TWM536721U - Steam trap - Google Patents
Steam trap Download PDFInfo
- Publication number
- TWM536721U TWM536721U TW105216943U TW105216943U TWM536721U TW M536721 U TWM536721 U TW M536721U TW 105216943 U TW105216943 U TW 105216943U TW 105216943 U TW105216943 U TW 105216943U TW M536721 U TWM536721 U TW M536721U
- Authority
- TW
- Taiwan
- Prior art keywords
- hole
- wall
- guiding
- holes
- steam
- Prior art date
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16T—STEAM TRAPS OR LIKE APPARATUS FOR DRAINING-OFF LIQUIDS FROM ENCLOSURES PREDOMINANTLY CONTAINING GASES OR VAPOURS
- F16T1/00—Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers
- F16T1/20—Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers with valves controlled by floats
- F16T1/30—Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers with valves controlled by floats of inverted-open-bucket type; of bell type
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16T—STEAM TRAPS OR LIKE APPARATUS FOR DRAINING-OFF LIQUIDS FROM ENCLOSURES PREDOMINANTLY CONTAINING GASES OR VAPOURS
- F16T1/00—Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers
- F16T1/38—Component parts; Accessories
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Heat Treatment Of Water, Waste Water Or Sewage (AREA)
- Float Valves (AREA)
- Fire-Extinguishing By Fire Departments, And Fire-Extinguishing Equipment And Control Thereof (AREA)
Description
本新型是有關於一種蒸汽袪水器,特別是指一種用以排出蒸汽系統中所產生的冷凝水的蒸汽袪水器。The present invention relates to a steam decanter, and more particularly to a steam decanter for discharging condensed water generated in a steam system.
蒸汽袪水器(Steam trap)是應用在例如為熱交換器的蒸汽系統中。蒸汽系統中高溫高壓的蒸汽會因為熱交換作用而造成溫度降低進而產生冷凝水,藉由蒸汽袪水器協助排除冷凝水,能避免冷凝水蓄積在蒸汽系統中進而影響其加熱的效果。Steam traps are used in steam systems such as heat exchangers. The high-temperature and high-pressure steam in the steam system will cause the temperature to decrease due to the heat exchange to generate condensed water. The steam effluent assists in the removal of the condensed water, which can prevent the condensed water from accumulating in the steam system and affecting the heating effect.
由於現有蒸汽袪水器的結構複雜,因此,易耗費組裝工時且製造成本較高。Due to the complicated structure of the existing steam decanter, the assembly time is easy to be used and the manufacturing cost is high.
因此,本新型之一目的,即在提供一種蒸汽袪水器,其結構簡單能節省組裝工時並降低製造成本。Therefore, it is an object of the present invention to provide a steam decanter which is simple in structure, saves assembly man-hours and reduces manufacturing costs.
本新型之另一目的,即在提供一種蒸汽袪水器,能增加冷凝水於中空殼體內的流動路徑,使冷凝水具有充分的時間降低溫度。Another object of the present invention is to provide a steam decanter that increases the flow path of condensed water within the hollow casing so that the condensate has sufficient time to lower the temperature.
於是,本新型蒸汽袪水器,包含一外殼,及一浮力裝置。Thus, the novel steam decanter includes a casing and a buoyancy device.
外殼包括一中空殼體,及一設置於該中空殼體內部的分隔件,該中空殼體形成有一進水流道,及一排水流道,該分隔件將該中空殼體內部分隔為一與該進水流道相連通的上容室,及一與該排水流道相連通的下容室,該分隔件包含一導流管體,及一分隔板體,該導流管體具有一頂端,及一底端,該導流管體形成有一通孔,及至少一與該通孔相連通的導流孔,該通孔具有一位於該底端並與該下容室相連通的下開口,該導流孔間隔位於該底端上方,該分隔板體形成於該導流管體外周面並且固定地結合於該中空殼體,該分隔板體間隔位於該導流孔下方。浮力裝置包括一套設於該導流管體並且用以遮蔽該導流孔的浮筒,該浮筒可沿一上下方向相對於該分隔件移動以調整遮蔽該導流孔的範圍大小,以及該導流孔連通於該上容室的範圍大小。The outer casing includes a hollow casing, and a partition disposed inside the hollow casing, the hollow casing is formed with a water inlet flow passage, and a drainage flow passage, the partitioning member separates the hollow casing interior An upper chamber communicating with the inlet passage, and a lower chamber communicating with the drainage passage, the partition comprising a guiding tube body and a dividing plate body, the guiding tube body Having a top end and a bottom end, the flow guiding tube body is formed with a through hole, and at least one flow guiding hole communicating with the through hole, the through hole having a bottom end and communicating with the lower chamber a lower opening, the flow guiding hole is located above the bottom end, the partitioning plate body is formed on the outer peripheral surface of the draft tube and fixedly coupled to the hollow casing, and the partitioning plate body is located at the diversion Below the hole. The buoyancy device includes a pontoon disposed on the diversion tube body and configured to shield the diversion hole, the pontoon being movable relative to the partition member in an up and down direction to adjust a range of shielding the guide hole, and the guide The orifice is connected to the extent of the upper chamber.
該導流孔呈長形狀且其長向是沿著該上下方向延伸,該導流孔具有一下端部,及一上端部,該導流孔的寬度是由該下端部朝向該上端部方向逐漸擴大。The flow guiding hole has a long shape and its longitudinal direction extends along the vertical direction. The flow guiding hole has a lower end portion and an upper end portion, and the width of the guiding hole is gradually from the lower end portion toward the upper end portion. expand.
該上端部為一間隔位於該頂端下方的封閉端。The upper end is a closed end spaced below the top end.
該上端部為一形成於該頂端的開放端。The upper end portion is an open end formed at the top end.
該導流管體形成有多個彼此相間隔且排列成環形狀的導流孔,該浮筒包含一呈環形用以抵接該分隔板體的底壁、一凸設於該底壁外周緣的筒體,及一凸設於該底壁內周緣的遮罩,該底壁、該筒體及該遮罩共同界定一內部空間,該遮罩罩設於該導流管體並且用以遮蔽該等導流孔。The flow guiding tube body is formed with a plurality of flow guiding holes spaced apart from each other and arranged in a ring shape, the floating tube includes a bottom wall annularly for abutting the partitioning plate body, and a protruding outer periphery of the bottom wall a cylinder, and a mask protruding from the inner periphery of the bottom wall, the bottom wall, the cylinder and the mask together define an internal space, the cover is disposed on the guiding tube body and used for shielding These channels.
