DE202013003171U1 - Water cooler - Google Patents

Abstract

A water cooling apparatus comprising a main body (11) having a pump chamber (111) and a heat exchange chamber (112) separated by a partition plate (12), the partition plate (12) having a connection part (121) through which the Pump chamber (111) and the heat exchange chamber (112) are interconnected, wherein in the pump chamber (111) a pump (13) is arranged, wherein in the heat exchange chamber (112) a heat conducting unit (14) is arranged, wherein the pump chamber (111) and the heat exchange chamber (112) are filled with a cooling liquid (2).

Description

Technical area

The invention relates to a water cooling device which can increase the cooling effect and avoid overheating of the stator.

State of the art

The water cooling module uses a thermal pad directly in contact with the heat source, such as the central unit. The thermal pad is made of copper, aluminum or another good conductor of heat. The heat-conducting pad is in contact with the heat source on one side. The other side of the Wärmeleitpads performs with the cooling liquid in the water cooling module through a heat exchange. However, the heat exchange efficiency of this water cooling module is poor. Since the cooling area of the heat-conducting pad for the heat exchange with the cooling liquid in the water cooling module is too small, the cooling liquid can not completely dissipate the heat of the heat-conducting pad. To solve this problem, a plurality of bars or channels are provided on the heat exchange side of the heat conducting pad to increase the cooling area. As a result, the cooling effect can be increased only slightly.

When working the pump of the water cooling module, the stator can generate heat. Since the stator in the prior art is isolated from the cooling liquid and cooled by the air, the cooling effect is poor. As a result, the stator can be damaged by overheating, so that the life of the water cooling module is affected.

To prevent damage to the stator due to contact with the coolant, the stator is located outside the water cooling module. The rotor carrying the cooling liquid is arranged in the water cooling module. The stator and the rotor are separated from the housing of the water cooling module. Since the housing must have a certain thickness, there is a gap between the stator and the rotor through the thickness of the housing, whereby a magnetic loss can occur, so that the working efficiency of the pump is affected.

Object of the invention

The invention has for its object to provide a water cooling device that can increase the cooling effect.

Another object of the present invention is to provide a water cooling device which can extend the life.

These objects are achieved by the water cooling device according to the invention comprising a main body having a pump chamber and a heat exchange chamber separated by a partition plate, the partition plate having a connecting part through which the pump chamber and the heat exchange chamber are connected to each other Pump chamber is arranged a pump, wherein in the heat exchange chamber, a heat conducting unit is arranged, wherein the pump chamber and the heat exchange chamber are filled with a cooling liquid.

These objects are further achieved by the water cooling apparatus, which comprises:
a main body having a receiving space having a closed side, an open side and a partition plate, the receiving space being divided by the partition plate into a pump chamber and a heat exchange chamber, the partition plate having a communication hole, the main body receiving a pump,
an inlet opening, which is located on the closed side and is connected to the pump chamber, in which the pump is arranged,
an outlet port which is located on the side of the heat exchange chamber of the main body and is connected to the heat exchange chamber, and
a heat conducting unit having a heat receiving surface and a heat releasing surface, wherein the heat releasing surface closes the open side.

The water cooling device according to the invention has a simple structure and a good cooling effect. Since the stator is immersed in the cooling liquid, it is cooled by the cooling liquid, thereby avoiding overheating of the stator, so that the life of the water cooling device is prolonged.

Since the stator and the rotor are both arranged in the pump chamber, the distance between the stator and the rotor is reduced, thereby avoiding magnetic leakage, thus increasing the efficiency of the pump.

Brief description of the drawings

1 an exploded view of the first embodiment of the invention,

2 a perspective sectional view of the first embodiment of the invention,

3 a perspective sectional view of the second embodiment of the invention,

4 a perspective sectional view of the third embodiment of the invention,

5 a perspective sectional view of the fourth embodiment of the invention,

6 a perspective sectional view of the fifth embodiment of the invention,

7 a perspective sectional view of the sixth embodiment of the invention,

8th a perspective view of the seventh embodiment of the invention,

9 a perspective sectional view of the eighth embodiment of the invention,

10 a perspective sectional view of another embodiment of the pump of the invention.

Ways to carry out the invention

Further details, features and advantages of the invention will become apparent from the following detailed description taken in conjunction with the accompanying drawings.

The 1 and 2 show the first embodiment of the water cooling device according to the invention 1 holding a main body 11 includes.

