TWI804772B - Water-cooling radiator structure with pump - Google Patents

Abstract

A water-cooling radiator structure with pump includes a pump having a water outlet and a water inlet; and a water-cooling radiator including a first chamber that has a water-receiving room and a plurality of mutually communicable water passages therein. The water-receiving room is filled with a working fluid that reaches a level. The first chamber is externally provided with an outlet and an inlet as well as a pump mounting recess for mounting the pump therein. The water outlet and the water inlet are located corresponding to the outlet and the inlet, respectively, to be communicable with the water-receiving room and located lower than or flush with the level of the working fluid in the water-receiving room. And, the pump is detachably integrated into the water-cooling radiator. With these arrangements, it is able to overcome the problem of failed operation of the pump when the water-cooling radiator is laid horizontally.

Description

具泵浦之水排 Drain with pump

一種具泵浦之水排，尤指一種將泵浦整合於水排上，解決水排倒置無法吸水加壓的具泵浦之水排。 A water discharge with a pump, especially a water discharge with a pump that integrates the pump on the water discharge to solve the problem that the discharge cannot absorb water and pressurize when the discharge is inverted.

現行水冷模組係由至少一水冷頭、一泵浦、一水排以及複數作為串接前述各水冷元件所使用的水管所組成，該泵浦主要作為推動水冷模組中冷卻水循環使用，並由水冷頭與發熱源接觸吸附發熱源所產生之熱量，再由冷卻水將熱量由水冷頭帶離至水排進行冷卻後，再由泵浦將冷卻後的冷卻水打入該水冷頭進行一冷卻循環。 The current water-cooling module is composed of at least one water-cooling head, a pump, a water row and a plurality of water pipes used to connect the aforementioned water-cooling elements in series. The pump is mainly used to promote the circulation of cooling water in the water-cooling module, and is composed of The water-cooled head contacts the heat source to absorb the heat generated by the heat source, and then the cooling water takes the heat away from the water-cooled head to the water drain for cooling, and then the pump pumps the cooled cooling water into the water-cooled head for a cooling cycle.

並由於水排必需設置於系統外部，藉此有利於循環之冷卻水散熱使用，又傳統習知水排與泵浦係透過水管串接，當泵浦與水排距離過遠時，則必須選擇功率較大的泵浦使得以順利泵送冷卻水進入水排中進行水循環，而選擇功率較大的泵浦相對的也具有較大的噪音以及佔空間等問題，故另有業者直接將泵浦對應設置於該水排之出水口或入水口處，使泵浦可直接將冷卻水加壓泵送進入該水排內進行冷卻循環解決了前述距離遠及佔空間等習知缺失，但水排於設置時會依照裝設之部位偶有必須以水平放置之情事，故當水排水平放置時，內部冷卻水之液面高度將可能低於該出水口及或該入水口，使得設置於該出水口或該入水口之泵浦發生抽不到冷卻水的情事發生，進而造成泵送冷卻水的冷卻循環工作停擺，甚至泵毀的問題發生，另，由於泵浦係直接一體設置於該水排之出 水口或該入水口處，當泵浦故障時，並無法單獨進行拆換，則相同令冷卻水循環之工作無法繼續進行，故如何改善習知水排之缺失則為現行該項技藝之人士首重之目標。 And because the water drain must be installed outside the system, it is beneficial to the use of circulating cooling water for heat dissipation, and the traditional water drain and pump are connected in series through water pipes. When the distance between the pump and the water drain is too far, you must choose The pump with higher power can smoothly pump the cooling water into the water drainage for water circulation, but the pump with higher power also has problems such as greater noise and space occupation, so some operators directly use the pump Correspondingly installed at the water outlet or water inlet of the water row, so that the pump can directly pump the cooling water into the water row for cooling cycle, which solves the above-mentioned conventional deficiencies such as long distance and space occupation, but the water row When installing, it may occasionally be necessary to place it horizontally according to the location of the installation. Therefore, when the water drain is placed horizontally, the liquid level of the internal cooling water may be lower than the water outlet and/or the water inlet, so that it is installed in the water outlet. The pump at the water outlet or the water inlet cannot pump the cooling water, which will cause the cooling cycle of the pumped cooling water to stop, or even the pump to be destroyed. In addition, because the pump system is directly integrated with the water row out At the water inlet or the water inlet, when the pump fails, it cannot be disassembled and replaced independently, which will also prevent the cooling water circulation from continuing. Therefore, how to improve the lack of conventional water drainage is the first priority for those who currently have this technology. target.