該分隔板體具有一鄰接於該底端的基板部,及一由該基板部頂面朝上凸伸且鄰近於各該導流孔的凸環部,該底壁接觸於該凸環部並與該基板部相間隔一段距離。The partitioning plate body has a substrate portion adjacent to the bottom end, and a convex ring portion protruding upward from the top surface of the substrate portion and adjacent to each of the guiding holes, the bottom wall contacting the convex ring portion and It is spaced apart from the substrate portion by a distance.
該底壁形成有多個對應於該基板部的開孔,各該開孔連通於該內部空間與該上容室之間。The bottom wall is formed with a plurality of openings corresponding to the substrate portion, and the openings are communicated between the internal space and the upper chamber.
該中空殼體包含一頂蓋、一設置於該頂蓋底面的承載盤,及一過濾管,該頂蓋形成有一進水孔,該承載盤形成一與該進水孔相連通的容置槽,及多個連通於該容置槽與該上容室之間的出水孔,該等出水孔彼此相間隔且排列成環形狀,該過濾管設置於該容置槽內且介於該進水孔與該等出水孔之間,該過濾管形成有多個過濾孔,各該過濾孔的孔徑小於各該出水孔的孔徑。The hollow casing comprises a top cover, a carrier plate disposed on the bottom surface of the top cover, and a filter tube, the top cover is formed with a water inlet hole, and the carrier plate forms a receiving space communicating with the water inlet hole a groove, and a plurality of water outlet holes connected between the accommodating groove and the upper chamber, the water outlet holes are spaced apart from each other and arranged in a ring shape, and the filter tube is disposed in the accommodating groove and interposed therebetween Between the water hole and the water outlet holes, the filter tube is formed with a plurality of filter holes, and the pore diameter of each of the filter holes is smaller than the pore diameter of each of the water outlet holes.
該承載盤包括一可擋止該筒體的下壁,及一由該下壁外周緣朝上延伸並且連接於該頂蓋的圍繞壁,該下壁與該圍繞壁共同界定出該容置槽,該圍繞壁形成有該等出水孔,該過濾管的外徑小於該圍繞壁的內徑,該過濾管抵接於該圍繞壁內壁面。The carrier tray includes a lower wall that can block the cylinder, and a surrounding wall extending upward from the outer peripheral edge of the lower wall and connected to the top cover, the lower wall and the surrounding wall jointly defining the receiving groove The surrounding wall is formed with the water outlet holes, and the outer diameter of the filter tube is smaller than the inner diameter of the surrounding wall, and the filter tube abuts against the inner wall surface of the surrounding wall.
該下壁形成有一對應於該進水孔下方的導引孔,該浮力裝置更包括一結合於該遮罩及該筒體並且穿設於該導引孔內的中心柱體,該導引孔用以導引該中心柱體沿該上下方向移動。The lower wall is formed with a guiding hole corresponding to the lower side of the water inlet hole, and the buoyancy device further includes a central cylinder coupled to the shielding body and the cylindrical body and passing through the guiding hole, the guiding hole It is used to guide the central cylinder to move in the up and down direction.
本新型之功效在於:藉由分隔件的導流管體凸設於分隔板體上,以及浮筒的遮罩套設於導流管體並且遮蔽導流孔的設計方式,使得浮筒受到冷凝水所產生的浮力而相對於分隔件移動的過程中,浮筒能隨著冷凝水的流量大小而對應地調整遮蔽各導流孔的範圍大小,以及各導流孔連通於上容室的範圍大小。藉此,能依據上容室內的冷凝水流量自動且緩和地調節排放冷凝水至下容室內的流量。此外,藉由浮筒的開孔能提供冷凝水流入內部空間內的設計方式,使得中空殼體的上容室及內部空間能蓄積更多量的冷凝水。藉此,能增加冷凝水於中空殼體內的流動路徑,使冷凝水具有充分的時間降低溫度。再者,蒸汽袪水器的結構簡單,能節省組裝工時並降低製造成本。The utility model has the advantages that the guiding tube body of the partition member is protruded on the partition plate body, and the cover of the float tube is sleeved on the draft tube body and the design of the guide hole is shielded, so that the float tube is subjected to condensation water. During the movement of the generated buoyancy relative to the partition member, the pontoon can correspondingly adjust the range of the shielding of the respective flow guiding holes according to the flow rate of the condensed water, and the extent of the range of the respective guiding holes communicating with the upper chamber. Thereby, the flow rate of discharging the condensed water into the lower chamber can be automatically and gently adjusted according to the condensed water flow rate in the upper chamber. In addition, the design of the condensate into the inner space can be provided by the opening of the pontoon, so that the upper chamber and the inner space of the hollow casing can accumulate a larger amount of condensed water. Thereby, the flow path of the condensed water in the hollow casing can be increased, so that the condensed water has a sufficient time to lower the temperature. Moreover, the steam decanter has a simple structure, which saves assembly man-hours and reduces manufacturing costs.
在本新型被詳細描述之前,應當注意在以下的說明內容中,類似的元件是以相同的編號來表示。Before the present invention is described in detail, it should be noted that in the following description, similar elements are denoted by the same reference numerals.
參閱圖1及圖2,是本新型蒸汽袪水器的第一實施例,其應用在例如為熱交換器的蒸汽系統中。蒸汽袪水器100包含一外殼1、一浮力裝置2、一止回裝置3,及一真空消除裝置4。Referring to Figures 1 and 2, a first embodiment of the novel steam decanter is used in a steam system such as a heat exchanger. The steam decanter 100 includes a casing 1, a buoyancy device 2, a non-return device 3, and a vacuum eliminating device 4.
外殼1包括一中空殼體11,中空殼體11包含一筒件111、一頂蓋112、一承載盤113、一過濾管114,及一排水管115。頂蓋112蓋合於筒件111頂端,頂蓋112可透過例如螺絲鎖固的方式固定地結合於筒件111。頂蓋112形成有一進水孔116、一穿孔117,及一真空消除孔118(如圖3所示),前述三個孔彼此相間隔。進水孔116經由一冷凝水導入管與蒸汽系統的一冷凝水排出口相連通,藉此,蒸汽系統內所產生的高溫的冷凝水5(如圖4所示)可經由進水孔116流入中空殼體11內。The outer casing 1 includes a hollow casing 11 including a cylindrical member 111, a top cover 112, a carrying tray 113, a filter tube 114, and a drain pipe 115. The top cover 112 is attached to the top end of the cylindrical member 111, and the top cover 112 is fixedly coupled to the cylindrical member 111 by, for example, screw locking. The top cover 112 is formed with a water inlet hole 116, a through hole 117, and a vacuum eliminating hole 118 (shown in FIG. 3) which are spaced apart from each other. The water inlet hole 116 communicates with a condensed water discharge port of the steam system via a condensed water introduction pipe, whereby the high temperature condensed water 5 (shown in FIG. 4) generated in the steam system can flow through the water inlet hole 116. Inside the hollow casing 11.