The main body 11 has a pump chamber 111 and a heat exchange chamber 112 on, passing through a partition plate 12 are separated from each other. The partition plate 12 has a connecting part 121 through which the pump chamber 111 and the heat exchange chamber 112 connected to each other. In the pump chamber 111 is a pump 13 arranged. In the heat exchange chamber 112 is a heat-conducting unit 14 arranged. The pump chamber 111 and the heat exchange chamber 112 are with a coolant 2 filled.

The connecting part 121 contains a first connection hole 1211 , a second connection hole 1212 and a connection channel 1213 , The connection channel 1213 is with the second connection hole 1212 connected, causing the pump chamber 111 and the heat exchange chamber 112 connected to each other.

The pump 13 has a rotor 131 and a stator 132 on that together in the pump chamber 111 are arranged. The rotor 131 has an axis 1311 , a paddle wheel 1312 and at least one camp 1313 , The warehouse 1313 is with the paddle wheel 1312 connected. The axis 1311 is through the warehouse 1313 guided and with one end to the main body 11 attached. The paddle wheel 1312 has a variety of blades 1312a , The stator 132 owns a variety of steel sheets 1321 and a base plate 1322 , The steel sheets 1321 are stacked. To the steel sheets are windings 1323 placed. The steel sheets 1321 , the windings 1323 and the base plate 1322 be from a waterproofing layer 1324 enclosed.

3 shows the second embodiment of the invention, which differs from the first embodiment only in that the bearing 1313 with the main body 11 is connected, the axis 1311 through the camp 1313 guided and with the other end to the paddle wheel 1312 is attached.

3 shows the third embodiment of the invention, which differs from the first embodiment only in that the main body 11 further an outlet opening 113 and an entrance opening 114 having, wherein the inlet opening 114 with the pump chamber 111 and the exit opening 113 with the heat exchange chamber 112 connected is.

5 shows the fourth embodiment of the water cooling device according to the invention 1 holding a main body 11 , an entrance opening 114 , an exit opening 113 and a heat conducting unit 14 includes.

The main body 11 has a recording room 11a on, which is a closed page 11b , an open page 11c and a partition plate 12 has. The recording room 11a is from the partition plate 12 in a pump chamber 111 and a heat exchange chamber 112 divided. The partition plate 12 has a connection hole 122 , The main body 11 takes a pump 13 on. The recording room 11a is with a coolant 2 filled. Through the connection hole 122 are the pump chamber 111 and the heat exchange chamber 112 connected with each other.

The entrance opening 114 is located on the closed side and is with the pump chamber 111 connected in which the pump 13 is arranged.

The outlet opening 113 is located on the side of the heat exchange chamber 112 of the main body 11 and is with the heat exchange chamber 112 connected.

The heat-conducting unit 14 has a heat receiving surface 141 and a heat releasing surface 142 on. The heat delivery surface 142 closes the open side 11c , The connection hole 122 the partition plate 12 is opposite the rotor 131 arranged eccentrically.

The pump 13 has a rotor 131 and a stator 132 on that together in the pump chamber 111 are arranged. The rotor 131 has an axis 1311 , a paddle wheel 1312 and at least one camp 1313 , The warehouse 1313 is with the paddle wheel 1312 connected. The axis 1311 is through the warehouse 1313 guided and with one end to the main body 11 attached. The paddle wheel 1312 has a variety of blades 1312a , The stator 132 owns a variety of steel sheets 1321 and a base plate 1322 , The steel sheets 1321 are stacked. To the steel sheets are windings 1323 placed. The steel sheets 1321 , the windings 1323 and the base plate 1322 be from a waterproofing layer 1324 enclosed.

6 shows the fifth embodiment of the invention, which differs from the fourth embodiment only in that the bearing 1313 with the main body 11 is connected, the axis 1311 through the camp 1313 guided and with the other end to the paddle wheel 1312 is attached.

7 shows the sixth embodiment of the invention, which differs from the fourth embodiment only in that the water cooling device 1 continue a lid 15 and an opening 11d includes. The lid 15 closes the opening 11d , making the closed page 11b is formed. The partition plate 12 is with the main body 11 formed in one piece.

