TW202348130A - Wire cylinder mesh basket structure and fabricating method thereof - Google Patents
Wire cylinder mesh basket structure and fabricating method thereof Download PDFInfo
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- 239000004575 stone Substances 0.000 description 2
- 241000883962 Ariocarpus Species 0.000 description 1
- 235000004919 Ariocarpus fissuratus Nutrition 0.000 description 1
- 229920003043 Cellulose fiber Polymers 0.000 description 1
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Abstract
Description
本發明係關於一種園藝用之物品及其製作方法,特別指一種蛇籠網籃結構及其製作方法,以供用於栽培附生植物。 The present invention relates to a gardening item and a manufacturing method thereof, in particular to a snake cage mesh basket structure and a manufacturing method thereof for cultivating epiphytes.
附生植物又稱為著生植物,在自然界中的生長模式係利用根系攀附生長於其他植物之表皮或非生物之岩石或腐植質之表面,其養分與水分由環境中獲取而非侵入被附著植物所取得。一般常見之附生植物以蘭科為大宗,然而近年來隨著觀葉植物逐漸興起,又因都市平面空間之限制,人們開始利用各類型附生植物來妝點立體空間,達到綠美化與陶冶性情之效益。因此除蘭花外,鳳梨科植物(例如:空氣鳳梨、積水鳳梨等)、蕨類植物(例如:鹿角蕨)等新型態之附生植物也逐漸融入生活中。 Epiphytes, also known as epiphytes, grow in nature by using their roots to cling to the epidermis of other plants or the surface of non-living rocks or humus. Their nutrients and water are obtained from the environment rather than invading and attached. Obtained from plants. Most of the common epiphytes are orchids. However, in recent years, with the gradual rise of foliage plants, and due to the limitations of urban space, people have begun to use various types of epiphytes to decorate three-dimensional spaces to achieve green beautification and edification. The benefits of temperament. Therefore, in addition to orchids, new types of epiphytes such as bromeliads (e.g. air bromeliads, water bromeliads, etc.), ferns (e.g. staghorn fern) are also gradually integrated into life.
現今常見附生植物之種植媒介主要以蛇木板、木板為大宗,而栽種方式一般以保濕性介質之水苔混合排水透氣性介質之椰塊、樹皮,並包覆植物根系並固定於上述板材表面。然而在栽種過程中如放置於較為不通風的都市環境,例如將已固定於板材表面的植物置於商業空間之室內時,往往會發現過往所使用的蛇木板、木板等板材會有過於悶熱潮濕之問題。 Today's common planting media for epiphytes are mainly snake boards and wooden boards. The planting method generally uses sphagnum moss as a moisturizing medium mixed with coconut blocks and bark as a drainage and breathable medium, covering the plant roots and fixing them on the surface of the boards. . However, during the planting process, if the plants are placed in a less ventilated urban environment, for example, when plants that have been fixed on the surface of the board are placed indoors in a commercial space, it is often found that the snake boards, wooden boards and other boards used in the past are too hot and humid. problem.
另一方面,由於過往所使用之板材的透氣性亦不佳,易造成板材因長久潮濕而造成發霉的情形,再者,上述附生植物在栽種時需依據室內的溼度或通風程度來特別斟酌澆水頻率和調整室內的通風程度,否則在過濕環境或通風不佳的環境中,將不利於附生植物的生長,而對於栽種者而言,則會經常有種植成果不甚理想之挫折感。 On the other hand, the boards used in the past have poor air permeability, which can easily cause the boards to become moldy due to long-term moisture. Furthermore, the above-mentioned epiphytes need special consideration when planting based on the indoor humidity or ventilation level. Watering frequency and indoor ventilation should be adjusted. Otherwise, an overly humid environment or poorly ventilated environment will not be conducive to the growth of epiphytes, and for growers, there will often be frustrations with unsatisfactory planting results. feel.
因此,綜上所述,亟需要提出並開發出一種新的裝置來種植附生植物,以改善過往用於固定附生植物之板材在室內使用時的缺點,而如何提高新的裝置之排水及透氣性以提供有利於附生植物生長的環境即為每個業者所亟需解決的問題。 Therefore, in summary, there is an urgent need to propose and develop a new device for planting epiphytes to improve the shortcomings of the boards used to fix epiphytes when used indoors, and how to improve the drainage and drainage of the new device. Breathability to provide an environment conducive to the growth of epiphytes is an urgent problem that every industry needs to solve.
鑒於上述問題,本發明之目的在於提供一種用於固定附生植物的蛇籠網籃結構,而本發明之蛇籠網籃結構係利用金屬或非金屬網板加工形成具有多個網格且能製作成多種形狀之殼體(例如,圓柱體、方形體、規則多邊形體(例如,正六邊形體)、不規則多邊形體),讓本發明之蛇籠網籃結構的殼體得以用於作為固定附生植物之栽培板材,致使澆水時可同時淋濕附生植物根部的附著介質與殼體並可兼顧附生植物生長所需要的水分及維持殼體的通風性。 In view of the above problems, the object of the present invention is to provide a snake cage mesh basket structure for fixing epiphytes. The snake cage mesh basket structure of the present invention is processed by metal or non-metal mesh plates to have multiple grids and can be made into Various shapes of shells (for example, cylinder, square, regular polygon (for example, regular hexagon), irregular polygon) allow the shell of the snake cage mesh basket structure of the present invention to be used as a fixed epiphyte. The cultivation board allows the attachment medium of the roots of the epiphytes and the shell to be wetted at the same time when watering, and can take into account the water required for the growth of the epiphyte and maintain the ventilation of the shell.
本發明的另一目的在於使用多孔隙結構物(例如,火山石)裝填於殼體中,由於多孔隙結構物之間極為透氣、不積水,且多孔隙結構物本身又具極高孔隙率以及擁有可吸附水氣之特性,使附生植物得以迅速附生於火山石表面,增進根系發展、植株整體健壯。而在本發明之蛇籠網籃結構內中又可因應不同類型植物需求予以填充其他介質(例如,水苔、樹皮、椰塊等等)。 Another object of the present invention is to use porous structures (for example, volcanic rocks) to fill the shell, because the porous structures are extremely breathable and do not accumulate water, and the porous structures themselves have extremely high porosity and It has the property of absorbing water vapor, allowing epiphytes to quickly grow on the surface of volcanic rocks, promoting the development of root systems and making the overall plant strong. The snake cage mesh basket structure of the present invention can be filled with other media (for example, sphagnum moss, bark, coconut blocks, etc.) according to the needs of different types of plants.
