CN108384263A - The high osmosis degradative flower bowl made of stalk - Google Patents

Abstract

The invention belongs to degradative flower bowl technical fields, are related to a kind of high osmosis degradative flower bowl made of stalk.The material for making the flowerpot includes the component of following mass fraction：30 50 parts of straw powder；20 30 parts of corn flour；20 30 parts of Lauxite；8 12 parts of quartz sand；46 parts of adhesive, adhesive is ethylene oxide.The present invention produces flowerpot using originally discarded shuck, and good permeability is conducive to plant growth, achievees the effect that waste utilization, Environmental Safety.

Description

The high osmosis degradative flower bowl made of stalk

Technical field

The invention belongs to degradative flower bowl technical fields, are related to a kind of high osmosis degradative flower bowl made of stalk.

Background technology

The flowerpot type on flowers market is complete, wooden flower-pot, clay, ceramic, plastic flowerpot etc. at present.Wood Matter flowerpot is light, but without motley color；Clay flowerpot good permeability, but unsightly, weight it is big, jardiniere is beautiful It is magnificent, but it is frangible, price is high, plastic flowerpot is light, and color is beautiful, but gas permeability is bad, and plant is easy rotten, and moulds Pollution environment can not be handled after material is discarded.

Degradable environment protection flowerpot does primary raw material using plant fiber, and gas permeability is very good, can absorb infrared ray, flowerpot institute Soil can be penetrated into containing substance, is conducive to the growth of flowers.But current degradative flower bowl, typically use bamboo fibre or paper fine Dimension is made, and product is single, needs to rely on bamboo resource and timber resources, lacks the approach made by other wastes.

Invention content

Regarding the issue above, the present invention provides a kind of high osmosis degradative flower bowl made of stalk.

In order to achieve the above objectives, present invention employs following technical proposals：

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：

Further include the Wu Luotuo that mass fraction is 5 parts in the above-mentioned high osmosis degradative flower bowl made of stalk Product.

Further include the urine that mass fraction is 0.3-3 parts in the above-mentioned high osmosis degradative flower bowl made of stalk Element.

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：

In the above-mentioned high osmosis degradative flower bowl made of stalk：The adhesive is two fourth of phthalic acid One or more of ester or o-phthalic acid dibutyl ester, the straw powder are sweet potato straw powder or rice straw powder, stalk The grain size of powder is 200-300 mesh.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the foaming agent is in urea or AOS It is one or more of.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the foaming agent includes that mass ratio is 1:1 Urea and AOS.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the flowerpot includes pedestal 1 and detachable The basin body 2 being connected on pedestal 1, the basin body 2 are cylinder hollow and up and down, are led between the basin body 2 and pedestal 1 It crosses clamping structure formation to be detachably connected, the pedestal 1, which is equipped with, can make 1 bottom of pedestal be detached from ground and can will be in pedestal 1 Moisture penetration go out the support hydrofuge structure outside pedestal 1.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the clamping structure includes being located at pedestal 1 Upper several positioning clamping blocks 11 on 2 side inside of basin body, and corresponded with positioning clamping block 11 on basin body 2 Buckling groove 21, the support hydrofuge structure includes several hydrofuge columns 12 in hollow form to 1 internal protrusion of pedestal, described 12 top of hydrofuge column is equipped with the air hole 121 of connection pedestal 1, and a support leg component 3 is removably connected in hydrofuge column 12.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the support leg component includes the row of being inserted into The stabilizer blade being detachably connected in wet column and with hydrofuge column has gap between the stabilizer blade and hydrofuge column wall.

In the above-mentioned high osmosis degradative flower bowl made of stalk, sets on the stabilizer blade and assisted there are one fixed Protrusion, when stabilizer blade is inserted into hydrofuge column described in fixation auxiliary projection be located inside hydrofuge column and fixed auxiliary projection and row Wet column wall is close to.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the positioning clamping block is rectangle, described Buckling groove with positioning clamping block interference fit.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the positioning clamping block is inverted L shape, positioning Towards basin body, the buckling groove is inverted L shape and is clamped the small one end of well width and positioning card the big one end of clamping block width The big one end of block width is connect to match.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the support hydrofuge structure further includes water drainage Hole, water drainage hole is through-hole and water drainage hole is arranged on the side wall of pedestal.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the bottom of the pedestal is plane, pedestal Side wall is arc-shaped, and the inner wall of base side wall is uniformly equipped with several water conservancy diversion reinforcing ribs.