承載盤113包括一下壁119,及一由下壁119外周緣朝上延伸並且連接於頂蓋112底面的圍繞壁120。下壁119與圍繞壁120共同界定出一與進水孔116相連通的容置槽121,圍繞壁120形成有多個彼此相間隔且排列成環形狀的出水孔122,各出水孔122與容置槽121相連通。過濾管114設置於容置槽121內且介於進水孔116與出水孔122之間。過濾管114形成有多個過濾孔123,各過濾孔123的孔徑小於各出水孔122的孔徑。藉此,過濾管114能過濾經由進水孔116流入容置槽121內的冷凝水5中的粗塊雜質,使粗塊雜質蓄積在過濾管114所圍繞出的區域範圍內。在本實施例中,進水孔116、容置槽121、過濾孔123,以及出水孔122共同界定出一進水流道124。The carrier tray 113 includes a lower wall 119 and a surrounding wall 120 that extends upwardly from the outer periphery of the lower wall 119 and is coupled to the bottom surface of the top cover 112. The lower wall 119 and the surrounding wall 120 define a receiving groove 121 communicating with the water inlet hole 116. The surrounding wall 120 is formed with a plurality of water outlet holes 122 spaced apart from each other and arranged in a ring shape. The slots 121 are in communication. The filter tube 114 is disposed in the accommodating groove 121 and between the water inlet hole 116 and the water outlet hole 122. The filter tube 114 is formed with a plurality of filter holes 123, and the pore diameter of each filter hole 123 is smaller than the pore diameter of each of the water outlet holes 122. Thereby, the filter tube 114 can filter the coarse impurities in the condensed water 5 flowing into the accommodating groove 121 through the water inlet hole 116, and accumulate the coarse block impurities in the region surrounded by the filter tube 114. In the present embodiment, the water inlet hole 116, the accommodating groove 121, the filter hole 123, and the water outlet hole 122 collectively define a water inlet flow path 124.
具體而言,本實施例的過濾管114的外徑略小於圍繞壁120的內徑,且過濾管114抵接於圍繞壁120內壁面。藉此,過濾管114所圍繞出的區域範圍能接近於容置槽121的容積大小,從而能蓄積較多數量的粗塊雜質。再者,圍繞壁120與頂蓋112之間可透過例如卡塊與卡槽相配合的卡接方式結合在一起,或者圍繞壁120可透過螺絲鎖固的方式鎖固於頂蓋112,使得圍繞壁120可拆卸地與頂蓋112相結合。藉此,可將承載盤113拆離頂蓋112以清理容置槽121內所蓄積的粗塊雜質。Specifically, the outer diameter of the filter tube 114 of the present embodiment is slightly smaller than the inner diameter of the surrounding wall 120, and the filter tube 114 abuts against the inner wall surface of the surrounding wall 120. Thereby, the range of the area surrounded by the filter tube 114 can be close to the volume of the accommodating groove 121, so that a large amount of coarse impurities can be accumulated. Moreover, the surrounding wall 112 and the top cover 112 can be coupled together by a snap-fit manner such as a card block and a card slot, or the cover wall 120 can be locked to the top cover 112 by means of a screw lock, so as to surround The wall 120 is detachably coupled to the top cover 112. Thereby, the carrier tray 113 can be detached from the top cover 112 to clean the coarse foreign matter accumulated in the accommodating groove 121.
排水管115呈直立狀且頂端穿設於頂蓋112的穿孔117,排水管115可透過例如銲接方式固定地結合於頂蓋112。排水管115形成有一排水流道125,排水流道125具有一位於底端的入口126,及一位於頂端的出口127,出口127用以供一冷凝水導出管插置。The drain pipe 115 is upright and has a top end penetrating through the through hole 117 of the top cover 112. The drain pipe 115 can be fixedly coupled to the top cover 112 by, for example, welding. The drain pipe 115 is formed with a drain flow passage 125 having an inlet 126 at the bottom end and an outlet 127 at the top end for arranging a condensate drain pipe.
外殼1更包括一設置於中空殼體11內部的分隔件13,分隔件13將中空殼體11內部分隔為一與進水流道124相連通的上容室128,及一與排水流道125相連通的下容室129。具體而言,本實施例的上容室128是與承載盤113的該等出水孔122相連通,而下容室129是與排水流道125的入口126相連通。The outer casing 1 further includes a partitioning member 13 disposed inside the hollow casing 11, and the partitioning member 13 partitions the interior of the hollow casing 11 into an upper chamber 128 communicating with the water inlet passage 124, and a drainage passage 125 is connected to the lower chamber 129. Specifically, the upper chamber 128 of the present embodiment is in communication with the water outlets 122 of the tray 113, and the lower chamber 129 is in communication with the inlet 126 of the drain channel 125.
分隔件13包含一導流管體131,及一分隔板體132。導流管體131具有一頂端133,及一相反於頂端133的底端134。導流管體131形成有一通孔135,通孔135沿一上下方向D延伸並且貫穿頂端133與底端134,通孔135具有一位於頂端133的上開口136,及一位於底端134並與下容室129相連通的下開口137。導流管體131形成有多個彼此相間隔且排列成環形狀並與通孔135相連通的導流孔138,各導流孔138可與上容室128相連通。各導流孔138呈長形狀且其長向是沿著上下方向D延伸,各導流孔138具有一間隔位於底端134上方的下端部139,及一間隔位於頂端133下方的上端部140,本實施例的上端部140為一封閉端。各導流孔138的形狀呈倒三角狀,各導流孔138的寬度是由下端部139朝向上端部140方向逐漸擴大。The partitioning member 13 includes a guiding tube body 131 and a partitioning plate body 132. The draft tube body 131 has a top end 133 and a bottom end 134 opposite the top end 133. The flow guiding tube body 131 is formed with a through hole 135 extending in an up-and-down direction D and extending through the top end 133 and the bottom end 134. The through hole 135 has an upper opening 136 at the top end 133, and a bottom end 134 and The lower opening 137 is connected to the lower chamber 129. The draft tube body 131 is formed with a plurality of flow guiding holes 138 which are spaced apart from each other and arranged in a ring shape and communicate with the through holes 135. The flow guiding holes 138 can communicate with the upper chamber 128. Each of the flow guiding holes 138 has a long shape and its longitudinal direction extends along the up-and-down direction D. Each of the flow guiding holes 138 has a lower end portion 139 spaced above the bottom end 134 and an upper end portion 140 spaced apart below the top end 133. The upper end portion 140 of this embodiment is a closed end. Each of the flow guiding holes 138 has an inverted triangular shape, and the width of each of the flow guiding holes 138 is gradually increased from the lower end portion 139 toward the upper end portion 140.
