TWM580174U - Fluid or gas nozzle structure - Google Patents

Abstract

本創作係關於一種流體或氣體之噴嘴結構，其係包括：一噴嘴組係包括：一第一本體及一第二本體；該第一本體係一第一錐部及一第一面；該第二本體係與該第一本體相組設，該第二本體內係設有一第二錐部以供該第一錐部容置以形成一容置空間，該第二本體一端係設有第三面，該第三面與該第一面間係具有一間距，該第二本體另端係設有一第一組設部，該第一組設部係呈外螺紋狀，該第一組設部內係設有一穿槽，該穿槽係貫穿該第一組設部，該穿槽係與該容置空間呈相通狀，該穿槽係與該第一錐部之頂部相對正。 The present invention relates to a fluid or gas nozzle structure, comprising: a nozzle assembly comprising: a first body and a second body; the first system has a first tapered portion and a first surface; The second body is assembled with the first body, the second body is provided with a second tapered portion for receiving the first tapered portion to form an accommodating space, and the second body is provided with a third end The first surface of the second body is provided with a first assembly portion, and the first assembly portion is externally threaded, and the first assembly portion is internally The through slot is formed through the first assembly portion, and the through slot is in communication with the receiving space, and the through slot is opposite to the top of the first tapered portion.

Description

流體或氣體之噴嘴結構 Fluid or gas nozzle structure

本創作係與一流體或氣體之噴嘴結構有關，尤指一種流體或氣體之噴嘴結構中，該流體或氣體經過噴嘴組後係呈傘狀之分佈噴灑之功效。 The present invention relates to a fluid or gas nozzle structure, and more particularly to a fluid or gas nozzle structure in which the fluid or gas is sprayed in an umbrella shape after passing through the nozzle group.

按吾人先前所知，習用之流體或氣體之噴嘴結構，如台灣專利案申請號：101104277，專利名稱：冷卻水塔之散熱構造，其結構係在於：一種冷卻水塔之散熱構造，其主要包含有：若干呈上下多層盤面設置之螺旋狀圈繞管體10，該各螺旋狀圈繞管體10分別具有一U型接管11、一第一冷卻管12及一第二冷卻管13，該第一、二冷卻管12、13之一端分別連接於該U型接管11之二端上，使該U型接管11位該第一、二冷卻管12、13之外側位置上，該第一、二冷卻管12、13藉由該U型接管11而連通，且該第一、二冷卻管12、13係以螺旋狀加以圈繞，使該第一、二冷卻管12、13之自由端可選擇地作為一出水口14及一入水口15；若干之固定連接件20，係置設於該等螺旋狀圈繞管體10間，具有若干之凹槽21，以供該等螺旋狀圈繞管體10之第一、二冷卻管12、13加以容置；一出水口連接件30，具有若干之管體連接頭31及一與該等管體連接頭31連通之出水口連接頭32，該等管體連接頭31係與該等螺旋狀圈繞管體10之出水口14連接，以由該出水口連接頭32將該等螺旋狀圈繞管體10內之液體加以導出；一入水口連接件40，具有若干 之管體連接頭41及一與該等管體連接頭41連通之入水口連接頭42，該等管體連接頭41係與該等螺旋狀圈繞管體10之入水口15連接，以由該入水口連接頭42將外部之液體導入至該等螺旋狀圈繞管體10內，使該等螺旋狀圈繞管體10內之液體得以進行循環流動。 As previously known to us, the nozzle structure of a conventional fluid or gas, such as the Taiwan Patent Application No. 101104277, the patent name: the cooling structure of the cooling tower, is based on: a cooling tower cooling structure, which mainly comprises: a spiral coiled tubular body 10 disposed on the upper and lower multi-layer discs, wherein each of the spiral coiled tubular bodies 10 has a U-shaped connecting tube 11 , a first cooling tube 12 and a second cooling tube 13 , the first One end of the two cooling tubes 12, 13 is respectively connected to the two ends of the U-shaped connecting tube 11, so that the U-shaped connecting tube 11 is located at the outer side of the first and second cooling tubes 12, 13, the first and second cooling tubes 12, 13 are connected by the U-shaped connecting tube 11, and the first and second cooling tubes 12, 13 are wound in a spiral shape, so that the free ends of the first and second cooling tubes 12, 13 can be selectively used as A water outlet 14 and a water inlet 15; a plurality of fixed connecting members 20 are disposed between the spiral coiled tubular bodies 10 and have a plurality of grooves 21 for the spiral coiled body 10 The first and second cooling pipes 12 and 13 are accommodated; and a water outlet connector 30 has a dry pipe joint 31 and a water outlet connector 32 communicating with the pipe joints 31, and the pipe joints 31 are connected to the water outlets 14 of the spiral coiled bodies 10 to The water outlet connector 32 is used to guide the spiral coil around the liquid in the tube body 10; a water inlet connector 40 has a plurality of The pipe connector head 41 and a water inlet connector 42 communicating with the pipe connector heads 41 are connected to the water inlets 15 of the spiral coiled tubular body 10 to The water inlet connector 42 introduces an external liquid into the spirally wound tubular body 10 to circulate the liquid in the spiral body around the tubular body 10.

但此專利案結構之缺失係在於：請輔以公報之第四圖所示，該出水口連接件30及該入水口連接件40係分別設有複數管體連接頭31及複數管體連接頭41，該管體連接頭31、41係呈相同結構，該管體連接頭31、41皆係呈圓孔狀之接頭結構，當液體由該管體連接頭31、41流出時，該液體係隨該管體連接頭31、41之形狀僅能以直線狀流出，流出之該液體可觸及之面積即較小，即無法加快水塔冷卻之速度。 However, the absence of the structure of the patent is that, as shown in the fourth figure of the bulletin, the water outlet connector 30 and the water inlet connector 40 are respectively provided with a plurality of pipe joints 31 and a plurality of pipe joints. 41. The pipe joints 31 and 41 have the same structure, and the pipe joints 31 and 41 are in the form of a circular hole joint. When the liquid flows out from the pipe joints 31 and 41, the liquid system The shape of the pipe joints 31, 41 can only flow out in a straight line, and the area accessible to the liquid flowing out is small, that is, the speed of cooling the water tower cannot be accelerated.