In the above-mentioned high osmosis degradative flower bowl made of stalk, the pedestal is in the side being connect with basin body Annular anti-overflow step equipped with sinking, basin body are equipped in the side of connect base and are inside contracted with the matched annular of anti-overflow step Portion.

Compared with prior art, the advantage of the invention is that：

1, flowerpot is produced using the discarded straw powder of script, achievees the effect that waste utilization, Environmental Safety.

2, with straw powder make flowerpot, good permeability, seepage of water is strong, can prevent rotten of plant, and be conducive to plant into Row photosynthesis.

3, basin body and pedestal are removably connected by clamping structure, and installation and removal are simple, saved the work for changing basin Amount；Pedestal is equipped with hydrofuge column, and air hole is equipped on hydrofuge column, ensures the ventilative of plant root；Pedestal connection support Foot component says that pedestal is held up so that base bottom is not directly contacted with ground, further increases the ventilative hydrofuge performance of flowerpot；Bottom Seat is equipped with water drainage hole and excessive moisture can effectively be discharged, prevent root system of plant ponding after a large amount of water enters；Equipped with ring Shape anti-overflow step and annular inside contract the combination in portion, increase the bonding tightness of two parts, prevent water from basin body and pedestal it Between largely flow out, cause bottom root system water shortage.

Part is illustrated to embody by further advantage, target and the feature of the present invention by following, and part will also be by this The research and practice of invention and be understood by the person skilled in the art.

Description of the drawings

Fig. 1 is the structural schematic diagram that embodiment 11 proposes；

Fig. 2 is the mounting structure schematic diagram of embodiment 11；

Fig. 3 is the topology view of pedestal in embodiment 11；

Fig. 4 is the mounting structure schematic diagram of pedestal in embodiment 11；

Fig. 5 is the scheme of installation of clamping structure in embodiment 11；

Fig. 6 is the scheme of installation of clamping structure in embodiment 12.

Specific implementation mode

Reagent as used in the following examples can be commercially available unless otherwise specified from routine biochemistry reagent shop.

Embodiment 1

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：30 parts of straw powder；30 parts of corn flour；30 parts of Lauxite；8 parts of quartz sand；4 parts of adhesive.In the present embodiment, adhesive For ethylene oxide.

Embodiment 2

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：50 parts of straw powder；20 parts of corn flour；20 parts of Lauxite；12 parts of quartz sand；6 parts of adhesive.In the present embodiment, gluing Agent is dibutyl phthalate.

Embodiment 3

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；25 parts of corn flour；25 parts of Lauxite；10 parts of quartz sand；5 parts of adhesive.In the present embodiment, gluing Agent is o-phthalic acid dibutyl ester.

Embodiment 4

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：39 parts of straw powder；26 parts of corn flour；24 parts of Lauxite；11 parts of quartz sand；5 parts of adhesive；5 parts of methenamine；Urea 0.3 part.In the present embodiment, adhesive is o-phthalic acid dibutyl ester and dibutyl phthalate, o-phthalic acid dibutyl ester Weight ratio with dibutyl phthalate is 1:1.

Embodiment 5

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；25 parts of corn flour；25 parts of Lauxite；10 parts of quartz sand；5 parts of adhesive；5 parts of methenamine.This reality It applies in example, adhesive is o-phthalic acid dibutyl ester.

Embodiment 6

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；25 parts of corn flour；25 parts of Lauxite；10 parts of quartz sand；5 parts of adhesive；5 parts of methenamine；Urea 3 parts.In the present embodiment, adhesive is o-phthalic acid dibutyl ester.

Embodiment 7

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；15 parts of corn flour；10 parts of silica flour；1 part of foaming agent；25 parts of Lauxite；5 parts of methenamine；Gluing 5 parts of agent.In the present embodiment, foaming agent is urea, and adhesive is o-phthalic acid dibutyl ester.

Embodiment 8

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；15 parts of corn flour；10 parts of silica flour；1 part of foaming agent；25 parts of Lauxite；5 parts of methenamine；Gluing 5 parts of agent.In the present embodiment, foaming agent AOS, adhesive are o-phthalic acid dibutyl ester.

Embodiment 9

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；15 parts of corn flour；10 parts of silica flour；1 part of foaming agent；25 parts of Lauxite；5 parts of methenamine；Gluing 5 parts of agent.In the present embodiment, foaming agent is AOS and urea with mass ratio is 1:1 mixture, adhesive are phthalic acid Dibutyl ester.

