TWI766778B - Planting columns for plants to climb - Google Patents

Abstract

The invention relates to a planting column for plants to climb, which is mainly composed of a rod body, a net body and sphagnum moss, so that the net body can displace the sphagnum moss laid on the net body during the process of winding the rod body. It is rolled and rolled to form a rod shape, wherein the rod system is designed as a rod column with a tube sleeve on the top and a rod column extending out of the mesh at the bottom. It is fixed, and a plurality of through holes are arranged on the tube sleeve, so that when water is stored, it can flow outward to the water moss for the air roots of climbing vines to absorb water.

Description

Planting columns for plants to climb

The present invention relates to a planting column, especially a planting column for climbing vine plants.

Climbing plants have the characteristics of climbing and growing, so snake boards are usually used in planting to facilitate growth. With the functions of ventilation and water retention of snake boards, the aerial roots of climbing vines can be inserted and fixed. However, snake boards also have a price. Expensive, easily damaged disadvantages.

Sphagnum moss is a natural moss with a simple structure consisting only of stems and leaves, and sometimes only flat fronds without true roots and vascular bundles. Because of its softness, strong water absorption, long water retention time but breathable characteristics, it is often used for water retention of orchids and planting of hydroponic plants. However, due to the loose structure of water moss and the inability to climb under force, it has not been directly applied to the planting of climbing vines.

In view of the above-mentioned problems, the inventor of the present invention feels that sphagnum sphagnum is a good material for the growth of vine plants, but it is limited that the simple sphagnum moss cannot be shaped and cannot be used for the climbing and growth of vine plants, so he has been engaged in creation for many years. , The professional experience of design, active research and development and improvement, under the careful consideration of the conditions of all parties, finally created the composition of this structure, which will completely solve the above problems.

The invention relates to a planting column for plants to climb, which is mainly composed of a rod body, a net body and sphagnum moss, so that the net body can displace the sphagnum moss laid on the net body during the process of winding the rod body. and It is rolled to form a rod shape, wherein the rod system is a rod column with a tube sleeve on the top and a rod column extending out of the mesh at the bottom. benefit:

Because the planting column of the present invention is tied to the process of winding the net body and wrapping the rod body, the sphagnum moss laid on the net body is rolled together (by conventional methods such as binding and clamping) into a rod shape. , and the rods protruding from the outside of the net have the size corresponding to the combination of the insertion tube sleeves, so when using, the rods of the planting columns can be directly inserted into the soil to stand upright for climbing vine plants to climb and grow. The breathable characteristics provide a good growth environment, and after the climbing plant grows tall, it can be connected in series through the upper and lower of another planting column to continue to allow the climbing plant to grow smoothly.

The tube sleeve of the planting column of the present invention can not only be inserted into the rod column of another planting column to form a series connection, but also due to the design of multiple through holes on the tube sleeve (the through holes of the tube sleeve can further have larger, larger, and lower diameters). The small design allows the water to slowly permeate outward and downward, so that the water retained by the planting column is uniform), so that when the water is stored in the tube sleeve, it can continue to flow outward to the water moss, which promotes the planting column. The sphagnum moss retains water from top to bottom, so the aerial roots of climbing vines can extend into the sphagnum through the net to absorb water and nutrients.

1: rod body

11: Tube sleeve

111: Through hole

12: stick column

2: mesh body

3: Water moss

4: Climbing vines

10: Planting columns

[Fig. 1] is a structural diagram of the present invention.

[FIG. 2] is an external appearance reference drawing of the present invention.

[FIG. 3] is a schematic diagram of a series connection of the present invention.

[FIG. 4] is a state diagram of a series connection of the present invention.

[Fig. 5] is a schematic diagram of the implementation of the present invention.

In order to enable your examiners to truly understand the structural composition of the present invention and the functional benefits that can be achieved, for the rest, the following examples are given in conjunction with the drawings, and the detailed description is as follows:

The present invention is a planting column for plants to climb, which is mainly composed of a rod body 1, a net body 2 and a water moss 3, so that the net body 2 will be laid on the net body during the process of winding the rod body 1. The water moss 3 on the 2 are rolled up together to form a rod shape (as shown in Figures 1 and 2), wherein the rod body 1 is a rod column 12 that forms a tube sleeve 11 on the upper side and extends out of the mesh at the bottom. The rod column 12 has a size corresponding to the combination of the insertion tube sleeve 11, which can be connected and fixed between the planting columns 10 in series, and a plurality of through holes 111 are provided on the tube sleeve 11, so that the water can be circulated to the water moss when the water is stored. 3, for the air roots of climbing vines to absorb water.