爰此，為有效解決上述之問題，本發明之主要目的，係提供一種可改善水排水平倒置造成泵浦無法作動的具泵浦之水排。 Therefore, in order to effectively solve the above-mentioned problems, the main purpose of the present invention is to provide a water drain with a pump that can improve the inability of the pump to operate due to the horizontal inversion of the drain.

為達上述之目的，本發明係提供一種具泵浦之水排，係包含：一泵浦、一水排；所述泵浦具有一導流出口及一導流入口；所述水排具有一容水腔室，該容水腔室由一第一腔體及複數連通水道共同界定，並容水腔室內填充有一工作液體，該第一腔體具有一出口端及一入口端及一泵浦設置槽並容設該泵浦，該容水腔室內具有一液面高度，該導流出、入口與該出、入口端對應設置並與該容水腔室相連通且低於及或齊平該液面高度，令所述泵浦以可拆卸地整合於該水排上，並透過該泵浦泵送該冷卻液體進行循環。 In order to achieve the above-mentioned purpose, the present invention provides a water row with a pump, which includes: a pump and a water row; the pump has a diversion outlet and a diversion inlet; the water row has a A water-holding chamber, the water-holding chamber is defined by a first cavity and a plurality of communicating waterways, and a working liquid is filled in the water-holding chamber, the first cavity has an outlet end, an inlet end and a pump A tank is set to accommodate the pump. There is a liquid level in the water-holding chamber. The outlet and inlet of the diversion are arranged correspondingly to the outlet and the inlet and communicate with the water-holding chamber and are lower than and or flush with the water-holding chamber. The liquid level is such that the pump is detachably integrated on the water row, and the cooling liquid is pumped through the pump for circulation.

透過本發明將泵浦做可插拔之設計整合於該水排之第一腔室上，當泵浦損壞時除可快速抽換該泵浦外，同時該水排可任意垂直或水平倒置，該泵浦導流出口及導流入口低於或齊平該冷卻液體之液面高度，故可防止習知水排水平倒置設置時，泵浦吸不到冷卻液體的缺失者。 Through the present invention, the pump is designed to be pluggable and integrated on the first chamber of the drain. When the pump is damaged, the pump can be replaced quickly. At the same time, the drain can be inverted vertically or horizontally. The diversion outlet and the diversion inlet of the pump are lower than or flush with the liquid level of the cooling liquid, so it can prevent the pump from not being able to suck the cooling liquid when the water drain is installed upside down.

1:具泵浦之水排 1: water discharge with pump

11:泵浦 11: Pump

111:導流出口 111: diversion outlet

112:導流入口 112: diversion inlet

12:水排 12: water row

12a:容水腔室 12a: water chamber

121:第一腔體 121: First cavity

121a:第一容水室 121a: the first water holding chamber

121b:第二容水室 121b: the second water holding chamber

121c:第三容水室 121c: the third water storage chamber

121d:第四容水室 121d: The fourth water chamber

1211:出口端 1211: export port

1212:入口端 1212: entry port

122:第二腔體 122: Second cavity

123:泵浦設置槽 123: Pump setting slot

124:入水口 124: water inlet

125:出水口 125: water outlet

126:連接流道 126: Connect the flow channel

122a:第五容水室 122a: fifth water holding chamber

122b:第六容水室 122b: The sixth water storage room

13:連通件組 13: Connected component group

13a:第一連通件 13a: the first connecting piece

13b:第二連通件 13b: the second connecting piece

13c:第三連通件 13c: The third connecting piece

13d:第四連通件 13d: The fourth connecting piece

14:散熱鰭片 14: cooling fins

2:工作液體 2: working liquid

第1圖係為本發明之具泵浦之水排第一實施例之立體分解圖；第2a圖係為本發明之具泵浦之水排第一實施例之立體組合剖視圖；第2b圖係為本發明之具泵浦之水排第一實施例之立體組合剖視圖； 第3a圖係為本發明之具泵浦之水排之第二實施例之立體剖視圖；第3b圖係為本發明之具泵浦之水排之第二實施例之剖視圖。 Figure 1 is a three-dimensional exploded view of the first embodiment of the water drain with a pump of the present invention; Figure 2a is a three-dimensional combined sectional view of the first embodiment of the water drain with a pump of the present invention; Figure 2b is It is a three-dimensional combined sectional view of the first embodiment of the water row with a pump of the present invention; Fig. 3a is a three-dimensional sectional view of the second embodiment of the water drainage with pump of the present invention; Fig. 3b is a sectional view of the second embodiment of the water drainage with pump of the present invention.

