CN220476530U - Portable laboratory plant rooting observer - Google Patents

Abstract

The utility model discloses a portable laboratory plant rooting observer which comprises a planting cylinder with openings at the upper end and the lower end and a considerable thickness, a cylinder cover and a bottom box which are respectively arranged above and below the planting cylinder, wherein the planting cylinder is circular, a plurality of planting holes are formed in the side wall of the planting cylinder, the planting holes penetrate through the side wall of the planting cylinder, the bottom box is used for collecting and containing experimental culture solution, and a water pump is used for pumping the experimental nutrient solution in the bottom box to the top of the planting cylinder and spraying the experimental nutrient solution to the inner wall of the planting cylinder. The portable laboratory plant rooting observer adopting the technical scheme is barrel-like in whole shape, small and light, favorable for moving, simple in operation and practical for observing the growth condition of plant roots in the current experimental study.

Description

Portable laboratory plant rooting observer

Technical Field

The utility model relates to a plant culture experimental device, in particular to a portable laboratory plant rooting observer.

Background

The plant root system is an important organ for obtaining nutrient elements and water required by growth of plants, and in order to promote the growth of the plants, the plant root system must be in a good growth environment, and because the root system is in a dark environment for a long time in underground growth and development, special observation equipment is required to observe the growth environment of the root system. The existing device for observing the growth of the plant root system adopts water culture, is heavy and difficult to move, has large difference with the field growth environment, has large measuring error and lower accuracy, cannot create an aerobic environment for the growth of the plant root system, and is in an anaerobic state for a long time, so that the actual condition of the growth of the plant root system cannot be reflected.

Disclosure of Invention

The utility model aims to provide a portable laboratory plant rooting observer which aims to solve the defects.

According to one aspect of the present utility model, there is provided a portable laboratory plant rooting viewer comprising a planting cylinder having openings at the upper and lower ends and having a considerable thickness, and cylinder covers and bottom boxes respectively installed above and below the planting cylinder, the planting cylinder being circular and having a plurality of planting holes formed in a side wall thereof, the planting holes penetrating through the side wall of the planting cylinder, the bottom box for collecting and containing experimental culture solution, and a water pump for pumping the experimental nutrient solution in the bottom box to the top of the planting cylinder and spraying the experimental nutrient solution onto the inner wall of the planting cylinder.

Further, the planting cylinder is formed by connecting a plurality of arc planting pieces in an end-to-end mode in a surrounding mode, and planting holes penetrate through the side walls of the planting pieces.

Specifically, the planting piece is a black sponge piece. The planting cylinder can be telescopic and breathable.

Furthermore, a seed culture dish is arranged in the planting hole, seeds of the experimental plant are planted in the seed culture dish, and the shape of the planting hole is matched with the shape of the seed culture dish.

Specifically, the bottom of the seed culture dish is net-shaped. The net-shaped bottom facilitates the attachment of seeds. The seed culture dish can be made of a small rhizosphere box or a rhizosphere bag body.

In some embodiments, the cover and the bottom box are removably attached to the planter cup, respectively.

Further, the water pump is arranged in the cylinder cover and inserted into the bottom box through a water suction pipe, the lower end of the cylinder cover is provided with spraying holes which are uniformly distributed along the peripheral wall of the lower end of the cylinder cover and face the inner wall of the planting cylinder, and experimental nutrient solution in the bottom box is pumped to the top of the planting cylinder through the water suction pipe and sprayed to the inner wall of the planting cylinder and flows back to the bottom box through the inner wall of the planting cylinder.

Furthermore, the cylinder cover is also provided with a key and a display screen, the key is used for controlling the working state of the water pump, and the display screen is used for displaying the working state of the water pump. The spraying time and the regular spraying flow of the water pump can be controlled through the keys.

Further, the cylinder cover is also provided with an environment sensor for detecting the internal environment parameters of the planting cylinder, and the internal environment parameters of the planting cylinder detected by the environment sensor are displayed on a display screen. Depending on the type of environmental sensor, the temperature, humidity, or oxygen content within the planter sleeve can be displayed via a display.

Further, the cylinder cover is also provided with a handle. The device is thereby easy to carry and move.