有鑑於上述習用結構之缺失，本創作人藉多年從事相關行業之製造、生產及設計經驗，終於有一能解決習用弊端之流體或氣體之噴嘴結構之產品問世。 In view of the lack of the above-mentioned conventional structure, the creator has been engaged in the manufacturing, production and design experience of related industries for many years, and finally has a product that can solve the drawbacks of the fluid or gas nozzle structure.

習用噴嘴結構之該液體係隨該管體連接頭之形狀僅能以直線狀流出，流出之該液體可觸及之面積即較小，即無法加快水塔冷卻之速度。本創作之流體或氣體之噴嘴結構中，當該流體或該氣體經由該噴嘴組後係呈傘狀之噴灑，該流體或該氣體即可增加其表面積。 The liquid system of the conventional nozzle structure can only flow out in a straight line with the shape of the pipe joint head, and the area accessible to the liquid flowing out is small, that is, the speed of cooling the water tower cannot be accelerated. In the nozzle structure of the fluid or gas of the present invention, when the fluid or the gas is sprayed in an umbrella shape through the nozzle group, the fluid or the gas can increase its surface area.

本創作係關於一種流體或氣體之噴嘴 結構，其係包括：一噴嘴組係包括：一第一本體及一第二本體；該第一本體係一第一錐部及一第一面；該第二本體係與該第一本體相組設，該第二本體內係設有一第二錐部，該第二錐部係以供該第一本體之該第一錐部容置以形成一容置空間，該第二本體一端係設有第三面，該第三面與該第一面間係具有一間距，該第二本體另端係設有一第一組設部，該第一組設部係呈外螺紋狀，該第一組設部內係設有一穿槽，該穿槽係貫穿該第一組設部，該穿槽係與該容置空間呈相通狀，該穿槽係與該第一錐部之頂部相對正。 This creation is about a nozzle for a fluid or gas. The structure includes: a nozzle assembly comprising: a first body and a second body; the first system has a first tapered portion and a first surface; the second system is associated with the first body The second body is provided with a second tapered portion for receiving the first tapered portion of the first body to form an accommodating space, and the second body is provided at one end. The third surface has a spacing between the third surface and the first surface, and the second end of the second body is provided with a first assembly portion, the first assembly portion is externally threaded, the first group The through hole is formed in the first through portion, and the through groove is in communication with the accommodating space, and the through groove is opposite to the top of the first tapered portion.

當該流體或該氣體自該穿槽流入該容置空間內時，該流體或該氣體係會隨該容置空間及該第一本體之該第一錐部之形狀而分散呈傘狀分佈自該第一面及該第三面間流出該噴嘴組外，由於該流體或該氣體係呈傘狀之噴灑，該流體或該氣體即可增加其表面積，若係為流體，該流體與空氣之間係具有更多接觸面積而具散熱功效，若係為氣體而具有曝氣增氧之功效。該噴嘴組基本上係可由該第一本體及該第二本體相組設，該噴嘴組之基本結構係簡單，該噴嘴組即有相當簡單之成本。 When the fluid or the gas flows into the accommodating space from the through slot, the fluid or the gas system is dispersed in an umbrella shape along with the shape of the accommodating space and the first tapered portion of the first body. The first surface and the third surface flow out of the nozzle group. Since the fluid or the gas system is sprayed in an umbrella shape, the fluid or the gas can increase its surface area. If it is a fluid, the fluid and the air The inter-system has more contact area and has heat-dissipating effect, and if it is a gas, it has the effect of aeration and oxygenation. The nozzle group is basically composed of the first body and the second body. The basic structure of the nozzle group is simple, and the nozzle group has a relatively simple cost.

為使 鈞局委員及熟習此項技藝人士對本創作之功效完全瞭解，茲配合圖式及圖號就本創作之結構、組成說明於後，惟以下所述者僅為用來解釋本創作之實施例，並非企圖據以對本創作做任何形式上之限制，是以凡是在本創作之精神下，所作的任何修飾變更皆仍應屬於本創作之保護範圍。 In order to enable the members of the Board and those skilled in the art to fully understand the effects of this creation, the structure and composition of the creation are described in conjunction with the drawings and drawings, but the following are only used to explain the implementation of this creation. For example, it is not intended to impose any form of restriction on this creation. Any modification made in the spirit of this creation should still fall within the scope of this creation.

10‧‧‧噴嘴組 10‧‧‧Nozzle group

11‧‧‧第一本體 11‧‧‧First Ontology

111‧‧‧第一錐部 111‧‧‧First cone

112‧‧‧第一面 112‧‧‧ first side

113‧‧‧第一結合部 113‧‧‧ First Joint Department

114‧‧‧第一凸柱 114‧‧‧First stud

115‧‧‧第二面 115‧‧‧ second side

116‧‧‧抵緣 116‧‧‧

117‧‧‧第二結合部 117‧‧‧Second junction

12‧‧‧第二本體 12‧‧‧Second ontology

120‧‧‧第二錐部 120‧‧‧Second cone

121‧‧‧容置空間 121‧‧‧ accommodating space

123‧‧‧第三面 123‧‧‧ third side

124‧‧‧第四結合部 124‧‧‧ Fourth Joint Department

125‧‧‧第五結合部 125‧‧‧ Fifth Joint Department

126‧‧‧第二角度 126‧‧‧second angle

127‧‧‧第一組設部 127‧‧‧First Group

128‧‧‧穿槽 128‧‧‧through slot

129‧‧‧肋材 129‧‧‧ ribs

1291‧‧‧穿孔 1291‧‧‧Perforation

15‧‧‧第四本體 15‧‧‧4th ontology

151‧‧‧第七結合部 151‧‧‧ seventh joint

152‧‧‧第二凸柱 152‧‧‧second stud

153‧‧‧容槽 153‧‧‧ 容容

16‧‧‧第二結合件 16‧‧‧Second joint

17‧‧‧單向件 17‧‧‧One-way parts

20‧‧‧管路 20‧‧‧pipe

21‧‧‧第一開口 21‧‧‧ first opening

22‧‧‧第二組設部 22‧‧‧The second group

30‧‧‧冷卻塔 30‧‧‧Cooling tower

第一圖、係本創作流體或氣體之噴嘴結構之立體分解圖。 The first figure is an exploded view of the nozzle structure of the present fluid or gas.

