CN212164498U - Movable cultivation frame capable of weighing in real time - Google Patents

Abstract

A movable cultivation frame capable of weighing in real time. The utility model discloses a single trunk sensing device that weighs, many trunks sensing device that weighs, it sets up respectively on the top terminal surface of each layer roof in the portable cultivation frame and the top terminal surface of the horizontal part of the L template of portable cultivation frame left and right sides. The two types of weighing sensing devices can respectively measure the weight of one or more crop root boxes, and the change condition of the weight of root box equipment can be known in real time, so that the supply condition of the nutrient solution, the transpiration amount of the crop and the total weight of the crop can be calculated and obtained. And simultaneously, the utility model discloses still at cultivation shelf location LED banks and nutrient solution feeding device, can conveniently realize the cultivation and the storage to the crop through the mode of integrated form. The bottom of the side supporting frame of the cultivation frame is provided with a caster wheel to realize the movement of the cultivation frame.

Description

Movable cultivation frame capable of weighing in real time

Technical Field

The utility model relates to an equipment field is cultivateed to the crop, particularly relates to a portable cultivation frame that can weigh in real time.

Background

In order to develop good varieties of crops, it is necessary to continuously measure the changes in phenotypic characteristics and physiological parameters of the crops due to organ growth during the growth process. Wherein, the root system is used as a plant water absorption organ and a salt absorption organ and plays a supporting role for the plant, and the phenotype of the root system is one of indexes which most directly reflect the phenotypic characters and the breeding level of crops. The weight of the root system of the crop at different growth stages is an important content for researching the root system phenotype of the crop.

The nutrient solution is prepared by dissolving compounds containing various nutrient elements necessary for plant growth and development and a small amount of auxiliary materials for prolonging the effectiveness of certain nutrient elements into water according to a certain amount and proportion.

In the crop cultivation process, data of nutrient solution absorption conditions and crop transpiration conditions of crops need to be collected. These data are largely reflected in the weight of nutrient solution taken up by the root box of the crop and the variation in this weight.

In the prior art, the supply weight of the nutrient solution of each box is required to be manually and independently recorded, and the weight change of each box is manually and independently measured after a certain time. The weighing recording mode is complicated, needs a large amount of manpower, is easy to introduce human errors, and has low efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art not enough, provide a portable cultivation frame that can weigh in real time, the utility model discloses an integrated single trunk weighing sensing device and many trunks weighing sensing device on cultivation frame can master the supply condition of crop growth in-process nutrient solution more accurately and in real time to and data such as crop weight. The utility model discloses specifically adopt following technical scheme.

Firstly, in order to achieve the above object, a mobile cultivation shelf for real-time weighing is proposed, wherein a single plant weighing sensing device is used for measuring the weight of a single plant root box;

the multi-plant weighing sensing device is used for measuring the weight of the multi-plant root boxes simultaneously;

the side supporting frames are arranged on the left side and the right side of the movable cultivation frame;

the top plate is arranged between the side supporting frames, and the single plant weighing sensing device is arranged on the top end face of the top plate;

the L-shaped plate comprises a vertical part arranged on the side supporting frame and a horizontal part which is arranged on the vertical part and is vertical to the vertical part;

a root box rack for mounting a root box;

a root box support frame for supporting the root box frame;

the multiple plant weighing sensing devices are arranged on the end face of the top end of the horizontal portion of the L-shaped plate, and when the root box moves to a position right above the single plant weighing sensing device, a collision pressure exists between the bottom end of the root box and the top end of the single plant weighing sensing device.

Optionally, as mentioned above, the movable cultivation frame for weighing in real time includes a root box support frame, a plurality of plant weighing sensing devices, and a root box support frame, wherein the root box support frame is installed on the top end face of the plant weighing sensing devices, the end portions of the two ends of the root box support frame are respectively installed on the top end face of the root box support frame, and the end portions of the two ends of the root box support frame can slide on the top end face of the root box support frame to move and simultaneously drive the bottom end of the root box to move to the top end of the plant weighing sensing device.

Optionally, the movable cultivation rack for real-time weighing as described above further includes a fixed rod slide rail disposed on the top end face of the root box support frame; the bottom surface of the end part of the root box frame is provided with a sliding groove, and the sliding groove can be slidably arranged on the fixed rod sliding rail.

