat or enhance the weather resistance of the product, the outer surface of the product provided by the utility model can adopt the measures of spraying, electroplating, film coating, or pasting various heat preservation materials, etc.;

in addition, can be in the utility model provides a product structure attaches muscle or other complementary structures to in the mesh or other functions of realizing other supplementary assemblies.

According to the above the utility model relates to a technical scheme that swing joint formula field planting board and hydroponic planting equipment provided has following technological effect:

the connection of the connecting bosses and the connecting plates can realize the connection of a plurality of field planting plates for covering the planting grooves, the plurality of field planting plates can move simultaneously, so that the field planting plates can move uniformly, the connecting bosses and the connecting plates between the field planting plates can prevent dust and water from entering the planting grooves, and gaps are arranged at the tops of field planting basket holes on the field planting plates, so that air between an upper layer of field planting plate and a lower layer of field planting plate or between a plurality of layers of field planting plates can circulate;

guide rail set spare is all installed in the both sides of planting the groove and can be realized the removal of field planting board on the frame, and the baffle of addding has reduced the gap between planting groove and the field planting board, satisfies the flow of air when can preventing that the dust from getting into to plant inslot portion, can not cause nutrient solution, moisture evaporation too fast again because the air current is too strong.

Drawings

FIG. 1 is a schematic structural view of a movably connected field planting plate of the present invention;

FIG. 2 is a schematic diagram of a side view cross-sectional structure of a joint of two movably connected field planting plates of the present invention;

FIG. 3 is a schematic view of a side-view three-dimensional structure of a joint of two movably-connected field planting plates of the present invention;

fig. 4 is a schematic structural view of the movably connected field planting plate added with guard railings of the present invention;

FIG. 5 is a schematic side view of a cross-sectional structure of a hydroponic apparatus of the present invention;

FIG. 6 is a schematic side view of a three-dimensional partial structure of a hydroponic apparatus of the present invention;

FIG. 7 is a schematic structural view of a guide rail assembly in the hydroponic apparatus of the present invention;

FIG. 8 is a first usage state diagram of the rack-mounted assembly of hydroponic equipment of the present invention;

FIG. 9 is a second usage state diagram of the layered rack type assembly of the hydroponic equipment of the present invention;

FIG. 10 is a front view of a single frame of the hydroponic apparatus of the present invention;

FIG. 11 is a front view of the hydroponic apparatus of the present invention, which is connected to the frame during use;

FIG. 12 is a schematic structural view of the hydroponic apparatus of the present invention mounted on the frame connection frame when in use;

fig. 13 is a schematic view of another structure of the field planting plate in the movably connected field planting plate of the present invention.

Wherein the reference numbers are as follows:

the field planting device comprises a field planting plate 101, a connecting boss 102, a connecting plate 103, a field planting basket hole 104, a notch 105, a connecting groove 201, a protective guard 301, a cover edge 302, a planting groove 401, a guide rail assembly 402, a baffle 403, a hook 404, a sealing plate 501, a first water discharge pipe 502, a second water discharge pipe 503, a guide rail 601, a pulley 602, a groove 603, a fixing groove 604, a support 701 and a connecting frame 801.

Detailed Description

In order to make the technical means, the inventive features, the objectives and the functions of the present invention easy to understand, the present invention will be further described with reference to the following specific drawings.

The first embodiment of the utility model provides a movably connected field planting plate, which aims to realize the connection of a plurality of field planting plates for covering a planting groove through the connection of a connecting boss and a connecting plate, the plurality of field planting plates can move simultaneously and are convenient to move in a unified way, the connecting boss and the connecting plate between the field planting plates can prevent dust and water from entering the interior of the planting groove, and the top of a field planting basket hole on the field planting plate is provided with a gap, so that the air between an upper layer of field planting plate and a lower layer of field planting plate or between a plurality of layers of field planting plates can circulate;

guide rail set spare is all installed in the both sides of planting the groove and can be realized the removal of field planting board on the frame, and the baffle of addding has reduced the gap between planting groove and the field planting board, satisfies the flow of air when can preventing that the dust from getting into to plant inslot portion, can not cause nutrient solution, moisture evaporation too fast again because the air current is too strong.