In the third to sixth embodiments, the cooling liquid flows 2 through the entrance opening 114 in the pump chamber 111 and gets off the blades 1312a of the rotor 131 the pump 13 through the connection hole 122 in the heat exchange chamber 112 guided. The coolant 2 leads to the cooling element 143 in the heat exchange chamber 112 a heat exchange. Finally, the coolant flows 2 through the outlet 113 connected to the heat exchange chamber 112 is connected, from the main body 11 ,

8th shows the seventh embodiment of the invention, which differs from the fourth embodiment only in that the water cooling device 1 continue a heat sink 3 , a first pipe 4 and a second tube 5 includes. The heat sink 3 is through the first pipe 4 and the second tube 5 with the outlet 113 and the entrance opening 114 of the main body 11 connected. The heat sink 3 has a variety of cooling fins 31 and forms a variety of channels 32 through which the cooling fluid 2 can flow ( 2 ). The heat sink 3 is through the first pipe 4 and the second tube 5 with the outlet 113 and the entrance opening 114 of the main body 11 connected, causing the cooling fluid 2 through the heat sink 3 flows, so that the cooling effect is increased.

In the first to seventh embodiments, the heat conduction unit 14 made of copper, aluminum or another good conductor of heat. On the heat delivery surface 142 is a cooling element 143 arranged, which has a variety of cooling fins 1431 owns, between which channels 1432 are formed.

9 shows the eighth embodiment of the invention, which differs from the fourth embodiment only in that in place of the connection hole 122 the partition plate 12 an extension part 124 is formed, which with the cooling element 143 connected, causing the heat exchange chamber 112 a first cooling zone 1121 and a second cooling zone 1122 forms, wherein the first cooling zone 1121 above the cooling element 143 and the second cooling zone 1122 on the two sides of the cooling element 143 located.

When the coolant 2 through the connection hole 122 in the heat exchange chamber 112 flows, it first enters the first cooling zone 1121 and performs a first-stage heat exchange. Thereafter, the cooling liquid enters the second cooling zone 1122 and the channels 1432 and performs a two-stage heat exchange. Therefore, the cooling is two-stage, so that the cooling effect is significantly increased.

In the cooling device according to the invention 1 are the rotor 131 and the stator 132 the pump 13 together in the pump chamber 111 arranged. Ie. the pump 13 is in the coolant 2 dipped. Through the waterproof layer 1324 become the steel sheets 1321 , the base plate 1322 and the windings 1323 of the stator 132 protected. Because the waterproof layer 1324 is very thin, the distance between the stator 132 and the rotor 131 reduces, thereby avoiding magnetic loss, so that the efficiency of the pump 13 is increased.

10 shows a further embodiment of the pump of the invention. As in connection with the 1 to 9 it can be seen, the pump points 13 a rotor 131 and a stator 132 on. The stator 132 surrounds the rotor 131 , The pump 13 In this embodiment, the water cooling device is suitable for the above-mentioned embodiments. The rotor 131 and the stator 132 are together in the pump chamber 111 arranged. The rotor 131 has an axis 1311 , a paddle wheel 1312 and at least one camp 1313 ,

The warehouse 1313 is with the paddle wheel 1312 connected. The axis 1311 is through the warehouse 1313 guided and with one end to the main body 11 attached ( 1 to 9 ). The paddle wheel 1312 has a variety of blades 1312a , The stator 132 owns a variety of steel sheets 1321 and a base plate 1322 , The steel sheets 1321 are stacked. To the steel sheets are windings 1323 placed. The steel sheets 1321 , the windings 1323 and the base plate 1322 be from a waterproofing layer 1324 enclosed. The stator 132 has a central clearance 1325 , The paddle wheel 1312 has a basic body 1312b , The main body 1312b is in the central room 1325 arranged. Between the main body 1312b and the inner wall of the central space 1325 is a magnetic element 133 arranged.

In summary, it should be noted that the water cooling device according to the invention 1 has a simple structure and a good cooling effect. Because the stator 132 in the coolant 2 is dipped, it is cooled by the cooling liquid, whereby overheating of the stator is avoided, so that the life of the water cooling device 1 is extended.

Claims (15)