分隔板體132一體成型地形成於導流管體131外周面並且間隔位於導流孔138下方。分隔板體132具有一鄰接於底端134的基板部141,及一由基板部141頂面朝上凸伸且鄰近於導流孔138的下端部139的凸環部142。基板部141可透過例如卡接或螺鎖方式固定地結合於筒件111內表面,基板部141形成有一供排水管115底端穿設的穿孔143。The partition plate body 132 is integrally formed on the outer peripheral surface of the draft tube body 131 and spaced apart below the flow guiding hole 138. The partition body 132 has a substrate portion 141 adjacent to the bottom end 134, and a convex ring portion 142 projecting upward from the top surface of the substrate portion 141 and adjacent to the lower end portion 139 of the flow guiding hole 138. The substrate portion 141 is fixedly coupled to the inner surface of the cylindrical member 111 by, for example, snapping or screwing, and the substrate portion 141 is formed with a through hole 143 through which the bottom end of the water supply pipe 115 is bored.
浮力裝置2包括一浮筒21,浮筒21套設於導流管體131並且用以遮蔽導流孔138。浮筒21包含一底壁211、一筒體212,及一遮罩213。底壁211呈環形用以接觸於分隔板體132的凸環部142,且底壁211與基板部141相間隔一段距離。筒體212凸設於底壁211外周緣,遮罩213則凸設於底壁211內周緣並與筒體212相間隔。底壁211、筒體212及遮罩213共同界定一內部空間214。遮罩213罩設於導流管體131並且用以遮蔽各導流孔138及通孔135的上開口136。浮筒21可透過流入上容室128內的冷凝水5所產生的浮力而沿上下方向D相對於分隔件13移動,浮筒21的遮罩213能隨著冷凝水5的流量大小而對應地調整遮蔽各導流孔138的範圍大小,以及各導流孔138連通於上容室128的範圍大小。藉此,能控制冷凝水5經由各導流孔138及通孔135流入下容室129內的流量。The buoyancy device 2 includes a pontoon 21 that is sleeved on the draft tube body 131 and serves to shield the flow guiding hole 138. The pontoon 21 includes a bottom wall 211, a cylinder 212, and a mask 213. The bottom wall 211 has an annular shape for contacting the convex ring portion 142 of the partition plate body 132, and the bottom wall 211 is spaced apart from the substrate portion 141 by a distance. The cylinder 212 protrudes from the outer periphery of the bottom wall 211 , and the mask 213 protrudes from the inner circumference of the bottom wall 211 and is spaced apart from the cylinder 212 . The bottom wall 211, the barrel 212, and the mask 213 collectively define an interior space 214. The mask 213 is disposed on the guiding tube body 131 and shields the respective opening 136 of the guiding hole 138 and the through hole 135. The pontoon 21 is movable relative to the partition member 13 in the up-and-down direction D by the buoyancy generated by the condensed water 5 flowing into the upper chamber 128, and the mask 213 of the pontoon 21 can be correspondingly adjusted to be shielded according to the flow rate of the condensed water 5. The extent of each of the flow holes 138 and the extent to which each of the flow holes 138 communicates with the upper chamber 128. Thereby, the flow rate of the condensed water 5 into the lower chamber 129 through the respective flow holes 138 and the through holes 135 can be controlled.
藉由分隔板體132的凸環部142設計,使得浮筒21的底壁211底面只有鄰近於遮罩213的部位接觸在凸環部142頂面,而底壁211底面鄰近於筒體212的部位則會與基板部141相間隔一段距離。藉此,使得冷凝水5能流入底壁211與基板部141之間的一空隙215內並透過浮力帶動浮筒21上移。透過前述設計方式,能避免底壁211底面完全地直接貼附在基板部141頂面,以防止底壁211底面受到冷凝水5之黏滯力影響進而造成浮筒21無法順暢的往上移動。By designing the convex ring portion 142 of the partitioning plate 132, the bottom surface of the bottom wall 211 of the pontoon 21 is only in contact with the top surface of the convex ring portion 142 adjacent to the mask 213, and the bottom surface of the bottom wall 211 is adjacent to the cylindrical body 212. The portion is spaced apart from the substrate portion 141 by a distance. Thereby, the condensed water 5 can flow into a gap 215 between the bottom wall 211 and the substrate portion 141 and move the buoy 21 up by buoyancy. Through the foregoing design, the bottom surface of the bottom wall 211 can be prevented from being completely attached directly to the top surface of the substrate portion 141, so as to prevent the bottom surface of the bottom wall 211 from being affected by the viscous force of the condensed water 5, thereby causing the pontoon 21 to move upwards smoothly.
浮筒21的底壁211形成有多個對應於基板部141的開孔216,各開孔216連通於內部空間214與上容室128之間。冷凝水可通過空隙215及開孔126流入內部空間214內,藉此,能增加冷凝水5於中空殼體11內的流動路徑,使冷凝水5具有充分的時間降低溫度。The bottom wall 211 of the pontoon 21 is formed with a plurality of openings 216 corresponding to the substrate portion 141, and each of the openings 216 is in communication with the internal space 214 and the upper chamber 128. The condensed water can flow into the internal space 214 through the gap 215 and the opening 126, whereby the flow path of the condensed water 5 in the hollow casing 11 can be increased, so that the condensed water 5 has a sufficient time to lower the temperature.