Optionally, the movable cultivation rack for real-time weighing as described above, wherein the top plate is arranged in multiple layers from top to bottom, the root box support frames are arranged in multiple layers from top to bottom, and the top plate is arranged between the root box support frames adjacent to each other from top to bottom.

Optionally, the movable cultivation rack for real-time weighing as described in any one of the above, wherein the size of the interference pressure between the bottom end of the root box and the top end of the individual plant weighing sensor device is equal to the self-gravity of the root box.

Optionally, the mobile cultivation rack for real-time weighing as described in any one of the above, wherein the individual plant weighing sensing device includes a sensor mounting base, an individual plant weight receiving member and an elastic member, the individual plant weight receiving member is mounted on the top of the sensor mounting base, the elastic member is disposed between the sensor mounting base and the individual plant weight receiving member, and the sensor mounting base and the individual plant weight receiving member are connected only through the elastic member.

Optionally, as mentioned in any above, the movable cultivation frame for real-time weighing includes an upper step and a lower step disposed below the upper step, the sensor mounting base includes an inwardly concave sensor mounting groove formed in a middle portion thereof, the individual plant weight bearing member is mounted on the upper step of the sensor mounting base, an upper end of the elastic member is mounted in a middle portion of a bottom surface of the individual plant weight bearing member, and a lower end of the elastic member is mounted in the sensor mounting groove.

Optionally, the movable cultivation frame for real-time weighing as described in any one of the above, wherein the individual weighing sensor device further includes an individual weighing sensor, and the individual weighing sensor is installed in the sensor installation groove and located between the lower end of the elastic member and the inner bottom surface of the sensor installation groove.

Optionally, the mobile cultivation shelf for real-time weighing as described in any one of the above, further comprising casters, the casters being mounted at the bottom ends of the side support frames.

Optionally, the movable cultivation shelf for real-time weighing as described in any one of the above further includes a nutrient solution mounting hook, which is mounted in a mounting groove formed in the side edge of the top plate.

Advantageous effects

The utility model provides a portable cultivation frame that can weigh in real time, it is through the individual plant sensing device that weighs, many plants sensing device that weighs, through respectively with each group individual plant sensing device that weighs, many plants are weighed the top end face of the horizontal part of the L template that sensing device set up on the top end face of each layer roof in portable cultivation frame and portable cultivation frame left and right sides, make foretell two kinds of types weigh the weight that sensing device can measure one or many plants crop root box respectively, learn the situation of change of root box equipment weight in real time, thereby calculate the supply condition who obtains the nutrient solution, the transpiration volume of crop and the total weight of crop. And simultaneously, the utility model discloses still at cultivation shelf location LED banks and nutrient solution feeding device, can conveniently realize the cultivation and the storage to the crop through the mode of integrated form. The bottom of the side supporting frame of the cultivation frame is provided with a caster wheel to realize the movement of the cultivation frame.

The utility model discloses it is further, the utility model discloses still set up the cultivation frame that root box, root box set up into the detachable structure respectively to convenient transport, remove root box, the convenience is drawed and is sampled the crop phenotype. Especially, the utility model discloses a peg graft the root box and set up on root box frame, support root box at root box frame's both ends through the root box carriage that sets up on the side support frame, realize the fixed of root box frame and weigh. Can set up the dead lever slide rail of the slip recess in cooperation root box frame both ends on the terminal surface of the top of this root box support frame, stabilize the root box frame on the one hand and avoid its roll-off when the cultivation frame removes, on the other hand still can provide the direction to the root box frame for the root box frame can accurately slide to the roof and set up the single trunk weigh sensing device directly over, guarantee that the single trunk accurately acquires the weight data of each root box when weighing.