It can be seen from the above-mentioned components that since the arrangement of the rod body 1 provides the support strength of the planting column 10, the water moss laid on the net body 2 will be removed during the process of winding and wrapping the rod body 1 with the net body 2. 3 After winding and fixing together (conventional methods such as binding and clamping can be used), it can be ensured that the formed planting column 10 is strong enough for the climbing vine 4 to climb and grow, and because the net body 2 is tied in the During the process of winding the rod body 1, the water moss 3 is wrapped in it, so most of the water moss 3 in the planting column 10 will have contact friction force with the mesh body 2 and the binding force of the winding in the inside and outside of the planting column 10. It can ensure the fixing force of the water moss 3 being rolled and formed for a long time. Furthermore, since the above-mentioned rods 12 have a size corresponding to the combination of the insertion tube sleeves 11, the planting columns 10 can be connected by an upper and lower series of insertion methods ( As shown in Figures 3 and 4), the height of the planting column 10 is increased. In addition, the plurality of through holes 111 provided on the tube sleeve 11 can be further designed to have the characteristics of being large at the top and small at the bottom (which gradually becomes smaller from the top to the bottom), and the arrangement of the through holes 111 is based on the wall of the tube sleeve 11 . Therefore, when water is stored in the pipe sleeve 11 (the watering is carried out from the top of the climbing vine 4, at this time, the water is not only absorbed by the sphagnum 3 above, but also accumulated in the pipe sleeve 11). water), the water flow above can quickly and continuously flow outward to the water moss 3 through the larger through holes 111, and as the water moss 3 is saturated with water from top to bottom, the water flow below the tube sleeve 11 can pass through the smaller The through holes 111 slowly penetrate out (the water moss 3 will expand after absorbing water and increase the resistance of the water flow to seep out through the through holes 111, forming the effect of water supply for a period of time), which promotes the sphagnum 3 of the planting column 10 from top to bottom. Water is retained, so the aerial roots of the climbing plant 4 can extend into the water moss 3 through the net body 2 to absorb water and nutrients, and complete the climbing state of being attached and fixed.

Therefore, when the present invention is implemented, the protruding rods 12 of the planting posts 10 can be directly inserted into the soil (as shown in FIG. 5 , it can be soil on the ground or in a flowerpot, and the soil includes suitable for climbing vines) Any kind of culturing soil of 4) is erected and fixed, that is, the climbing vine plant 4 can climb and grow along the planting column 10, and a good growth environment is provided by the characteristics of water moss 3 water retention and ventilation, so that the air roots can pass through the net. The body 2 extends into the sphagnum moss 3 to absorb water and nutrients and is attached and fixed, and after the climbing plant 4 grows tall, it can be connected in series through the top and bottom of another planting column 10, and a plurality of planting columns 10 can be connected in series. It is connected to a higher height, so that the climbing plant 4 can grow smoothly, and the purpose of the sphagnum moss 3 for the climbing plant 4 to climb is completed.

1: rod body

11: Tube sleeve

111: Through hole

12: stick column

2: mesh body

3: Water moss

10: Planting columns

Claims (2)

A planting column for plants to climb is mainly composed of a rod body, a net body and water moss, so that the water moss is laid on the net body and is fixed by winding the rod body through the net body into a rod shape, wherein The rod system is a rod column with the upper part forming the tube sleeve and the lower part extending out of the mesh. The rod column has the size corresponding to the combination of the insertion tube sleeve, which can be connected and fixed between the planting columns in series, and the tube sleeve is provided with a plurality of The through-holes allow the water to flow outward to the sphagnum during water storage. The planting column for climbing plants according to claim 1, wherein the plurality of through holes arranged on the pipe sleeve are gradually reduced from top to bottom.

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