A water cooling device comprising a main body ( 11 ), which has a pump chamber ( 111 ) and a heat exchange chamber ( 112 ), which by a partition plate ( 12 ) are separated from each other, wherein the separating plate ( 12 ) a connecting part ( 121 ) through which the pump chamber ( 111 ) and the heat exchange chamber ( 112 ), wherein in the pump chamber ( 111 ) a pump ( 13 ), wherein in the heat exchange chamber ( 112 ) a heat conducting unit ( 14 ), wherein the pump chamber ( 111 ) and the heat exchange chamber ( 112 ) with a cooling liquid ( 2 ) are filled. Water cooling device according to claim 1, characterized in that the pump ( 13 ) a rotor ( 131 ) and a stator ( 132 ), which together in the pump chamber ( 111 ) are arranged, wherein the rotor ( 131 ) an axis ( 1311 ), a paddle wheel ( 1312 ) and at least one warehouse ( 1313 ), whereby the bearing ( 1313 ) with the main body ( 11 ), the axis ( 1311 ) through the warehouse ( 1313 ) and with one end on the paddle wheel ( 1312 ), the impeller ( 1312 ) a plurality of blades ( 1312a ), wherein the stator ( 132 ) a plurality of steel sheets ( 1321 ) and a base plate ( 1322 ), the steel sheets ( 1321 ) is stacked, with windings around the steel sheets ( 1323 ), the steel sheets ( 1321 ), the windings ( 1323 ) and the base plate ( 1322 ) of a waterproofing layer ( 1324 ) are enclosed. Water cooling device according to claim 1, characterized in that the pump ( 13 ) a rotor ( 131 ) and a stator ( 132 ), which together in the pump chamber ( 111 ) are arranged, wherein the rotor ( 131 ) an axis ( 1311 ), a paddle wheel ( 1312 ) and at least one warehouse ( 1313 ), whereby the bearing ( 1313 ) with the paddle wheel ( 1312 ), the axis ( 1311 ) through the warehouse ( 1313 ) and with the other end on the main body ( 1312 ), the impeller ( 1312 ) a plurality of blades ( 1312a ), wherein the stator ( 132 ) a plurality of steel sheets ( 1321 ) and a base plate ( 1322 ), the steel sheets ( 1321 ) is stacked, with windings around the steel sheets ( 1323 ), the steel sheets ( 1321 ), the windings ( 1323 ) and the base plate ( 1322 ) of a waterproofing layer ( 1324 ) are enclosed. Water cooling device according to claim 1, characterized in that the main body ( 11 ) an outlet opening ( 113 ) and an entrance opening ( 114 ), wherein the inlet opening ( 114 ) with the pump chamber ( 111 ) and the exit opening ( 113 ) with the heat exchange chamber ( 112 ) connected is. Water cooling device according to claim 1, characterized in that the heat conducting unit ( 14 ) made of copper, aluminum or another good heat conductor, wherein on the heat transfer surface ( 142 ) of the heat conducting unit ( 14 ) a cooling element ( 143 ) is arranged, which has a plurality of cooling fins ( 1431 ) between which channels ( 1432 ) are formed. Water cooling device according to claim 1, characterized in that the connecting part ( 121 ) a first communication hole ( 1211 ), a second connection hole ( 1212 ) and a connection channel ( 1213 ), wherein the connection channel ( 1213 ) with the second connection hole ( 1212 ), whereby the pump chamber ( 111 ) and the heat exchange chamber ( 112 ) are interconnected. Water cooling device according to claim 1, characterized in that the pump ( 13 ) a rotor ( 131 ) and a stator ( 132 ), wherein the stator ( 132 ) the rotor ( 131 ) and with this together in the pump chamber ( 111 ) is arranged, wherein the rotor ( 131 ) an axis ( 1311 ), a paddle wheel ( 1312 ) and at least one warehouse ( 1313 ), the bearing ( 1313 ) with the paddle wheel ( 1312 ), the axis ( 1311 ) through the warehouse ( 1313 ) and with one end on the main body ( 11 ), the impeller ( 1312 ) a plurality of blades ( 1312a ), wherein the stator ( 132 ) a plurality of steel sheets ( 1321 ) and a base plate ( 1322 ), the steel sheets ( 1321 ) are stacked, with windings around the steel sheets ( 1323 ), the steel sheets ( 1321 ), the Windings ( 1323 and the base plate ( 1322 ) of a waterproofing layer ( 1324 ), wherein the stator ( 132 ) a central clearance ( 1325 ), wherein the impeller ( 1312 ) a basic body ( 1312b ) located in the central area ( 1325 ) is arranged, wherein between the base body ( 1312b ) and the inner wall of the Zentralfreiraums ( 1325 ) a magnetic element ( 133 ) is arranged. A water cooling device comprising a main body ( 11 ), which has a receiving space ( 11a ) having a closed side ( 11b ), an open page ( 11c ) and a separating plate ( 12 ), wherein the receiving space ( 11a ) from the separating plate ( 12 ) in a pump chamber ( 111 ) and a