本發明上述目的及其結構與功能上的特性，將依據所附圖式之較佳實施例予以說明。 The above-mentioned purpose of the present invention and its structural and functional characteristics will be described according to the preferred embodiments of the accompanying drawings.

請參閱第1、2a、2b圖，係為本發明之具泵浦之水排第一實施例之立體分解及組合剖視圖，如圖所述，所述具泵浦之水排1，係包含：一泵浦11、一水排12；所述泵浦11具有一導流出口111及一導流入口112。 Please refer to Figures 1, 2a, and 2b, which are three-dimensional exploded and combined sectional views of the first embodiment of the water drainage device with a pump according to the present invention. As shown in the figure, the drainage device with a pump 1 includes: A pump 11 , a water row 12 ; the pump 11 has a diversion outlet 111 and a diversion inlet 112 .

所述水排12具有一容水腔室12a，並由一第一腔體121及複數連通水道13a及一第二腔體122共同界定，所述容水腔室12a內填充有一工作液體2，該第一腔體121外部則具有一出口端1211及一入口端1212及一泵浦設置槽123以容設該泵浦11，令所述泵浦11以可拆卸地整合於該水排12上。 The water row 12 has a water chamber 12a, and is jointly defined by a first chamber 121, a plurality of communicating water channels 13a and a second chamber 122, the water chamber 12a is filled with a working liquid 2, The outside of the first cavity 121 has an outlet port 1211, an inlet port 1212 and a pump installation groove 123 to accommodate the pump 11, so that the pump 11 can be detachably integrated on the drain 12 .

更進一步揭示本實施例之所述水排12中所述第一、二腔體121、122透過一連通件組(管件)13連接，所述連通水道13a係設於該等連通件組13內部，所述容水腔室12a係由該第一、二腔體121、122及該連通件組13共同界定，並該水排12透過該泵浦11泵送該工作液體2於該容水腔室12a及該等連通水道13a中進行循環該連通件組13外部具有複數散熱鰭片14。 It is further disclosed that the first and second cavities 121 and 122 in the water row 12 of this embodiment are connected through a connecting piece set (pipe piece) 13, and the connecting water channel 13a is arranged inside the connecting piece set 13 , the water holding chamber 12a is jointly defined by the first and second cavities 121, 122 and the connecting member group 13, and the water row 12 pumps the working liquid 2 into the water holding chamber through the pump 11 Circulation is carried out in the chamber 12a and the communicating water channels 13a. The connecting element set 13 has a plurality of cooling fins 14 on the outside.

所述第一腔體121具有第一容水室121a及一第二容水室121b及一第三容水室121c及一第四容水室121d，所述第一容水室121a具有一入水口124，所述第四容水室121d具有一出水口125，所述第一、二、三、四容水室121a、121b、121c、121d各自區隔獨立，所述第二腔體122具有一第五容水室122a及一第六容水室122b，所述第五、六容水室122a、122b各自獨立，所述連通件組13係具有複數第一連通 件13a及複數第二連通件13b及複數第三連通件13c及複數第四連通件13d，所述第一、二容水室121a、121b透過該等第一、二連通件13a、13b與前述第五容水室122a連通，所述第三、四容水室121c、121d透過該等第三、四連通件13c、13d與前述第六容水室122b連通。 The first cavity 121 has a first water-holding chamber 121a, a second water-holding chamber 121b, a third water-holding chamber 121c, and a fourth water-holding chamber 121d, and the first water-holding chamber 121a has an inlet The water outlet 124, the fourth water holding chamber 121d has a water outlet 125, the first, second, third, and fourth water holding chambers 121a, 121b, 121c, and 121d are separated independently, and the second cavity 122 has A fifth water-holding chamber 122a and a sixth water-holding chamber 122b, the fifth and sixth water-holding chambers 122a, 122b are independent, and the connecting member group 13 has a plurality of first connecting parts. piece 13a, a plurality of second communication pieces 13b, a plurality of third communication pieces 13c, and a plurality of fourth communication pieces 13d, the first and second water containing chambers 121a, 121b communicate with the aforementioned The fifth water holding chamber 122a communicates, and the third and fourth water holding chambers 121c and 121d communicate with the aforementioned sixth water holding chamber 122b through the third and fourth connecting pieces 13c and 13d.