第二圖、係本創作流體或氣體之噴嘴結構第一本體之前視圖。 The second figure is a front view of the first body of the nozzle structure of the present fluid or gas.

第三圖、係本創作流體或氣體之噴嘴結構第二本體之前視圖。 The third figure is a front view of the second body of the nozzle structure of the present fluid or gas.

第四圖、係本創作流體或氣體之噴嘴結構之立體組合圖。 The fourth figure is a three-dimensional combination diagram of the nozzle structure of the present fluid or gas.

第五圖、係本創作流體或氣體之噴嘴結構之後視圖。 Figure 5 is a rear view of the nozzle structure of the present fluid or gas.

第六圖、係本創作第五圖A-A處之剖視圖。 The sixth picture is a cross-sectional view of the fifth figure A-A of this creation.

第七圖、係本創作第二實施例之立體圖。 The seventh drawing is a perspective view of the second embodiment of the present creation.

第八圖、係本創作第三實施例之立體分解圖。 The eighth figure is an exploded perspective view of the third embodiment of the present creation.

第九圖、係本創作第三實施例之立體圖。 The ninth drawing is a perspective view of a third embodiment of the present creation.

第十圖、係本創作第三實施例之上視圖。 The tenth figure is a top view of the third embodiment of the present creation.

第十一圖、係本創作第十圖D-D處之剖視圖。 The eleventh figure is a cross-sectional view of the tenth figure D-D of the present creation.

第十二圖、係本創作第四實施例之立體圖。 Fig. 12 is a perspective view showing a fourth embodiment of the present creation.

第十三圖、係本創作第五實施例之立體分解圖。 The thirteenth drawing is an exploded perspective view of the fifth embodiment of the present creation.

第十四圖、係本創作第五實施例之後視圖。 Fig. 14 is a rear view of the fifth embodiment of the present creation.

第十五圖、係本創作第十四圖A-A處之剖視圖。 The fifteenth figure is a cross-sectional view taken at the A-A of the fourteenth figure of the present creation.

第十六圖、係本創作第六實施例之立體分解圖。 Fig. 16 is a perspective exploded view of the sixth embodiment of the present creation.

第十七圖、係本創作第六實施例之後視圖。 Fig. 17 is a rear view of the sixth embodiment of the present creation.

第十八圖、係本創作第十七圖A-A處之剖視圖。 Figure 18 is a cross-sectional view taken at the A-A of the seventeenth figure of the present creation.