Embodiment 10

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；15 parts of corn flour；10 parts of silica flour；1 part of foaming agent；25 parts of Lauxite；5 parts of methenamine；Gluing 5 parts of agent.In the present embodiment, foaming agent is AOS and urea with mass ratio is 1:1 mixture, adhesive are phthalic acid Dibutyl ester.

Embodiment 11

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder, straw powder are ground into the straw powder powder of 200-300 mesh；15 parts of corn flour；10 parts of silica flour；Foaming agent 1 Part；25 parts of Lauxite；5 parts of methenamine；5 parts of adhesive.In the present embodiment, foaming agent is AOS and urea with mass ratio It is 1:1 mixture, it with mass ratio is 1 that adhesive, which is o-phthalic acid dibutyl ester and dibutyl phthalate,:1 mixing Object, the straw powder are sweet potato straw powder or rice straw powder, and the grain size of straw powder is 200-300 mesh.It has been found that with The flowerpot that straw powder makes has preferable gas permeability, is conducive to plant growth.

It is well known that AOS is α-sodium olefin sulfonate, No. CAS is 68439-57-6, is widely used for household and industrial washes It washs in articles for use, applicant is found surprisingly that, after appropriate AOS is added in flowerpot, can be effectively improved the gas permeability of flowerpot, can have Effect prevents rotten of plant.Urea is added in flowerpot material, by the slow release of urea, a certain amount of support is provided for plant Point, prevent plant nutrient insufficient.

As described in Fig. 1-5, the flowerpot of the present embodiment includes pedestal 1 and the basin body 2 that is detachably connected on pedestal 1, described Basin body 2 is cylinder hollow and up and down, is detachably connected by clamping structure formation between the basin body 2 and pedestal 1, The pedestal 1, which is equipped with, can make 1 bottom of pedestal be detached from ground and the moisture penetration in pedestal 1 can be gone out to the support outside pedestal 1 Hydrofuge structure.The pedestal and basin body of the present embodiment are all made of sponge and are made.Also, this mode is a kind of preferable The explanation of example, however, it is not limited to this.In carrying out the present invention, can according to user's demand using plastics, ceramics and Other materials.

In this technical solution, pedestal 1 and basin body 2 are detachably connected by clamping structure formation, are directly connected and fixed, Dismantling connection is convenient, saves workload；And hydrofuge structure is supported on pedestal 1,1 bottom of pedestal is made to be detached from ground and can be by pedestal Moisture penetration in 1 goes out outside pedestal 1, effectively prevent flowerpot ponding, improves the gas permeability of flowerpot.The present embodiment is using process In, it should be laid with the permeable bedding and padding of bulky grain in pedestal after pedestal and basin body installation, be paved with the bottom of pedestal, and be put into soil, use In plantation.

Such as Fig. 2, the clamping structure includes 4 positioning clamping blocks being located on pedestal 1 on 2 side inside of basin body 11, and position clamping block 11 and be evenly distributed on the inside of pedestal, and be located on basin body 2 one-to-one with positioning clamping block 11 Buckling groove 21.Using this scheme, positions clamping block 11 and the inner wall in flowerpot is arranged in buckling groove 21, and flushed with inner wall, Therefore the two can form complete entirety in conjunction with rear flowerpot, and the flowerpot with integral type is from the appearance in addition to other differences of connecting sewing Less, beautiful good integrity.

In conjunction in Fig. 5 the present embodiment, positioning clamping block 11 is rectangle, the buckling groove 21 and positioning 11 interference of clamping block Cooperation.Using this scheme, grafting and extraction can be completed after positioning clamping block 11 is aligned with buckling groove 21 basin body 2 and pedestal 1 be detachably connected, it is easy to connect, and be interference fitted, basin body 2 and pedestal 1 can be connected closely.Also, this mode is only It is a kind of explanation of preferred embodiments, however, it is not limited to this.It in carrying out the present invention, can be according to user's demand using different Other of the clamping structure of shape implement pattern.

As shown in figure 3, the support hydrofuge structure includes three hydrofuge columns in hollow form to 1 internal protrusion of pedestal 12,12 top of the hydrofuge column is equipped with the air hole 121 of connection pedestal 1, and a support is removably connected in hydrofuge column 12 Foot component 3.Using this scheme, hydrofuge column 12 raises up and is equipped with air hole 121, on the basis for preventing moisture to be excessively lost in Soil in upper guarantee flowerpot carries out sufficient air exchange with extraneous.

