TWM606694U - Floating pipe interval control structure - Google Patents
Floating pipe interval control structure Download PDFInfo
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- TWM606694U TWM606694U TW109209007U TW109209007U TWM606694U TW M606694 U TWM606694 U TW M606694U TW 109209007 U TW109209007 U TW 109209007U TW 109209007 U TW109209007 U TW 109209007U TW M606694 U TWM606694 U TW M606694U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
- Y02A40/81—Aquaculture, e.g. of fish
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Abstract
本創作係一種浮管間隔控制結構,其係用以設置於一筏體之第一軸向的浮管上,並位於第二軸向之二相鄰的浮管之間,浮管間隔控制結構於第一軸向之相對二端部分別形成一抵接端,且浮管間隔控制結構之底部形成一配合部,配合部具有沿第一軸向延伸之呈凹弧狀的一配合槽,且配合槽能配合第一軸向之浮管的管壁,本創作浮管間隔控制結構能利用外部的綁繩綁設於筏體之第一軸向的浮管上,並使浮管間隔控制結構之二抵接端分別抵接二第二軸向之浮管,藉此固定二第二軸向之浮管之間的間距,能有效避免第二軸向的浮管受到風浪影響而產生滑移之情形,進而避免綁設於浮管上之蚵苗串相互打結而影響作業人員進行採蚵作業。 This creation is a floating tube spacing control structure, which is used to set on the floating tube in the first axis of a raft and located between two adjacent floating tubes in the second axis. The floating tube spacing control structure An abutting end is respectively formed at two opposite ends in the first axial direction, and the bottom of the floating tube spacing control structure forms a matching portion, the matching portion has a concave arc-shaped matching groove extending along the first axial direction, and The matching groove can match the tube wall of the floating tube in the first axis. The floating tube spacing control structure of the original creation can be tied to the floating tube in the first axis of the raft with an external tie rope, and the floating tube spacing control structure The two abutting ends respectively abut the two floating tubes in the second axis, thereby fixing the distance between the two floating tubes in the second axis, which can effectively prevent the floating tubes in the second axis from sliding due to wind and waves. In this case, the oyster seedling strings tied to the floating tube are prevented from getting knotted and affecting the operators to carry out the oyster harvesting operation.
Description
本創作係一種浮管間隔控制結構,尤指用以設置於筏體上,並用以控制筏體之浮管間距之浮管間隔控制結構。 This creation is a floating tube spacing control structure, especially a floating tube spacing control structure that is set on a raft and used to control the spacing of the floating tubes of the raft.
現今於養殖蚵苗時,主要係將蚵苗串綁設於一筏體,並將所述筏體放置在一養殖池中,所述筏體會漂浮於水面上,而所述蚵苗串會垂入水中,其中,所述筏體包含複數第一軸向的浮管及複數第二軸向的浮管,該複數第一軸向的浮管相互間隔排列設置,該複數第二軸向的浮管係相互間隔排列並與該複數第一軸向的浮管相互堆疊設置,該複數第一軸向的浮管及該複數第二軸向的浮管之交錯處會透過設置綁繩或是管套件進行固定,所述蚵苗串係分別綁設於該複數浮管上。 Nowadays, when cultivating oyster seedlings, the string of oyster seedlings is mainly tied to a raft body, and the raft body is placed in a breeding pond. The raft body will float on the water surface, and the oyster seedling string will hang down. Into the water, wherein the raft includes a plurality of first axial floating tubes and a plurality of second axial floating tubes, the plurality of first axial floating tubes are arranged at intervals, and the plurality of second axial floating tubes The pipes are arranged at intervals and stacked with the plurality of floating tubes in the first axial direction. The intersecting positions of the plurality of floating tubes in the first axial direction and the plurality of floating tubes in the second axial direction are arranged by tying ropes or tubes. The kit is fixed, and the oyster seedling strings are respectively tied to the plurality of floating tubes.