首先請參閱第一圖至第三圖所示，第一圖係本創作流體或氣體之噴嘴結構之立體分解圖，第二圖係本創作流體或氣體之噴嘴結構第一本體11之前視圖，第三圖係本創作流體或氣體之噴嘴結構第二本體12之前視圖，本創作係關於一種流體或氣體之噴嘴結構，其係包括：一噴嘴組10，該噴嘴組10係包括一第一本體11、一第二本體12、一第四本體15及複數第二結合件16；請輔以第二圖所示，該第一本體11係呈錐體狀，該第一本體11係呈圓錐體狀，該第一本體11一端係凸設有一第一錐部111，該第一錐部111係呈錐體狀，該第一錐部111係呈圓錐體狀，該第一本體11一端係設有一第一面112，該第一面112係設於該第一錐部111之底部處，該第一本體11係設有複數第一結合部113，該複數第一結合部113係以該第一錐部111為軸心呈環狀排列狀，該第一結合部113係呈圓孔狀，該第一本體11係凸設有複數第一凸柱114，該複數第一凸柱114係以該第一錐部111為軸心呈環狀排列，每一第一結合部113之二側係皆各設有三個該第一凸柱114，每一第一凸柱114係呈中空之圓柱體狀，該第一錐部111內係設有一第二面115，該第二面115係呈凹錐面狀，該第二面115係呈凹圓錐面狀，使該第一錐部111係略呈薄殼結構，該第二面115之開口處係設有一抵緣116，該第二面115上係凸設有二第二結合部117，該二第二結合部117係呈相對稱狀，該第二結合部117係呈內螺紋狀；請輔以第三圖所示，該第二本體12係與該第一本體11相組設，該第二本體12係呈薄殼錐形體狀，該第二本體12內係設有一第二錐部120，該第二錐部120係呈凹錐面狀，該第二本體12係呈凹圓錐面狀，該第 二錐部120係供該第一錐部111容置其內，該第二錐部120與該第一錐部111之間係形成一容置空間121，該第二本體12一端係設有一第三面123，該第三面123係與該第一面112相對正，該第三面123與該第一面112間係具有一間距，該第三面123上係凸設有複數第四結合部124，該第四結合部124係組設於該第一結合部113處，該第四結合部124係呈似L形狀，每一第四結合部124之端部處係凸設有一第五結合部125，該第五結合部125係與該第一結合部113相結合，該第五結合部125係與該第一結合部113相黏合，使該第一本體11與該第二本體12相組設，該第五結合部125係呈圓柱體狀，該第二錐部120係具有一第二角度126，該第二本體12另端係設有一第一組設部127，該第一組設部127係呈外螺紋狀，該第一組設部127內係設有一穿槽128，該穿槽128係貫穿該第一組設部127，該穿槽128係與該容置空間121呈相通狀，該穿槽128係與該第一錐部111之頂部相對正，該穿槽128係呈圓孔槽狀或各槽狀，該第二錐部120內係設有複數肋材129，該複數肋材129係以該第二本體12之軸心呈環狀排列狀，該複數肋材129係可增加支撐該第二本體12之強度；當流體或氣體自該第二本體12之該穿槽128流入該容置空間121內時，該流體或氣體係會隨該容置空間121及該第一錐部111之形狀而分散呈傘狀分佈，該流體或氣體即自該第一面112及該第三面123之間流出該噴嘴組10外，該流體或氣體呈傘狀分佈時，若係為流體，該流體與空氣之間係具有更多接觸面積而具散熱功效，若係為氣體而具有加速曝氣增氧之功效；該第四本體15係與該第一本體11相組設，該第四本體15係封 閉閉該第二面115，該第四本體15係靠抵於該抵緣116處，該第四本體15係可支撐該第一本體11之強度，該第四本體15係設有二第七結合部151，該第七結合部151係與該第二結合部117相結合，該第七結合部151係呈圓孔狀，該第四本體15係凸設有一第二凸柱152，該第二凸柱152係呈圓柱體狀，該第二凸柱152處係設有一容槽153，該容槽153係呈不貫穿狀，該容槽153係呈圓槽狀；該第二結合件16係穿設於該第七結合部151處並與該第二結合部117相結合，使該第四本體15與該第一本體11相組設，該第二結合件16係呈外螺紋狀。 First, please refer to the first to third figures. The first figure is an exploded view of the nozzle structure of the present fluid or gas. The second figure is the front view of the first body 11 of the nozzle structure of the present fluid or gas. The third drawing is a front view of the second body 12 of the nozzle structure of the present fluid or gas. The present invention relates to a nozzle structure of a fluid or gas, comprising: a nozzle group 10 comprising a first body 11 a second body 12, a fourth body 15 and a plurality of second coupling members 16; as shown in the second figure, the first body 11 has a cone shape, and the first body 11 has a conical shape. A first tapered portion 111 is formed on one end of the first body 11. The first tapered portion 111 has a cone shape, and the first tapered portion 111 has a conical shape. The first surface 112 is disposed at the bottom of the first tapered portion 111. The first body 11 is provided with a plurality of first joint portions 113, and the plurality of first joint portions 113 are first The tapered portion 111 has an annular shape in the axial center, and the first joint portion 113 has a circular hole shape. The first portion The first series of the first protrusions 114 are arranged in a ring shape with the first tapered portion 111 as an axis, and the two sides of each of the first joint portions 113 are respectively provided with three Each of the first protrusions 114 has a hollow cylindrical shape, and the first surface 115 has a second surface 115, and the second surface 115 has a concave conical shape. The second surface 115 has a concave conical shape, so that the first tapered portion 111 has a thin shell structure, and the second surface 115 has a flange 116 at the opening thereof, and the second surface 115 is convexly disposed. There are two second joint portions 117, the two second joint portions 117 are in a relative shape, and the second joint portion 117 is internally threaded; as shown in the third figure, the second body 12 is The second body 12 is formed in a thin shell shape, and the second body 12 is provided with a second tapered portion 120. The second tapered portion 120 has a concave tapered shape. The second body 12 has a concave conical shape, the first The second tapered portion 120 is configured to receive the first tapered portion 111. The second tapered portion 120 defines an accommodating space 121 between the second tapered portion 120 and the first tapered portion 111. The third surface 123 is opposite to the first surface 112. The third surface 123 and the first surface 112 have a spacing. The third surface 123 is convexly provided with a plurality of fourth joints. The fourth joint portion 124 is disposed at the first joint portion 113. The fourth joint portion 124 has an L-like shape, and a fifth portion is formed at the end of each fourth joint portion 124. The first joint portion 113 is coupled to the first joint portion 113, and the fifth joint portion 125 is bonded to the first joint portion 113 to make the first body 11 and the second body 12 The first combination portion 125 has a second angle 126, and the second body 12 is provided with a first assembly portion 127 at the other end. The assembly portion 127 is externally threaded. The first assembly portion 127 is provided with a through slot 128. The through slot 128 extends through the first assembly portion 127. The through slot 128 is coupled to the receiving space 121. The through slot 128 is opposite to the top of the first tapered portion 111. The through slot 128 is in the shape of a circular hole or a groove. The second tapered portion 120 is provided with a plurality of ribs 129. The plurality of ribs 129 are annularly arranged in the axial center of the second body 12, and the plurality of ribs 129 can increase the strength of supporting the second body 12; when the fluid or gas is from the second body 12 When the groove 128 flows into the accommodating space 121, the fluid or gas system is dispersed in an umbrella shape along with the shape of the accommodating space 121 and the first tapered portion 111, and the fluid or gas is from the first surface. 112 and the third surface 123 flow out of the nozzle group 10, when the fluid or gas is distributed in an umbrella shape, if it is a fluid, the fluid has a larger contact area with the air and has a heat dissipation effect. The utility model has the function of accelerating aeration and aeration for the gas; the fourth body 15 is assembled with the first body 11 , and the fourth body 15 is sealed Closing the second surface 115, the fourth body 15 abuts against the flange 116, the fourth body 15 can support the strength of the first body 11, and the fourth body 15 is provided with a second seventh The joint portion 151 is coupled to the second joint portion 117. The seventh joint portion 151 has a circular hole shape, and the fourth body 15 is convexly provided with a second protrusion 152. The two protrusions 152 are in the shape of a cylinder, and the second protrusions 152 are provided with a receiving groove 153. The receiving groove 153 is not penetrating, and the receiving groove 153 is in a circular groove shape; the second coupling member 16 is 16 The fourth joint portion 15 is assembled with the second joint portion 117, and the fourth body 15 is assembled with the first body 11. The second joint member 16 is externally threaded.

請參閱第四圖至第六圖所示，第四圖係本創作流體或氣體之噴嘴結構之立體組合圖，第五圖係本創作流體或氣體之噴嘴結構之後視圖，第六圖係本創作第五圖A-A處之剖視圖，該第二本體12係與該第一本體11相結合，該第一錐部111係容置於該第二錐部120內，該第一面112與該第三面123間係具有一間距，該流體或氣體呈傘狀分佈即如箭頭所示，該第四本體15係與該第一本體11相結合，該第二結合件16係穿設於該第七結合部151處並與該第二結合部117相結合，使該第四本體15與該第一本體11相結合。 Please refer to the fourth to sixth figures. The fourth picture is the three-dimensional combination of the nozzle structure of the creative fluid or gas. The fifth picture is the rear view of the nozzle structure of the creative fluid or gas. The sixth picture is the creation. The second body 12 is coupled to the first body 11 , and the first tapered portion 111 is received in the second tapered portion 120 , the first surface 112 and the third portion The surface 123 has a spacing, the fluid or gas is distributed in an umbrella shape, as indicated by an arrow, the fourth body 15 is coupled to the first body 11, and the second coupling member 16 is disposed through the seventh The joint portion 151 is combined with the second joint portion 117 to combine the fourth body 15 with the first body 11.