於本發明的第一觀點中,本發明蛇籠網籃結構係用於栽培附生植物,而前述蛇籠網籃結構又包含一殼體及多孔隙結構物,其中上述殼體具有一容置區,且係由複數個板體組裝而成,進一步而言,此種複數個板體可為非金屬或金屬網狀板體,且具有多個網格,前述複數個板體又包含一第一網狀板體、一上板體及一下板體;上述第一網狀板體具有一第一長邊框及第二長邊框,其中上述第一長邊框係位於上述第一網狀板體上方,上述第二長邊框係位於上述第一網狀板體下方,而第一網狀板體又進一步為一第一區段及一第二區段所組合而成,前述第一區段的一端具有一第一鎖固件,而上述第二區段係連接上述第一區段,且第二區段的一端具有一第一短邊框,當上述第一長邊框及第二長邊框圍繞出幾何輸廓後,則經組裝或彎折該第一網狀板體,上述第一鎖固件係相鄰於上述第一短邊框,以令上述第一鎖固件係用以纏繞上述第一短邊框;前述上板體則具有一第二鎖固件;前述下板體具有一第三鎖固件;在組裝過程中,利用該第一長邊框及該第二長邊框所圍繞出的幾何輪廓係分別匹配該上板體及該下板體的幾何輪廓,其中該第二鎖固件係用以纏繞該第一長邊框,該第三鎖固件係用以纏繞該第二長邊框,使上板體被綁固於上述第一網狀板體之上方,且下板體被綁固於上述第一網狀板體之下方。 In the first aspect of the present invention, the snake cage mesh basket structure of the present invention is used for cultivating epiphytes, and the aforementioned snake cage mesh basket structure further includes a shell and a porous structure, wherein the above shell has a receiving area, And it is assembled from a plurality of plates. Furthermore, the plurality of plates can be non-metallic or metal mesh plates and have multiple meshes. The plurality of plates also include a first mesh. A shaped plate body, an upper plate body and a lower plate body; the above-mentioned first mesh plate body has a first long frame and a second long frame, wherein the above-mentioned first long frame is located above the above-mentioned first mesh plate body, the above-mentioned The second long frame is located below the first mesh plate, and the first mesh plate is further composed of a first section and a second section. One end of the first section has a The first fastener, and the above-mentioned second section is connected to the above-mentioned first section, and one end of the second section has a first short frame. When the above-mentioned first long frame and the second long frame surround the geometric output outline, , then after assembling or bending the first mesh plate body, the above-mentioned first fastener is adjacent to the above-mentioned first short frame, so that the above-mentioned first fastener is used to wrap around the above-mentioned first short frame; the above-mentioned upper plate The body has a second fastener; the lower plate body has a third fastener; during the assembly process, the geometric outlines surrounded by the first long frame and the second long frame are used to match the upper plate body respectively. And the geometric outline of the lower plate body, wherein the second fastener is used to wrap around the first long frame, and the third fastener is used to wrap around the second long frame, so that the upper plate body is fastened to the above-mentioned third long frame. above a mesh plate body, and the lower plate body is fastened below the first mesh plate body.
於某一實施例中,上述多孔隙結構物則被填充在上述殼體的容置區中。前述多孔隙結構物在使用前均需經過一篩網篩選過後以令上述多孔隙結 構物的粒徑不小於上述殼體之複數個板體的網格大小,避免上述多孔隙結構物在被填充入上述殼體的容置區後又從網格掉出。當該第一區段、該上板體或該下板體作為最後順序被組裝於該殼體前,則大量多孔隙結構物被填充入前述容置區。 In one embodiment, the porous structure is filled in the accommodation area of the housing. The aforementioned porous structures must be screened through a sieve before use to ensure that the porous structures are The particle size of the structure is not smaller than the mesh size of the plurality of plates of the shell, so as to prevent the porous structure from falling out of the mesh after being filled into the accommodation area of the shell. When the first section, the upper plate body or the lower plate body are assembled in front of the shell as the last order, a large amount of porous structures are filled into the aforesaid accommodation area.
在一實施例中,上述多孔隙結構物進一步為火山石。在一實施例中,上述多孔隙結構物之粒徑係大於1.5公分。在某些實施例中,上述多孔隙結構物之粒徑係介於1.5-2公分之間。在一實施例中,除了上述多孔隙結構物之外,尚可視附生植物的生長需求而將其他種材料(例如,水苔、樹皮及椰塊等等)填充至上述殼體的容置區中。 In one embodiment, the porous structure is further volcanic stone. In one embodiment, the particle size of the porous structure is greater than 1.5 cm. In some embodiments, the particle size of the porous structure is between 1.5-2 cm. In one embodiment, in addition to the above-mentioned porous structure, other materials (such as sphagnum moss, bark, coconut blocks, etc.) can be filled into the accommodation area of the above-mentioned shell according to the growth needs of the epiphytes. middle.
在一實施例中,當上述多孔隙結構物被填充入該容置區後,上述第一區段被組裝至該殼體,而為了讓前述第一區段能固定於殼體中,第一鎖固件係用以纏繞該第一短邊框,另外,上板體具有一第一加強件,該下板體具有一第二加強件,該第一加強件及該第二加強件均鄰近於該第一區段,該第一加強件及該第二加強件係用以纏繞該第一區段。 In one embodiment, after the porous structure is filled into the accommodation area, the first section is assembled to the housing, and in order to allow the first section to be fixed in the housing, the first section is The fastener is used to wrap around the first short frame. In addition, the upper panel body has a first reinforcement member, the lower panel body has a second reinforcement member, and the first reinforcement member and the second reinforcement member are adjacent to the The first section, the first reinforcing member and the second reinforcing member are used to wrap around the first section.
於本發明的第二觀點中,本發明揭露一種蛇籠網籃結構的製作方法,其步驟包含:提供一殼體,其中該殼體具有一容置區、一第一網狀板體、一上板體及一下板體,該第一網狀板體包括一第一區段及一第二區段;利用一篩網篩選出一多孔隙結構物;將該下板體置於該第一網狀板體之一第二長邊框下方,利用該第二長邊框所圍繞出的幾何輪廓以匹配該下板體的幾何輪廓;以該下板體之一第三鎖固件纏繞該第二長邊框;將該上板體置於該第一網狀板體之一第一長邊框上方,利用該第一長邊框所圍繞出的幾何輪廓以匹配該上板體的幾何輪廓;將該上板體組裝至該殼體,以該上板體之一第二鎖固件係用以纏繞該第一長邊框;將該第一區段組裝至該殼體,以該第一區段連接至該第一網狀板體之第二區段;當該第一區段、該上板體或該下板體作為最後順序被組裝於該殼體前,將該多孔隙結構物填充於該容置區中。在一實施例中,上述殼體的形狀可為圓柱體、方形體、規則多邊形體(例如,正六邊形體)、不規則多邊形體等等。 In a second aspect of the present invention, the present invention discloses a method for manufacturing a snake cage mesh basket structure. The steps include: providing a shell, wherein the shell has an accommodating area, a first mesh plate body, an upper The plate body and the lower plate body, the first mesh plate body includes a first section and a second section; use a screen to screen out a porous structure; place the lower plate body on the first mesh Under the second long frame of the shaped plate body, use the geometric outline surrounded by the second long frame to match the geometric outline of the lower plate body; wrap the second long frame with a third fastener of the lower plate body ; Place the upper plate body above a first long frame of the first mesh plate body, and use the geometric outline surrounded by the first long frame to match the geometric outline of the upper plate body; Place the upper plate body Assemble to the shell, use a second fastener of the upper plate body to wrap around the first long frame; assemble the first section to the shell, connect the first section to the first The second section of the mesh plate body; when the first section, the upper plate body or the lower plate body is assembled in front of the shell as the final sequence, the porous structure is filled in the accommodation area . In one embodiment, the shape of the housing may be a cylinder, a square, a regular polygon (for example, a regular hexagon), an irregular polygon, or the like.