As shown in fig. 1-3, in a first aspect, a first embodiment, a movably connected field planting plate, includes a field planting plate 101 having at least one field planting basket 104, and a connecting plate 103 connected to a connecting boss 102 at a first end and a second end of the field planting plate 101, a connecting slot 201 matching with the connecting plate 103 is opened at the bottom of the connecting boss 102, two adjacent field planting plates 101 are connected to the connecting plate 103 through the connecting boss 102, so as to realize linkage between the field planting plates 101, no gap is left between the two adjacent field planting plates 101 after the connecting boss 102 is connected to the connecting plate 103, so as to prevent rainwater from washing and dew from accumulating on the top of the field planting plate 101, prevent dust and germs from flowing from the top of the field planting plates 101 to the bottom of the field planting plates 101, and prevent germs from entering the field planting slots 401 to pollute a nutrient solution because the field planting plates 101 cover the upper side of the field planting slots 401, the top of the planting basket hole 104 is provided with a gap 105, so that air between the upper and lower two or more layers of planting plates 101 can circulate.

As shown in fig. 2, the connection board 103 on the field planting board 101 is arranged obliquely towards the direction of the connection boss 102, and the connection slot 201 is arranged obliquely matching with the connection board 103.

As shown in fig. 4, two sides of the planting plate 101 along the long axis are provided with cover edges 302, two sides of the top of the planting plate 101 are provided with guard rails 301, as shown in fig. 10-12, the guard rails 301 can be fixed by using a support 701 to fix the planting plate 101, after the planting plate 101 is covered on a planting groove 401, the planting plate is fixed on a connecting frame 801 provided with the support 701 to be installed in a layered manner, as shown in fig. 13, but the guard rails 301 may not be installed on the wider planting plate 101, and the guard rails 301 may be detachably installed on the support 701, which is mainly used for cultivating vegetables and fruits, such as tomatoes, eggplants, watermelons and the like.

As shown in fig. 5 to 6, in a second aspect, a hydroponic planting apparatus is provided, which includes a planting trough 401, a guide rail assembly 402 and a movable connection type planting plate, wherein the planting trough 401 is a V-shaped long trough with a circular bottom, sealing plates 501 are mounted at two ends of the planting trough 401, the guide rail assembly 402 is mounted at the top of two opposite side walls of the planting trough 401, and the planting plate 101 covers the top of the two guide rail assemblies 402.

As shown in fig. 7, two guide rail assemblies 402 are symmetrically arranged, the guide rail assembly 402 comprises a guide rail 601 and a plurality of pulleys 602 mounted on the top of the guide rail 601, the bottom of the guide rail 601 is provided with a groove 603 matching with the sidewall of the planting groove 401, and the top of the guide rail 601 is provided with a fixing groove 604 for mounting the pulleys 602.

Wherein, the outside of planting groove 401 both sides lateral wall all further is provided with baffle 403, and baffle 403 deviates from the one end of planting groove 401 and is connected with the inner wall contact of field planting board 101, has certain space between baffle 403 and the field planting board 101 inner wall, prevents that partial winged insect and dust from getting into when being convenient for carry out circulation of air from planting inside groove 401, also can prevent to cause nutrient solution, the too fast evaporation of moisture because of the air current is too strong simultaneously.

The baffle 403 is inclined upward, and the outer sides of the two sides of the planting plate 101 are provided with cover edges 302.

As shown in fig. 6, the sealing plate 501 is provided with a first drain pipe 502 and a second drain pipe 503 which are communicated with the inside of the planting groove 401, and the first drain pipe 502 is provided above the second drain pipe 503.

