CN215122450U - A concatenation formula observation window for plant roots - Google Patents

Abstract

The utility model discloses a concatenation formula observation window for plant roots, including the bottom plate, set up four risers respectively around the bottom plate, the adjacent position of four risers passes through the joint subassembly to be connected, and simultaneously at least one riser also is connected with the bottom plate through the joint subassembly to constitute top open-ended cuboid cavity, simultaneously at least one riser sets up to transparent, and the joint subassembly includes pothook and draw-in groove, and the pothook can slide in the draw-in groove and carry out the block, and the bottom plate adopts snow to Buddha the board, and wherein two risers adopt snow to Buddha the board, and two remaining risers adopt there is the organic board, and the organic board is transparent, just the pothook all sets up on the organic board, the draw-in groove sets up on snow Buddha the board. Can make things convenient for children or student to observe the growth of inside plant roots through the organic board, improve the enjoyment of teaching, wholly connect through the joint structure moreover, also guaranteed children or student and participated in the concatenation of whole observation window, further improve and participate in the sense for the enjoyment is better.

Description

A concatenation formula observation window for plant roots

Technical Field

The utility model relates to a plant roots research field especially relates to a concatenation formula observation window for plant roots.

Background

Plants grow through the vegetative and sessile state of the root system. The root system influences the growth and development of plants by influencing the absorption of water and nutrients, the root can send signals to the overground part to influence the functions of other organs of the overground part, and the root system is also a host of soil microorganisms. The research on the phenotype of the root system is very important for finding beneficial characters of crops, cultivating new varieties, optimizing cultivation modes and the like, and the research on the root system can also increase the love of children on natural life and improve the learning enthusiasm.

In general, methods for studying plant roots range from destructive excavation and cutting, to microinvasion observation, to non-invasive monitoring. The traditional classical root system research methods mainly comprise: invasive and destructive methods such as excavation, monolith method, drilling method, and section wall method. Non-destructive or minimally invasive research methods include: glass wall method, endoscopic tube method (micro-canal), container method, etc. Of course, the methods are not very useful for children or pupils, and are all professional research methods.

For the scientific education of the plant roots of children, an observation device which is simple in structure, convenient to assemble and fun is lacked.

Therefore, the inventor of the present invention aims to provide a splicing type observation window for plant roots, which aims to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a concatenation formula observation window for plant roots.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides a concatenation formula observation window for plant roots, includes the bottom plate set up four risers, four around the bottom plate respectively the adjacent position of riser passes through the joint subassembly and connects, simultaneously at least one the riser also is connected with the bottom plate through the joint subassembly to constitute top open-ended cuboid cavity, simultaneously at least one the riser sets up to transparent, the joint subassembly includes pothook and draw-in groove, the pothook can slide into the draw-in groove and carry out the block, the bottom plate adopts snow to Buddha the board, and wherein two risers adopt snow to Buddha the board, and two remaining risers adopt there is the organic board, and the organic board is transparent, just the pothook all sets up on there is the organic board, the draw-in groove sets up on snow Buddha the board.

Preferably, a connecting groove is further formed in the snowboard, and a machine plate is arranged in the connecting groove. The joint utilizes the spread groove promptly in the joint for snowfoil board and organic board's combination is more stable, also can prevent the loss of inside soil.

Preferably, the pothook includes connecting portion and hook portion, hook portion passes through connecting portion and is connected with the organic board, the draw-in groove is the through-hole, hook portion passes the draw-in groove to when the joint, connecting portion are located the draw-in groove, hook portion and the contact of snowBuddha board. The stability of connection of the clamping hook and the clamping groove is ensured. And the inner side of the hook part of the clamping hook is arc-shaped and inclined, so that the stable sliding of the clamping hook and the clamping groove can be ensured, and the damage to the snowboard is reduced.

Preferably, the left and right sides and the downside of organic board all set up the pothook, and every side all sets up two pothooks. The stability of connection is further guaranteed, and the hardness of the organic plate is superior to that of the snow Buddha plate, so that the clamping hook is arranged on the organic plate, and the processing is convenient.

