CN109688760A - Pumping, pumping combination and liquid cooling system - Google Patents

Abstract

A kind of pumping combination, includes multiple pumpings.Each pumping includes a pumping ontology, one first opening, one second opening, one first connector and one second connector.First opening and the second opening are located at around pumping ontology.First connector is set in the first opening.Second connector is set in the second opening.Pumping one of them the first connector can wherein another second connector be detachably connected with pumping so that each pumping can with it is any detachably connected in pumping.

Description

Pumping, pumping combination and liquid cooling system

Technical field

The present invention is about a kind of pumping, pumping combination and liquid cooling system, and espespecially one kind can be filled with another pumping or outside Set the pumping of assembly and disassembly.

Background technique

In general, liquid cooling system is mainly by multiple piping connection liquid cooling heads, radiator, pumping and liquid reserve tank institute structure At.Liquid cooling system is that coolant liquid is squeezed into liquid cooling head by pumping, coolant liquid absorbs electronics member when radiating to electronic component Heat caused by part, then coolant liquid is cooled down by radiator.Therefore, the output flow of pumping will will affect liquid cooling system Overall efficiency.It is single at present to pump the limitation for all having maximum output flow, if the overall efficiency of liquid cooling system to be increased, just needs Pumping used at present is changed to the pumping with larger output flow.It is not used only and above lacks flexibility, also will increase liquid cooling The setup cost of system.

Summary of the invention

The present invention provides and a kind of and can provide with the pumping of another pumping or external device (ED) assembly and disassembly and be installed with this pump The pumping combination at Pu and liquid cooling system, to solve the above problem.

According to an embodiment, pumping combination of the invention includes multiple pumpings.Each pumping includes pumping an ontology, one First opening, one second opening, one first connector and one second connector.First opening is located at the second opening pumps this Around body.First connector is set in the first opening.Second connector is set in the second opening.One of pumping First connector can wherein another second connector be detachably connected with pumping so that each pumping can in pumping It is any detachably connected.

Preferably, one of the first connector and the second connector can be a public fast access head, and the first connector and the Two connectors are wherein another for a female fast joint.

According to another embodiment, pumping of the invention includes a pumping ontology, one first opening, one second opening, one the A connection piece and one second connector.First opening is located at around pumping ontology.Second opening is located at the week of pumping ontology It encloses.First connector is set in the first opening.Second connector is set in the second opening.

Preferably, one of the first connector and the second connector can be a public fast access head, and the first connector and the Two connectors are wherein another for a female fast joint.

According to another embodiment, liquid cooling system of the invention includes a pumping and an external device (ED).Pumping includes a pump Pu ontology, one first opening, one second opening, one first connector and one second connector.First opening and the second opening Around pumping ontology.First connector is set in the first opening.Second connector is set in the second opening.It is external Device includes third opening and a third connector.Third connector is set in third opening.Third connector can be with One of first connector and the second connector are detachably connected, so that external device (ED) can be detachably connected with pumping.

Preferably, one of the first connector and the second connector can be a public fast access head, the first connector and second It is a female fast joint that connector is wherein another, and third connector can be a public fast access head or a female fast joint.

In conclusion can be mutual with other pumpings due to being all provided in the first opening and the second opening of each pumping Connection or disassembly the first connector and the second connector, therefore, the present invention can allow user according to required output flow oneself Row concatenates multiple pumpings.Particularly, the first connector and the second stud connector design can be mutually matched public fast access by the present invention Head and female fast joint so that user when assembly and disassembly pump more quickly with convenience.In addition, the present invention can connect third Fitting is set on external device (ED), such as liquid cooling head, radiator etc., and is that public fast access head or mother connect fastly by third stud connector design Head so that pumping of the invention also can be connected to external device (ED) according to practical application, and then forms liquid cooling system.

It can be obtained further by detailed description of the invention below and institute's accompanying drawings about the advantages and spirit of the present invention Solution.

Detailed description of the invention

Fig. 1 is the schematic diagram combined according to the pumping of one embodiment of the invention.

Fig. 2 is the schematic diagram of a pumping in Fig. 1.

Fig. 3 is the schematic diagram according to the pumping of another embodiment of the present invention.

Fig. 4 is the schematic diagram according to the pumping of another embodiment of the present invention.

Fig. 5 is the schematic diagram according to the pumping of another embodiment of the present invention.

Fig. 6 is the schematic diagram combined according to the pumping of another embodiment of the present invention.

Fig. 7 is the combined explosive view of the pumping in Fig. 6.

Fig. 8 is the explosive view of a pumping in Fig. 7.

Fig. 9 is sectional view of the pumping combination in Fig. 6 along X-X line.

Figure 10 is sectional view of the pumping combination in Fig. 6 along Y-Y line.