於某些實施例中,當該第一區段作為最後順序被組裝於該殼體前,將該多孔隙結構物填充於該容置區中,舉例而言,若以該第一區段作為最後順序組裝於殼體,則表示在第一區段尚未組裝於殼體時,在殼體的側面具有 一第一開口,而該多孔隙結構物會經由前述第一開口填充於該容置區中。 In some embodiments, when the first section is assembled before the housing as the last order, the porous structure is filled in the accommodation area. For example, if the first section is used as The last sequential assembly on the casing means that when the first section has not been assembled on the casing, there are a first opening, and the porous structure will be filled in the accommodation area through the first opening.
進一步而言,為了封閉前述第一開口,上述第一區段的第一鎖固件係用以纏繞該第二區段的第一短邊框,而該第一區段之另一端又包含一第四鎖固件,前述第二區段之另一端又包含一第二短邊框,前述第四鎖固件係用以纏繞該第二短邊框。 Furthermore, in order to close the first opening, the first fastener of the first section is used to wrap around the first short frame of the second section, and the other end of the first section includes a fourth The other end of the second section of the fastener further includes a second short frame, and the fourth fastener is used to wrap around the second short frame.
於某一實施例中,當該下板體作為最後順序被組裝於該殼體前,將該多孔隙結構物填充於該容置區中,舉例而言,若以該下板體作為最後順序組裝於殼體,則表示在下板體尚未組裝於殼體時,在殼體的下面具有一第二開口,而前述多孔隙結構物會經由前述第二開口填充於該容置區中。 In a certain embodiment, when the lower plate body is assembled in front of the casing as the last order, the porous structure is filled in the accommodation area. For example, if the lower plate body is assembled as the last order Assembled in the casing means that when the lower plate body is not assembled in the casing, there is a second opening on the lower surface of the casing, and the porous structure will be filled in the accommodation area through the second opening.
在一實施例中,當該上板體作為最後順序被組裝於該殼體前,將該多孔隙結構物填充於該容置區中,舉例而言,若以該上板體作為最後順序組裝於殼體,則表示在上板體尚未組裝於殼體時,在殼體的上面具有一第三開口,而前述多孔隙結構物會經由前述第三開口填充於該容置區中。 In one embodiment, when the upper plate body is assembled in the last order before the casing, the porous structure is filled in the accommodation area. For example, if the upper plate body is assembled in the last order, In the case, it means that when the upper plate body is not assembled in the case, there is a third opening on the top of the case, and the aforementioned porous structure will be filled in the accommodation area through the aforementioned third opening.
當完成上述殼體的組裝及將多孔隙結構物填充入容置區後,接著利用一鈎針卡固於前述上板體,且用一纏線纏繞一附生植物,並將該纏線的一端綁固於該鈎針上,使該附生植物亦固定於該上板體。 After the assembly of the above-mentioned shell is completed and the porous structure is filled into the accommodation area, a crochet hook is used to fasten the upper plate body, and a winding wire is used to wrap an epiphyte, and one end of the winding wire is Fasten it on the crochet hook so that the epiphyte is also fixed on the upper plate body.
於某一實施例中,在前述上板體之上進一步需要使用四個鈎針卡固於上述上板體,且此四個鈎針係配置於上述附生植物旁邊。 In one embodiment, it is further necessary to use four crochet hooks on the upper plate body to be fastened to the upper plate body, and these four crochet hooks are arranged next to the epiphyte.
於本發明的第三觀點中,本發明又提供一種新的蛇籠網籃結構,其經由在殼體中額外新增新的元件以增加殼體形狀的變化,在一實施例中,上述殼體的形狀又可為盆體。於某些實施例中,上述殼體又進一步包含一第二網狀板體,上述第二網狀板體又包含一第三長邊框、第五鎖固件及一第三短邊框,經彎折該第二網狀板體,以令該第五鎖固件係用以纏繞該第三短邊框。而前述上板體又包含一內側邊緣及一第六鎖固件,利用該第三長邊框所圍繞出的幾何輪廓係分別匹配該上板體之內側邊緣的幾何輪廓,並用第五鎖固件纏繞該第三短邊框,因此,如若將該第二網狀板體組裝至該殼體,則以上板體的第六鎖固件纏繞第二網狀板體之第三長邊框;當該下板體作為最後順序被組裝於該殼體前,將該多孔隙結構物填充於該容置區中,最後再將下板體組裝至殼體,使新的蛇籠網籃結構可呈現盆體形狀。 In the third aspect of the present invention, the present invention also provides a new snake cage mesh basket structure, which increases the change of the shape of the shell by adding additional new components to the shell. In one embodiment, the above-mentioned shell The shape can also be a basin. In some embodiments, the above-mentioned housing further includes a second mesh plate body, and the above-mentioned second mesh plate body further includes a third long frame, a fifth fastener and a third short frame, which are bent The second mesh plate body allows the fifth fastener to wrap around the third short frame. The above-mentioned upper plate body further includes an inner edge and a sixth fastener. The geometric outline surrounded by the third long frame is respectively matched with the geometric outline of the inner edge of the upper plate body, and the fifth fastener is wrapped around the upper plate body. The third short frame, therefore, if the second mesh plate body is assembled to the housing, the sixth fastener of the upper plate body wraps around the third long frame of the second mesh plate body; when the lower plate body serves as The final sequence is to assemble in front of the shell, fill the porous structure in the accommodation area, and finally assemble the lower plate body to the shell, so that the new snake cage mesh basket structure can take on the shape of a basin.
於某些實施例中,當新的蛇籠網籃結構呈現盆體形狀時,則表示 該盆體形狀的蛇籠網籃結構經組合後具有一凹部結構,則前述附生植物可仿效一般植物種植於花盆般地被放置於該凹部結構中。 In some embodiments, when the new snake cage mesh basket structure takes on the shape of a basin, it means The pot-shaped snake cage mesh basket structure has a concave structure after being combined, and the aforementioned epiphytes can be placed in the concave structure like ordinary plants planted in flower pots.
在某一實施例中,上述第一網狀板體的長度大於上述第二網狀板體的長度;於某些實施例中,上述第一網狀板體的寬度等於上述第二網狀板體的寬度。 In a certain embodiment, the length of the first mesh plate is greater than the length of the second mesh plate; in some embodiments, the width of the first mesh plate is equal to the width of the second mesh plate. body width.