The utility model discloses a single trunk sensing device that weighs sets up to bilayer structure, two-layer about connecting through the elastic component, lifts the single trunk weight accepting member on upper strata through the elasticity of elastic component, realizes the protection to sensor in the sensor installation base of lower floor, avoids sensor long-term pressurized to influence its sensing precision. The direction is realized at the sensor mounting groove that lower floor's sensor installation base center is inwards sunken to the setting of elastic component accessible, avoids single trunk weight receiving to reciprocate the in-process and the skew influences the measurement of sensor to root box weight to further improve the utility model discloses carry out the measuring degree of accuracy to root box weight.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, together with the embodiments of the invention for the purpose of explanation and not limitation of the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the mobile cultivation shelf for real-time weighing of the present invention;

FIG. 2 is a schematic view of the main structure of the cultivation shelf of the present invention;

FIG. 3 is a schematic view of the upper structure of the mobile cultivation shelf for real-time weighing of the present invention;

FIG. 4 is a schematic view showing a root box installation manner and a nutrient solution supply manner in the cultivation shelf main body of FIG. 3;

FIG. 5 is a schematic view of a root box installed in the main body of the cultivation frame of the present invention for weighing a plurality of plants;

FIG. 6 is a schematic view showing a root box installed in the main body of the cultivation frame of the present invention for weighing a single plant;

fig. 7 is a schematic view of the single plant weighing sensor device of the present invention.

In the figure, 1-top plate, 2-side supporting frame, 3-box supporting frame, 4-truckle, 5-nutrient solution mounting hook, 6-single plant weighing sensing device, 61-sensor mounting base, 62-single plant weight bearing piece, 63-elastic piece, 64-sensor mounting groove, 7-multiple plant weighing sensing device, 71-handle, 72-sliding groove, 8-sensing device mounting part, 81-fixed rod sliding rail, 82-L type plate, 83-box supporting frame body and 9-box frame.

Detailed Description

In order to make the purpose and technical solution of the embodiments of the present invention clearer, the following description will clearly and completely describe the technical solution of the embodiments of the present invention by combining the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The meaning of "and/or" in the present invention means that they exist individually or both at the same time.

The meaning of "inside and outside" in the present invention means that, relative to the root box itself, the direction from the outer wall of the root box cylinder to the crop root contained in the root box is inside, otherwise outside; and not to the specific limitations of the device mechanism of the present invention.

The term "connected" as used herein may mean either a direct connection between elements or an indirect connection between elements through other elements.

The utility model discloses in the meaning of "upper and lower" indicate the user just when the portable cultivation frame that can weigh in real time, the direction of the crop is promptly for last in the directional root box of truckle, otherwise to promptly for down, and not right the utility model discloses a device mechanism's specific injecing.

Fig. 1 is a movable cultivation frame capable of weighing in real time according to the utility model. This cultivate frame for the crop is cultivated and is provided the place, can provide weighing to the crop, and the root system is cultivated and is stored, removes three function. It includes:

the single plant weighing sensing device 6 is used for measuring the weight of the single plant root box;

a multi-plant weighing sensor device 7 for measuring the weight of the multi-plant root box simultaneously;

the side supporting frames 2 are arranged on the left side and the right side of the movable cultivation frame;

the top plate 1 is arranged between the side support frames 2, and the single plant weighing sensing device 6 is arranged on the top end face of the top plate 1;

an L-shaped plate 82 including a vertical part mounted on the side support frame 2 and a horizontal part provided on the vertical part and perpendicular to the vertical part;

a root box rack 9 for mounting a root box;

a root box support frame 3 for supporting a root box frame 9;

the multiple plant weighing sensing devices 7 are arranged on the top end surface of the horizontal part of the L-shaped plate 82, the root box support frame 3 is arranged on the top end surface of the multiple plant weighing sensing devices 7, the end parts of the two ends of the root box frame 9 are respectively arranged on the top end surface of the root box support frame 3, and the end parts of the two ends of the root box frame 9 can slide on the top end surface of the root box support frame 3; the root box arranged on the root box frame 9 can move right above the single plant weighing sensing device 6, and the bottom end of the root box and the top end of the single plant weighing sensing device 6 have interference pressure.

Therefore, the utility model is used for measuring the weight of the root system of one or more plants by installing the weighing sensor on the cultivation frame; meanwhile, an LED lamp group and a nutrient solution supply device are arranged on the cultivation frame to realize the cultivation and storage of crop roots; the truckles are installed at the bottom of the cultivation frame to realize the movement of the cultivation frame.

Under comparatively concrete implementation, foretell a portable cultivation frame for weigh in real time, it can set up to specifically including following four main module:

the device comprises a frame, a moving structure I, a crop storage module II, a crop cultivation module III and a weighing module IV.