更具體地,在本實施例中,承載盤113的下壁119形成有一對應於進水孔116下方的導引孔130。浮力裝置2更包括一固定地結合於筒體212中心及遮罩213中心的中心柱體22,中心柱體22穿設於導引孔130內,導引孔130用以導引中心柱體22沿上下方向D移動。藉由中心柱體22穿設於導引孔130內的設計方式,能導引並限制浮筒21的移動方向,使浮筒21能順暢地沿上下方向D移動,並能防止浮筒21在移動過程中產生晃動的情形。More specifically, in the present embodiment, the lower wall 119 of the carrier tray 113 is formed with a guide hole 130 corresponding to the lower side of the water inlet hole 116. The buoyancy device 2 further includes a central cylinder 22 fixedly coupled to the center of the cylinder 212 and the center of the shield 213. The central cylinder 22 is disposed in the guiding hole 130, and the guiding hole 130 is used to guide the central cylinder 22. Move in the up and down direction D. By the design of the central cylinder 22 passing through the guiding hole 130, the moving direction of the pontoon 21 can be guided and restricted, the pontoon 21 can be smoothly moved in the up and down direction D, and the pontoon 21 can be prevented from moving during the movement. A situation of shaking.
止回裝置3設置於排水流道125內並可在下容室129內的壓力超過一定值時作動,以使下容室129與排水流道125相連通。止回裝置3包括兩個設置於排水流道125內且上下堆疊在一起的球塞31,及一設置於排水流道125內且固定地結合於排水管115的擋止橫桿32。擋止橫桿32位於球塞31與出口127之間,擋止橫桿32用以擋止上方球塞31以限制其向上移動的高度,藉此,以防止球塞31經由出口127脫離排水流道125。在一般狀態下,兩球塞31受到重力的作用,使得下方球塞31抵接在排水管115的一肩部110並且阻斷入口126。當下容室129內的壓力超過一定值時,下容室129內的冷凝水5會推動兩球塞31上移,使下方球塞31移離肩部110從而使入口126開啟。藉此,使得冷凝水5能經由入口126流入排水流道125內並經由出口127排出。The non-return device 3 is disposed in the drain flow passage 125 and is movable when the pressure in the lower chamber 129 exceeds a certain value to allow the lower chamber 129 to communicate with the drain passage 125. The check device 3 includes two ball plungers 31 disposed in the drain flow channel 125 and stacked one on top of the other, and a stop rail 32 disposed in the drain flow channel 125 and fixedly coupled to the drain pipe 115. The blocking crossbar 32 is located between the ball plunger 31 and the outlet 127, and the blocking crossbar 32 is used to block the upper ball plunger 31 to limit the height of its upward movement, thereby preventing the ball plunger 31 from being detached from the drainage flow via the outlet 127. Road 125. In the normal state, the two ball plugs 31 are subjected to gravity so that the lower ball plug 31 abuts against a shoulder 110 of the drain pipe 115 and blocks the inlet 126. When the pressure in the lower chamber 129 exceeds a certain value, the condensed water 5 in the lower chamber 129 pushes the two ball stoppers 31 upward, moving the lower ball plug 31 away from the shoulder portion 110 to open the inlet 126. Thereby, the condensed water 5 can flow into the drain flow path 125 via the inlet 126 and be discharged through the outlet 127.
參閱圖2及圖3,真空消除裝置4設置於頂蓋112的真空消除孔118內,真空消除裝置4包括一閥體41、一塞件42,及一彈簧43。閥體41固定於真空消除孔118內並形成有一連通於上容室128的氣體通道411,及多個連通於氣體通道411與外部環境之間的進氣孔412。塞件42設置於氣體通道411內,塞件42用以抵接於閥體41的一肩部413以阻斷氣體通道411。彈簧43設置於氣體通道411內用以對塞件42朝肩部413方向施加彈性力。在一般狀態下,藉由彈簧43對塞件42施加的彈性力,使得塞件42定位在一抵接於肩部413的阻斷位置,以阻斷氣體通道411。當上容室128內的壓力小於外殼1外部之壓力時,外殼1外部的氣體經由進氣孔412流入氣體通道411內並推動塞件42下移至一與肩部413分離的位置,使氣體通道411呈一開通狀態,藉此,以消除上容室128內的真空狀態。Referring to FIGS. 2 and 3, the vacuum eliminating device 4 is disposed in the vacuum eliminating hole 118 of the top cover 112. The vacuum eliminating device 4 includes a valve body 41, a plug member 42, and a spring 43. The valve body 41 is fixed in the vacuum elimination hole 118 and defines a gas passage 411 communicating with the upper chamber 128, and a plurality of intake holes 412 communicating between the gas passage 411 and the external environment. The plug 42 is disposed in the gas passage 411 for abutting against a shoulder 413 of the valve body 41 to block the gas passage 411. A spring 43 is disposed in the gas passage 411 for applying an elastic force to the plug member 42 toward the shoulder 413. In the normal state, the spring force applied to the plug member 42 by the spring 43 causes the plug member 42 to be positioned at a blocking position against the shoulder portion 413 to block the gas passage 411. When the pressure in the upper chamber 128 is less than the pressure outside the outer casing 1, the gas outside the outer casing 1 flows into the gas passage 411 via the air inlet hole 412 and pushes the plug member 42 downward to a position separated from the shoulder portion 413 to make the gas The passage 411 is in an open state, whereby the vacuum state in the upper chamber 128 is eliminated.
參閱圖2及圖4,蒸汽袪水器100在運作時,蒸氣系統中所產生的高溫的冷凝水5會經由進水孔116流入容置槽121內,隨後,冷凝水5會經由過濾管114的過濾孔123以及出水孔122流入上容室128並且蓄積於上容室128內。藉由過濾管114的設置,能過濾冷凝水5中的粗塊雜質,使粗塊雜質蓄積在過濾管114所圍繞出的區域範圍內。Referring to FIG. 2 and FIG. 4, when the steam decanter 100 is in operation, the high temperature condensed water 5 generated in the steam system flows into the accommodating tank 121 through the water inlet hole 116, and then the condensed water 5 passes through the filter tube 114. The filter holes 123 and the water outlet holes 122 flow into the upper chamber 128 and are accumulated in the upper chamber 128. By the arrangement of the filter tubes 114, the coarse impurities in the condensed water 5 can be filtered, and the coarse impurities are accumulated in the region surrounded by the filter tubes 114.