另外,本發明之蛇籠網籃結構可被吊掛於壁面上、放置於桌上或懸掛等方式使用,且前述各種使用方式都不會造成附生植物掉落或移位。另一方面,前述附生植物之末端又進一步具有一附著介質(例如,苔球),而鈎針卡固於前述上板體,且用一纏線纏繞一附生植物之附著介質,並將前述纏線的一端綁固於上述鈎針上,使前述附生植物之附著介質亦固定於該上板體且不易脫落。 In addition, the snake cage mesh basket structure of the present invention can be hung on the wall, placed on a table or hung, and the above various usage methods will not cause the epiphytes to fall or shift. On the other hand, the end of the aforementioned epiphyte further has an attachment medium (for example, a moss ball), and the crochet hook is fixed on the aforementioned upper plate body, and a twine is used to wrap the attachment medium of the epiphyte, and the aforementioned One end of the wrapped thread is tied to the crochet hook, so that the attachment medium of the epiphyte is also fixed to the upper plate body and is not easy to fall off.
100:蛇籠網籃結構 100: Snake cage mesh basket structure
102:殼體 102: Shell
104:第一網狀板體 104: First mesh plate body
1041:第一長邊框 1041: First long border
1042:第二長邊框 1042: The second longest border
106:上板體 106: Upper plate body
1061:第二鎖固件 1061:Second lock firmware
108:下板體 108:Lower plate body
1081:第三鎖固件 1081:Third lock firmware
110:第一區段 110: First section
1101:第一鎖固件 1101:First lock firmware
112:第二區段 112:Second section
1121:第一短邊框 1121: First short border
M:多孔隙結構物 M: porous structure
O1:第一開口 O1: First opening
200:蛇籠網籃結構 200: Snake cage mesh basket structure
202:殼體 202: Shell
204:上板體 204: Upper plate body
A:附著介質 A: Attachment medium
N:鈎針 N: Crochet
P:附生植物 P: epiphyte
302~316:步驟 302~316: Steps
400:蛇籠網籃結構 400: Snake cage mesh basket structure
402:殼體 402: Shell
404:第一網狀板體 404: First mesh plate body
4041:第一長邊框 4041: First long border
4042:第二長邊框 4042: The second longest border
406:上板體 406: Upper plate body
4061:第二鎖固件 4061:Second lock firmware
408:下板體 408:Lower plate body
4081:第三鎖固件 4081:Third lock firmware
410:第一區段 410: First section
4101:第一鎖固件 4101:First lock firmware
412:第二區段 412:Second section
4121:第一短邊框 4121: First short border
E:容置區 E: Containment area
500:蛇籠網籃結構 500: Snake cage mesh basket structure
502:殼體 502: Shell
504:第一網狀板體 504: First mesh plate body
5041:第一長邊框 5041: First long border
5042:第二長邊框 5042: The second longest border
506:上板體 506: Upper plate body
5061:第二鎖固件 5061:Second lock firmware
5062:內側邊緣 5062:Inside edge
5063:第六鎖固件 5063:Sixth lock firmware
508:下板體 508:Lower plate body
5081:第三鎖固件 5081:Third lock firmware
510:第一鎖固件 510:First lock firmware
512:第一短邊框 512: First short border
514:第二網狀板體 514: Second mesh plate body
5141:第五鎖固件 5141:Fifth lock firmware
5142:第三短邊框 5142:Third short border
5143:第三長邊框 5143:The third longest border
O2:第二開口 O2: Second opening
本發明之實施例係藉由後附圖式中之實例加以說明,而非用以限制本發明。後附圖式中相似之元件符號係指類似之元件。 The embodiments of the present invention are illustrated by the examples in the accompanying drawings, but are not intended to limit the present invention. Similar reference numbers in the following drawings refer to similar components.
圖1係根據一實施例所顯示之一種蛇籠網籃結構之分解圖; Figure 1 is an exploded view of a snake cage mesh basket structure according to an embodiment;
圖2係根據另一實施例所顯示本發明之蛇籠網籃結構; Figure 2 shows the snake cage mesh basket structure of the present invention according to another embodiment;
圖3係顯示本發明之蛇籠網籃結構的製作方法實施例; Figure 3 shows an embodiment of the manufacturing method of the snake cage mesh basket structure of the present invention;
圖4係根據另一實施例所顯示之一種蛇籠網籃結構之組裝圖; Figure 4 is an assembly diagram of a snake cage mesh basket structure according to another embodiment;
圖5係根據某一實施例所顯示之一種盆形的蛇籠網籃結構之組裝圖。 Figure 5 is an assembly diagram of a basin-shaped snake cage mesh basket structure according to an embodiment.
本發明將以較佳實施例及觀點加以描述,此類敘述係解釋本發明之裝置結構與方法,僅用以說明而非用以限制本發明之申請專利範圍。因此,除說明書中之較佳實施例以外,本發明亦可廣泛實行於其他實施例中。 The present invention will be described with preferred embodiments and viewpoints. Such descriptions explain the device structures and methods of the present invention, and are only used to illustrate but not to limit the patentable scope of the present invention. Therefore, in addition to the preferred embodiments in the description, the present invention can also be widely implemented in other embodiments.
如圖1所示,其係根據一實施例所顯示之一種蛇籠網籃結構之分解圖。本實施例之蛇籠網籃結構100係用於栽培附生植物,而前述蛇籠網籃結構又包含一殼體102及多孔隙結構物M,其中上述殼體具有一容置區(未顯示於圖中),且係由複數個板體組裝而成,進一步而言,此種複數個板體可為非金屬或金屬網狀板體,且均具有多個網格,該複數個板體又包含一第一網狀板體104、一上板體106及一下板體108;上述第一網狀板體具有一第一長邊框1041及第二長邊框1042,其中上述第一長邊框1041係位於上述第一網狀板體104上方,上述第二長邊框1042係位於上述第一網狀板體104下方,而第一網狀板體 104又進一步為一第一區段110及一第二區段112所組合而成,前述第一區段110的一端具有一第一鎖固件1101,而上述第二區段112係連接上述第一區段110,且第二區段112的一端具有一第一短邊框1121,當上述第一長邊框1041及第二長邊框1042圍繞出幾何輪廓後,則經組裝或彎折該第一網狀板體104,上述第一鎖固件1101係相鄰於上述第一短邊框1121,以令上述第一鎖固件1101係用以纏繞上述第一短邊框1121;前述上板體106則具有一第二鎖固件1061;前述下板體108具有一第三鎖固件1081;在組裝過程中,利用該第一長邊框1041及該第二長邊框1042所圍繞出的幾何輪廓係分別匹配該上板體106及該下板體108的幾何輪廓,其中該第二鎖固件1061係用以纏繞該第一長邊框1041,該第三鎖固件1081係用以纏繞該第二長邊框1042,使上板體106被綁固於上述第一網狀板體104之上方,且下板體108被綁固於上述第一網狀板體104之下方。 As shown in Figure 1, it is an exploded view of a snake cage mesh basket structure according to an embodiment. The snake cage mesh basket structure 100 of this embodiment is used for cultivating epiphytes, and the snake cage mesh basket structure further includes a shell 102 and a porous structure M, wherein the shell has a receiving area (not shown in the figure). ), and are assembled from a plurality of plates. Furthermore, such plurality of plates can be non-metallic or metal mesh plates, and each has a plurality of grids. The plurality of plates include A first mesh plate body 104, an upper plate body 106 and a lower plate body 108; the first mesh plate body has a first long frame 1041 and a second long frame 1042, wherein the first long frame 1041 is located Above the first mesh plate body 104, the second long frame 1042 is located below the first mesh plate body 104, and the first mesh plate body 104 is further composed of a first section 110 and a second section 112. One end of the first section 110 has a first fastener 1101, and the second section 112 is connected to the first section 110, and one end of the second section 112 has a first short frame 1121. After the first long frame 1041 and the second long frame 1042 surround the geometric outline, the first mesh is assembled or bent. On the plate body 104, the first fastener 1101 is adjacent to the first short frame 1121, so that the first fastener 1101 is used to wrap around the first short frame 1121; the upper plate body 106 has a second Fastener 1061; the lower plate body 108 has a third fastener 1081; during the assembly process, the geometric outlines surrounded by the first long frame 1041 and the second long frame 1042 are used to match the upper plate body 106 respectively. And the geometric outline of the lower plate body 108, wherein the second fastener 1061 is used to wrap around the first long frame 1041, and the third fastener 1081 is used to wrap around the second long frame 1042, so that the upper plate body 106 It is fastened above the above-mentioned first mesh plate body 104, and the lower plate body 108 is fastened below the above-mentioned first mesh plate body 104.