然而由於所述浮管之表面皆為光滑面,不論透過綁繩的方式或是以管套件固定的方式,所述浮管皆有可能受到風浪的影響而產生相對滑動,使得綁設有蚵苗串之浮管之間的距離過近,進而產生蚵苗串相互纏繞打結之情形,導致作業人員在採蚵時有所不便。因此,要如何有效固定浮管,使相鄰之浮管不易受到風浪影響而產生相對滑動,實為現今之筏體待改善之部分。 However, since the surface of the floating tube is smooth, no matter whether it is tied by a rope or fixed by a tube set, the floating tube may be affected by wind and waves and cause relative sliding, so that oyster seedlings are tied. The distance between the floating pipes of the string is too short, which causes the oyster seedling string to be entangled and knotted, which causes inconvenience for the operators when collecting oysters. Therefore, how to effectively fix the floating pipes so that the adjacent floating pipes are not easily affected by wind and waves to produce relative sliding, which is actually the part of the current raft to be improved.
本創作之主要目的在於提供一浮管間隔控制結構,希藉此改善現今筏體之浮管容易受到風浪的影響而產生相對滑動,導致有蚵苗串相互纏繞打結之情形,進而使作業人員在採蚵時有所不便之問題。 The main purpose of this creation is to provide a floating pipe spacing control structure, which hopes to improve the relative sliding of the floating pipes of the current raft body, which is susceptible to wind and waves, resulting in the entanglement and knotting of oyster seedlings, which in turn makes the operators There is a problem of inconvenience when picking oysters.
為達成前揭目的,本創作之浮管間隔控制結構係用以設置於一筏體之第一軸向的浮管上,並位於第二軸向之二相鄰的浮管之間,所述浮管間隔控制結構於第一軸向之相對二端部分別形成一抵接端,且所述浮管間隔控制結構之底部形成一配合部,所述配合部具有沿第一軸向延伸之呈凹弧狀的一配合槽,且所述配合槽能配合所述第一軸向之浮管的管壁。 In order to achieve the purpose of the foregoing disclosure, the floating tube spacing control structure of this creation is used to set on the floating tube in the first axis of a raft and located between two adjacent floating tubes in the second axis. The two opposite ends of the floating tube spacing control structure in the first axial direction respectively form an abutting end, and the bottom of the floating tube spacing control structure forms a matching portion, the matching portion having a shape extending along the first axial direction A matching groove in the shape of a concave arc, and the matching groove can be matched with the tube wall of the floating tube in the first axial direction.
所述浮管間隔控制結構之頂部能進一步形成一裝配部,所述裝配部具有沿第一軸向延伸之呈凹弧狀的一裝配槽;其中,所述裝配槽的曲率半徑與所述配合槽的曲率半徑相等;或是,所述裝配槽的曲率半徑能大於所述配合槽的曲率半徑。 The top of the floating tube spacing control structure can further form an assembling part, and the assembling part has an assembling groove extending in the first axial direction in a concave arc shape; wherein the curvature radius of the assembling groove matches the The radii of curvature of the grooves are equal; or, the radius of curvature of the assembly groove can be greater than the radius of curvature of the matching groove.
其中,所述浮管間隔控制結構之中央處能形成有上下貫通之一貫孔,且所述浮管間隔控制結構於所述貫孔的外圍形成一周壁;或是,所述浮管間隔控制結構之中央處能形成有上下貫通之複數貫孔,該複數貫孔係沿該浮管間隔控制結構之第一軸向間隔排列,且所述浮管間隔控制結構上形成一周壁,所述周壁係分別環繞該複數貫孔。 Wherein, a through hole can be formed at the center of the floating tube interval control structure, and the floating tube interval control structure forms a peripheral wall on the periphery of the through hole; or, the floating tube interval control structure A plurality of through holes penetrating up and down can be formed in the center, and the plurality of through holes are arranged at intervals along the first axial direction of the floating tube spacing control structure, and the floating tube spacing control structure forms a peripheral wall, and the peripheral wall is Surround the plural through holes respectively.