Preferably, still set up the locking hole on the bottom plate, supply the locking post setting in the locking hole, and when the riser setting was on the bottom plate, the locking post setting was in the locking hole, and at this moment, the locking post can lean on with the inboard of riser, made the riser locking. The four vertical plates are firstly clamped through the clamping component to surround the periphery and then are connected with the bottom plate through the clamping component, the four vertical plates are integrally moved at the moment to realize clamping, for example, the clamping direction is leftward, a locking column is arranged on the inner side of the vertical plate on the left side to realize limiting, and when the vertical plates are taken out, the locking column is taken out firstly and then slides rightward to realize unlocking; and the connection of riser, its joint direction is decurrent, and the unblock direction is the unblock that makes progress for owing to the restriction of the joint subassembly on the bottom plate, the unblock between the riser just can be gone on after the unblock with the bottom plate, has guaranteed holistic connection stability.

Preferably, the bottom plate is further provided with a growing hole, a growing rod is arranged in the growing hole, and the growing rod is vertical to the bottom plate. The setting of growing rod has guaranteed that the plant grows along growing rod, for example vine cane plant, and general growing rod sets up four, can select to set up several growing rods according to the demand.

Preferably, the bottom plate is further provided with air holes, and the shape of the air holes can be letters or patterns. Namely, the arrangement of the air holes can ensure the air permeability of the whole soil and the growth of plants.

The utility model relates to a concatenation formula observation window for plant roots's beneficial effect is, sets up two risers into transparent organic board, for example the setting is the face around being in, can make things convenient for children or student to observe the growth of inside plant roots through the organic board, improves the enjoyment of teaching, wholly connects through the joint structure moreover, has also guaranteed children or student and has participated in the concatenation of whole observation window, further improves and participates in the sense for the enjoyment is better.

Drawings

Fig. 1 is a schematic structural diagram of a spliced observation window for a plant root system.

Fig. 2 is a schematic view of a base plate.

Fig. 3 is a schematic view of an organic board.

Fig. 4 is a schematic view of the outside of the side plate.

Fig. 5 is a schematic view of the inside of the side plate.

Fig. 6 is a top view of the side plate.

Fig. 7 is a schematic view of the hook.

In the figure:

1. a bottom plate, 2, a vertical plate, 3, a clamping component, 4, a connecting groove, 5, a locking hole, 6, a locking column, 7, a growing hole, 8 and a vent hole,

21. an organic plate is arranged on the base plate,

31. a hook, 32, a clamping groove, 311, a connecting part, 312 and a hook part.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1-7, a concatenation formula observation window for plant roots in this embodiment, including bottom plate 1, set up four risers 2 respectively around bottom plate 1, the adjacent position of four risers 2 is connected through joint component 3, at least one riser 2 also is connected with bottom plate 1 through joint component 3 simultaneously, and constitute the cuboid cavity of top open-ended, at least one riser 2 sets up to transparent simultaneously, joint component 3 includes pothook 31 and draw-in groove 32, pothook 31 can slide into draw-in groove 32 and carry out the block, bottom plate 1 adopts the snow board of Buddha, wherein two risers 2 adopt the snow board of Buddha, two remaining risers 2 adopt organic board 21, and organic board 21 is transparent, and pothook 31 all sets up on organic board 21, draw-in groove 32 sets up on the snow board of Buddha.

The snowboard is also provided with a connecting groove 4, and a machine plate 21 is arranged in the connecting groove 4. In other words, the snowfoil board and the organic board 21 are combined more stably by the connecting groove 4 while being clamped, and the internal soil can be prevented from losing.

The hook 31 comprises a connecting part 311 and a hook part 312, the hook part 312 is connected with the organic plate 21 through the connecting part 311, the clamping groove 32 is a through hole, the hook part 312 penetrates through the clamping groove 32, in the clamping process, the connecting part 311 is located in the clamping groove 32, and the hook part 312 is in contact with the snowflake plate. The connection stability of the hook 31 and the slot 32 is ensured. The inner side of the hook part 312 of the hook 31 is arc-shaped and inclined, so that the stable sliding of the hook 31 and the clamping groove 32 can be ensured, and the damage to the snowboard is reduced.

The left and right sides and the lower side of the organic board 21 are provided with hooks 31, and each side edge is provided with two hooks 31. That is, the stability of the connection is further ensured, and the hardness of the organic board 21 is better than that of the snowboard, so that the hook 31 is arranged on the organic board 21, and the processing is also convenient.