若以該第一區段110作為最後順序組裝於殼體102,則表示在第一區段110尚未組裝於前述殼體102時,在殼體102的側面具有一第一開口O1,而該多孔隙結構物M會經由前述第一開口O1填充於該容置區中。因此,當前述多孔隙結構物M填充於該容置區後,則再利用該第一區段110封閉該第一開口O1。進一步而言,為了封閉前述第一開口O1,上述第一區段110的第一鎖固件1101係用以纏繞該第二區段112的第一短邊框1121,而該第一區段110之另一端又包含一第四鎖固件1102,該第二區段112之另一端又包含一第二短邊框1122,前述第四鎖固件1102係用以纏繞該第二短邊框1122。 If the first section 110 is assembled into the housing 102 in the last order, it means that before the first section 110 is assembled into the housing 102, there is a first opening O1 on the side of the housing 102, and the plurality of openings O1 are formed on the side of the housing 102. The pore structure M will be filled in the accommodation area through the aforementioned first opening O1. Therefore, after the porous structure M is filled in the accommodation area, the first section 110 is used to close the first opening O1. Furthermore, in order to close the first opening O1, the first fastener 1101 of the first section 110 is used to wrap around the first short frame 1121 of the second section 112, and the other side of the first section 110 One end includes a fourth fastener 1102, and the other end of the second section 112 includes a second short frame 1122. The fourth fastener 1102 is used to wrap around the second short frame 1122.
請參照圖2,圖2係根據另一實施例所顯示本發明之蛇籠網籃結構200。在某實施例中,當上述殼體202的組裝完成及將多孔隙結構物M填充入容置區後,則顯示一完整的蛇籠網籃結構200,接著利用一鈎針N(以藍色顯示)卡固於前述上板體204,且用一纏線(未顯示於圖中)纏繞一附生植物P,並將該纏線的一端綁固於該鈎針N上,使該附生植物P亦被固定於該上板體204。因此,若上述本發明之蛇籠網籃結構200被懸掛,則固定於上板體204之上述附生植物P亦不會掉落。 Please refer to FIG. 2 , which shows a snake cage mesh basket structure 200 according to another embodiment of the present invention. In a certain embodiment, after the assembly of the above-mentioned shell 202 is completed and the porous structure M is filled into the accommodation area, a complete snake cage mesh basket structure 200 is displayed, and then a crochet needle N (shown in blue) is displayed. It is fastened to the upper plate body 204, and a winding thread (not shown in the figure) is used to wrap an epiphyte P, and one end of the winding thread is tied to the crochet hook N, so that the epiphyte P is also is fixed to the upper plate body 204. Therefore, if the above-mentioned snake cage mesh basket structure 200 of the present invention is suspended, the above-mentioned epiphyte P fixed on the upper plate body 204 will not fall.
於某些實施例中,在一實施例中,上述多孔隙結構物之粒徑係大於1.5公分。在某些實施例中,上述多孔隙結構物之粒徑係介於1.5-2公分之間。在一實施例中,除了上述多孔隙結構物之外,尚有其他種材料(例如,水苔、樹皮及椰塊等等)亦可被選用並填充至上述殼體的容置區中。 In some embodiments, in one embodiment, the particle size of the porous structure is greater than 1.5 cm. In some embodiments, the particle size of the porous structure is between 1.5-2 cm. In one embodiment, in addition to the porous structure, other materials (such as sphagnum moss, bark, coconut blocks, etc.) can also be selected and filled into the accommodation area of the housing.
於某一實施例中,上述多孔隙結構物進一步為高吸水率之多孔隙結構物;在某些實施例中,上述多孔隙結構物進一步為火山石;在一實施例中,上述多孔隙結構物可進一步為海綿,進一步而言,前述海綿又藉由木纖維素纖維或發泡塑膠聚合物所製成。另外,由於填入上述殼體的容置區中之多孔隙結構物為高吸水率且重量較輕的多孔隙結構物,因此,若將本發明之蛇籠網籃結構以懸掛或者壁掛固定於牆壁的方式呈現,上述殼體不會因承受上述多孔隙結構物的重量而變形。 In one embodiment, the porous structure is a porous structure with high water absorption; in some embodiments, the porous structure is volcanic stone; in one embodiment, the porous structure is The object may further be a sponge, and further, the sponge is made of wood cellulose fiber or foamed plastic polymer. In addition, since the porous structure filled in the accommodation area of the above-mentioned shell is a porous structure with high water absorption and light weight, therefore, if the snake cage mesh basket structure of the present invention is hung or wall-mounted, it can be fixed on the wall. In this way, the above-mentioned shell will not be deformed due to bearing the weight of the above-mentioned porous structure.
於某些實施例中,前述附生植物P之末端又進一步具有一附著介質A(例如,苔球),而鈎針卡固於前述上板體,且用一纏線(未顯示於圖中)纏繞一附生植物P之附著介質A,並將前述纏線的一端綁固於上述鈎針上,使前述附生植物P之附著介質A亦固定於該上板體204。當對前述附生植物P澆水時以淋濕附著介質A與殼體202,由於多孔隙結構物之間極為透氣、不積水,且多孔隙結構物本身又具極高孔隙率以及擁有可吸附水氣之特性,解決上述殼體202悶熱潮濕問題,且澆水時可淋濕附生植物P末端的附著介質A以提供附生植物生長所需要的水分,並使得附生植物迅速生長且附生於多孔隙結構物表面,增進附生植物的根系發展,使附生植物整體健壯。 In some embodiments, the end of the epiphyte P further has an attachment medium A (for example, a moss ball), and the crochet hook is fixed to the upper plate body with a thread (not shown in the figure) Wrap the attachment medium A of the epiphyte P, and tie one end of the winding thread to the crochet hook, so that the attachment medium A of the epiphyte P is also fixed on the upper plate body 204 . When watering the aforementioned epiphyte P, the attachment medium A and the shell 202 are wetted, because the porous structure is extremely breathable and does not accumulate water, and the porous structure itself has extremely high porosity and adsorbable properties. The characteristics of water vapor solve the above-mentioned hot and humid problem of the housing 202, and when watering, the attachment medium A at the end of the epiphyte plant P can be wetted to provide the water needed for the growth of the epiphyte plant, and allow the epiphyte plant to grow rapidly and attach. Growing on the surface of porous structures, it promotes the root development of epiphytes and makes the epiphytes overall strong.