請參閱第七圖所示，第七圖係本創作第二實施例之立體圖，由圖示可清楚所示，設有一管路20，該管路20係呈圈體狀之管路，該管路20二端係各設有一第一開口21，該第一開口21係可與流體或氣體來源處相連接，使該流體或氣體自該二第一開口21處流入該管路20內，該管路20上係設有複數第二組設部22，該第二組設部22係可供該第二本體12之該第一 組設部127相組設，該噴嘴組10係呈複數個狀，使該穿槽128係與該管路20呈相通狀，該管路20內之該流體或氣體即可由該管路20及該穿槽128流入該容置空間121內，而隨該第一錐部111之形狀而分散呈傘狀流出該噴嘴組10外。 Referring to the seventh figure, the seventh drawing is a perspective view of the second embodiment of the present invention. As is clearly shown in the drawing, a pipe 20 is provided, and the pipe 20 is a ring-shaped pipe. Each of the two ends of the road 20 is provided with a first opening 21, and the first opening 21 is connected to a fluid or gas source, so that the fluid or gas flows into the pipeline 20 from the two first openings 21, A plurality of second assembly portions 22 are provided on the pipeline 20, and the second assembly portion 22 is available for the first portion of the second body 12 The assembly portion 127 is formed in a plurality of shapes, so that the through groove 128 is in communication with the pipeline 20, and the fluid or gas in the pipeline 20 can be used by the pipeline 20 and The through groove 128 flows into the accommodating space 121, and is dispersed in an umbrella shape and flows out of the nozzle group 10 in accordance with the shape of the first tapered portion 111.

請繼續參閱第八圖至第十一圖所示，第八圖係本創作第三實施例之立體分解圖，第九圖係本創作第三實施例之立體圖，第十圖係本創作第三實施例之上視圖，第十一圖係本創作第十圖D-D處之剖視圖，設有一冷卻塔30，該冷卻塔30內係容設有複數層呈圈體狀之該管路20，該複數管路20係呈間隔直線排列於該冷卻塔30內，該管路20上係組設有複數該噴嘴組10，每一第一開口21係與該流體來源處相連接，該流體係依序由該第一開口21、該管路20及該穿槽128流入該容置空間121內，使該流體隨該容置空間121及該第一錐部111之形狀呈傘狀流出該噴嘴組10外，由於該流體係呈傘狀噴灑即增加其之接觸面積，而可加速該流體之冷卻速度，以提高作業效率。 Please refer to the eighth to eleventh drawings. The eighth drawing is an exploded perspective view of the third embodiment of the present creation, the ninth drawing is a perspective view of the third embodiment of the present creation, and the tenth drawing is the third creation of the present invention. The top view of the embodiment, the eleventh drawing is a cross-sectional view of the tenth figure DD of the present creation, and is provided with a cooling tower 30, and the cooling tower 30 is provided with a plurality of layers 20 in the shape of a ring, the plural The pipelines 20 are arranged in a straight line in the cooling tower 30. The pipelines 20 are provided with a plurality of the nozzle groups 10, and each of the first openings 21 is connected to the source of the fluid, and the flow system is sequentially The first opening 21, the pipe 20 and the through groove 128 flow into the accommodating space 121, and the fluid flows out of the nozzle group 10 in an umbrella shape along the shape of the accommodating space 121 and the first tapered portion 111. In addition, since the flow system is sprayed in an umbrella shape to increase the contact area thereof, the cooling rate of the fluid can be accelerated to improve work efficiency.

請參閱第十二圖所示，第十二圖係本創作第四實施例之立體圖，由圖示可清楚所示，該管路20係呈直管體狀，該複數管路20係呈直線排列狀。 Referring to Fig. 12, a twelfth view is a perspective view of a fourth embodiment of the present invention. As is apparent from the illustration, the pipe 20 is in the form of a straight pipe, and the plurality of pipes 20 are straight. Arranged.

請參閱第十三圖至第十五圖所示，第十三圖係本創作第五實施例之立體分解圖，第十四圖係本創作第五實施例之後視圖，第十五圖係本創作第十四圖A-A處之剖視圖，由圖示可清楚所示，該第二本體12之斷面係為六角形狀，該第二錐部120即係呈配合該第二本體12斷面形狀之錐面狀，該第二本體12上係設有複數穿孔1291，該穿孔1291係與該容置空間121 呈相通狀，該穿孔1291係可增加該容置空間121內與外部對流，該複數穿孔1291係呈環狀排列狀，該穿孔1291係呈圓穿孔狀，該穿孔1291係接近該穿槽128。 Referring to the thirteenth to fifteenth drawings, the thirteenth drawing is an exploded perspective view of the fifth embodiment of the present creation, and the fourteenth drawing is a rear view of the fifth embodiment of the present creation, and the fifteenth drawing is a A cross-sectional view of FIG. 14A is shown in FIG. 14 , and the second body 12 has a hexagonal shape, and the second tapered portion 120 is configured to fit the cross-sectional shape of the second body 12 . The second body 12 is provided with a plurality of through holes 1291, and the through holes 1291 are associated with the accommodating space 121. The through holes 1291 can increase the convection between the inside and the outside of the accommodating space 121. The plurality of through holes 1291 are annularly arranged, and the through holes 1291 are circularly perforated, and the through holes 1291 are close to the through grooves 128.

請繼續參閱第十六圖至第十八圖所示，第十六圖係本創作第六實施例之立體分解圖，第十七圖係本創作第六實施例之後視圖，第十八圖係本創作第十七圖A-A處之剖視圖，設有一單向件17，該單向件17係為一珠體狀，或該單向件17係為各單向閥或逆止閥結構，該單向件17係容設於該容置空間121處，該單向件17係封閉該穿槽128一端，當流體或氣體自該穿槽128流入時，該流體或氣體之動力係會使該單向件17向上位移，使該穿槽128呈開放狀，該流體或氣體即可由該穿槽128流入該容置空間121內，而隨該容置空間121及該第一錐部111之形狀而分散呈傘狀流出該噴嘴組10外。 Please refer to the sixteenth to eighteenth drawings. The sixteenth embodiment is an exploded perspective view of the sixth embodiment of the present creation, and the seventeenth embodiment is a rear view of the sixth embodiment of the present creation. A sectional view of the seventh drawing of FIG. 17 is provided with a one-way member 17 which is in the shape of a bead or the one-way member 17 is a check valve or a check valve structure. The member 17 is received in the accommodating space 121. The unidirectional member 17 closes one end of the through slot 128. When fluid or gas flows in from the through slot 128, the fluid or gas power system causes the single The member 17 is displaced upward to make the through slot 128 open, and the fluid or gas can flow into the accommodating space 121 through the through slot 128, and the shape of the accommodating space 121 and the first tapered portion 111 The dispersion flows out of the nozzle group 10 in an umbrella shape.

