JPH01257411A - Artificial sphagnum moss - Google Patents

Abstract

PURPOSE:To provide an artificial sphagnum moss composed of a strength-holding material and a water-retaining material consisting of a hydrophilic fiber, effective in preventing the compacting during use, keeping the transplanted state and promoting the growth of plant and suitable as a medium for pot culture, etc. CONSTITUTION:The objective artificial sphagnum moss is composed mainly of a water-retaining material 2 consisting of a hydrophilic fiber (preferably rock wool or ceramic fiber) and a strength-holding material 1 (preferably polyester, nylon or glass fiber) forming the skeleton of said hydrophilic fiber.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to artificial sphagnum moss, and more particularly to artificial sphagnum moss suitable for pot cultivation media and the like.

[Conventional technology]

Conventionally, natural sphagnum moss has been used as a medium for flower NH pot cultivation or seedling raising, as it is lightweight and clean, with excellent water retention and air permeability.

However, in recent years, resources have been depleted, leading to a shortage of good quality products.
This is causing prices to rise. Therefore, in order to deal with this situation, recently, as a natural alternative material for sphagnum moss, multifilament systems such as synthetic resins have been made bulky and canted, as shown in Japanese Patent Application Laid-Open No. 62-29922. or a synthetic resin film with a water-absorbing polymer attached to it, cut into pieces, or a water-absorbing polymer formed into a string shape, or an organic synthetic fiber that has been treated to make it hydrophilic and then raised into a woolen form. Molded objects such as sphagnum moss are sold as artificial sphagnum moss.

Further, for the same purpose, attempts have been made to use granular cotton such as unshaped rock wool, rock wool, and ceramic fiber as a substitute for sphagnum moss.

However, with conventional water-absorbing polymers, the binding force between the water-absorbing polymer and water is strong, so when the culture medium dries out, plant roots are unable to absorb enough water, and it also dries out even more. In contrast, this process resulted in water being dehydrated from the roots by the water-absorbing polymer, and this type of artificial culture medium could only be used under humid conditions. In addition, multifilament-based materials formed into bulky shapes, or organic synthetic fibers that have been treated with hydrophilic materials and made into yarn-like materials, have poor water retention properties compared to natural sphagnum moss, and have the disadvantage of ε1. It was unavoidable.

Furthermore, granular cotton such as rock wool, rock wool, and ceramic fiber has the disadvantage that it tends to become compacted during use, resulting in excessive humidity.

[Problem to be solved by the invention]

The purpose of the present invention is to solve all the drawbacks of conventional artificial sphagnum moss, and to create a lightweight and clean artificial sphagnum moss that has excellent water retention properties and is highly breathable without causing overhumidity due to compaction of the culture medium. Our goal is to provide the following.

[Means to solve the problem]

The present inventors conducted research to solve the above-mentioned problems, and found that if a strength-retaining material is used in conjunction with the skeleton of a water-retaining material made of hydrophilic fibers, clogging due to substantial compaction during use can be prevented. The present invention has been completed. That is, the present invention is an artificial sphagnum moss characterized by being mainly composed of a water-retaining material made of hydrophilic fibers and a strength-retaining material serving as a skeleton of the fibers. The present invention will be explained in detail below.

First, as the water retaining material made of hydrophilic fibers used in the present invention, any hydrophilic organic fibers and/or inorganic fibers that are substantially water resistant and do not elute growth inhibitory substances to plants can be used. However, from the viewpoint of affinity for roots, rock wool, ceramic fiber, etc. are preferable, and organic fibers such as Tetoron, which has low hydrophilicity, may be blended in an amount of 5 to 30% in order to maintain shape and adjust water absorption. good.

In addition, the strength-retaining material used in the present invention serves as the skeleton of the water-retaining material made of hydrophilic fibers, and is a synthetic or natural organic fiber, inorganic fiber, or metal fiber, and is substantially insoluble in water. Any material can be used as long as it is water resistant, but organic synthetic fibers such as polyester and nylon, and inorganic fibers such as glass fiber are preferable from the viewpoint of durability, safety in handling, and light weight.