參閱圖3,其係顯示蛇籠網籃結構的製作方法實施例,以下配合本發明之蛇籠網籃結構的製作方法步驟302-316進行闡述。 Referring to FIG. 3 , it shows an embodiment of the manufacturing method of the snake cage mesh basket structure. Steps 302 to 316 of the manufacturing method of the snake cage mesh basket structure of the present invention will be described below.
如步驟302所示,提供一殼體,其中該殼體具有一容置區、一第一網狀板體、一上板體及一下板體,該第一網狀板體包括一第一區段及一第二區段。而上述第一網狀板體、上板體及下板體可為非金屬或金屬網狀板體,且均具有多個網格。 As shown in step 302, a housing is provided, wherein the housing has a receiving area, a first mesh plate body, an upper plate body and a lower plate body, the first mesh plate body includes a first area section and a second section. The above-mentioned first mesh plate body, upper plate body and lower plate body can be non-metallic or metal mesh plate bodies, and each has a plurality of meshes.
如步驟304所示,利用一篩網篩選出一多孔隙結構物,進一步而言,上述經過篩選的多孔隙結構物之粒徑大於1.5公分。在某些實施例中,上述多孔隙結構物之粒徑係介於1.5-2公分之間。 As shown in step 304, a sieve is used to screen out a porous structure. Furthermore, the particle size of the screened porous structure is greater than 1.5 cm. In some embodiments, the particle size of the porous structure is between 1.5-2 cm.
如步驟306所示,將前述下板體置於該第一網狀板體之一第二長邊框下方,利用該第二長邊框所圍繞出的幾何輪廓係匹配該下板體的幾何輪廓。在一實施例中,前述上板體的幾何輪廓可為圓形、方形、規則多邊形(例如,正六邊形)、不規則多邊形等等。 As shown in step 306, the lower plate body is placed under a second long frame of the first mesh plate body, and the geometric outline surrounded by the second long frame is used to match the geometric outline of the lower plate body. In one embodiment, the geometric outline of the upper plate body may be a circle, a square, a regular polygon (for example, a regular hexagon), an irregular polygon, or the like.
如步驟308所示,以前述下板體之一第三鎖固件纏繞該第二長邊 框,使上述下板體被綁固於上述第一網狀板體下方。 As shown in step 308, use one of the third fasteners of the lower plate body to wrap the second long side. frame, so that the above-mentioned lower plate body is tied below the above-mentioned first mesh plate body.
如步驟310所示,將前述上板體置於該第一網狀板體之一第一長邊框上方,利用該第一長邊框所圍繞出的幾何輪廓係匹配該上板體的幾何輪廓。在一實施例中,前述上板體的幾何輪廓可為圓形、方形、規則多邊形(例如,正六邊形)、不規則多邊形等等。 As shown in step 310, the upper plate body is placed above a first long frame of the first mesh plate body, and the geometric outline surrounded by the first long frame is used to match the geometric outline of the upper plate body. In one embodiment, the geometric outline of the upper plate body may be a circle, a square, a regular polygon (for example, a regular hexagon), an irregular polygon, or the like.
如步驟312所示,將該上板體組裝至該殼體,以該上板體之一第二鎖固件係用以纏繞該第一長邊框,使上述上板體被綁固於上述第一網狀板體上方。 As shown in step 312, the upper plate body is assembled to the housing, and a second fastener of the upper plate body is used to wrap around the first long frame, so that the upper plate body is fastened to the first long frame. Above the mesh plate.
如步驟314所示,將該第一區段組裝至該殼體,以該第一區段連接至該第一網狀板體之第二區段。在某些實施例中,上述第一區段的第一鎖固件係用以纏繞該第二區段的第一短邊框,而前述第一區段之另一端又包含一第四鎖固件,且該第二區段之另一端又包含一第二短邊框,前述第四鎖固件係用以纏繞該第二短邊框。 As shown in step 314, the first section is assembled to the housing, and the first section is connected to the second section of the first mesh plate. In some embodiments, the first fastener of the first section is used to wrap around the first short frame of the second section, and the other end of the first section includes a fourth fastener, and The other end of the second section further includes a second short frame, and the aforementioned fourth fastener is used to wrap around the second short frame.
如步驟316所示,當該第一區段、該上板體或該下板體作為最後順序被組裝於該殼體前,將該多孔隙結構物填充於該容置區中。舉例而言,若以該第一區段作為最後順序組裝於殼體,則表示在第一區段尚未組裝於殼體時,在前述殼體的側面具有一第一開口,而該多孔隙結構物會經由前述第一開口填充於該容置區中。 As shown in step 316, when the first section, the upper plate body or the lower plate body are assembled in the last order before the shell, the porous structure is filled in the accommodation area. For example, if the first section is assembled into the housing in the last order, it means that before the first section is assembled into the housing, there is a first opening on the side of the housing, and the porous structure Objects will be filled into the accommodation area through the first opening.
在一實施例中,由於上述殼體係由複數個板體組裝而成,且該複數個板體均為網狀板體且具有多個網格,為了使上述多孔隙結構物不會經由上述複數個板體的網格掉出,上述多孔隙結構物之粒徑係大於1.5公分。在某些實施例中,上述多孔隙結構物之粒徑係介於1.5-2公分之間。在一實施例中,除了上述多孔隙結構物之外,尚有其他種材料(例如,水苔、樹皮及椰塊等等)亦被填充至上述殼體的容置區中。 In one embodiment, since the above-mentioned shell system is assembled from a plurality of plates, and the plurality of plates are all mesh plates and have multiple meshes, in order to prevent the above-mentioned porous structure from passing through the above-mentioned plurality of plates, The mesh of each plate fell out, and the particle size of the porous structure was greater than 1.5 cm. In some embodiments, the particle size of the porous structure is between 1.5-2 cm. In one embodiment, in addition to the porous structure, other materials (such as sphagnum moss, bark, coconut blocks, etc.) are also filled into the accommodation area of the housing.
在一實施例中,本發明之蛇籠網籃結構除了可製作成方形體或圓柱體的形狀之外,亦可利用前述所揭方法製作出其他形狀之蛇籠網籃結構,如圖4及圖5所揭之例示。 In one embodiment, in addition to the shape of a square or a cylinder, the snake cage mesh basket structure of the present invention can also be made into other shapes of snake cage mesh basket structures using the method disclosed above, as shown in Figures 4 and 5 Examples revealed.