隨著上容室128內的冷凝水5水量逐漸增加,冷凝水5會經由空隙215及開孔216流入內部空間214內,同時,冷凝水5會將浮筒21逐漸往上抬升。當浮筒21的遮罩213上移到使各導流孔138露出並與上容室128相連通的位置時,蓄積在上容室128內的冷凝水5便會經由各導流孔138流入通孔135內並且通過通孔135流入下容室129內。需說明的是,由於各導流孔138的寬度是由下端部139朝向上端部140方向逐漸擴大,因此,當上容室128內所蓄積的冷凝水5越多進而將浮筒21抬升的高度越高時,各導流孔138與上容室128相連通的範圍會逐漸地增加。藉此,蒸汽袪水器100能依據上容室128內的冷凝水5流量,自動且緩和地調節排放冷凝水5至下容室129內的流量。As the amount of condensed water 5 in the upper chamber 128 gradually increases, the condensed water 5 flows into the internal space 214 through the gap 215 and the opening 216, and at the same time, the condensed water 5 gradually lifts the pontoon 21 upward. When the mask 213 of the pontoon 21 is moved to a position where the respective flow guiding holes 138 are exposed and communicate with the upper chamber 128, the condensed water 5 accumulated in the upper chamber 128 flows through the respective flow guiding holes 138. Inside the hole 135 and through the through hole 135, it flows into the lower chamber 129. It should be noted that since the width of each of the flow guiding holes 138 is gradually increased from the lower end portion 139 toward the upper end portion 140, the more the condensed water 5 accumulated in the upper chamber 128, the higher the height at which the pontoon 21 is lifted. When it is high, the range in which each of the flow holes 138 communicates with the upper chamber 128 gradually increases. Thereby, the steam decanter 100 can automatically and gently adjust the flow rate of the discharged condensed water 5 to the lower chamber 129 according to the flow rate of the condensed water 5 in the upper chamber 128.
冷凝水5經由進水流道124流入上容室128後會持續地帶動浮筒21往上移動,當筒體212頂面抵接於下壁119底面時,浮筒21受到下壁119擋止而無法繼續上移。持續流入上容室128內的冷凝水5會繼續經由開孔216流入內部空間214內,從而使得中空殼體11的上容室128及內部空間214能蓄積更多量的冷凝水5。藉此,使得冷凝水5能有充分的時間降低溫度,以避免高溫的冷凝水5排出後產生閃發蒸汽的問題。After the condensed water 5 flows into the upper chamber 128 via the inlet passage 124, the pontoon 21 is continuously moved upward. When the top surface of the cylinder 212 abuts against the bottom surface of the lower wall 119, the pontoon 21 is stopped by the lower wall 119 and cannot continue. Move up. The condensed water 5 continuously flowing into the upper chamber 128 continues to flow into the internal space 214 through the opening 216, so that the upper chamber 128 and the internal space 214 of the hollow casing 11 can accumulate a larger amount of condensed water 5. Thereby, the condensed water 5 can be sufficiently cooled to lower the temperature to avoid the problem of flashing steam generated after the high-temperature condensed water 5 is discharged.
當冷凝水5蓄積至一定高度且下容室129內的壓力超過一定值時,下容室129內的冷凝水5會推動兩球塞31上移,以促使下方球塞31移離肩部110而使入口126開啟。此時,下容室129與排水流道125相連通,冷凝水5能經由入口126流入排水流道125內。冷凝水5流入排水流道125後會持續帶動兩球塞31上移,當上方球塞31被擋止橫桿32擋止時,兩球塞31便無法繼續向上移動,而冷凝水5會持續地向上流動並經由出口127排出。When the condensed water 5 accumulates to a certain height and the pressure in the lower chamber 129 exceeds a certain value, the condensed water 5 in the lower chamber 129 pushes the two ball plugs 31 upward to urge the lower ball plug 31 to move away from the shoulder 110. The inlet 126 is opened. At this time, the lower chamber 129 communicates with the drain passage 125, and the condensed water 5 can flow into the drain passage 125 via the inlet 126. After the condensed water 5 flows into the drainage channel 125, the two ball plugs 31 are continuously moved upward. When the upper ball plug 31 is blocked by the blocking cross bar 32, the two ball plugs 31 cannot continue to move upward, and the condensed water 5 continues. The ground flows upward and is discharged through the outlet 127.
參閱圖5,是本新型蒸汽袪水器的第二實施例,蒸汽袪水器200的整體結構與運作方式大致與第一實施例相同,不同處在於導流管體131的細部結構。Referring to FIG. 5, which is a second embodiment of the steam decanter of the present invention, the overall structure and operation mode of the steam decanter 200 is substantially the same as that of the first embodiment, except for the detailed structure of the diversion tube body 131.
在本實施例中,各導流孔138的上端部140為一形成於頂端133的開放端。藉由前述設計方式,使得本實施例的導流管體131與第一實施例相較下能更為節省製造材料的使用,進而降低製造的成本。In the present embodiment, the upper end portion 140 of each of the flow guiding holes 138 is an open end formed at the top end 133. By the foregoing design, the flow guiding tube body 131 of the present embodiment can save the use of the manufacturing material compared with the first embodiment, thereby reducing the manufacturing cost.
綜上所述,各實施例的蒸汽袪水器100、200,藉由分隔件13的導流管體131凸設於分隔板體132上,以及浮筒21的遮罩213套設於導流管體131並且遮蔽導流孔138的設計方式,使得浮筒21受到冷凝水5所產生的浮力而相對於分隔件13移動的過程中,浮筒21能隨著冷凝水5的流量大小而對應地調整遮蔽各導流孔138的範圍大小,以及各導流孔138連通於上容室128的範圍大小。藉此,能依據上容室128內的冷凝水5流量自動且緩和地調節排放冷凝水5至下容室129內的流量。此外,藉由浮筒21的開孔216能提供冷凝水5流入內部空間214內的設計方式,使得中空殼體11的上容室128及內部空間214能蓄積更多量的冷凝水5。藉此,能增加冷凝水5於中空殼體11內的流動路徑,使冷凝水5具有充分的時間降低溫度。再者,蒸汽袪水器100、200的結構簡單,能節省組裝工時並降低製造成本,確實能達成本新型之目的。In summary, the steam decanter 100, 200 of each embodiment is protruded from the dividing tube body 132 by the guiding tube body 131 of the partitioning member 13, and the mask 213 of the buoy 21 is sleeved on the diversion tube. The tubular body 131 and the shielding diversion hole 138 are designed such that the buoy 21 can be correspondingly adjusted in accordance with the flow rate of the condensed water 5 during the movement of the buoy 21 by the buoyancy generated by the condensed water 5 relative to the partition 13 The extent of each of the flow guiding holes 138 is shielded, and the size of each of the flow guiding holes 138 is communicated with the upper chamber 128. Thereby, the flow rate of the discharged condensed water 5 to the lower chamber 129 can be automatically and gently adjusted in accordance with the flow rate of the condensed water 5 in the upper chamber 128. In addition, the design of the condensed water 5 flowing into the internal space 214 can be provided by the opening 216 of the pontoon 21, so that the upper chamber 128 and the internal space 214 of the hollow casing 11 can accumulate a larger amount of condensed water 5. Thereby, the flow path of the condensed water 5 in the hollow casing 11 can be increased, and the condensed water 5 can have a sufficient time to lower the temperature. Furthermore, the steam decanter 100, 200 has a simple structure, can save assembly time and reduce manufacturing costs, and can indeed achieve the purpose of the present invention.