Still set up locking hole 5 on the bottom plate 1, supply locking post 6 to set up in the locking hole 5, and when riser 2 set up on bottom plate 1, locking post 6 sets up in locking hole 5, and at this moment, locking post 6 can support with the inboard of riser 2 and lean on, make riser 2 locking. The four vertical plates 2 are firstly clamped through the clamping component 3 to form the periphery, and then are connected with the bottom plate 1 through the clamping component 3, at the moment, the four vertical plates 2 are integrally moved to realize clamping, for example, the clamping direction is leftward, the locking column 6 is arranged on the inner side of the vertical plate 2 on the left side to realize limiting, and when the vertical plates are taken out, the locking column 6 is taken out firstly and then slides rightward to realize unlocking; and the connection of riser 2, its joint direction is decurrent, and the unblock direction is the unblock that makes progress for owing to the restriction of the joint subassembly 3 on the bottom plate 1, the unblock between the riser 2 can be gone on after with the unblock of bottom plate 1, has guaranteed holistic connection stability.

The bottom plate 1 is also provided with a growth hole 7, a growth rod is arranged in the growth hole 7, and the growth rod is vertical to the bottom plate 1. The setting of growing rod has guaranteed that the plant grows along growing rod, for example vine cane plant, and general growing rod 7 sets up four, can select to set up several growing rods according to the demand.

The bottom plate 1 is also provided with air holes 8, and the shape of the air holes 8 can be set as letters or patterns. Namely, the arrangement of the air holes 8 can ensure the air permeability of the whole soil and the growth of plants.

The utility model provides a concatenation formula observation window for plant roots's beneficial effect is, sets up two risers 2 into transparent organic board 21, for example the setting is the face around being in, can make things convenient for children or student to observe the growth of inside plant roots through organic board 21, improves the enjoyment of teaching, wholly connects through the joint structure moreover, has also guaranteed children or student and has participated in the concatenation of whole observation window, further improves and participates in the sense for the enjoyment is better.

The assembly process is that, the left and right sides is the snow Buddha board, and the bottom plate is the snow Buddha board, and the front and back both sides are the organic board, set up draw-in groove and spread groove on the snow Buddha board to and the hole that sets up on the bottom plate.

Install two organic boards in a left side earlier, install the right side again, the installation direction is locking down this moment, and the installation back, the pothook and the bottom plate of organic board bottom side carry out the joint, and the joint direction is left, again, inserts the locking post, and the locking post supports the inboard that leans on left snow Buddha board this moment, sets up the growth that the stem guaranteed the vine plant on the recycle growth slot hole. And after the assembly, the organic plate is embedded in the connecting groove, so that the stability of connection is ensured.

When unlocking, the locking column is taken down firstly, the bottom plate moves rightwards, the bottom plate is separated, and then the left side plate and the right side plate slide upwards to be separated from the organic plate, so that disassembly is realized.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (7)

1. The utility model provides a concatenation formula observation window for plant roots, its characterized in that: including the bottom plate set up four risers, four respectively around the bottom plate the adjacent position of riser passes through the joint subassembly and connects, simultaneously at least one the riser also is connected with the bottom plate through the joint subassembly to constitute top open-ended cuboid cavity, simultaneously at least one the riser sets up to transparent, the joint subassembly includes pothook and draw-in groove, the pothook can slide in the draw-in groove and carry out the block, the bottom plate adopts snow to Buddha the board, and wherein two risers adopt snow to Buddha the board, and remaining two risers adopt organic board, and organic board is transparent, just the pothook all sets up on organic board, the draw-in groove sets up on snow Buddha board.

2. The spliced observation window for plant roots of claim 1, wherein: the snowfoil board is also provided with a connecting groove, and a machine board is arranged in the connecting groove.

3. The spliced observation window for plant roots of claim 1, wherein: the pothook includes connecting portion and hook portion, hook portion passes through connecting portion and is connected with the organic board, the draw-in groove is the through-hole, hook portion passes the draw-in groove to when the joint, connecting portion are located the draw-in groove, hook portion and the contact of snowBuddha board.

4. The spliced observation window for plant roots of claim 1, wherein: the left and right sides and the downside of organic board all set up the pothook, and every side all sets up two pothooks.

5. The spliced observation window for plant roots of claim 1, wherein: still set up the locking hole on the bottom plate, the downthehole setting that supplies the locking post of locking, and when the riser setting was on the bottom plate, the locking post setting was in the locking hole, and at this moment, the locking post can lean on with the inboard of riser to make the riser locking.

6. The spliced observation window for plant roots of claim 1, wherein: the bottom plate is also provided with a growing hole, a growing rod is arranged in the growing hole, and the growing rod is vertical to the bottom plate.

7. The spliced observation window for plant roots of claim 1, wherein: the bottom plate is also provided with air holes, and the shape of the air holes can be set as letters or patterns.

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