Figure 11 is the schematic diagram combined according to the pumping of another embodiment of the present invention.

Figure 12 is the combined explosive view of the pumping in Figure 11.

Figure 13 is the schematic diagram combined according to the pumping of another embodiment of the present invention.

Figure 14 is the schematic diagram according to the liquid cooling system of another embodiment of the present invention.

Figure 15 is the explosive view of the liquid cooling system in Figure 14.

Figure 16 is the schematic diagram according to the liquid cooling system of another embodiment of the present invention.

Figure 17 is the explosive view of the liquid cooling system in Figure 16.

Figure 18 is sectional view of the liquid cooling system in Figure 16 along Z-Z line.

Figure 19 is the schematic diagram according to the liquid cooling system of another embodiment of the present invention.

Figure 20 is the explosive view of the liquid cooling system in Figure 19.

Figure 21 is sectional view of the liquid cooling system in Figure 19 along W-W line.

Wherein appended drawing reference are as follows:

1,5,6,6' pumping combination

7,8,9 liquid cooling system

10,20,30,40,50 pumping

70,80,90 external device (ED)

100,500 pumping ontology

102,502 first opening

104,504 second opening

106,506 first connector

108,508 second connector

200,510,610 first electrical contact

202,512,612 second electrical contact

300 sensors

400 luminescence units

514 circuit boards

516 power connectors

518,918 guide posts

520,820 guide hole

522,822 release button

524,824 first elastic component

526,826 through-hole

528,828 second elastic component

530,830 gasket

600 rotating members

602,5220,8220 holding section

604 grooves

606,5180,9180 card slot

700,800,900 thirds are open

702,802,902 third connector

A arrow

X-X, Y-Y, Z-Z, W-W hatching

Specific embodiment

Fig. 1 and Fig. 2 is please referred to, Fig. 1 is according to the schematic diagram of the pumping combination 1 of one embodiment of the invention, Fig. 2 Fig. 1 In one pumping 10 schematic diagram.

As shown in Figures 1 and 2, pumping combination 1 includes multiple pumpings 10.Each pumping 10 comprising one pumping ontology 100, One first opening, 102, one second 104, one first connector 106 of opening and one second connector 108.First opening 102 with Second opening 104 is located at around pumping ontology 100.In this embodiment, the first opening 102 can be an outlet, and second opens Mouth 104 can be an entrance；In another embodiment, the first opening 102 can be an entrance, and the second opening 104 can be an outlet. First connector 106 is set in the first opening 102, and the second connector 108 is set in the second opening 104.Whereby, it pumps 10 one of them the first connector 106 can wherein another second connector 108 be detachably connected with pumping 10 so that often One pumping 10 can with pumping 10 in it is any detachably connected, as shown in Figure 1.

In other words, being open on 104 due to the first opening 102 of each pumping 10 with second, be all provided with can be with other pumps Pu 10 is connected with each other or the first connector 106 and the second connector 108 of disassembly, and therefore, the present invention can allow user according to institute The output flow needed voluntarily concatenates multiple pumpings 10.Pumping in Fig. 1 is combined 1 system and is connected by three pumpings 10 via corresponding first Fitting 106 is concatenated with the second connector 108.However, user also can voluntarily concatenate two according to required output flow Or three or more pumpings 10.

Pumping combination 1 of the invention can be applied to liquid cooling system, and but not limited to this.It should be noted that pumping 10 pump The internal structure of Pu ontology 100 and its action principle system are known to the people of prior art, and details are not described herein.In addition, each First opening 102 of a pumping 10 can be determined with the second be open 104 quantity with position according to practical application, not with institute in scheming The embodiment being painted is limited.For example, pumping 10 can also have more than two first openings 102 and/or the second opening 104, depending on practical application.When pumping 10 has more than two first openings 102 and/or the second opening 104, each It all may be provided with first connector 106 in first opening 102, and all may be provided with one in each second opening 104 Second connector 108.In this embodiment, the first opening 102 and the second 104 systems of opening are located at adjacent the two of pumping ontology 100 On face.However, the first opening 102 and the second opening 104 may also be at opposite the two of pumping ontology 100 in another embodiment On face.

In this embodiment, one of the first connector 106 and the second connector 108 can be a public fast access head, and the A connection piece 106 and the second connector 108 are wherein another for a female fast joint.In other words, the present invention can be by the first connector 106 and second connector 108 be designed as mutually matched public fast access head and female fast joint so that user pumps in assembly and disassembly When Pu 10 more quickly with convenience.In some embodiments, for realizing the fast of the first connector 106 and the second connector 108 Connector can have to be connect or the structure of Quick Release fastly, and there is pumping 10 work in pumping 10 is prevented in engagement or disassembly The structure of fluid (for example, water cooling liquid) outflow.In other embodiments, the first connector 106 and the second connector 108 It can be designed in a manner of screwing togather.