The inner wall of the bottom side of the second drain pipe 503 and the inner wall of the bottom side of the planting groove 401 are on the same horizontal plane, in the existing pipeline planting mode, the water outlets are all higher than the bottom of the pipeline, so that liquid flow with a certain height can be generated in the pipeline, but in the planting process, precipitates such as metabolites of plant roots or impurities in nutrient solution accumulate at the bottom of the pipeline, so that germs can grow for a long time and are difficult to clean; in addition, in hydroponic planting, when planting next time, the pipeline needs to be cleaned and disinfected to achieve the purpose of continuous operation, but the existing pipeline has no advantage in cleaning and disinfection, in order to solve the problem, an upper drainage pipe 502 and a lower drainage pipe 503 are respectively adopted, the inner wall of the bottom side of the second drainage pipe 503 and the inner wall of the bottom side of the planting groove 401 are in the same horizontal plane, so that water and nutrient solution on the bottom side of the planting groove 401 can flow out conveniently, the second drainage pipe 503 is not opened in general, and only when tide type planting is used, or the functions of thorough drainage or bottom groove cleaning and the like need to be performed, the second drainage pipe 503 is opened.

Wherein, planting groove 401 bottom and being circular arc structure, planting groove 401 bottom and being connected with couple 404, be convenient for plant for the efficient when carrying out multi-level planting, need carry out placing of light filling product, the couple 404 that increases is convenient for the installation of later stage lamps and lanterns product.

As shown in fig. 8-9, the utility model provides a hydroponic plants equipment can carry out the overall arrangement of layer posture formula, but except the layer posture assembly type, also be applicable to other layer frame or monomer planting structure, in addition in order to be applicable to various planting demands, the utility model discloses a product size has multiple specification, can satisfy the planting use of multiple crop.

In use, the field planting plates 101 are movable and can be planted from head to tail, so that a user only needs to transfer all nursery stocks to the field planting plates 101 when planting, then sequentially places the field planting plates 101 on the planting grooves 401 at one end of the water planting groove frame, and only needs to pull out the field planting plates 101 one by one from the front ends of the water planting groove frame for harvesting when harvesting, so that the labor intensity can be greatly reduced, the transportation distance of the nursery stocks and vegetables can be reduced, automatic planting and harvesting can be realized when carrying automatic equipment, and therefore, after the plants are harvested, the field planting plates 101 are retracted, and the bottom of the planting grooves 401 can be cleaned and disinfected conveniently;

based on the above function, the utility model provides a technical scheme can be used for various big-arch shelter breeds, for example builds the planting frame on pond upper portion, then plants vegetables or forage grass, both can play the effect of shading for the pond, also can solve the problem that oxygen is not enough in the pond, also can use the water supply vegetables growth in the pond simultaneously, realizes the purpose of fish and vegetable intergrowth, and the while also can be with the utility model provides a technical scheme is used for big-arch shelters such as pig raising, chicken raising;

because the field planting plate 101 in the technical proposal provided by the utility model can be independently disassembled, when the root system growth condition of the plant needs to be checked, the whole field planting plate 101 can be turned up for checking, which is very convenient and practical; when the nutrient solution needs to be replaced, only the second water outlet pipe of each planting groove 401 needs to be opened; in addition, heating or cooling equipment can be added at the nutrient solution supply end so as to adjust the temperature of the nutrient solution, in summer and winter, if the temperature of the nutrient solution needs to be reduced or increased, the second water outlet pipe can be opened firstly for complete liquid drainage, and then the nutrient solution subjected to temperature adjustment can be circulated for multiple times so as to achieve the function of root temperature adjustment, and in addition, by the measure, the temperature in the whole greenhouse or the whole plant factory can be adjusted, which is incomparable to substrate cultivation, after all, the whole planting system is equivalent to a set of water cooling system, and the characteristic can be well applied to various cultivation greenhouses;

in addition, the technical scheme provided by the utility model still can be used to the land for growing field crops interplanting, if: in the seedling stage of the orchard, in order to improve the land utilization rate, the utility model can be used for interplanting in the forest;

in addition, the utility model is not only used for water cultivation, but also suitable for other soilless culture techniques and soil cultivation, and when used for substrate cultivation, the field planting plate 101 can be omitted;

in addition, the utility model can combine the liquid flow type arch back pipeline fruit and vegetable cultivation technology, and a semi-circular pipeline is added at the bottom of the planting groove 401, so that the use effect is better;

the planting plate 101 is not only suitable for soilless culture planting troughs, but also can be independently used for other planting modes, such as soilless culture planting or other fog culture planting of Chinese yams.