此外,所述周壁之相對二側分別凹陷形成至少一側部綁設槽;且所述周壁分別於該浮管間隔控制結構之抵接端處能分別進一步凹陷形成至少一端部綁設槽,且所述浮管間隔控制結構分別於鄰近所述端部綁設槽處形成一穿設孔。 In addition, two opposite sides of the peripheral wall are respectively recessed to form at least one side binding groove; and the peripheral wall can be further recessed to form at least one end binding groove respectively at the abutting ends of the floating tube interval control structure, and The floating tube spacing control structure respectively forms a through hole adjacent to the end binding groove.
本創作浮管間隔控制結構能利用外部的綁繩綁設於所述筏體之第一軸向的浮管上,並使所述浮管間隔控制結構之該二抵接端分別抵接該二第二軸向之浮管,藉此固定該二第二軸向之浮管之間的間距,能有效避免筏體之 第二軸向的浮管受到風浪吹襲的影響而相對該第一軸向之浮管產生滑移之情形,進而避免綁設於浮管上之蚵苗串相互打結而影響作業人員進行採蚵作業。 The floating tube spacing control structure of the present invention can be tied to the floating tube in the first axial direction of the raft with an external tying rope, and the two abutting ends of the floating tube spacing control structure abut against the two respectively. The floating tube in the second axis can be used to fix the distance between the two floating tubes in the second axis. The floating tube in the second axis is affected by wind and waves and slips relative to the floating tube in the first axis, thereby avoiding the knotting of the oyster seedling strings tied to the floating tube and affecting the operation of the operator. Oyster operations.
10:抵接端 10: butt end
11:配合部 11: Cooperating Department
111:配合槽 111: Mating groove
12a,12b:裝配部 12a, 12b: assembly department
121a,121b:裝配槽 121a, 121b: assembly groove
13:貫孔 13: Through hole
14:周壁 14: Zhou wall
15:側部綁設槽 15: Side tie groove
16:端部綁設槽 16: End binding groove
17:穿設孔 17: Piercing hole
20:側部綁繩 20: Side rope
21:端部綁繩 21: End tie rope
30:筏體 30: Raft
31:第一軸向的浮管 31: Floating tube in the first axis
32:第二軸向的浮管 32: The second axial float tube
圖1:為本創作浮管間隔控制結構之第一種較佳實施例之立體外觀示意圖。 Figure 1: This is a three-dimensional schematic diagram of the first preferred embodiment of the created float tube interval control structure.
圖2:為本創作浮管間隔控制結構之第一種較佳實施例之端視平面圖。 Figure 2: This is an end plan view of the first preferred embodiment of the created float tube spacing control structure.
圖3:為本創作浮管間隔控制結構之第二種較佳實施例之立體外觀示意圖。 Figure 3: This is a three-dimensional schematic diagram of the second preferred embodiment of the created float tube interval control structure.
圖4:為本創作浮管間隔控制結構之第三種較佳實施例之立體外觀示意圖。 Fig. 4 is a schematic diagram of the three-dimensional appearance of the third preferred embodiment of the created float tube interval control structure.
圖5:為本創作浮管間隔控制結構之第三種較佳實施例之端視平面圖。 Figure 5: This is an end plan view of the third preferred embodiment of the created float tube spacing control structure.
圖6:為本創作浮管間隔控制結構之第四種較佳實施例之立體外觀示意圖。 Figure 6: This is a three-dimensional schematic diagram of the fourth preferred embodiment of the created float tube interval control structure.
圖7:為本創作浮管間隔控制結構之第五種較佳實施例之立體外觀示意圖。 Fig. 7 is a schematic diagram of the three-dimensional appearance of the fifth preferred embodiment of the created float tube interval control structure.
圖8:為本創作浮管間隔控制結構之第五種較佳實施例之端視平面圖。 Figure 8: This is an end plan view of the fifth preferred embodiment of the created float tube spacing control structure.
圖9:為本創作浮管間隔控制結構之第六種較佳實施例之立體外觀示意圖。 Figure 9: This is a three-dimensional schematic diagram of the sixth preferred embodiment of the created float tube interval control structure.