According to the portable laboratory plant rooting observer adopting the technical scheme, the germinated seeds can be plugged into the meshes at the bottom of the seed culture dish to enable the roots to grow on the walls, the stems and the leaves grow outwards, and meanwhile, the experimental nutrient solution containing specific nutrient substances is pumped by the water pump and uniformly sprayed on the plant roots, so that only the roots absorb the nutrient substances to be added by people, and the experimental variables can be controlled. The bottom box can collect redundant experimental nutrient solution, and has environmental protection. By controlling the spraying time of the water pump, the manual operation error can be reduced. The planting barrel of the device can be detached to observe the growth condition of roots, and the dark environment conforms to the growth characteristics of the roots of plants when the planting barrel is combined. The device is similar to a barrel shape in whole, is small and light, is favorable for moving, is simple to operate, and is practical for observing the growth condition of the plant roots in the current experimental study.

Drawings

Fig. 1 is a schematic structural view of a portable laboratory plant rooting viewer according to an embodiment of the present utility model.

Fig. 2 is an assembly view of the portable laboratory plant rooting observer shown in fig. 1.

Fig. 3 is a schematic view of the planting piece shown in fig. 2.

Fig. 4 is a schematic structural view of the seed culture dish shown in fig. 2.

Fig. 5 is a schematic structural view of a portable laboratory plant rooting viewer according to another embodiment of the present utility model.

FIG. 6 is an assembly view of the portable laboratory plant rooting viewer of FIG. 1.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Example 1

Fig. 1 to 4 schematically show a portable laboratory plant rooting viewer according to one embodiment of the present utility model.

As shown, the apparatus includes a planting cylinder 1 having an opening at both upper and lower ends and having a considerable thickness, and cylinder covers 2 and bottom boxes 3 installed above and below the planting cylinder, respectively.

The cylinder cover 2 and the bottom box 3 are respectively detachably connected with the planting cylinder 1.

The planting cylinder 1 is circular, and a plurality of planting holes 111 are formed in the side wall of the planting cylinder 1, and the planting holes 111 penetrate through the side wall of the planting cylinder 1.

As used herein, "substantial thickness" refers to the wall thickness of the planter 1, i.e., the depth of the planting holes 111, sufficient for planting experimental plants.

The bottom box 3 is used for collecting and containing experimental culture solution, and a water pump pumps the experimental nutrient solution in the bottom box 3 to the top of the planting cylinder 1 and sprays the experimental nutrient solution onto the inner wall of the planting cylinder 1.

In this embodiment, the planting cylinder 1 is formed by a plurality of arc planting pieces 11 which are connected end to end, and planting holes 111 penetrate through the side walls of the planting pieces 11.

A plurality of arcuate planting pieces 11 are fixed together by an annular clip 7 to form a cylindrical shape.

The planting piece 11 is a black sponge piece. The planting cylinder 1 formed by the device can be telescopic and breathable.

The planting hole 111 also has a seed culture dish 6 therein.

Seeds of experimental plants are planted in the seed culture dish 6, and the shape of the planting hole 111 is matched with the shape of the seed culture dish 6.

The bottom of the seed culture dish 6 is net-shaped. The net-shaped bottom facilitates the attachment of seeds. The seed culture dish 6 may be formed of a small rhizosphere box or a rhizosphere bag.

The water pump is arranged in the cylinder cover 2 and is inserted into the bottom box 3 through a water suction pipe 4, and a spraying hole 5 is arranged at the lower end of the cylinder cover 2.

The spraying holes 5 are uniformly distributed along the peripheral wall of the lower end of the cylinder cover 2 and face the inner wall of the planting cylinder 1, and experimental nutrient solution in the bottom box 3 is pumped to the top of the planting cylinder 1 through the water suction pipe 4 and sprayed to the inner wall of the planting cylinder 1 and flows back into the bottom box 3 through the inner wall of the planting cylinder 1 for repeated use.

The water pump can be powered by direct insertion or by a storage battery arranged in the cylinder cover 2. The secondary battery may be a dry battery or a rechargeable battery.

The cylinder cover 2 is also provided with keys 22 and a display screen 21.

The key 22 is used for controlling the working state of the water pump, and the display screen 21 is used for displaying the working state of the water pump. The spraying time and the regular spraying flow of the water pump can be controlled by the key 22.