In conjunction with Fig. 4, the support leg component 3 includes being inserted into be detachably connected in hydrofuge column 12 and with hydrofuge column 12 Stabilizer blade 31 has gap between 12 inner wall of the stabilizer blade 31 and hydrofuge column.Using this scheme, stabilizer blade 31 is not filled with hydrofuge column Gap between 12 inner walls so that air hole 121 can ventilate with the external world.

Stabilization after capable of being connect with 12 inner wall of hydrofuge column for stabilizer blade 31, sets that there are one fixed auxiliary projections on stabilizer blade 31 32, when stabilizer blade is inserted into hydrofuge column 12 described in fixation auxiliary projection 32 be located at the inside of hydrofuge column 12 and fixed auxiliary projection It is close to 12 inner wall of hydrofuge column.Using this scheme, ventilative gap both ensure that, in turn ensure the stable connection of stabilizer blade 31 Property.

Support hydrofuge structure further includes water drainage hole 13, and water drainage hole 13 is through-hole and the side wall in pedestal 1 is arranged in water drainage hole 13 On.In the present embodiment, water drainage hole 13 is arranged between padding layer and soil horizon.Using this scheme, water drainage 13 position of hole is in flower It should be padded during basin use and set the isolation layer that gauze etc. prevents soil from outflowing, since flowerpot bottom is generally laid with the permeable pad such as stone A small amount of moisture, can be stored in padding layer by material, but the water of soil horizon is fully discharged, and prevent root system ponding, occur rotten. And the partial moisture of bottom can be in arid for used in plant.

In conjunction with shown in Fig. 3, the bottom of pedestal 1 is plane, and the side wall of pedestal 1 is arc-shaped, and the inner wall of 1 side wall of pedestal is uniform Set there are four water conservancy diversion reinforcing rib 14, and water conservancy diversion reinforcing rib 14 is staggered with clamping block 11 is positioned.Using this scheme, bottom The bottom of seat 1 is plane, and when pedestal 1 is not connected to stabilizer blade 31, flowerpot can also be kept flat on the ground, convenient for the peace with basin body 2 Be filled with and not mounting leg 31 when use.And water conservancy diversion reinforcing rib 14, can increase the bearing strength of pedestal 1, and can be with Guiding is pooled to the bottom of pedestal 1 along the water that side wall leaves.

In conjunction with shown in Fig. 2, the pedestal 1 is equipped with the annular anti-overflow step 15 of sinking in the side being connect with basin body 2, Basin body 2 is equipped in the side of connect base 1 and inside contracts portion 22 with 15 matched annular of anti-overflow step.Annular anti-overflow step 15 Due to sinking, one annular guard circle of outside self-assembling formation, in the present embodiment, positioning clamping block 11 is arranged in anti-overflow On step 15, and positions clamping block 11 and flushed with the edge of pedestal 1 and inner wall.Using this scheme, pedestal 1 and basin body 2 connect After connecing, positioning clamping block 11 and buckling groove 21 are correspondingly connected with and are directly connected to the two compared to two planes that link together, by The cooperation in portion 22 is inside contracted in anti-overflow step 15 and annular so that the connection of the two is even closer, the good integrity of flowerpot；In basin Overflow prevention structure is set at the gap of body 2 and pedestal 1, when a large amount of water pour in flowerpot, especially when flowerpot is dried for a long time, soil It is hardened and with flowerpot inside be detached from when, prevent water from being flowed out directly from the gap of connection so that the water shortage of the root system of bottom.

When flowerpot manufactures, straw powder 40kg is weighed；Corn flour 15kg；Silica flour 10kg；Foaming agent 1kg；Lauxite 25kg；Methenamine 5kg；Adhesive 5kg, is uniformly mixed in a mixer, obtains slurry, and slurry is put into mold, Pressurize 30-60S at 150-190 DEG C, up to flowerpot after demoulding.It will be appreciated by those skilled in the art that pedestal 1 and basin body 2 should divide Open manufacture.In the present embodiment, methenamine 5kg is added and can effectively improve stripping result, and make basin body any surface finish.

The flowerpot of the present embodiment, adds straw powder, so that originally discarded straw powder is recycled, flowerpot is pressed into Good air permeability after type, is conducive to plant growth.