惟以上所述者,僅為本新型之實施例而已,當不能以此限定本新型實施之範圍,凡是依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本新型專利涵蓋之範圍內。However, the above is only the embodiment of the present invention, and when it is not possible to limit the scope of the present invention, all the simple equivalent changes and modifications according to the scope of the patent application and the contents of the patent specification are still This new patent covers the scope.
100‧‧‧蒸汽袪水器
200‧‧‧蒸汽袪水器
1‧‧‧外殼
11‧‧‧中空殼體
110‧‧‧肩部
111‧‧‧筒件
112‧‧‧頂蓋
113‧‧‧承載盤
114‧‧‧過濾管
115‧‧‧排水管
116‧‧‧進水孔
117‧‧‧穿孔
118‧‧‧真空消除孔
119‧‧‧下壁
120‧‧‧圍繞壁
121‧‧‧容置槽
122‧‧‧出水孔
123‧‧‧過濾孔
124‧‧‧進水流道
125‧‧‧排水流道
126‧‧‧入口
127‧‧‧出口
128‧‧‧上容室
129‧‧‧下容室
13‧‧‧分隔件
130‧‧‧導引孔
131‧‧‧導流管體
132‧‧‧分隔板體
133‧‧‧頂端
134‧‧‧底端
135‧‧‧通孔
136‧‧‧上開口
137‧‧‧下開口
138‧‧‧導流孔
139‧‧‧下端部
140‧‧‧上端部
141‧‧‧基板部
142‧‧‧凸環部
143‧‧‧穿孔
2‧‧‧浮力裝置
21‧‧‧浮筒
211‧‧‧底壁
212‧‧‧筒體
213‧‧‧遮罩
214‧‧‧內部空間
215‧‧‧空隙
216‧‧‧開孔
22‧‧‧中心柱體
3‧‧‧止回裝置
31‧‧‧球塞
32‧‧‧擋止橫桿
4‧‧‧真空消除裝置
41‧‧‧閥體
411‧‧‧氣體通道
412‧‧‧進氣孔
413‧‧‧肩部
42‧‧‧塞件
43‧‧‧彈簧
5‧‧‧冷凝水
D‧‧‧上下方向100‧‧‧ steam decanter
200‧‧‧ steam decanter
1‧‧‧Shell
11‧‧‧ hollow shell
110‧‧‧ shoulder
111‧‧‧Clocks
112‧‧‧Top cover
113‧‧‧ Carrying tray
114‧‧‧Filter tube
115‧‧‧Drainage pipe
116‧‧‧ water inlet
117‧‧‧Perforation
118‧‧‧vacuum elimination hole
119‧‧‧The lower wall
120‧‧‧round the wall
121‧‧‧ accommodating slots
122‧‧‧Water outlet
123‧‧‧Filter holes
124‧‧‧Inlet runner
125‧‧‧Drainage channel
126‧‧‧ entrance
127‧‧‧Export
128‧‧‧上室
129‧‧‧The lower room
13‧‧‧Parts
130‧‧‧ Guide hole
131‧‧‧Drainage tube body
132‧‧‧ partition board
133‧‧‧Top
134‧‧‧ bottom
135‧‧‧through hole
136‧‧‧Opening
137‧‧‧ opening
138‧‧‧Inlet
139‧‧‧ lower end
140‧‧‧Upper end
141‧‧‧Parts Department
142‧‧‧ convex ring
143‧‧‧Perforation
2‧‧‧ buoyancy device
21‧‧‧Float
211‧‧‧ bottom wall
212‧‧‧Cylinder
213‧‧‧ mask
214‧‧‧Internal space
215‧‧‧ gap
216‧‧‧ openings
22‧‧‧ center cylinder
3‧‧‧Return device
31‧‧‧ Ball stopper
32‧‧‧stop rail
4‧‧‧Vacuum elimination device
41‧‧‧ valve body
411‧‧‧ gas passage
412‧‧‧Air intake
413‧‧‧ Shoulder
42‧‧‧plugs
43‧‧‧ Spring
5‧‧‧Condensate
D‧‧‧Up and down direction
本新型之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中: 圖1是本新型蒸汽袪水器的第一實施例的俯視圖; 圖2是沿圖1中的S1-S1線所截取的剖視圖,說明外殼、浮力裝置、止回裝置及真空消除裝置之間的連接關係; 圖3是沿圖1中的S2-S2線所截取的不完整剖視圖,說明真空消除裝置的細部結構; 圖4是類似於圖2的視圖,說明冷凝水帶動浮筒上移,使導流管體的導流孔與上容室相連通;及 圖5是本新型蒸汽袪水器的第二實施例的剖視圖,說明導流孔的上端部為開放端。Other features and effects of the present invention will be apparent from the following description of the drawings, wherein: Figure 1 is a plan view of a first embodiment of the present invention; FIG. - FIG. 1 is a cross-sectional view taken along line S1, illustrating the connection relationship between the outer casing, the buoyancy device, the non-return device and the vacuum elimination device; FIG. 3 is an incomplete cross-sectional view taken along line S2-S2 of FIG. 1 illustrating the vacuum elimination device Figure 4 is a view similar to Figure 2, illustrating that the condensate drives the pontoon up, so that the diversion hole of the diversion tube communicates with the upper chamber; and Figure 5 is the first of the novel steam eliminator A cross-sectional view of the second embodiment illustrates that the upper end portion of the flow guiding hole is an open end.