圖10:為本創作浮管間隔控制結構之第五種較佳實施例之使用狀態示意圖。 Figure 10 is a schematic diagram of the use state of the fifth preferred embodiment of the created float tube interval control structure.
圖11:為圖10之剖面示意圖。 Figure 11: is a schematic cross-sectional view of Figure 10.
圖12:為本創作浮管間隔控制結構之第六種較佳實施例之使用狀態示意圖。 Figure 12: This is a schematic diagram of the use state of the sixth preferred embodiment of the created float tube interval control structure.
請參閱圖1至圖10,為本創作浮管間隔控制結構之數種較佳實施例,其係用以設置於一筏體30之第一軸向的浮管31上,並位於第二軸向之二相鄰的浮管32之間,所述浮管間隔控制結構於第一軸向之相對二端部分別形成一抵接端10,且所述浮管間隔控制結構之底部形成一配合部11,所述配合部11具有沿第一軸向延伸之呈凹弧狀的一配合槽111,且所述配合槽111能配合所述第一軸向之浮管31的管壁。
Please refer to Figures 1 to 10, which are several preferred embodiments of the floating tube spacing control structure created for this creation, which are used to be arranged on the
如圖4至圖9所示,於本創作浮管間隔控制結構第三種較佳實施例至第六種較佳實施例中,所述浮管間隔控制結構之頂部進一步形成一裝配部12a,12b,所述裝配部12a,12b具有沿第一軸向延伸之呈凹弧狀的一裝配槽121a,121b;其中,於本創作浮管間隔控制結構第三種較佳實施例及第四種較佳實施例中,所述裝配槽121a的曲率半徑與所述配合槽111的曲率半徑相等;而於本創作浮管間隔控制結構之第五種較佳實施例及第六種較佳實施例中,所述裝配槽121b的曲率半徑大於所述配合槽111的曲率半徑,使所述浮管間隔控制結構能配合不同管徑大小之浮管31,32使用。
As shown in Figures 4-9, in the third preferred embodiment to the sixth preferred embodiment of the floating tube spacing control structure of the present creation, the top of the floating tube spacing control structure further forms an
此外,如圖1、圖4所示,於本創作浮管間隔控制結構之第一種較佳實施例及第三種較佳實施例中,所述浮管間隔控制結構之中央處形成有上下貫通之一貫孔13,且所述浮管間隔控制結構於所述貫孔13的外圍形成一周壁14。
In addition, as shown in Figures 1 and 4, in the first preferred embodiment and the third preferred embodiment of the floating tube spacing control structure of the present creation, the floating tube spacing control structure is formed with up and down in the center. A through
如圖3、圖6、圖7、圖9所示,而於本創作浮管間隔控制結構之第二種較佳實施例、第四種較佳實施例至第六種較佳實施例中,所述浮管間隔
控制結構之中央處形成有上下貫通之複數貫孔13,該複數貫孔13係沿該浮管間隔控制結構之第一軸向間隔排列,且所述浮管間隔控制結構上形成一周壁14,所述周壁14係分別環繞該複數貫孔13。
As shown in Figure 3, Figure 6, Figure 7, Figure 9, and in the second preferred embodiment, the fourth preferred embodiment to the sixth preferred embodiment of the floating tube spacing control structure in this creation, The float pipe interval
A plurality of through
再者,如圖7至圖9所示,於本創作浮管間隔控制結構之第五種較佳實施例及第六種較佳實施例中,所述周壁14之相對二側分別凹陷形成至少一側部綁設槽15;此外,所述周壁14分別於該浮管間隔控制結構之抵接端10處分別凹陷形成至少一端部綁設槽16,且所述浮管間隔控制結構分別於鄰近所述端部綁設槽16處形成一穿設孔17。
Furthermore, as shown in FIGS. 7-9, in the fifth preferred embodiment and the sixth preferred embodiment of the floating tube spacing control structure of the present invention, the two opposite sides of the
其中,如圖7、圖9所示之本創作浮管間隔控制結構之第五種較佳實施例及第六種較佳實施例,製造廠商能設定出不同的長度尺寸之浮管間隔控制結構,以提供作業人員依據環境及使用需求選用適當之浮管間隔控制結構。 Among them, the fifth preferred embodiment and the sixth preferred embodiment of the floating tube spacing control structure of the present creation as shown in Figures 7 and 9, the manufacturer can set the floating tube spacing control structure of different lengths. , In order to provide operators with suitable float tube spacing control structure according to the environment and use needs.