In this embodiment, 100 system of pumping ontology of each pumping 10 is in regular polygon (for example, square, positive five side Shape, regular hexagon etc.).Therefore, user can pump 10 via corresponding first for multiple similar to building blocks or the mode of picture mosaic Connector 106 and the second connector 108 are concatenated into neat or special external form.However, in another embodiment, each pumping 10 pumping ontology 100 also can be in arbitrary polygon, circle or other shapes, be not limited with regular polygon.In addition, each is pumped The shape of the pumping ontology 100 at Pu 10 may be the same or different, depending on practical application.

Referring to Fig. 3, Fig. 3 is the schematic diagram according to the pumping 20 of another embodiment of the present invention.Pumping 20 and above-mentioned pump It is in place of the main difference at Pu 10, pumping 20 additionally comprises one first electrical contact 200 and one second electrical contact 202, such as Shown in Fig. 3.In this embodiment, the first electrical contact 200 is set on the first connector 106, and the second electrical contact 202 is right The first electrical contact 200 is answered to be set on the second connector 108.However, the first electrical contact 200 is also in another embodiment May be disposed at neighbouring first opening 102, and corresponding first electrical contact 200 of the second electrical contact 202 also may be disposed at it is neighbouring At second opening 104.In other words, the first electrical contact 200 is optionally set on the first connector 106 or adjacent to first It is open at 102, and corresponding first electrical contact 200 of the second electrical contact 202 is optionally set on the second connector 108 Or at neighbouring second opening 104, it is not limited with embodiment depicted in Fig. 3.When a pumping 20 the first connector 106 with it is another When the second connector 108 connection of one pumping 20, the first electrical contact 200 and the second electrical contact 202 of two pumpings 20 It will form electric connection.Therefore, as long as a pumping 20 in multiple pumpings 20 being serially connected is powered, other pumpings 20 Power supply can be obtained via the first electrical contact 200 and the second electrical contact 202.Whereby, the present invention can further save pumping 20 wiring space.It should be noted that in Fig. 3 label identical as shown in Fig. 2 element, action principle is roughly the same, This is repeated no more.

Referring to Fig. 4, Fig. 4 is the schematic diagram according to the pumping 30 of another embodiment of the present invention.Pumping 30 and above-mentioned pump It is in place of the main difference at Pu 10, pumping 30 additionally comprises a sensor 300, as shown in Figure 4.300 system of sensor is to sense Flow, pressure and/or the temperature of a working fluid (not shown) in pumping 30.In other words, sensor 300 can be flow sensing Device, pressure sensor, temperature sensor can sense two multifunctional sensing of flow, pressure and temperature at least within simultaneously Device.Certainly, flow sensor, pressure sensor and temperature sensor can be also arranged in the present invention in pumping 30, to sense respectively Flow, pressure and temperature.In practical application, sensor 300 be may be disposed at neighbouring first opening 102, neighbouring second is open Other appropriate locations at 104 or in pumping ontology 100.It should be noted that in Fig. 4 label identical as shown in Fig. 2 element, Its action principle is roughly the same, and details are not described herein.

Referring to Fig. 5, Fig. 5 is the schematic diagram according to the pumping 40 of another embodiment of the present invention.Pumping 40 and above-mentioned pump It is in place of the main difference at Pu 10, pumping 40 additionally comprises a luminescence unit 400, as shown in Figure 5.In this embodiment, shine Unit 400 may be disposed at the appropriate location around pumping ontology 100.The light that user can issue according to luminescence unit 400 is fast Speed learns the position of pumping 40.In addition, the present invention also issues the light of particular color using luminescence unit 400, to increase Add visual effect.In practical application, luminescence unit 400 can be light emitting diode, striation or other light sources.It should be noted that The element of label identical as shown in Fig. 2 in Fig. 5, action principle is roughly the same, and details are not described herein.

Fig. 6 to Figure 10 is please referred to, Fig. 6 is according to the schematic diagram of the pumping combination 5 of another embodiment of the present invention, Fig. 7 Fig. 6 In pumping combination 5 explosive view, Fig. 8 be Fig. 7 in one pumping 50 explosive view, Fig. 9 be Fig. 6 in pumping combine 5 edges The sectional view of X-X line, Figure 10 are sectional view of the pumping combination 5 in Fig. 6 along Y-Y line.