In other embodiments, the cover 2 may be further provided with an environmental sensor for detecting an environmental parameter inside the planting cylinder 1, and the environmental parameter inside the planting cylinder 1 detected by the environmental sensor is displayed on the display screen 21. Depending on the type of environmental sensor, the temperature, humidity, or oxygen content within the planter box 1 can be displayed by a display 21.

The cylinder cover 2 is also provided with a handle 23. The device is thereby easy to carry and move.

According to the portable laboratory plant rooting observer adopting the technical scheme, the germinated seeds can be plugged into the meshes at the bottom of the seed culture dish to enable the roots to grow on the walls, the stems and the leaves grow outwards, and meanwhile, the experimental nutrient solution containing specific nutrient substances is pumped by the water pump and uniformly sprayed on the plant roots, so that only the roots absorb the nutrient substances to be added by people, and the experimental variables can be controlled. The bottom box can collect redundant experimental nutrient solution, and has environmental protection. By controlling the spraying time of the water pump, the manual operation error can be reduced. The planting barrel of the device can be detached to observe the growth condition of roots, and the dark environment conforms to the growth characteristics of the roots of plants when the planting barrel is combined. The device is similar to a barrel shape in whole, is small and light, is favorable for moving, is simple to operate, and is practical for observing the growth condition of the plant roots in the current experimental study.

Example 2

Fig. 5 and 6 schematically show a portable laboratory plant rooting viewer according to another embodiment of the present utility model. The difference from embodiment 1 is that the bottom case 3 is provided with two posts 31 extending up to the cartridge lid 2.

Wherein the upper and lower parts of the column 31 are provided with a circular collar 32, respectively. The upper and lower ends of the plurality of arcuate planting pieces 11 are respectively secured together by a collar 32.

The top end of the upright post 31 is also provided with a lifting rope 33. The entire portable laboratory plant rooting viewer can be lifted up by means of the lifting rope 33.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. The utility model provides a portable laboratory plant observer that takes root, its characterized in that, including one have the opening at upper and lower both ends and have a planting section of thick bamboo of equivalent thickness and install respectively in planting section of thick bamboo top and below's cover and end box, it is circular and the lateral wall is equipped with a plurality of planting holes to plant the section of thick bamboo, plant the hole link up plant the lateral wall of section of thick bamboo, end box is used for collecting and holding experimental culture solution, a water pump will experimental nutrient solution in the end box is extracted to plant a section of thick bamboo top and is sprayed to planting a section of thick bamboo inner wall.

2. The portable laboratory plant rooting viewer of claim 1, wherein the planter sleeve is formed by a plurality of arcuate planter plates joined end to end, and the planter holes extend through the side walls of the planter plates.

3. The portable laboratory plant rooting viewer according to claim 2, wherein the planting sheet is a black sponge sheet.

4. A portable laboratory plant rooting viewer according to claim 1, 2 or 3, further comprising a seed culture dish in which the seeds of the laboratory plant are planted, the planting hole being shaped to match the shape of the seed culture dish.

5. The portable laboratory plant rooting viewer according to claim 4, wherein the bottom of the seed culture dish is net-shaped.

6. The portable laboratory plant rooting viewer according to claim 1, wherein the cover and the bottom box are detachably connected to the planting cylinder, respectively.

7. The portable laboratory plant rooting viewer according to claim 6, wherein the water pump is mounted inside the cover and inserted into the bottom case through a water suction pipe, the lower end of the cover is provided with spray holes which are uniformly distributed along the peripheral wall of the lower end of the cover and face the inner wall of the planting cylinder, and the experimental nutrient solution in the bottom case is pumped to the top of the planting cylinder through the water suction pipe and sprayed to the inner wall of the planting cylinder and flows back to the bottom case through the inner wall of the planting cylinder.

8. The portable laboratory plant rooting viewer according to claim 1, wherein the barrel cover is further provided with keys for controlling the operating state of the water pump and a display screen for displaying the operating state of the water pump.

9. The portable laboratory plant rooting viewer according to claim 8, wherein the cover is further provided with an environmental sensor for detecting an environmental parameter inside the planting cylinder, the environmental parameter inside the planting cylinder detected by the environmental sensor being displayed on the display screen.

10. The portable laboratory plant rooting viewer according to claim 1, wherein the cover is further provided with a handle.