本創作另一實施例，該第二本體12之斷面係可為如第一圖所示之圓錐體狀或如第十三圖之六角錐體狀，同理係可為八角錐體狀或為任意形狀。 In another embodiment of the present invention, the cross section of the second body 12 may be a cone shape as shown in the first figure or a hexagonal cone shape as in the thirteenth figure, and the same system may be an octagonal cone shape or For any shape.

第七圖、第八圖及第十二圖僅係在說明該噴嘴組10組設處之實施例，本創作之該噴嘴組10係可組設於各欲使該流體欲散熱處，很多裝置係欲使該流體降溫，如第八圖之該冷卻塔30，該噴嘴組10即可組設在該裝置處。 The seventh, eighth and twelfth drawings are only for explaining an embodiment in which the nozzle group 10 is assembled. The nozzle group 10 of the present invention can be assembled in a place where the fluid is intended to be dissipated, and many devices are provided. To cool the fluid, such as the cooling tower 30 of Figure 8, the nozzle set 10 can be assembled at the apparatus.

本創作之流體或氣體之噴嘴結構係具有下述之優點： The nozzle structure of the fluid or gas of the present invention has the following advantages:

1、請輔以第六圖所示，當該流體或氣體自該第二本體12之該穿槽128流入該容置空間121內時，該流體或氣體係會隨該容置空間121及該第一本 體11之該第一錐部111之形狀而分散呈傘狀分佈並自該第一面112及該第三面123間流出該噴嘴組10外，由於該流體或氣體係呈傘狀均佈之噴灑，若係為流體，該流體與空氣之間係具有更多接觸面積而具散熱功效，若係為氣體而具有曝氣增氧之功效。 1. As shown in FIG. 6 , when the fluid or gas flows into the accommodating space 121 from the through slot 128 of the second body 12, the fluid or gas system may follow the accommodating space 121 and the First book The shape of the first tapered portion 111 of the body 11 is distributed in an umbrella shape and flows out of the nozzle group 10 from between the first surface 112 and the third surface 123, because the fluid or gas system is uniformly distributed in an umbrella shape. Spraying, if it is a fluid, the fluid has a larger contact area with air and has a heat-dissipating effect. If it is a gas, it has the effect of aeration and oxygenation.

2、該噴嘴組10基本上係可由該第一本體11及該第二本體12相組設，該噴嘴組10之基本結構簡單，該噴嘴組10即有相當簡單之成本。 2. The nozzle group 10 can be basically assembled by the first body 11 and the second body 12. The basic structure of the nozzle group 10 is simple, and the nozzle group 10 has a relatively simple cost.

3、請輔以第十一圖所示，該冷卻塔30內係容設有複數層呈圈體狀之該管路20，且該管路20上係組設有複數該噴嘴組10，該流體係依序由該第一開口21、該管路20及該穿槽128流入該容置空間121內，使該流體隨該容置空間121及該第一錐部111之形狀呈傘狀流出該噴嘴組10外，由於該流體呈傘狀噴灑係可增加其之接觸面積，即可加速該流體之冷卻速度，以提高作業效率。 3. In addition, as shown in FIG. 11 , the cooling tower 30 is provided with a plurality of layers 20 in the shape of a ring body, and the pipeline 20 is provided with a plurality of the nozzle groups 10 . The flow system sequentially flows into the accommodating space 121 from the first opening 21, the pipe 20 and the through groove 128, so that the fluid flows in an umbrella shape along the shape of the accommodating space 121 and the first tapered portion 111. Outside the nozzle group 10, since the fluid is in an umbrella spray system to increase the contact area thereof, the cooling rate of the fluid can be accelerated to improve work efficiency.

4、請輔以第一圖及第十三圖所示，該第二本體12之斷面係可為圓形或六角形狀，或該第二本體12之斷面亦可為任意形狀，該第二錐部120即係呈配合該第二本體12斷面形狀之錐面狀，使不同之流體或氣體自該穿槽128流入該容置空間121內時其呈傘狀分佈之狀態係略為不同，而具更佳之散氣或曝氣功效。 4, as shown in the first figure and the thirteenth figure, the cross section of the second body 12 may be a circular or hexagonal shape, or the cross section of the second body 12 may be any shape. The two-cone portion 120 has a tapered shape that matches the cross-sectional shape of the second body 12. The state in which the different fluid or gas is distributed in an umbrella shape when the fluid or gas flows into the accommodating space 121 is slightly different. With better air or aeration.

5、該第二本體12係呈薄殼體狀，該第二錐部120之端部處係設有複數肋材129且係呈環狀排列狀，該複數肋材129係可增加支撐該第二本體12之強度。 The second body 12 is in the shape of a thin shell. The second rib 129 is provided with a plurality of ribs 129 at the end of the second tapered portion 120 and is annularly arranged. The plurality of ribs 129 can increase the support. The strength of the two bodies 12.

因此本創作之流體或氣體之噴嘴結構具有產業利用性、新穎性及進步性，誠能符合新型專利之申請要件，爰依法提出申請。 Therefore, the nozzle structure of the fluid or gas of the creation has industrial utilization, novelty and progress, and can meet the application requirements of the new patent, and submit an application according to law.