請參閱第3a、3b圖，係為本發明之具泵浦之水排之第二實施例之剖視圖，如圖所示，本實施例與前述第一實施例部分結構相同故在此將不再贅述，惟本實施例與前述第一實施例之不同處在於該泵浦設置槽對應於該第一腔體121的內側具有一連接流道126，該連接流道126設於該第一腔體121的第二容水室121b內，該連接流道126連通該出口端1211及該入口端1212，該連接流道126係提供一迂迴的水道，令該工作液體2流動時更具有方向性；並本實施例更具有一第一管體3及一第二管體4，所述第一、二管體3、4分別連接前述入水口124及該出水口125。 Please refer to Figures 3a and 3b, which are cross-sectional views of the second embodiment of the pumped water drainage device of the present invention. As shown in the figure, this embodiment has the same structure as the first embodiment, so it will not be repeated here To repeat, the difference between this embodiment and the aforementioned first embodiment is that the pump installation groove has a connecting flow channel 126 corresponding to the inner side of the first cavity 121, and the connecting flow channel 126 is arranged in the first cavity In the second water containing chamber 121b of 121, the connecting channel 126 communicates with the outlet port 1211 and the inlet port 1212, and the connecting channel 126 provides a roundabout water channel to make the working fluid 2 flow more directional; And this embodiment further has a first pipe body 3 and a second pipe body 4, and the first and second pipe bodies 3 and 4 are respectively connected to the aforementioned water inlet 124 and the water outlet 125.

請覆參閱第2a、2b、3a、3b圖，如圖所示，本發明主要改善習知水排若水平倒置時，該泵浦之導流出口及該導流入口則將低於冷卻水的液面高度而造成泵浦吸不到水，令整體冷卻循環停擺，故本發明提出改善習知缺失之結構，本發明將泵浦11與該水排12整合一體並令該泵浦11置設於入水口124及該出水口125之間，其主要目的在於改善習知倒置設置時吸不到水的缺失，當工作液體2由該入水口124進入該第一腔體121的第一容水室121a時，該連通件組13(第一、二、三、四連通件13a、13b、13c、13d)兩端呈開放並中間部分呈中空連通該兩端，透過該等第一連通件13a將該工作液體2由該第一容水室121a引導進入該第二腔體122的第五容水室122a中，再透過該等第二連通件13b將工作液體2由該第五容水室122a引導進入該第二容水室121b中，該第二容水室121b具有成迂迴之連接流道126，並該連接流道126中央處與該出口端1211連通，該第二容水室121b 透過該出口端1211與該第一腔體121外部的泵浦11連接，將工作液體2引導由該泵浦11的導流出口111進入該泵浦11，再透過泵浦11的引導及加壓後，由該泵浦11的導流入口112排出，再從與該導流入口112相連通的第三容水室121c的入口端1212進入該第三容水室121c，藉由該等第三連通件13c將工作液體2引導進入第六容水室122b中，最後工作液體2再透過該第四連通件13d引導由該第六容水室122b進入該第四容水室121d中，再由該第四容水室121d所設置的出水口125排出該水排12的第一腔體121。 Please refer to Figures 2a, 2b, 3a, and 3b. As shown in the figures, the present invention mainly improves the conventional water drain. If the water drain is inverted horizontally, the diversion outlet and the diversion inlet of the pump will be lower than the cooling water. Due to the height of the liquid level, the pump cannot absorb water, and the overall cooling cycle is stopped. Therefore, the present invention proposes to improve the conventional structure. Between the water inlet 124 and the water outlet 125, its main purpose is to improve the lack of water not being absorbed when the conventional upside-down arrangement is performed. When the chamber 121a is used, the two ends of the connecting piece group 13 (the first, second, third, and fourth connecting pieces 13a, 13b, 13c, 13d) are open and the middle part is hollow to connect the two ends. Through these first connecting pieces 13a guides the working liquid 2 from the first water holding chamber 121a into the fifth water holding chamber 122a of the second cavity 122, and then passes the working liquid 2 from the fifth water holding chamber 122a through the second communicating parts 13b. Chamber 122a guides into this second water containing chamber 121b, and this second water containing chamber 121b has the connection channel 126 that forms a detour, and the center of this connection flow channel 126 communicates with this outlet end 1211, and this second water containing chamber 121b The outlet port 1211 is connected to the pump 11 outside the first cavity 121, and the working fluid 2 is guided into the pump 11 through the diversion outlet 111 of the pump 11, and then guided and pressurized by the pump 11. After that, it is discharged from the diversion inlet 112 of the pump 11, and then enters the third water containing chamber 121c from the inlet end 1212 of the third water containing chamber 121c communicated with the diversion inlet 112. The connecting piece 13c guides the working fluid 2 into the sixth water-holding chamber 122b, and finally the working liquid 2 passes through the fourth connecting piece 13d and guides the sixth water-holding chamber 122b into the fourth water-holding chamber 121d. The water outlet 125 provided in the fourth water holding chamber 121 d discharges out of the first cavity 121 of the water row 12 .