100‧‧‧蒸汽袪水器 100‧‧‧ steam decanter
1‧‧‧外殼 1‧‧‧Shell
11‧‧‧中空殼體 11‧‧‧ hollow shell
110‧‧‧肩部 110‧‧‧ shoulder
111‧‧‧筒件 111‧‧‧Clocks
112‧‧‧頂蓋 112‧‧‧Top cover
113‧‧‧承載盤 113‧‧‧ Carrying tray
114‧‧‧過濾管 114‧‧‧Filter tube
115‧‧‧排水管 115‧‧‧Drainage pipe
116‧‧‧進水孔 116‧‧‧ water inlet
117‧‧‧穿孔 117‧‧‧Perforation
119‧‧‧下壁 119‧‧‧The lower wall
120‧‧‧圍繞壁 120‧‧‧round the wall
121‧‧‧容置槽 121‧‧‧ accommodating slots
122‧‧‧出水孔 122‧‧‧Water outlet
123‧‧‧過濾孔 123‧‧‧Filter holes
124‧‧‧進水流道 124‧‧‧Inlet runner
125‧‧‧排水流道 125‧‧‧Drainage channel
126‧‧‧入口 126‧‧‧ entrance
127‧‧‧出口 127‧‧‧Export
128‧‧‧上容室 128‧‧‧上室
129‧‧‧下容室 129‧‧‧The lower room
13‧‧‧分隔件 13‧‧‧Parts
130‧‧‧導引孔 130‧‧‧ Guide hole
131‧‧‧導流管體 131‧‧‧Drainage tube body
132‧‧‧分隔板體 132‧‧‧ partition board
133‧‧‧頂端 133‧‧‧Top
134‧‧‧底端 134‧‧‧ bottom
135‧‧‧通孔 135‧‧‧through hole
136‧‧‧上開口 136‧‧‧Opening
137‧‧‧下開口 137‧‧‧ opening
138‧‧‧導流孔 138‧‧‧Inlet
139‧‧‧下端部 139‧‧‧ lower end
140‧‧‧上端部 140‧‧‧Upper end
141‧‧‧基板部 141‧‧‧Parts Department
142‧‧‧凸環部 142‧‧‧ convex ring
143‧‧‧穿孔 143‧‧‧Perforation
2‧‧‧浮力裝置 2‧‧‧ buoyancy device
21‧‧‧浮筒 21‧‧‧Float
211‧‧‧底壁 211‧‧‧ bottom wall
212‧‧‧筒體 212‧‧‧Cylinder
213‧‧‧遮罩 213‧‧‧ mask
214‧‧‧內部空間 214‧‧‧Internal space
215‧‧‧空隙 215‧‧‧ gap
216‧‧‧開孔 216‧‧‧ openings
22‧‧‧中心柱體 22‧‧‧ center cylinder
3‧‧‧止回裝置 3‧‧‧Return device
31‧‧‧球塞 31‧‧‧ Ball stopper
32‧‧‧擋止橫桿 32‧‧‧stop rail
4‧‧‧真空消除裝置 4‧‧‧Vacuum elimination device
41‧‧‧閥體 41‧‧‧ valve body
412‧‧‧進氣孔 412‧‧‧Air intake
D‧‧‧上下方向 D‧‧‧Up and down direction
Claims (10)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW105216943U TWM536721U (en) | 2016-11-07 | 2016-11-07 | Steam trap |
CN201710009228.0A CN108071929B (en) | 2016-11-07 | 2017-01-04 | Steam water remover |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW105216943U TWM536721U (en) | 2016-11-07 | 2016-11-07 | Steam trap |
Publications (1)
Publication Number | Publication Date |
---|---|
TWM536721U true TWM536721U (en) | 2017-02-11 |
Family
ID=58606964
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW105216943U TWM536721U (en) | 2016-11-07 | 2016-11-07 | Steam trap |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN108071929B (en) |
TW (1) | TWM536721U (en) |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7931046B1 (en) * | 2010-01-27 | 2011-04-26 | Vallery Stafford J | Steam trap with inverted bucket float |
CN201798687U (en) * | 2010-09-28 | 2011-04-20 | 刘荣 | Alternate dust collector capable of preventing foams from being sucked |
CN103423582B (en) * | 2013-08-21 | 2015-09-16 | 友森精机股份有限公司 | Flow self-regulating steam water cooling device |
CN204986374U (en) * | 2015-04-29 | 2016-01-20 | 杨永硕 | Adjustable comdenstion water flow hole's vapour is hydrophone but |
TWI606205B (en) * | 2016-11-07 | 2017-11-21 | Yang Bo-Rong | Steam Decanter |
-
2016
- 2016-11-07 TW TW105216943U patent/TWM536721U/en not_active IP Right Cessation
-
2017
- 2017-01-04 CN CN201710009228.0A patent/CN108071929B/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
CN108071929A (en) | 2018-05-25 |
CN108071929B (en) | 2019-11-08 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104321522B (en) | Define the filter element end plate for flowing into stream and flowing out stream | |
US10350527B2 (en) | Filter device and filtration device | |
ITRE20120066A1 (en) | FILTERING CARTRIDGE EQUIPPED WITH MEANS FOR PURGE OF WATER AND RELATIVE FILTERING UNIT | |
RU2657503C1 (en) | Filtering element and filtering device | |
US10561973B2 (en) | Element assembly and filter | |
CN104203361A (en) | Liquid dispensing device | |
JP2020022924A (en) | Suction filter | |
CN107061084A (en) | Filter structure of two-way heat power expansion | |
TWI606205B (en) | Steam Decanter | |
RU2018100914A (en) | TANK FOR LUBRICATING TOOLS FOR HYDRAULIC SYSTEMS | |
CN205618749U (en) | Large -flow safety valve | |
TWM536721U (en) | Steam trap | |
CN207195062U (en) | A kind of gs-oil separator | |
KR101751124B1 (en) | Filter insert | |
CN207538946U (en) | Efficient through type air cleaner | |
US9273828B2 (en) | Auto flow steam trap | |
CN107795415A (en) | Efficient through type air cleaner | |
KR20120064955A (en) | Filter assembly with rise and fall type auto shut-off valve | |
TWI553283B (en) | Self-regulating flow steam water heater | |
CN206274021U (en) | Filter structure of two-way heat power expansion | |
JP5718666B2 (en) | Intake / exhaust valve device | |
CN218955202U (en) | Condensed water collecting device and gas heating water heater thereof | |
CN103075378A (en) | Filter bypass overflow valve | |
CN207795725U (en) | Oil pump control valve and vehicle | |
KR101568218B1 (en) | Multifunctional combination strainer elbow |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
MM4K | Annulment or lapse of a utility model due to non-payment of fees |