Claims (12)

一種流體或氣體之噴嘴結構，其係包括：一噴嘴組，該噴嘴組係包括：一第一本體及一第二本體；該第一本體係呈錐體狀，該第一本體一端係凸設有一第一錐部，該第一錐部係呈錐體狀，該第一本體一端係設有一第一面，該第一面係設於該第一錐部之底部處，該第一本體係設有複數第一結合部；該第二本體係與該第一本體相組設，該第二本體係呈薄殼錐體狀，該第二本體內係設有一第二錐部，該第二錐部係呈凹錐面狀，該第二錐部係供該第一錐部容置，該第二錐部與該第一錐部之間係形成一容置空間，該第二本體一端係設有第三面，該第三面係與該第一面相對正，該第三面與該第一面間係具有一間距，該第三面上係凸設有複數第四結合部，該第四結合部係組設於該第一結合部處，該第二錐部係具有一第二角度，該第二本體另端係設有一第一組設部，該第一組設部係呈外螺紋狀，該第一組設部內係設有一穿槽，該穿槽係貫穿該第一組設部，該穿槽係與該容置空間呈相通狀，該穿槽係與該第一錐部之頂部相對正。 A nozzle structure of a fluid or a gas, comprising: a nozzle group comprising: a first body and a second body; the first system has a cone shape, and the first body is convex at one end The first tapered portion is formed in a shape of a cone, and the first body is provided with a first surface at one end thereof, and the first surface is disposed at the bottom of the first tapered portion, the first system a plurality of first joints are disposed; the second system is assembled with the first body, the second system is in the shape of a thin cone, and the second body is provided with a second taper, the second The tapered portion has a concave tapered surface, the second tapered portion is received by the first tapered portion, and an accommodating space is formed between the second tapered portion and the first tapered portion. a third surface is disposed, the third surface is opposite to the first surface, the third surface and the first surface have a spacing, and the third surface is convexly provided with a plurality of fourth joints, The fourth joint portion is disposed at the first joint portion, the second cone portion has a second angle, and the second body is provided with a first assembly portion at the other end The first assembly portion has an external thread shape, and the first assembly portion is provided with a through slot, the through slot is extending through the first assembly portion, and the through slot is in communication with the receiving space. The slotting system is opposite to the top of the first tapered portion. 如請求項1所述之流體或氣體之噴嘴結構，其中，該複數第一結合部係以該第一錐部為軸心呈環狀排列狀，該第一結合部係呈圓孔狀，該第四結合部端部係彎折設有一第五結合部，該第五結合部係與該第一結合部相對正，該第五結合部係與該第一結合部相結合。 The nozzle structure of the fluid or gas according to claim 1, wherein the plurality of first joint portions are annularly arranged with the first tapered portion as an axis, and the first joint portion has a circular hole shape. The end portion of the fourth joint portion is bent and provided with a fifth joint portion which is opposite to the first joint portion, and the fifth joint portion is combined with the first joint portion. 如請求項1所述之流體或氣體之噴嘴結構，其中，該第一本體係凸設有複數第一凸柱，該複數第一凸柱係以該第一錐部為軸心呈環狀排列，每一第一結合部之二側係皆各設有三個該第一凸柱，每一第一凸柱係呈中 空之圓柱體狀。 The nozzle structure of the fluid or gas according to claim 1, wherein the first system is convexly provided with a plurality of first protrusions, and the plurality of first protrusions are arranged in a ring shape with the first cone as an axis Each of the two sides of each first joint portion is provided with three first protruding columns, and each of the first protruding columns is in the middle Empty cylinder. 如請求項1所述之流體或氣體之噴嘴結構，其中，該第一錐部內係設有一第二面，該第二面係呈凹圓錐面狀，使該第一錐部係略呈薄殼結構，該第二面之開口處係設有一抵緣，該第二面上係凸設有二第二結合部，該二第二結合部係呈相對稱狀，該第二結合部係呈內螺紋狀，該噴嘴組係設有一第四本體，該第四本體係與該第一本體相組設，該第四本體係封閉閉該第二面，該第四本體係靠抵於該抵緣處，該第四本體係可支撐該第一本體之強度，該第四本體係設有二第七結合部，該第七結合部係與該第二結合部相結合，該第七結合部係呈圓孔狀，該第四本體係凸設有一第二凸柱，該第二凸柱係呈圓柱體狀，該第二凸柱處係設有一容槽，該容槽係呈不貫穿狀，該容槽係呈圓槽狀，該噴嘴組係設有複數第二結合件，該第二結合件係穿設於該第七結合部處並與該第二結合部相結合，使該第四本體與該第一本體相組設，該第二結合件係呈外螺紋狀。 The nozzle structure of the fluid or gas according to claim 1, wherein the first tapered portion is provided with a second surface, and the second surface has a concave conical shape, so that the first tapered portion is slightly thin. The second surface of the second surface is provided with a second joint portion, and the second joint portion is in a relative shape, and the second joint portion is internally Threaded, the nozzle assembly is provided with a fourth body, the fourth system is assembled with the first body, the fourth system closes the second surface, and the fourth system is abutted against the flange Wherein, the fourth system can support the strength of the first body, the fourth system is provided with two seventh joints, and the seventh joint is combined with the second joint, the seventh joint The second system has a second protrusion, the second protrusion is formed in a cylindrical shape, and the second protrusion is provided with a cavity, and the cavity is not penetrating. The container is formed in a circular groove shape, and the nozzle assembly is provided with a plurality of second coupling members, and the second coupling member is disposed at the seventh joint portion and The second joint portion is combined to make the fourth body and the first body are assembled, and the second joint member is externally threaded. 如請求項1所述之流體或氣體之噴嘴結構，其中，該第二錐部內係設有複數肋材，該複數肋材係以該第二本體之軸心呈環狀排列狀，該複數肋材係可增加支撐該第二本體之強度。 The nozzle structure of the fluid or gas according to claim 1, wherein the second tapered portion is provided with a plurality of ribs, and the plurality of ribs are arranged in a ring shape by the axis of the second body, the plurality of ribs The material system can increase the strength supporting the second body. 如請求項1所述之流體或氣體之噴嘴結構，其中，當流體或氣體自該第二本體之該穿槽流入該第二本體之該容置空間內時，該流體或該氣體係會隨該容置空間及該第一錐部之形狀而分散呈傘狀分佈，該流體或該氣體即自該第一面及該第三面之間流出該噴嘴組外，該流體或該氣體呈傘狀分佈時，若係為流體，該流體與空氣之間係具有更多接觸面積而具散熱功效，若係為氣體而具有加速曝氣增氧之功效。 