上述係為敘述工作液體2在水排12之第一、二腔體121、122冷卻循環之路徑，本發明主要改善習知缺失之技術特徵在於，設於該第二容水室121b的出口端1211及入口端1212以及第二容水室121b外部與其對應組設的泵浦11導流出口111及導流入口112設置方式皆低於及或平齊於該工作液體2液面高度之下，故當水排12垂直直立設置或水平倒置設置，該泵浦11皆不受到影響，仍可持續進行工作液體2的泵送之工作，則本發明進一步改善了習知之缺失者。 The above is to describe the path of the cooling cycle of the working liquid 2 in the first and second cavities 121, 122 of the water row 12. The main technical feature of the present invention is to improve the conventional deficiencies. 1211, the inlet port 1212, and the outside of the second water holding chamber 121b and the pump 11 diversion outlet 111 and diversion inlet 112 that are arranged correspondingly outside the second water holding chamber 121b are arranged in such a way that they are all lower than or evenly below the liquid level of the working liquid 2, Therefore, when the water row 12 is vertically erected or horizontally inverted, the pump 11 is not affected, and the work of pumping the working liquid 2 can still be continued, and the present invention further improves the conventional deficiencies.

11:泵浦 11: Pump

111:導流出口 111: diversion outlet

12:水排 12: water row

12a:容水腔室 12a: water chamber

121:第一腔體 121: First cavity

121a:第一容水室 121a: the first water holding chamber

121b:第二容水室 121b: the second water holding chamber

121c:第三容水室 121c: the third water storage chamber

121d:第四容水室 121d: The fourth water chamber

1211:出口端 1211: export port

1212:入口端 1212: entry port

122:第二腔體 122: Second cavity

124:入水口 124: water inlet

125:出水口 125: water outlet

122a:第五容水室 122a: fifth water holding chamber

122b:第六容水室 122b: The sixth water storage room

13:連通件組 13: Connected component group

13a:第一連通件 13a: the first connecting piece

13b:第二連通件 13b: the second connecting piece

13c:第三連通件 13c: The third connecting piece

13d:第四連通件 13d: The fourth connecting piece

2:工作液體 2: working liquid

Claims (7)