As shown in Fig. 6 to Figure 10, pumping combination 5 includes multiple pumpings 50.Each pumping 50 includes a pumping ontology 500, one first opening, 502, one second 504, one first connector 506 of opening and one second connector 508.First opening 502 and second are open 504 around pumping ontology 500.In this embodiment, the first opening 502 can be an outlet, and the Two openings 504 can be an entrance；In another embodiment, the first opening 502 can be an entrance, and the second opening 504 can be one Outlet.First connector 506 is set in the first opening 502, and the second connector 508 is set in the second opening 104.By This, pumping 50 one of them the first connector 506 can wherein another the second connector 508 removably connects with pumping 50 Connect so that each pumping 50 can with pumping 50 in it is any detachably connected, as shown in the 6th, 9,10 figures.

In other words, being open on 504 due to the first opening 502 of each pumping 50 with second, be all provided with can be with other pumps Pu 50 is connected with each other or the first connector 506 and the second connector 508 of disassembly, and therefore, the present invention can allow user according to institute The output flow needed voluntarily concatenates multiple pumpings 50.Pumping in Fig. 6 is combined 5 systems and is connected by two pumpings 50 via corresponding first Fitting 506 is concatenated with the second connector 508.However, user also can voluntarily concatenate two according to required output flow Above pumping 50.

Pumping combination 5 of the invention can be applied to liquid cooling system, and but not limited to this.It should be noted that pumping 50 pump The internal structure of Pu ontology 500 and its action principle system are known to the people of prior art, and details are not described herein.In addition, each First opening 502 of a pumping 50 can be determined with the second be open 504 quantity with position according to practical application, not with institute in scheming The embodiment being painted is limited.For example, pumping 50 can also have more than two first openings 502 and/or the second opening 504, depending on practical application.When pumping 50 has more than two first openings 502 and/or the second opening 504, each It all may be provided with first connector 506 in first opening 502, and all may be provided with one in each second opening 504 Second connector 508.In this embodiment, the first opening 502 and the second 504 systems of opening are located at adjacent the two of pumping ontology 500 On face.However, the first opening 502 and the second opening 504 may also be at opposite the two of pumping ontology 500 in another embodiment On face.

In this embodiment, one of the first connector 506 and the second connector 508 can be a public fast access head, and the A connection piece 506 and the second connector 508 are wherein another for a female fast joint.In other words, the present invention can be by the first connector 506 and second connector 508 be designed as mutually matched public fast access head and female fast joint so that user pumps in assembly and disassembly When Pu 50 more quickly with convenience.As shown in Fig. 6 to Figure 10, the first connector 506 is a female fast joint, and the second connector 508 be a public fast access head.In some embodiments, for realizing that the fast joint of the first connector 506 and the second connector 508 can It is connect fastly or the structure of Quick Release with having, and there is pumping 50 to prevent the working fluid in pumping 50 in engagement or disassembly The structure of (for example, water cooling liquid) outflow.In other embodiments, the first connector 506 and the second connector 508 can also be with It is designed in a manner of screwing togather.

In this embodiment, 500 system of pumping ontology of each pumping 50 is in regular polygon (for example, square, positive five side Shape, regular hexagon etc.).Therefore, user can pump 50 via corresponding first for multiple similar to building blocks or the mode of picture mosaic Connector 506 and the second connector 508 are concatenated into neat or special external form.However, in another embodiment, each pumping 50 pumping ontology 500 also can be in arbitrary polygon, circle or other shapes, be not limited with regular polygon.In addition, each is pumped The shape of the pumping ontology 500 at Pu 50 may be the same or different, depending on practical application.

In this embodiment, each pumping 50 can additionally comprise one first electrical contact 510 and one second electrical contact 512.As shown in fig. 7, the first electrical contact 510 is positioned adjacent at the first opening 502, and the second electrical contact 512 corresponding the One electrical contact 510 is positioned adjacent at the second opening 504.In addition, each pumping 50 can additionally comprise a circuit board 514 and One power connector 516.It is set in pumping ontology 500 as shown in figure 9, circuit board 514 connects to power supply device 516, wherein electricity Source connector 516, the first electrical contact 510 and the second electrical contact 512 are electrically connected at circuit board 514.

When the first connector 506 of a pumping 50 is connect with the second connector 508 of another pumping 50, two pumps First electrical contact 510 and the second electrical contact 512 at Pu 50 will form electric connection.User can will connect to power supply Power supply line (not shown) is connected to power connector 516, so that power supply can be supplied to first to be electrically connected with via power connector 516 Point 510 and the second electrical contact 512.Therefore, other as long as a pumping 50 in multiple pumpings 50 being serially connected is powered Pumping 50 can obtain power supply via the first electrical contact 510 and the second electrical contact 512.Whereby, the present invention can be saved further Save the wiring space of pumping 50.