heat exchange chamber ( 112 ), whereby the separating plate ( 12 ) a connection hole ( 122 ), the main body ( 11 ) a pump ( 13 ), an entrance opening ( 114 ), which is located on the closed side and with the pump chamber ( 111 ), in which the pump ( 13 ) is arranged, an outlet opening ( 113 ) located on the side of the heat exchange chamber ( 112 ) of the main body ( 11 ) and with the heat exchange chamber ( 112 ), a heat conducting unit ( 14 ) having a heat receiving surface ( 141 ) and a heat transfer surface ( 142 ), wherein the heat transfer surface ( 142 ) the open side ( 11c ), and a cooling liquid ( 2 ) located in the reception room ( 11a ) of the main body ( 11 ) is filled. Water cooling device according to claim 8, characterized in that the pump ( 13 ) a rotor ( 131 ) and a stator ( 132 ), which together in the pump chamber ( 111 ) are arranged, wherein the rotor ( 131 ) an axis ( 1311 ), a paddle wheel ( 1312 ) and at least one warehouse ( 1313 ), whereby the bearing ( 1313 ) with the main body ( 11 ), the axis ( 1311 ) through the warehouse ( 1313 ) and with one end on the paddle wheel ( 1312 ), the impeller ( 1312 ) a plurality of blades ( 1312a ), wherein the stator ( 132 ) a plurality of steel sheets ( 1321 ) and a base plate ( 1322 ), the steel sheets ( 1321 ) is stacked, with windings around the steel sheets ( 1323 ), the steel sheets ( 1321 ), the windings ( 1323 ) and the base plate ( 1322 ) of a waterproofing layer ( 1324 ) are enclosed. Water cooling device according to claim 8, characterized in that the pump ( 13 ) a rotor ( 131 ) and a stator ( 132 ), which together in the pump chamber ( 111 ) are arranged, wherein the rotor ( 131 ) an axis ( 1311 ), a paddle wheel ( 1312 ) and at least one warehouse ( 1313 ), whereby the bearing ( 1313 ) with the paddle wheel ( 1312 ), the axis ( 1311 ) through the warehouse ( 1313 ) and with the other end on the main body ( 1312 ), the impeller ( 1312 ) a plurality of blades ( 1312a ), wherein the stator ( 132 ) a plurality of steel sheets ( 1321 ) and a base plate ( 1322 ), the steel sheets ( 1321 ) is stacked, with windings around the steel sheets ( 1323 ), the steel sheets ( 1321 ), the windings ( 1323 ) and the base plate ( 1322 ) of a waterproofing layer ( 1324 ) are enclosed. Water cooling device according to claim 8, characterized in that the heat-conducting unit ( 14 ) made of copper, aluminum or another good heat conductor, wherein on the heat transfer surface ( 142 ) of the heat conducting unit ( 14 ) a cooling element ( 143 ) is arranged, which has a plurality of cooling fins ( 1431 ) between which channels ( 1432 ) are formed. Water cooling device according to claim 8, characterized in that the connection hole ( 122 ) of the separating plate ( 12 ) opposite the rotor ( 131 ) is arranged eccentrically. Water cooling device according to claim 8, characterized by a heat sink ( 3 ), a first pipe ( 4 ) and a second tube ( 5 ), wherein the heat sink ( 3 ) through the first tube ( 4 ) and the second tube ( 5 ) with the outlet opening ( 113 ) and the inlet opening ( 114 ) of the main body ( 11 ) connected is. Water cooling device according to claim 8, characterized by a lid ( 15 ) and an opening ( 11d ), the lid ( 15 ) the opening ( 11d ), whereby the closed side ( 11b ) is formed, wherein the separating plate ( 12 ) with the main body ( 11 ) is formed in one piece. Water cooling device according to claim 8, characterized in that the pump ( 13 ) a rotor ( 131 ) and a stator ( 132 ), wherein the stator ( 132 ) the rotor ( 131 ) and with this together in the pump chamber ( 111 ) is arranged, wherein the rotor ( 131 ) an axis ( 1311 ), a paddle wheel ( 1312 ) and at least one warehouse ( 1313 ), the bearing ( 1313 with the paddle wheel ( 1312 ), the axis ( 1311 ) through the warehouse ( 1313 ) and with one end to the main body 11 is attached, the paddle wheel ( 1312 ) a plurality of blades ( 1312a ), wherein the stator ( 132 ) a plurality of steel sheets ( 1321 ) and a base plate ( 1322 ), the steel sheets ( 1321 ) are stacked, with windings around the steel sheets ( 1323 ), the steel sheets ( 1321 ), the windings ( 1323 ) and the base plate ( 1322 ) of a waterproofing layer ( 1324 ), wherein the stator ( 132 ) a central clearance ( 1325 ), wherein the impeller ( 1312 ) a basic body ( 1312b ) located in the central area ( 1325 ) is arranged, wherein between the base body ( 1312b ) and the inner wall of the Zentralfreiraums ( 1325 ) a magnetic element ( 133 ) is arranged.

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