In the present invention, the above-mentioned strength-retaining material is arranged as a skeleton of such a water-retaining material, and the artificial sphagnum moss is constructed mainly from these materials.Specific embodiments thereof include the following: It looks like the diagram shown below. That is, Figures 1 to 4 show some of the basic embodiments of the artificial sphagnum moss of the present invention. Figure 2 shows a cylindrical structure in which the strength-retaining material 1 is knitted together with the water-retaining material 2, or a water-retaining material 2
Figure 3 shows a bundle with a rope-like retaining material 1 wrapped around it, a bundle of strength retaining material 1 as a core wire, and a water retaining material 2 glued around it, or a bundle of retaining material 1 as shown in Figure 4. Various basic embodiments can be adopted, such as one in which the water retaining material 2 is wrapped around a core wire.

Furthermore, one or more of the fibers shown in Figures 1 to 4 may be used in combination.The technical idea behind such a configuration is that hydrophilic fibers that have excellent water absorption properties but have poor shape retention performance by themselves. On the other hand, by arranging a linear or fibrous retaining material as a skeleton that has almost no water absorption property but has excellent strength retention, it is possible to prevent the water retaining material from being compacted, and to create an artificial sphagnum moss shape. The purpose is to make maintenance possible, and it is essential that the above two requirements be the main focus, but it does not prevent the addition of other fertilizers, insecticides, agricultural chemicals, etc. as necessary.

The shape of the artificial sphagnum moss according to the present invention constructed in this way is about 1-15 m in diameter for normal pot cultivation in terms of filling capacity for pots etc. and stability of supporting crops.
It is best to use a string with a length of about 5 to 100 nm.For root wrapping purposes when transporting plants, etc., wrap the appropriate length on a reel without cutting it to the above length, and then wrap it around the reel before use. It is more convenient to cut only the required length.

In addition, for the cultivation of plants such as orchidaceae whose roots particularly prefer air permeability, the artificial sphagnum moss 3 of the present invention woven into a basket shape may be used as a substitute for a pot as shown in the embodiment shown in Fig. 5. (In that case, as a strength-retaining material for artificial sphagnum moss, for example, a material that is flexible like metal wire, has the strength necessary to support the weight of the plant, and has a substantial It is desirable to use a material that is water resistant.

Furthermore, if a combination of ceramic fibers that have no substantial chemical reactivity with the culture solution as wood-philic fibers and organic fibers that have no similar reactivity as strength-retaining materials is used, M
It can be used as a medium material for i-woven culture in place of a gelling material such as agar, and it can also be used continuously as a medium material after acclimatization.

The procedure for using the artificial sphagnum moss of the present invention is the same as the conventionally known method for using natural sphagnum moss. For example, as shown in FIG. All you have to do is fill the surrounding area with artificial sphagnum moss 3. In this case, it is preferable to adjust the method and amount of artificial sphagnum moss 3 depending on the type of plant 4 to be cultivated. The artificial sphagnum moss of the present invention can also be used for root wrapping, for example, by arranging the roots of the plant 4 into a bundle as shown in FIG. good.

[For production]

In the present invention, since the artificial sphagnum moss contains a strength-retaining material, the supporting force of the strength-retaining material prevents substantial compaction during use, and the state at the time of implantation is maintained.
It is estimated that plant growth is promoted.

In addition, hydrophilic fibers are used as the water retention material for artificial sphagnum moss, and as it retains water through capillary water, even if the water content in the artificial sphagnum moss decreases, it will not affect the roots of the plants being cultivated. It can be assumed that the size of the plant is small and the cultivation of plants is easy.

〔Example〕

The present invention will be described in more detail below with reference to Examples.