In this embodiment, each pumping 50 can additionally comprise a guide posts 518 and a guide hole 520.Such as Fig. 7 institute Show, each pumping 50 includes two guide posts 518 and two guide holes 520.Guide posts 518 are set on pumping ontology 500 And neighbouring first connector 506.Guide hole 520 is formed on pumping ontology 500 and neighbouring second connector 508.Work as user When being intended to for two pumpings 50 being serially connected, guide posts 518 can be inserted in guide hole 520 by user, with one pump of connection Second connector 508 of first connector 506 and another pumping 50 at Pu 50.As shown in Figure 10, when the of a pumping 50 When a connection piece 506 is connect with another 50 second connector 508,518 system of guide posts is inserted in corresponding guide hole 520 In.In other words, guide posts 518 can assist user more quick when two pumpings 50 are serially connected with guide hole 520 With convenience.

In this embodiment, each pumping 50 can additionally comprise a release button 522 and one first elastic component 524.Such as Shown in Fig. 8, each pumping 50 includes two release buttons 522 and two the first elastic components 524.First elastic component 524 can be Spring, but not limited to this.As shown in Figure 10, release button 522 is movably arranged on pumping ontology 500, and the first bullet Property part 524 be connected to release button 522 and pumping ontology 500 between.Release button 522 has a holding section 5220.One through-hole 526 are formed on pumping ontology 500 and are connected to guide hole 520.The holding section 5220 of release button 522 is inserted in through-hole 526 And pass through guide hole 520.Guide posts 518 have a card slot 5180.

As shown in Figure 10, when guide posts 518 are inserted in guide hole 520, the holding section 5220 of release button 522 is meeting Engage with the card slot 5180 of guide posts 518.Whereby, when two pumpings 50 are by the first connector 506 and 508 phase of the second connector When connecting, since the holding section 5220 of release button 522 and the card slot 5180 of guide posts 518 are formed by snap-fit relationship, two A pumping 50 just will not be mutually disengaged.If user is intended to disassemble by two pumpings 50, user can press towards the direction of arrow A Release button 522 is pressed, so that the holding section 5220 of release button 522 is detached from the card slot 5180 of guide posts 518.Work as release button When 522 holding section 5220 is detached from the card slot 5180 of guide posts 518, the first connector 506 can be connect by user with second Part 508 is separated from each other, and two pumpings 50 are disassembled.It should be noted that when user presses release button 522, first Elastic component 524 can be released the compression of button 522.When user unclamps release button 522, the first elastic component 524 can generate one Elastic force, by 522 pushed home of release button.

In this embodiment, each pumping 50 additionally comprises one second elastic component 528.Second elastic component 528, which is set to, leads In pilot hole 520.As shown in figure 8, each pumping 50 includes two the second elastic components 528.Second elastic component 528 can be spring, But not limited to this.As shown in Figure 10, when guide posts 518 are inserted in guide hole 520, the second elastic component 528 is directed to column 518 compressions.When release button 522 is pressed, and holding section 5220 is made to be detached from the card slot 5180 of guide posts 518, the second elastic component 528 generate an elastic force, and guide posts 518 are released guide hole 520.Whereby, user can easily divide pumping 50 each other From.

In this embodiment, each pumping 50 additionally comprises a gasket 530.Gasket 530 is selectively arranged at the first company On one of fitting 506 and the second connector 508.As shown in fig. 7, gasket 530 is set on the second connector 508.However, In another embodiment, gasket 530 also be may be disposed on the first connector 506.As shown in Figures 9 and 10, when the first connector 506 with the second connector 508 when connecting, and gasket 530 is connected between the first connector 506 and the second connector 508, to prevent Working fluid (for example, coolant liquid) self- pomped 50 leaks.

Figure 11 and Figure 12 is please referred to, Figure 11 is according to the schematic diagram of the pumping combination 6 of another embodiment of the present invention, Figure 12 For the explosive view of the pumping combination 6 in Figure 11.The main difference place that pumping combination 6 combines 5 with above-mentioned pumping is, pumps Each of combination 6 pumping 60 additionally comprises a rotating member 600.As shown in Figure 11 and Figure 12, each pumping 60 includes two Rotating member 600.Rotating member 600 is rotatablely arranged on pumping ontology 500, and rotating member tool 600 has a holding section 602.This Outside, a groove 604 is formed on pumping ontology 500, and groove 604 has a card slot 606.In this embodiment, when the first company When fitting 506 is connect with the second connector 508, the part of rotating member 600 is placed in corresponding groove 604.When rotating member 600 Part when being placed in groove 604, rotating member 600 can be rotated, so that holding section 602 engages or is detached from card slot 606.