The product structure provided by the utility model can be processed by sheet metal materials or other materials besides plastic materials, the structure and function of the pulley 602 guide rail 601 can be replaced by other structural members, such as a crawler belt, and in addition, other cambered surface structures can be made on the surface of the planting plate 101; the section of the bottom groove can be changed into a U-shaped structure and the like; in order to shade light, reflect light, preserve heat or enhance the weather resistance of the product, the outer surface of the product provided by the utility model can adopt the measures of spraying, electroplating, film coating, or pasting various heat preservation materials, etc.;

in addition, can be in the utility model provides a product structure attaches muscle or other complementary structures to in the mesh or other functions of realizing other supplementary assemblies.

To sum up, the utility model discloses a movably connected field planting board and hydroponic planting equipment can realize through the connection of connecting boss and connecting plate that a plurality of field planting boards are connected and carry out the cover to planting the groove, and a plurality of field planting boards can move simultaneously, are convenient for unify the removal, and connecting boss and connecting plate between the field planting board can prevent dust and water from getting into the planting inslot, and the field planting basket cave top on the field planting board is equipped with the breach, can make the circulation of air between upper and lower two-layer or multilayer field planting board;

guide rail set spare is all installed in the both sides of planting the groove and can be realized the removal of field planting board on the frame, and the baffle of addding has reduced the gap between planting groove and the field planting board, satisfies the flow of air when can preventing that the dust from getting into to plant inslot portion, can not cause nutrient solution, moisture evaporation too fast again because the air current is too strong.

The above description has been made of specific embodiments of the present invention. It is to be understood that the invention is not limited to the particular embodiments described above, and that devices and structures not described in detail are understood to be implemented in a manner common in the art; various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (10)

1. The utility model provides a swing joint formula field planting board, its characterized in that contains the field planting board that is provided with at least one field planting basket cave and connect in the connecting plate of the connection boss of the first end of field planting board and second end, the matching has been seted up to connection boss bottom the spread groove of connecting plate, adjacent two pass through between the field planting board connect the boss with the connecting plate is connected.

2. The movably connected field planting plate of claim 1, wherein the connecting plate on the field planting plate is inclined in the direction of the connecting boss, and the connecting groove is matched with the connecting plate and is inclined.

3. The movably connected type planting plate of claim 1 or 2, wherein cover edges are arranged on two sides of the planting plate along the long axis, and guard rails are arranged on the top of the planting plate along two sides of the long axis.

4. A hydroponic planting device comprises planting grooves, guide rail assemblies and movably connected planting plates according to any one of claims 1 to 3, wherein the planting grooves are V-shaped long grooves, sealing plates are mounted at two ends of each planting groove, the guide rail assemblies are mounted at the tops of two opposite side walls of each planting groove, and the planting plates cover the tops of the two guide rail assemblies.

5. The hydroponic apparatus as claimed in claim 4, wherein two of said rail assemblies are symmetrically disposed, said rail assemblies comprising a rail and a plurality of pulleys mounted on the top of said rail, the bottom of said rail having a groove matching the sidewall of said planting groove, and the top of said rail having a fixing groove for mounting said pulleys.

6. The hydroponic apparatus as claimed in claim 4 or 5, wherein the outer side of the side walls of the planting groove is further provided with a baffle, and one end of the baffle, which is away from the planting groove, is in contact connection with the inner wall of the planting plate.

7. The hydroponic apparatus as claimed in claim 6, wherein said baffle is inclined upward, and cover edges are provided on the outer sides of both sides of said planting plate.

8. A hydroponic apparatus as claimed in claim 4, 5 or 7, wherein said sealing plate has a first drain pipe and a second drain pipe communicating with the inside of said planting tank, said first drain pipe being provided on the upper side of said second drain pipe.

9. The hydroponic apparatus of claim 8, wherein the inner wall of the bottom side of said second drain pipe is at the same level as the inner wall of the bottom side of said cultivation tank.

10. A hydroponic apparatus as claimed in claim 4, 5, 7 or 9, wherein said trough bottom is of circular arc configuration and said trough bottom is provided with hooks.

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