其中,如圖10、圖12所示,作業人員能依據需求選擇採用多個長度較短之浮管間隔控制結構相互串聯使用,或是直接使用一長度較長之浮管間隔控制結構。 Among them, as shown in Fig. 10 and Fig. 12, the operator can choose to use multiple shorter-length floating tube spacing control structures in series with each other, or directly use a longer-length floating tube spacing control structure.
如圖10、圖11所示,以本創作浮管間隔控制結構之第五種較佳實施例為例,當所述浮管間隔控制結構於使用時,作業人員能透過將複數個浮管間隔控制結構依序串聯,並藉由將端部綁繩21分別繞過二相鄰之浮管間隔控制結構之端部綁設槽16後,穿過穿設孔17以綁設固定,接著作業人員能將串聯後之浮管間隔控制結構置放於所述筏體30之第一軸向的浮管31上,使所述串聯後之浮管間隔控制結構的配合槽111配合所述第一軸向的浮管31的管壁,並藉由複數側部綁繩20分別繞過浮管間隔控制結構之側部綁設槽15,並將所述浮管間隔控制結構綁設於所述第一軸向的浮管31上,使所述串聯後之浮管間隔控制結構之相對二端的抵接端10能分別抵接於該二第二軸向之浮管32,藉此調控該
二第二軸向之浮管32之間的間距,使該二第二軸向之浮管32不會相對第一軸向之浮管31滑移。
As shown in Figures 10 and 11, taking the fifth preferred embodiment of the floating tube spacing control structure of the present creation as an example, when the floating tube spacing control structure is in use, the operator can separate multiple floating tubes The control structures are connected in series, and the
另如圖12所示,以本創作浮管間隔控制結構之第六種較佳實施例為例,當所述浮管間隔控制結構於使用時,作業人員直接將所述浮管間隔控制結構置放於所述筏體30之第一軸向的浮管31上,使所述浮管間隔控制結構的配合槽111配合所述第一軸向的浮管31的管壁,並藉由複數側部綁繩20分別繞過浮管間隔控制結構之側部綁設槽15,並將所述浮管間隔控制結構綁設於所述第一軸向的浮管31,32上,使所述浮管間隔控制結構之相對二端的抵接端10能分別抵接於該二第二軸向之浮管32,藉此調控該二第二軸向之浮管32之間的間距,使該二第二軸向之浮管32不會相對第一軸向之浮管31滑移。
In addition, as shown in Figure 12, taking the sixth preferred embodiment of the floating tube spacing control structure of the present creation as an example, when the floating tube spacing control structure is in use, the operator directly sets the floating tube spacing control structure Is placed on the
此外,所述浮管間隔控制結構能利用其本身長度提供該二第二軸向之浮管32之間之間隔控制,當作業人員在設置所述浮管間隔控制結構時,所述浮管間隔控制結構之抵接端10能直接抵接該二第二軸向之浮管32,以直接提供該二第二軸向之浮管32之間隔控制;或是,所述浮管間隔控制結構之抵接端能分別與該二第二軸向之浮管32保持一間隙,當有風浪吹襲導致該二第二軸向之浮管32滑動時,所述浮管間隔控制結構能使該二第二軸向之浮管32仍保持一定的間隔距離,藉此達到間隔控制之效果。
In addition, the floating tube spacing control structure can use its own length to provide the spacing control between the two second
再者,當所述筏體包含不同軸向設置之複數橫向浮管及複數縱向浮管時,所述橫向浮管能作為前述之第一軸向的浮管31,而所述縱向浮管能作為前述之第二軸向的浮管32,所述橫向浮管能提供所述浮管間隔控制結構設置,且所述浮管間隔控制結構提供所述縱向浮管之間的間隔控制;亦或是,所述縱向浮管能作為前述之第一軸向的浮管31,而所述橫向浮管能作為前述之第二軸向的浮管32,所述縱向浮管能提供所述浮管間隔控制結構設置,且所述浮管間隔控制結構提供所述橫向浮管之間的間隔控制。
Furthermore, when the raft includes a plurality of transverse floating tubes and a plurality of longitudinal floating tubes arranged in different axial directions, the transverse floating tubes can be used as the aforementioned first axial