For example, when the first connector 506 is connect with the second connector 508, and the part of rotating member 600 be placed in it is recessed When in slot 604, user can be rotated rotating member 600, so that holding section 602 engages with card slot 606.Due to the card of rotating member 600 Be formed by snap-fit relationship between conjunction portion 602 and the card slot 606 of groove 604, two pumpings 60 can by the first connector 506 with Second connector 508 is connected with each other, and will not be mutually disengaged.If user is intended to disassemble by two pumpings, user can turn Turn moving part 600, so that holding section 602 and card slot 606 are detached from.When the card slot of the holding section of rotating member 600 602 and groove 604 606 when being detached from, and two can be pumped and 60 be disassembled by the first connector 506 of separation and the second connector 508 by user Come.In other words, the present invention replaces above-mentioned guide posts 518 and guide hole 520 with rotating member 600 and groove 604, to reach identical Function.It should be noted that action principle is substantially with the element of the 6th to 10 identical label as shown in the figure in the 11st to 12 figure Identical, details are not described herein.

Figure 13 is please referred to, Figure 13 is the schematic diagram according to the pumping combination 6' of another embodiment of the present invention.Pumping combination 6' The main difference place that 6 are combined with above-mentioned pumping is that each of pumping combination 6' pumping 60 additionally comprises one first electricity Property contact 610 and one second electrical contact 612.In this embodiment, the first electrical contact 610 and the second electrical contact 612 It is rounded.As shown in figure 13, the first electrical contact 610 is positioned adjacent at the first opening 502, and the second electrical contact 612 is right The first electrical contact 610 is answered to be positioned adjacent at the second opening 504.When the first connector 506 and pump of one of pumping 60 Pu 60 wherein another second connector 508 connection when, the first electrical contact 610 and the second electrical contact of two pumpings 60 612 will form electric connection.Therefore, as long as one of two pumpings 60 being serially connected are powered, other pumpings 60 are Power supply can be obtained via the first electrical contact 610 and the second electrical contact 612.Whereby, the present invention can further save pumping 60 Wiring space.It should be noted that in Figure 13 with the element of the 11st to 12 identical label as shown in the figure, action principle substantially phase Together, details are not described herein.

It should be noted that the first electrical contact 610 and the second electrical contact 612 can be by an at least signal wire and at least one Source line group is at wherein whether signal wire electrically connects to detect the first electrical contact 610 and the second electrical contact 612 and formed It connects, and power supply line is to supply power supply between the first electrical contact 610 and the second electrical contact 612.Due to the first electrical contact 610 is rounded with the second electrical contact 612, and two pumpings interconnected 60 can relatively rotate, and the first electrical contact 610 with Second electrical contact 612 can keep good electric connection.

Figure 14 and Figure 15 is please referred to, Figure 14 is according to the schematic diagram of the liquid cooling system 7 of another embodiment of the present invention, Figure 15 For the explosive view of the liquid cooling system 7 in Figure 14.As shown in Figure 14 and Figure 15, liquid cooling system 7 includes outside a pumping 50 and one Device 70.It should be noted that pumping 50 structure design department as described above, details are not described herein.External device (ED) 70 includes one the Three openings 700 and a third connector 702.As shown in figure 15, the third connector 702 of external device (ED) 70 is set to third and opens On mouth 700.Whereby, the third connector 702 of external device (ED) 70 can be detachably connected with the second connector 508 of pumping 50, So that external device (ED) 70 can be detachably connected with pumping 50, as shown in figure 14.

In this embodiment, the second opening 504 can be an outlet, and third opening 700 can be an entrance；In another implementation In example, the second opening 504 can be an entrance, and third opening 700 can be an outlet.In addition, external device (ED) 70 can be a heat dissipation Device, but not limited to this.Furthermore according to the pattern of the second connector 508, third connector 702 can be a public fast access head or one Female fast joint.For example, as shown in figure 15, since the second connector 508 of pumping 50 is a public fast access head, third Connector 702 is accordingly a female fast joint.

Figure 16 to Figure 18 is please referred to, Figure 16 is according to the schematic diagram of the liquid cooling system 8 of another embodiment of the present invention, Tu17Wei The explosive view of liquid cooling system 8 in Figure 16, Figure 18 are sectional view of the liquid cooling system 8 in Figure 16 along Z-Z line.Such as Figure 16 to Figure 18 Shown, liquid cooling system 8 includes a pumping 50 and an external device (ED) 80.It should be noted that pump 50 structure design department it is as above Described, details are not described herein.External device (ED) 80 includes third opening 800 and a third connector 802.As shown in figure 17, Third connector 802 is set in third opening 800.Whereby, the third connector 802 of external device (ED) 80 can be with the of pumping 50 A connection piece 506 is detachably connected, so that external device (ED) 80 can be detachably connected with pumping 50, as shown in figure 16.