一種具泵浦之水排，係包含：一泵浦，具有一導流出口及一導流入口；一水排，具有一容水腔室，該容水腔室由一第一腔體及一第二腔體及複數連通水道共同界定，並容水腔室內填充有一工作液體，該第一腔體具有一出口端及一入口端及一泵浦設置槽並容設該泵浦，該容水腔室內具有一液面高度，該導流出、入口與該出、入口端對應設置並與該容水腔室相連通且低於及或平齊於該液面高度，並令所述泵浦以可拆卸地整合於該水排上，所述第一腔體具有一第一容水室及一第二容水室及一第三容水室、一第四容水室，所述第一容水腔室具有一入水口，所述第四容水室具有一出水口，所述第一、二、三、四容水室各自獨立，第一腔體的第二容水室中的出口端及該入口端與設於該第一腔體的第二容水室外部的泵浦之導流出口及該導流入口對應設置的方式皆低於及或平齊於該冷卻液體之液面高度之下，故當水排垂直直立設置或水平倒置設置，該泵浦皆不受到影響，仍可持續進行冷卻液體的泵送之工作。 A water drain with a pump includes: a pump with a diversion outlet and a diversion inlet; a water drain with a water containing chamber, the water containing chamber consists of a first cavity and a The second cavity and a plurality of communicating waterways are jointly defined, and a working liquid is filled in the water-holding chamber. The first cavity has an outlet end, an inlet end, and a pump installation groove and accommodates the pump. The water-holding chamber There is a liquid level in the chamber, and the diversion outlet and inlet are arranged correspondingly to the outlet and inlet ports and communicate with the water chamber and are lower than or equal to the liquid level, and the pump can be used to Detachably integrated on the water row, the first cavity has a first water chamber, a second water chamber, a third water chamber, a fourth water chamber, the first chamber The water chamber has a water inlet, the fourth water chamber has a water outlet, the first, second, third, and fourth water chambers are independent, and the outlet port in the second water chamber of the first cavity And the inlet port and the diversion outlet of the pump located outside the second water containing chamber of the first cavity and the diversion inlet are correspondingly arranged in such a way that they are all lower than or equal to the liquid level of the cooling liquid Therefore, when the water row is installed vertically or horizontally, the pump will not be affected, and the cooling liquid can still be pumped continuously. 如請求項第1項所述之具泵浦之水排，其中所述第一、二腔體透過一連通件組連接，所述連通件組內部具有一連通水道，並該水排透過該泵浦泵送該冷卻液體於該容水腔室及該等連通水道中進行循環。 The water drain with a pump as described in item 1 of the claim, wherein the first and second cavities are connected through a connecting piece set, and the connecting piece set has a communicating water channel inside, and the water drains through the pump The pump pumps the cooling liquid to circulate in the water chamber and the communicating water channels. 如請求項第2項所述之具泵浦之水排，其中該連通件組外部具有複數散熱鰭片。 The water row with a pump as described in item 2 of the claim, wherein there are a plurality of heat dissipation fins on the outside of the connecting element group. 如請求項第2項所述之具泵浦之水排，其中所述第二腔體具有一第五容水室及一第六容水室，所述第五、六容水室各自獨立，所述連通件組係具有複數第一連通件及複數第二連通件及複數第三連通件及複數第四連通件，所述第一、二容水室透過該等第一、二連通件與前述第五容水室連通，所述第三、四容水室透過該等第三、四連通件與前述第六容水室連通。 The water drain with a pump as described in item 2 of the claim, wherein the second cavity has a fifth water holding chamber and a sixth water holding chamber, and the fifth and sixth water holding chambers are independent, The set of connecting parts has a plurality of first connecting parts, a plurality of second connecting parts, a plurality of third connecting parts and a plurality of fourth connecting parts, and the first and second water holding chambers pass through the first and second connecting parts It communicates with the fifth water holding chamber, and the third and fourth water holding chambers communicate with the sixth water holding chamber through the third and fourth connecting pieces. 如請求項第4項所述之具泵浦之水排，其中更具有一第一管體及一第二管體，所述第一、二管體分別連接前述入水口及該出水口。 The water drain with a pump as described in item 4 of the claim further has a first pipe body and a second pipe body, and the first and second pipe bodies are respectively connected to the aforementioned water inlet and the water outlet. 如請求項第4項所述之具泵浦之水排，其中該泵浦設置槽對應於該第一腔體的內側具有一連接流道，該連接流道設於該第二容水室內，該連接流道連接該出口端及該入口端。 The water drain with a pump as described in item 4 of the claim, wherein the pump installation groove has a connecting flow channel corresponding to the inner side of the first cavity, and the connecting flow channel is set in the second water containing chamber, The connecting channel connects the outlet port and the inlet port. 如請求項第2項所述之具泵浦之水排，其中該連通件組兩端呈開放並中間部分呈中空連通該兩端。 The water discharge with a pump as described in item 2 of the claim, wherein the two ends of the connecting member group are open and the middle part is hollow to connect the two ends.

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