The frame and the moving structure I are shown in figure 2 and comprise a top plate 1, side supporting frames 2, a root box supporting frame 3, trundles 4, a nutrient solution mounting hook 5, a single-plant weighing sensing device 6, a plurality of weighing sensing devices 7 and a sensing device mounting part 8.

The sensing device mounting part 8 may be provided in the form shown in fig. 3, 4 and 5, and includes: l template 82, set up root box support frame body 83 at the horizontal part up end of L template 82 to and set up at the inside edge upwards outstanding dead lever slide rail 81 in root box support frame body 83 top.

Roof 1 and side support frame 2 pass through welded connection, and root box support frame 3, many plants are weighed sensing device 7 and are passed through threaded connection with L template 82, and root box support frame 3 passes through the screwed connection and installs on many plants sensing device 7 upper portions of weighing for support root box. In a specific use process, a plurality of root box support frames 3 can be installed according to the quantity requirement of cultivated crops. The L-shaped plate 82 is mounted on the side support frame 2 through screws and used for supporting the multiple weighing sensing devices 7 and the root box support frame 3. The truckles 4 are connected with the bottom ends of the side supporting frames 2 through screws, so that the moving function of the cultivation frame is realized. The edge of the top plate 1 can be provided with a groove with the width of 10mm, so that the nutrient solution can be conveniently connected with the hook 5.

The fixed rod sliding rail 81 can be specifically arranged on the end surface of the top end of the root box supporting frame 3; a sliding groove 72 is arranged on the bottom surface of the end part of the root box frame 9, and the sliding groove 72 can be slidably arranged on a fixed rod sliding rail 81. From this, root box accessible grafting mode sets up on root box frame, supports above-mentioned root box at the both ends of the corresponding root box frame of the fixed root box of grafting through the root box carriage that sets up on the side support frame, realizes fixing and weighing to root box frame. The dead lever slide rail of the cooperation root box frame both ends slip recess that sets up on the top terminal surface of this root box support frame can stabilize the root box frame on the one hand and avoid its roll-off when cultivation frame removes, and on the other hand still can provide the direction to the root box frame for the root box frame can accurately slide to the individual plant that sets up on the roof and weigh sensing device directly over, the weight data of accurate each root box of acquireing when guaranteeing that the individual plant weighs.

In the above-mentioned mobile cultivation shelf for real-time weighing, the crop storage module ii may be configured as shown in fig. 4, fig. 5 or fig. 6, and is composed of root boxes and a root box shelf 9. The both ends of root box frame 9 can be provided with the handle respectively, the below of handle sets up groove structure and downwards with dead lever slide rail 81 joint, fixes root box frame 9. The fixing rod sliding rail 81 can be specifically set as a fixing rod welded on the upper end face of the root box supporting frame, and the fixing rod is clamped into a groove structure below the root box frame 9 to support and fix each root box.

In the mobile cultivation shelf for real-time weighing described above, the crop cultivation module iii may be provided in the form as shown in fig. 3, 4 or 6. The adjustment of the illumination intensity of crops and the supply amount of nutrient solution can be realized by the LED lamp group arranged on the lower surface of the top plate and the nutrient solution supply device which is fixedly inserted on the side surface of the top plate. Nutrient solution feeding device specifically can select for the bottle form of hanging that holds nutrient solution, and the bottle is connected with the nutrient solution installation couple 5 grafting that sets up in the mounting groove of roof 1 side, and nutrient solution feeding device's lower extreme coupling hose, the end of hose is connected with root box central authorities, realizes the accurate supply of nutrient solution. The LED lamp group can be specifically arranged to be hung at the bottom of the top plate. The top plate 1 can be set into a plurality of layers arranged from top to bottom, the root box support frames 3 can also be correspondingly set into a plurality of layers arranged from top to bottom according to the number of the root boxes, and the top plate 1 is arranged between the root box support frames 3 adjacent to each other up and down to provide illumination and nutrient solution for the root boxes and support the weighing modules IV.