In this embodiment, the first opening 502 can be an outlet, and third opening 800 can be an entrance；In another implementation In example, the first opening 502 can be an entrance, and third opening 700 can be an outlet.In addition, external device (ED) 80 can be a liquid cooling Head, but not limited to this.Furthermore according to the pattern of the first connector 506, third connector 802 can be a public fast access head or one Female fast joint.For example, as shown in figure 17, since the first connector 506 of pumping 50 is a female fast joint, third Connector 802 is accordingly a public fast access head.

In this embodiment, external device (ED) 80 can additionally comprise a guide hole 820.As shown in figure 17, external device (ED) 80 includes Two guide holes 820.Guide hole 820 is formed at neighbouring third connector 802.When user is intended to that 50 and external device (ED) 80 will be pumped When being serially connected, the guide posts 518 for pumping 50 can be inserted in the guide hole 820 of external device (ED) 80 by user, with connection The third connector 802 of first connector 506 and external device (ED) 80 of pumping 50.As shown in figure 18, first when pumping 50 connects When fitting 506 is connect with the third connector 802 of external device (ED) 80,518 system of guide posts is inserted in corresponding guide hole 820. In other words, guide posts 518 and guide hole 820 can assist user when that will pump 50 and external device (ED) 80 is serially connected more Quickly with convenience.

In this embodiment, external device (ED) 80 can additionally comprise a release button 822 and one first elastic component 824.Such as figure Shown in 18, external device (ED) 80 includes two release buttons 822 and two the first elastic components 824.First elastic component 824 can be bullet Spring, but not limited to this.Release button 822 is movably arranged on external device (ED) 80, and the first elastic component 824 is connected to and releases It puts between button 822 and external device (ED) 80.Release button 822 has a holding section 8220.One through-hole 826 is formed in external device (ED) On 80 and it is connected to guide hole 820.The holding section 8220 of release button 822 is inserted in through-hole 826 and by guide hole 820.

As shown in figure 18, when the guide posts 518 for pumping 50 are inserted in the guide hole 820 of external device (ED) 80, release is pressed The holding section 8220 of button 822 can engage with the card slot 5180 of guide posts 518.Whereby, when pumping 50 with external device (ED) 80 by Holding section 8220 and guide posts 518 when first connector 506 is connected with each other with third connector 802, due to release button 822 Card slot 5180 be formed by snap-fit relationship, pumping 50 just will not be mutually disengaged with external device (ED) 80.If user is intended to that 50 will be pumped It disassembles to come with external device (ED) 80, user can press release button 822 towards the direction of arrow A, so that the card of release button 822 The card slot 5180 of the disengaging of conjunction portion 8220 guide posts 518.When the holding section of release button 822 8220 is detached from the card slot of guide posts 518 When 5180, the first connector 506 can be separated from each other by user with third connector 802, will pump 50 and external device (ED) 80 disassemble.It should be noted that first elastic component 824 can be released the pressure of button 822 when user presses release button 822 Contracting.When user unclamps release button 822, the first elastic component 824 can generate an elastic force, and release button 822 is pushed back It is in situ.

In this embodiment, external device (ED) 80 can additionally comprise one second elastic component 828.Second elastic component 828, which is set to, leads In pilot hole 820.As shown in figure 18, external device (ED) 80 includes two the second elastic components 828.Second elastic component 828 can be spring, but It is not limited.When the guide posts 518 for pumping 50 are inserted in the guide hole 820 of external device (ED) 80,828 quilt of the second elastic component Guide posts 518 are compressed.When release button 822 is pressed, and holding section 8220 is made to be detached from the card slot 5180 of guide posts 518, second Elastic component 828 generates an elastic force, and guide posts 518 are released guide hole 820.Whereby, user will can pump 50 easily It is separated from each other with external device (ED) 80.

In this embodiment, external device (ED) 80 can additionally comprise a gasket 830.Gasket 830 is set to third connector 802 On.As shown in figure 18, when the first connector 506 is connect with third connector 802, gasket 830 is connected to the first connector 506 Between third connector 802, to prevent working fluid (for example, coolant liquid) self- pomped 50 and external device (ED) 80 from leaking.

Figure 19 to Figure 21 is please referred to, Figure 19 is according to the schematic diagram of the liquid cooling system 9 of another embodiment of the present invention, Tu20Wei The explosive view of liquid cooling system 9 in Figure 19, Figure 21 are sectional view of the liquid cooling system 9 in Figure 19 along W-W line.Such as Figure 19 to Figure 21 Shown, liquid cooling system 9 includes a pumping 50 and an external device (ED) 90.It should be noted that pump 50 structure design department it is as above Described, details are not described herein.External device (ED) 90 includes third opening 900 and a third connector 902.As shown in figure 20, Third connector 902 is set in third opening 900.Whereby, the third connector 902 of external device (ED) 90 can be with the of pumping 50 Two connectors 508 are detachably connected, so that external device (ED) 90 can be detachably connected with pumping 50, as shown in figure 19.