參照圖4,其係根據另一實施例所顯示之一種蛇籠網籃結構400之組裝圖。本實施例之蛇籠網籃結構400亦用於栽培附生植物,而前述蛇籠網籃結構又包含一殼體402及多孔隙結構物M,其中上述殼體402具有一容置區 E,且係由複數個板體組裝而成,進一步而言,此種複數個板體可為非金屬或金屬網狀板體,且均具有多個網格,前述複數個板體又包含一第一網狀板體404、一上板體406及一下板體408,而上述上板體406及下板體408的幾何輪廓均為正六邊形;上述第一網狀板體404具有一第一長邊框4041及第二長邊框4042,其中上述第一長邊框4041係位於上述第一網狀板體404上方,上述第二長邊框4042係位於上述第一網狀板體404下方,而第一網狀板體404又進一步為一第一區段410及一第二區段412所組合而成,前述第一區段410的一端具有一第一鎖固件4101,而上述第二區段412係連接上述第一區段410,且第二區段412的一端具有一第一短邊框4121,當上述第一長邊框4041及第二長邊框4042圍繞出幾何輪廓後,則經組裝或彎折該第一網狀板體404成一正六邊形之形狀,上述第一鎖固件4101係相鄰於上述第一短邊框4121,並令上述第一鎖固件4101可用以纏繞上述第一短邊框4121;前述上板體406則具有一第二鎖固件4061;前述下板體408具有一第三鎖固件4081;在組裝過程中,利用該第一長邊框4041及該第二長邊框4042所圍繞出的幾何輸廓係分別匹配該上板體406及該下板體408的幾何輪廓,其中該第二鎖固件4061係用以纏繞該第一長邊框4041,該第三鎖固件4081係用以纏繞該第二長邊框4042,使上板體406被綁固於上述第一網狀板體404之上方,且下板體408被綁固於上述第一網狀板體404之下方;若以該第一區段410作為最後順序組裝於殼體402,則表示在第一區段410尚未組裝於前述殼體402時,在殼體402的側面具有一第一開口O1,而該多孔隙結構物M會經由前述第一開口O1填充於該容置區中。因此,當前述多孔隙結構物M填充於該容置區後,則再利用該第一區段410封閉該第一開口O1,以完成呈現六邊形體的本發明之蛇籠網籃結構400。 Referring to FIG. 4 , which is an assembly diagram of a snake cage mesh basket structure 400 according to another embodiment. The snake cage mesh basket structure 400 of this embodiment is also used for cultivating epiphytes, and the snake cage mesh basket structure further includes a shell 402 and a porous structure M, wherein the shell 402 has a receiving area E, and is assembled from a plurality of plates. Furthermore, such plurality of plates can be non-metallic or metal mesh plates, and each has a plurality of grids. The aforementioned plurality of plates further includes a The first mesh plate 404, an upper plate 406 and a lower plate 408, and the geometric outlines of the upper plate 406 and the lower plate 408 are regular hexagons; the first mesh plate 404 has a first A long frame 4041 and a second long frame 4042, wherein the first long frame 4041 is located above the first mesh plate 404, the second long frame 4042 is located below the first mesh plate 404, and the A mesh plate body 404 is further composed of a first section 410 and a second section 412. One end of the first section 410 has a first fastener 4101, and the second section 412 It is connected to the first section 410, and one end of the second section 412 has a first short frame 4121. When the first long frame 4041 and the second long frame 4042 surround the geometric outline, they are assembled or bent. The first mesh plate 404 is in the shape of a regular hexagon, and the first fastener 4101 is adjacent to the first short frame 4121, so that the first fastener 4101 can be used to wrap around the first short frame 4121; The aforementioned upper plate body 406 has a second fastener 4061; the aforementioned lower plate body 408 has a third fastener 4081; during the assembly process, the space surrounded by the first long frame 4041 and the second long frame 4042 is used. The geometric contours match the geometric contours of the upper plate body 406 and the lower plate body 408 respectively, in which the second fastener 4061 is used to wrap around the first long frame 4041, and the third fastener 4081 is used to wrap around the first long frame 4041. The second long frame 4042 enables the upper plate body 406 to be fastened above the above-mentioned first mesh plate body 404, and the lower plate body 408 to be fastened below the above-mentioned first mesh plate body 404; A section 410 is assembled to the casing 402 as the last sequence, which means that when the first section 410 has not been assembled to the casing 402, there is a first opening O1 on the side of the casing 402, and the porous structure M The accommodating area will be filled through the aforementioned first opening O1. Therefore, after the porous structure M is filled in the accommodation area, the first section 410 is used to close the first opening O1 to complete the hexagonal snake cage mesh basket structure 400 of the present invention.
參閱圖5所示,係根據某一實施例所顯示之一種盆形的蛇籠網籃結構500之組裝圖。前述蛇籠網籃結構500包含一殼體502及多孔隙結構物M,其中上述殼體502具有一容置區E,且係由複數個板體組裝而成,進一步而言,此種複數個板體可為非金屬或金屬網狀板體,且均具有多個網格,該複數個板體又包含一第一網狀板體504、一上板體506及一下板體508,且上述殼體又進一步包含一第二網狀板體514,上述第二網狀板體514又包含第五鎖固件5141、一第三短邊框5142及第三長邊框5143,經彎折該第二網狀板體514,以令該第五鎖固件5141係用以纏繞該第三短邊框5142。而前述上板體506又包含一內側 邊緣5062及一第六鎖固件5063,利用該第三長邊框5143所圍繞出的幾何輪廓係匹配該上板體506之內側邊緣5062的幾何輪廓,並用第五鎖固件5141纏繞該第三短邊框5142,因此,如若將該第二網狀板體514組裝至該殼體502,則利用上板體506之第六鎖固件5063纏繞該第三長邊框5143;上述第一網狀板體504又具有一第一長邊框5041及第二長邊框5042,其中上述第一長邊框5041係位於上述第一網狀板體504上方,上述第二長邊框5042係位於上述第一網狀板體504下方,而第一網狀板體504又進一步為一第一區段(於圖未顯示)及一第二區段(於圖未顯示)所組合而成,前述第一區段的一端具有一第一鎖固件510,而上述第二區段係連接上述第一區段,且第二區段的一端具有一第一短邊框512,當上述第一長邊框5041及第二長邊框5042圍繞出幾何輪廓後,則經組合或彎折該第一網狀板體504,上述第一鎖固件510係相鄰於上述第一短邊框512,以令上述第一鎖固件510係用以纏繞上述第一短邊框512;前述上板體506則具有一第二鎖固件5061;前述下板體508具有一第三鎖固件5081;在組裝過程中,利用該第一長邊框5041及該第二長邊框5042所圍繞出的幾何輪廓係分別匹配該上板體506及該下板體508的幾何輪廓,其中該第二鎖固件5061係用以纏繞該第一長邊框5041,該第三鎖固件5081係用以纏繞該第二長邊框5042,使上板體506被綁固於上述第一網狀板體504之上方,且下板體508被綁固於上述第一網狀板體504之下方;當該下板體508作為最後順序被組裝於該殼體502前,將該多孔隙結構物M填充於該容置區中,最後再將下板體組裝至殼體,使新的蛇籠網籃結構可呈現盆體形狀。 Referring to FIG. 5 , it is an assembly diagram of a basin-shaped snake cage mesh basket structure 500 according to an embodiment. The aforementioned snake cage mesh basket structure 500 includes a shell 502 and a porous structure M. The shell 502 has an accommodation area E and is assembled from a plurality of plates. Furthermore, such plurality of plates The body can be a non-metallic or metal mesh plate body, and each has a plurality of meshes. The plurality of plate bodies include a first mesh plate body 504, an upper plate body 506 and a lower plate body 508, and the above-mentioned shell The body further includes a second mesh plate body 514. The second mesh plate body 514 further includes a fifth fastener 5141, a third short frame 5142 and a third long frame 5143. After bending the second mesh plate body 514, The plate body 514 allows the fifth fastener 5141 to wrap around the third short frame 5142 . The aforementioned upper plate body 506 also includes an inner The edge 5062 and a sixth fastener 5063 use the geometric outline surrounded by the third long frame 5143 to match the geometric outline of the inner edge 5062 of the upper plate body 506, and use the fifth fastener 5141 to wrap around the third short frame 5142. Therefore, if the second mesh plate body 514 is assembled to the housing 502, the sixth fastener 5063 of the upper plate body 506 is used to wrap the third long frame 5143; the above-mentioned first mesh plate body 504 is again It has a first long frame 5041 and a second long frame 5042, wherein the first long frame 5041 is located above the first mesh plate 504, and the second long frame 5042 is located below the first mesh plate 504. , and the first mesh plate body 504 is further composed of a first section (not shown in the figure) and a second section (not shown in the figure). One end of the first section has a first section. A fastener 510, and the above-mentioned second section is connected to the above-mentioned first section, and one end of the second section has a first short frame 512. When the above-mentioned first long frame 5041 and the second long frame 5042 surround the geometric After the outline, the first mesh plate 504 is combined or bent, and the first fastener 510 is adjacent to the first short frame 512, so that the first fastener 510 is used to wrap around the first The short frame 512; the upper plate body 506 has a second fastener 5061; the lower plate body 508 has a third fastener 5081; during the assembly process, the first long frame 5041 and the second long frame 5042 are used The surrounding geometric contours match the geometric contours of the upper plate body 506 and the lower plate body 508 respectively, in which the second fastener 5061 is used to wrap around the first long frame 5041, and the third fastener 5081 is used. By wrapping the second long frame 5042, the upper plate body 506 is fastened above the above-mentioned first mesh plate body 504, and the lower plate body 508 is fastened below the above-mentioned first mesh plate body 504; when The lower plate body 508 is assembled in front of the shell 502 as the final sequence, the porous structure M is filled in the accommodation area, and finally the lower plate body is assembled to the shell to form a new snake cage mesh basket structure. Can take on the shape of a basin.
於某一實施例中,若以前述之下板體508作為最後順序組裝於殼體502,則表示在下板體508尚未組裝於殼體502時,在殼體502的下面具有一第二開口O2,而前述多孔隙結構物M會經由前述第二開口O2填充於該容置區E中。 In a certain embodiment, if the lower plate 508 is assembled to the casing 502 in the last order, it means that when the lower plate 508 has not been assembled to the casing 502, there is a second opening O2 on the lower surface of the casing 502. , and the porous structure M will be filled in the accommodation area E through the second opening O2.
於某些實施例中,當新的蛇籠網籃結構呈現盆體形狀時,則表示該盆體形狀的蛇籠網籃結構經組合後具有一凹部結構,則前述附生植物可仿效一般植物種植於花盆般地被放置於該凹部結構中。 In some embodiments, when the new snake cage mesh basket structure takes on the shape of a basin, it means that the basin-shaped snake cage mesh basket structure has a concave structure after being combined, and the aforementioned epiphytes can be planted in the same shape as ordinary plants. It is placed in the recessed structure like a flowerpot.
在某一實施例中,上述第一網狀板體的長度大於上述第二網狀板體的長度;於某些實施例中,上述第一網狀板體的寬度等於上述第二網狀板體的寬度。 In a certain embodiment, the length of the first mesh plate is greater than the length of the second mesh plate; in some embodiments, the width of the first mesh plate is equal to the width of the second mesh plate. body width.
在某些實施例中,本發明之蛇籠網籃結構可改以上板體作為最後順序組裝於殼體,則表示在上板體尚未組裝於殼體時,在殼體的上面具有一第三開口,而前述多孔隙結構物會經由前述第三開口填充於該容置區中。 In some embodiments, the snake cage mesh basket structure of the present invention can be replaced with the upper plate body being assembled into the shell in the last order. This means that there is a third opening on the top of the shell when the upper plate body has not yet been assembled into the shell body. , and the aforementioned porous structure will be filled in the accommodation area through the aforementioned third opening.
本發明之方法中的若干者係以其最基礎的形式加以敘述,但在不脫離本發明之基礎範圍下仍可加入若干方法至其任一者或從其任一者刪除若干方法,且可增加若干資訊至此處所述訊息之任一者中或從其刪減若干資訊。此領域中具通常知識之技藝者將得以領會,可對本發明進一步做若干更動及改變。此處所提供之特定實施例並非用以限制本發明,而係用以說明本發明。 Several of the methods of the invention are described in their most basic form, but methods may be added to or deleted from any of the invention without departing from the basic scope of the invention, and may Add certain information to or delete certain information from any of the messages described herein. Those skilled in the art will appreciate that several further modifications and variations may be made to the present invention. The specific examples provided herein are not intended to limit the invention but to illustrate the invention.
100:蛇籠網籃結構 100: Snake cage mesh basket structure
102:殼體 102: Shell
104:第一網狀板體 104: First mesh plate body
1041:第一長邊框 1041: First long border
1042:第二長邊框 1042: The second longest border
106:上板體 106: Upper plate body
1061:第二鎖固件 1061:Second lock firmware
108:下板體 108:Lower plate body
1081:第三鎖固件 1081:Third lock firmware
110:第一區段 110: First section
1101:第一鎖固件 1101:First lock firmware
112:第二區段 112:Second section
1121:第一短邊框 1121: First short border
M:多孔隙結構物 M: porous structure
O1:第一開口 O1: First opening
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CN206887887U (en) * | 2017-06-22 | 2018-01-16 | 汇绿园林建设发展有限公司 | Eco-filtration gabion |
CN112060618A (en) * | 2020-09-03 | 2020-12-11 | 吉林通鑫玄武岩科技股份有限公司 | Processing technology of basalt fiber reinforcement gabion |
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2022
- 2022-06-14 TW TW111122317A patent/TWI808794B/en active
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