In the above-mentioned mobile cultivation shelf for real-time weighing, the weighing module iv may be specifically configured in the form shown in fig. 6 and 7, and is composed of a single weighing sensor device and a plurality of weighing sensor devices. Wherein, a plurality of weighing sensing devices are connected with the L-shaped plate, and when a row of root box frames 9 are placed on the root box supporting frame, the weight change of the row of root box frames 9 is measured in real time. The single plant sensor is placed on the upper portion of the top plate, a spring is installed at the bottom of the single plant sensor, when a row of root box frames 9 are placed on the root box support frame and the weight of a single plant root box needs to be measured, the root box frames 9 can be pushed to move towards the middle of the cultivation frame, so that the root boxes reach the upper portion of the single plant sensor, each root box downwards presses the spring and the sensor of the single plant weighing sensing device 6 through the self gravity of each root box, and the weight of the single plant root box is measured. The specific supply amount of the nutrient solution can be obtained by calculating the difference value of the weight of the root box before and after the nutrient solution is added; the weight difference value of the weight change between the root box and the root box is obtained by respectively measuring the weight of the root box before and after a set time interval, so that the crop transpiration data can be obtained; by comparing the weights of nutrient solution liquid levels in root boxes maintained at the same level at different moments, the weight of the growing crops can be obtained according to the difference value at different moments, and therefore the growing conditions of the crops can be flexibly monitored in real time.

The crop weight data obtained from the obtained crop growth results can provide experimental data for crop phenotype research, and meanwhile, nutrient solution can be properly added or reduced according to the root box weight data detected in real time, so that the storage of crop root systems is facilitated.

Specifically, the single plant weighing sensor device may be provided as a double-layer structure as shown in fig. 7, including: a sensor mounting base 61, a plant weight receiving member 62, and an elastic member 63. The individual plant weight receiving member 62 is mounted on the top of the sensor mounting base 61, the elastic member 63 is disposed between the sensor mounting base 61 and the individual plant weight receiving member 62, and the sensor mounting base 61 and the individual plant weight receiving member 62 are connected only by the elastic member 63. When the root box moves right above the single plant weighing sensing device, the thickness of the single plant weighing sensing device is larger than the gap between the root box bottom plate and the lower layer top plate, the root box is jacked upwards along the inserting direction of the root box, the size of the interference pressure between the bottom end of the root box and the top end of the single plant weighing sensing device 6 is equal to the self gravity of the root box, and therefore the single plant weighing sensing device on the sensor mounting base 61 can measure the weight of the root box without dismounting the lower root box.

Further, the sensor mounting base 61 may be configured to include an upper step and a lower step disposed below the upper step. The middle part of the sensor mounting base is provided with a concave sensor mounting groove 64, the individual plant weight bearing piece 62 is mounted on the upper step of the sensor mounting base 61, the upper end of the elastic piece 63 is mounted in the middle of the bottom surface of the individual plant weight bearing piece 62, and the lower end of the elastic piece 63 is mounted in the sensor mounting groove 64. The elastic piece is connected with the upper layer and the lower layer, and the elastic piece can lift the upper layer of the single plant weight bearing piece, so that the protection of the sensor in the lower layer of sensor mounting base is realized, and the influence of the long-term pressure on the sensor on the sensing precision is avoided. The elastic member can realize weighing of the root box by pressing down the sensor arranged in the sensor mounting groove 64 which is recessed inwards in the center of the lower sensor mounting base according to the gravity of the root box. The individual weighing sensor may be particularly disposed between the lower end of the elastic member 63 and the inner bottom surface of the sensor mounting groove 64. Sensor mounting groove 64 can provide the direction for the elastic component, avoids single trunk weight to accept the piece and reciprocates the in-process skew appear, influences the sensor to the measurement of root box weight, can further improve from this the utility model discloses carry out the measuring degree of accuracy to root box weight.

Therefore, the movable cultivation frame for weighing in real time can realize the movement of the cultivation frame through the bottom trundles; the real-time measurement of the weight of the root system of a single plant or a plurality of plants is realized through the weighing module; the environmental conditions of the crop root system are controlled through the nutrient solution supply device and the LED lamp group; the storage of the crop root system is realized through the root box and the root box frame 9. The utility model discloses a portable cultivation frame for weigh in real time, its relative current root box cultivation equipment has following advantage:

1. the cultivation frame can be moved, so that the cultivation frame can be conveniently moved to where needed, and the space is reasonably utilized;

2. the integrated loading weighing sensor can realize the real-time measurement of the root system weight of a single plant or a plurality of plants of crops through the cultivation device;

3. the carried environment module can adjust the illumination intensity and the supply amount of nutrient solution and provide adaptive cultivation conditions;

4. flat root box and root box frame 9 are installed to the grafting mode, make full use of space conveniently draws the crop and carries out phenotype measurement and analysis, also can the efficient realization to the storage of crop root system.