The nozzle structure of the fluid or gas according to claim 1, wherein when the fluid or gas flows into the accommodating space of the second body from the through groove of the second body, the fluid or the gas system may follow The accommodating space and the shape of the first tapered portion are dispersed in an umbrella shape, and the fluid or the gas flows out of the nozzle group from between the first surface and the third surface, and the fluid or the gas is an umbrella In the case of a distribution, if it is a fluid, the fluid has a larger contact area with air and has a heat-dissipating effect, and if it is a gas, it has an effect of accelerating aeration and aeration. 如請求項1所述之流體或氣體之噴嘴結構，其中，設有一管路，該管路係呈圈體狀之管路，該管路二端係各設有一第一開口，該第一開口係可與流體來源處相連接，使該流體自該二第一開口處流入該管路內，該管路上係設有複數第二組設部，該第二組設部係可供該噴嘴組之該第一組設部相組設，該噴嘴組係呈複數個，使該穿槽係與該管路呈相通狀，該管路內之該流體或該氣體即可由該管路及該穿槽流入容置空間內，而隨該容置空間及該第一錐部之形狀而分散呈傘狀流出該噴嘴組外。 The nozzle structure of the fluid or gas according to claim 1, wherein a pipeline is provided, the pipeline is a loop-shaped pipeline, and the first end of the pipeline is provided with a first opening, the first opening And connecting to the fluid source, the fluid flows into the pipeline from the first opening, the pipeline is provided with a plurality of second assembly portions, and the second assembly portion is available for the nozzle group The first group of components is grouped, the nozzle group is plural, such that the channeling system is in communication with the pipeline, and the fluid or the gas in the pipeline can be used by the pipeline and the wearing The groove flows into the accommodating space, and is dispersed in an umbrella shape and flows out of the nozzle group according to the shape of the accommodating space and the first tapered portion. 如請求項7所述之流體或氣體之噴嘴結構，其中，設有一冷卻塔，該冷卻塔內係容設有複數層呈圈體狀之該管路，該複數管路係呈間隔直線排列於該冷卻塔內，該管路上係組設有複數該噴嘴組，每一第一開口係與該流體來源處相連接，該流體或該氣體係依序由該第一開口、該管路及該穿槽流入該容置空間內，使該流體或該氣體隨該容置空間及該第一錐部之形狀呈傘狀流出該噴嘴組外。 The nozzle structure of the fluid or gas according to claim 7, wherein a cooling tower is disposed, wherein the cooling tower is provided with a plurality of layers of the pipeline in a ring shape, and the plurality of pipelines are arranged in a line at intervals In the cooling tower, the pipeline is provided with a plurality of the nozzle groups, each of the first openings is connected to the fluid source, and the fluid or the gas system sequentially comprises the first opening, the pipeline and the The through groove flows into the accommodating space, and the fluid or the gas flows out of the nozzle group in an umbrella shape along with the shape of the accommodating space and the first tapered portion. 如請求項1所述之流體或氣體之噴嘴結構，其中，設有一管路，該管路係呈直管體狀，該複數管路係呈直線排列狀，該管路二端係各設有一第一開口，該第一開口係可與流體或氣體來源處相連接，使該流體或該氣體自該二第一開口處流入該管路內，該管路上係設有複數第二組設部，該第二組設部係可供該噴嘴組該第一組設部相組設，該噴嘴組係呈複數個，使該穿槽係與該管路呈相通狀，該管路內之該流體或該氣體即可由該管路及該穿槽流入容置空間內，而隨該容置空間及該第一錐部之形狀而分散呈傘狀流出該噴嘴組外。 The nozzle structure of the fluid or gas according to claim 1, wherein a pipeline is provided, the pipeline is in the form of a straight pipe, and the plurality of pipelines are arranged in a straight line, and the two ends of the pipeline are respectively provided with one a first opening, the first opening is connectable to a fluid or gas source, and the fluid or the gas flows into the pipeline from the first opening, and the pipeline is provided with a plurality of second components The second group of parts is configured to be configured by the first group of the nozzle groups, the nozzle group is formed in plurality, so that the channeling system is in communication with the pipeline, and the pipeline is in the pipeline The fluid or the gas can flow into the accommodating space from the pipeline and the through-groove, and disperse and flow out of the nozzle group in an umbrella shape along with the shape of the accommodating space and the first tapered portion. 如請求項1所述之流體或氣體之噴嘴結構，其中，該第二本體之斷 面係為六角形狀，該第二錐部即係呈配合該第二本體斷面形狀之錐面狀。 The nozzle structure of the fluid or gas according to claim 1, wherein the second body is broken The surface has a hexagonal shape, and the second tapered portion has a tapered shape that matches the cross-sectional shape of the second body. 如請求項1所述之流體或氣體之噴嘴結構，其中，該第二本體上係設有複數穿孔，該穿孔係與該容置空間呈相通狀，該穿孔係可增加該容置空間內與外部對流，該複數穿孔係呈環狀排列狀。 The nozzle structure of the fluid or gas according to claim 1, wherein the second body is provided with a plurality of perforations, and the perforation is in communication with the accommodating space, and the perforation can increase the space in the accommodating space. External convection, the plurality of perforations are arranged in a ring shape. 如請求項1所述之流體或氣體之噴嘴結構，其中，設有一單向件，該單向件係為一珠體狀，或該單向件係為各單向閥或逆止閥結構，該單向件係容設於該容置空間處，該單向件係封閉該穿槽一端，當流體或氣體自該穿槽流入時，該流體或氣體之動力係會使該單向件向上位移，使該穿槽呈開放狀，該流體或氣體即可由該穿槽流入該容置空間內，而隨該容置空間及該第一錐部之形狀而分散呈傘狀流出該噴嘴組外。 The nozzle structure of the fluid or gas according to claim 1, wherein a one-way member is provided, the one-way member is in the shape of a bead, or the one-way member is a check valve or a check valve structure. The unidirectional member is received at the accommodating space, and the unidirectional member closes one end of the through slot. When a fluid or gas flows in from the through slot, the fluid or gas power system causes the one-way member to be upward. Displacement, the through-groove is open, and the fluid or gas can flow into the accommodating space from the through-groove, and disperse and flow out of the nozzle group along with the shape of the accommodating space and the first tapered portion. .