綜上所述,本創作浮管間隔控制結構能利用外部的綁繩綁設於所述筏體30之第一軸向的浮管31上,並使所述浮管間隔控制結構之該二抵接端10分別抵接該二第二軸向之浮管32,藉此固定該二第二軸向之浮管32之間的間距,能有效避免筏體30之第二軸向的浮管32受到風浪吹襲的影響而相對該第一軸向之浮管31產生滑移之情形,進而避免綁設於浮管31,32上之蚵苗串相互打結而影響作業人員進行採蚵作業。
In summary, the floating tube spacing control structure of the present creation can be tied to the
10:抵接端 10: butt end
12b:裝配部 12b: Assembly Department
121b:裝配槽 121b: assembly slot
14:周壁 14: Zhou wall
15:側部綁設槽 15: Side tie groove
16:端部綁設槽 16: End binding groove
17:穿設孔 17: Piercing hole
20:側部綁繩 20: Side rope
21:端部綁繩 21: End tie rope
30:筏體 30: Raft
31:第一軸向的浮管 31: Floating tube in the first axis
32:第二軸向的浮管 32: The second axial float tube
Claims (12)
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TW109209007U TWM606694U (en) | 2020-07-15 | 2020-07-15 | Floating pipe interval control structure |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114342851A (en) * | 2021-12-29 | 2022-04-15 | 广西北海跃达玻璃钢制品有限公司 | Novel composite oyster row |
TWD220716S (en) | 2021-11-22 | 2022-08-21 | 陳宗男 | floating tube |
TWI798138B (en) * | 2022-07-12 | 2023-04-01 | 陳宗男 | Floating tube structure of floating scaffolding |
TWD226701S (en) | 2022-07-07 | 2023-07-21 | 陳宗男 | Float tube |
TWI818854B (en) * | 2023-01-12 | 2023-10-11 | 陳宗男 | Floating tube group and floating scaffolding |
TWI831571B (en) * | 2023-01-12 | 2024-02-01 | 陳宗男 | Floating tube group and floating scaffolding |
TWI838080B (en) * | 2023-01-12 | 2024-04-01 | 陳宗男 | Floating tube set and floating scaffolding |
-
2020
- 2020-07-15 TW TW109209007U patent/TWM606694U/en unknown
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWD220716S (en) | 2021-11-22 | 2022-08-21 | 陳宗男 | floating tube |
CN114342851A (en) * | 2021-12-29 | 2022-04-15 | 广西北海跃达玻璃钢制品有限公司 | Novel composite oyster row |
TWD226701S (en) | 2022-07-07 | 2023-07-21 | 陳宗男 | Float tube |
TWI798138B (en) * | 2022-07-12 | 2023-04-01 | 陳宗男 | Floating tube structure of floating scaffolding |
TWI822597B (en) * | 2022-07-12 | 2023-11-11 | 陳宗男 | Floating tube structure of floating scaffold |
TWI818854B (en) * | 2023-01-12 | 2023-10-11 | 陳宗男 | Floating tube group and floating scaffolding |
TWI831571B (en) * | 2023-01-12 | 2024-02-01 | 陳宗男 | Floating tube group and floating scaffolding |
TWI838080B (en) * | 2023-01-12 | 2024-04-01 | 陳宗男 | Floating tube set and floating scaffolding |
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