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

Claims (10)

1. A movable cultivation frame capable of weighing in real time, which is characterized in that,

the single plant weighing sensing device (6) is used for measuring the weight of the single plant root box;

a multi-plant weighing sensor device (7) for measuring the weight of the multi-plant root box simultaneously;

side supporting frames (2) arranged at the left side and the right side of the movable cultivation frame;

the top plate (1) is arranged between the side supporting frames (2), and the single plant weighing sensing device (6) is arranged on the top end face of the top plate (1);

the L-shaped plate (82) comprises a vertical part arranged on the side supporting frame (2) and a horizontal part which is arranged on the vertical part and is vertical to the vertical part;

a root box frame (9) for mounting a root box;

a root box support frame (3) for supporting a root box frame (9);

the multiple plant weighing sensing devices (7) are installed on the end face of the top end of the horizontal portion of the L-shaped plate (82), and when the root box moves to a position right above the single plant weighing sensing device (6), interference pressure exists between the bottom end of the root box and the top end of the single plant weighing sensing device (6).

2. The movable cultivation shelf capable of weighing in real time as claimed in claim 1, wherein the root box support frame (3) is installed on the top end face of the plurality of plant weighing sensing devices (7), the two end portions of the root box frame (9) are respectively installed on the top end face of the root box support frame (3), and the two end portions of the root box frame (9) can slide on the top end face of the root box support frame (3) and simultaneously drive the bottom end of the root box to move to the top end of the single plant weighing sensing device (6).

3. The mobile cultivation shelf capable of weighing in real time as claimed in claim 1, further comprising a fixed bar slide rail (81) disposed on the top end face of the root box support frame (3); the root box frame is characterized in that a sliding groove (72) is formed in the bottom face of the end portion of the root box frame (9), and the sliding groove (72) can be slidably mounted on a fixed rod sliding rail (81).

4. The movable cultivation shelf capable of weighing in real time according to claim 1, wherein the top plate (1) is provided in multiple layers arranged from top to bottom, the root box support frames (3) are provided in multiple layers arranged from top to bottom, and the top plate (1) is provided between the root box support frames (3) adjacent to each other.

5. The mobile cultivation shelf capable of weighing in real time as claimed in claim 1, wherein the interference pressure between the bottom end of the root box and the top end of the individual plant weighing sensor device (6) is equal to the self-gravity of the root box.

6. The mobile cultivation shelf capable of weighing in real time as claimed in claim 1, wherein the individual weighing sensing device (6) comprises a sensor mounting base (61), an individual weight receiving member (62) and an elastic member (63), the individual weight receiving member (62) is mounted on the top of the sensor mounting base (61), the elastic member (63) is arranged between the sensor mounting base (61) and the individual weight receiving member (62), and the sensor mounting base (61) and the individual weight receiving member (62) are connected only through the elastic member (63).

7. The mobile cultivation shelf capable of weighing in real time as claimed in claim 6, wherein the sensor mounting base (61) comprises an upper step and a lower step arranged below the upper step, wherein a concave sensor mounting groove (64) is formed in the middle of the upper step, the individual plant weight bearing member (62) is mounted on the upper step of the sensor mounting base (61), the upper end of the elastic member (63) is mounted in the middle of the bottom surface of the individual plant weight bearing member (62), and the lower end of the elastic member (63) is mounted in the sensor mounting groove (64).

8. The portable cultivation shelf with real-time weighing according to claim 7, wherein the individual load cell sensor device (6) further comprises an individual load cell installed in the sensor installation groove (64) between the lower end of the elastic member (63) and the inner bottom surface of the sensor installation groove (64).

9. A mobile cultivation shelf that can be weighed in real time according to claim 1, further comprising casters (4), the casters (4) being mounted at the bottom end of the side support frames (2).

10. The mobile cultivation shelf capable of weighing in real time according to claim 1, further comprising a nutrient solution mounting hook (5) installed in a mounting groove provided at a side of the top plate (1).

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