By detection, the flowerpot of the present embodiment extract formaldehyde and pentachlorophenol is not detected, the ratio of primary aromatic amine moves Shifting is also not detected.

Embodiment 12

A kind of high osmosis degradative flower bowl made of stalk, the material for making the flowerpot includes following mass fraction Component：40 parts of straw powder；15 parts of corn flour；10 parts of silica flour；1 part of foaming agent；25 parts of Lauxite；5 parts of methenamine；Gluing 5 parts of agent.In the present embodiment, foaming agent is AOS and urea with mass ratio is 1:1 mixture, adhesive are phthalic acid Dibutyl ester and dibutyl phthalate are with mass ratio for 1:1 mixture.

The structure of the flowerpot of the present embodiment is substantially the same manner as Example 11, the difference is that, as shown in fig. 6, in this reality It is inverted L shape to apply the positioning clamping block 11 in example, positions the big one end of 11 width of clamping block towards basin body 2, the card Access slot 21 is that inverted L shape and the small one end of 21 width of buckling groove one end big with 11 width of clamping block is positioned match.

In this technical solution, a kind of 11 shape of positioning clamping block of rectangle of embodiment is compared, the structure of inverted L shape is passed through After positioning clamping block 11 is inserted into buckling groove 21, after fixed basin body 2 or pedestal 1, pedestal 1 or basin body 2 are rotated for setting, So that positioning clamping block 11 and the inverted L shape of buckling groove 21 mutually agree with so that the two can bear upper and lower in conjunction with even closer Upward power, the two is less likely to occur to loosen separation during flowerpot is moved after being connected convenient for basin body 2 and pedestal 1, and detaches Process is also very convenient, and negative direction rotate the i.e. separable basin body 2 of power and pedestal 1 of after-applied upper and lower directions.

Specific embodiment described herein is only an example for the spirit of the invention.Technology belonging to the present invention is led The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (10)

1. a kind of high osmosis degradative flower bowl made of stalk, it is characterised in that：The material for making the flowerpot includes following The component of mass fraction：

2. a kind of high osmosis degradative flower bowl made of stalk, it is characterised in that：The material for making the flowerpot includes following The component of mass fraction：

3. the high osmosis degradative flower bowl according to claim 2 made of stalk, it is characterised in that：It further include quality The methenamine that number is 5 parts.

4. the high osmosis degradative flower bowl according to claim 3 made of stalk, it is characterised in that：It further include quality The urea that number is 0.3-3 parts.

5. a kind of high osmosis degradative flower bowl made of stalk, it is characterised in that：The material for making the flowerpot includes following The component of mass fraction：

6. the high osmosis degradative flower bowl according to claim 5 made of stalk, it is characterised in that：The gluing Agent is one or more of dibutyl phthalate or o-phthalic acid dibutyl ester, and the straw powder is sweet potato straw powder Or rice straw powder, the grain size of straw powder is 200-300 mesh.

7. the high osmosis degradative flower bowl according to claim 5 made of stalk, it is characterised in that：The foaming Agent is one or more of urea or AOS.

8. the high osmosis degradative flower bowl according to claim 7 made of stalk, it is characterised in that：The foaming Agent includes that mass ratio is 1:1 urea and AOS.

9. the high osmosis degradative flower bowl according to any one of claims 1 to 8 made of stalk, it is characterised in that： The flowerpot includes pedestal (1) and the basin body (2) being detachably connected on pedestal (1), and the basin body (2) is hollow and upper and lower The cylinder of perforation is detachably connected between the basin body (2) and pedestal (1) by clamping structure formation, the pedestal (1) Being equipped with can make pedestal (1) bottom be detached from ground and the moisture penetration in pedestal (1) can be gone out to the support hydrofuge knot of pedestal (1) outside Structure.

10. the high osmosis degradative flower bowl according to claim 9 made of stalk, it is characterised in that：The card Binding structure includes several positioning clamping blocks (11) being located on pedestal (1) on basin body (2) side inside, and is located at basin body (2) with the one-to-one buckling groove (21) of positioning clamping block (11) on, the support hydrofuge structure includes several to pedestal (1) The hydrofuge column (12) in hollow form of internal protrusion, hydrofuge column (12) top are equipped with the air hole of connection pedestal (1) (121), it is removably connected with a support leg component (3) in hydrofuge column (12).