As a hydrophilic fiber, silica/alumina type (SiO□approximately 5
0%, ANzOi approx. 50%) t', 100 parts by weight of silica-alumina staple fibers with a fiber diameter of approx. 3 μm, and about 100 parts by weight of silica-alumina staple fibers to improve shape retention and adjust water absorption. The strength-retaining material is 607 denier and Tex number 67 made of alkali-free glass with a single fiber diameter of about 9 μm.
．． Glass fiber yarns of 5 g/1000 m, outer diameter 0.14 am and minimum tensile strength of 2.1 kg/yarn were used.

First, ceramic fibers and Tetoron fibers are spread and mixed using a cotton blending machine, and this and glass fiber yarn for strength retention material are formed into a string using a carding machine, and the whole is twisted. After that, cut it to a certain length and make it with a diameter of 3 φ, Te.
Artificial sphagnum moss with an x count of 1000 g/looOm and a length of about 3 On+ was obtained.

For comparison purposes, natural sphagnum moss from New Zealand (
(dried product) and commercially available rock wool for plant cultivation (granular hydrophilic type) were used.

Cultivation tests and performance tests were conducted as follows using the artificial sphagnum moss and conventional culture medium described above.

A. Cultivation test results: Example 1 The tissue culture growth surface of a hybrid of Cadrea was placed in a commercially available black polypot with a diameter of 6 cm and a height of 5.5Ω, and the artificial sphagnum moss of the present invention obtained as described above was placed in the Log The seedlings were planted in a greenhouse so as to enclose the roots, and cultivated for two years in a greenhouse according to the usual method for raising seedlings of Cadrea species. The growth amount and root condition at that time were investigated.

Comparative Example 1 Cultivation was carried out for two years using the same materials and methods as in Example 1, except that 4 g of commercially available dried sphagnum moss from New Zealand was used instead of the artificial sphagnum moss of the present invention. We investigated this point. The results are shown in Table 1.

In Table 1, the growth amount is shown as the value when the result of Comparative Example 1 is taken as 100 for the bulb length of the latest mature bulb. These results revealed that the artificial sphagnum moss of the present invention is more suitable for plant growth than natural sphagnum moss.

B. Performance test results: Example 2 The above-mentioned artificial sphagnum moss Log of the present invention was packed in a commercially available black polypot with a diameter of 6 cm and a height of 5.5 csa, and the above-mentioned artificial sphagnum moss Log was placed in the above-mentioned house according to the usual method for raising seedlings of Cadrea species. Irrigation and fertilization were performed, and changes in volume were investigated at the start of the test and after 6 months.

Comparative Example 2 In a pot similar to that used in Example 2, commercially available 22-
Example 2: 4 g of dried sphagnum moss from Gilland and 10 g of commercially available rock wool for plant cultivation (granular hydrophilic type) were packed respectively.
We conducted similar operations and investigations. The results are shown in Table 2.

Table 2 (The volume at the start of the test is 100) From this result,
It has become clear that the artificial sphagnum moss of the present invention undergoes little change in shape during use.

〔Effect of the invention〕

As detailed above, the artificial sphagnum moss of the present invention does not undergo substantial consolidation during use, and the artificial sphagnum moss itself does not undergo corrosion, so it can be cultivated for a long period of time without transplanting. It is possible to continue the process, and the practical effects are extremely significant.

[Brief explanation of the drawing]

Figures 1 to 4 are perspective views showing some basic embodiments of the artificial sphagnum moss of the present invention, and Figures 5 to 7 are perspective views showing examples of how the artificial sphagnum moss of the present invention is used. . l...Strength retaining material, 2...Water retaining material,
3...Artificial sphagnum moss, 4...Plant, 5
······pot.

Claims (1)

[Claims] An artificial sphagnum moss characterized by being mainly composed of a water retaining material made of hydrophilic fibers and a strength retaining material serving as a skeleton of the fibers.