In this embodiment, the second opening 504 can be an outlet, and third opening 900 can be an entrance；In another implementation In example, the second opening 504 can be an entrance, and third opening 900 can be an outlet.In addition, external device (ED) 90 can be a liquid storage Case, to store a coolant liquid (for example, water, oil etc.), but not limited to this.Furthermore according to the pattern of the second connector 508, Third connector 902 can be a public fast access head or a female fast joint.For example, as shown in figure 20, due to the second of pumping 50 Connector 508 is a public fast access head, and therefore, third connector 902 is accordingly a female fast joint.

In this embodiment, external device (ED) 90 can additionally comprise a guide posts 918.As shown in figure 20, external device (ED) 90 includes Two guide posts 918.Guide posts 918 are positioned adjacent at third connector 902.When user is intended to that 50 and external device (ED) 90 will be pumped When being serially connected, the guide posts 918 of external device (ED) 90 can be inserted in the guide hole 520 of pumping 50 by user, to connect pump The third connector 902 of second connector 508 and external device (ED) 90 at Pu 50.As shown in figure 21, when the second connection of pumping 50 When part 508 is connect with the third connector 902 of external device (ED) 90, guide posts 918 are inserted in corresponding guide hole 520.Change speech It, guide posts 918 and guide hole 520 can assist user will pump 50 be serially connected with external device (ED) 90 when it is more quick With convenience.

In this embodiment, guide posts 918 have a card slot 9180.As shown in figure 21, when the guide posts of external device (ED) 90 918 when being inserted in the guide hole 520 of pumping 50, and the holding section 5220 of release button 522 i.e. can be with the card slot of guide posts 918 9180 engagings.Whereby, when pumping 50 and external device (ED) 90 is connected with each other by the second connector 508 with third connector 902, Since the holding section 5220 of release button 522 and the card slot 9180 of guide posts 918 are formed by snap-fit relationship, pumping 50 and outside Device 90 just will not be mutually disengaged.If user is intended to will to pump 50 and disassembles to come with external device (ED) 90, user can be towards the side of arrow A To pressing release button 522, so that the holding section 5220 of release button 522 is detached from the card slot 9180 of guide posts 918.When release is pressed When the holding section 5220 of button 522 is detached from the card slot 9180 of guide posts 918, user can connect the second connector 508 with third Fitting 902 is separated from each other, and will be pumped 50 and be disassembled to come with external device (ED) 90.It should be noted that when user presses release button When 522, the first elastic component 524 can be released the compression of button 522.When user unclamps release button 522, the first elastic component 524 An elastic force can be generated, by 522 pushed home of release button.

In addition, when in the guide hole 520 that the guide posts 918 of external device (ED) 90 are inserted in pumping 50, the second elastic component 528 It is directed to the compression of column 918.When release button 522 is pressed, and holding section 5220 is made to be detached from the card slot 9180 of guide posts 918, the Two elastic components 528 generate an elastic force, and guide posts 918 are released guide hole 520.Whereby, user can be easily by pumping 50 are separated from each other with external device (ED) 90.

As shown in figure 21, when the second connector 508 is connect with third connector 902, gasket 530 is connected to the second connection Between part 508 and third connector 902, to prevent working fluid (for example, coolant liquid) self- pomped 50 and external device (ED) 90 from leaking.

In conclusion can be mutual with other pumpings due to being all provided in the first opening and the second opening of each pumping Connection or disassembly the first connector and the second connector, therefore, the present invention can allow user according to required output flow oneself Row concatenates multiple pumpings.Particularly, the first connector and the second stud connector design can be mutually matched public fast access by the present invention Head and female fast joint so that user when assembly and disassembly pump more quickly with convenience.In addition, the present invention can will be electrically connected with Point is set on connector or the/the second opening of neighbouring first opening, to save the wiring space of pumping.Furthermore this hair It is bright sensor to be set in pumping, to sense flow, pressure and/or temperature.What is more, the present invention can set luminescence unit It is placed in around pumping, to generate specific visual effect.In addition, third connector can be set to external device (ED) by the present invention On, such as liquid cooling head, radiator etc., and be public fast access head or female fast joint by third stud connector design, so that pump of the invention Pu also can be connected to external device (ED) according to practical application, and then form liquid cooling system.

The foregoing is merely presently preferred embodiments of the present invention, all equivalent changes done according to scope of the present invention patent with Modification, is all covered by the present invention.

Claims (36)

1. a pump combination, is characterized in that, comprises: a plurality of pumps, each of which includes a pump body, a first opening, a second opening, a first connecting piece and a second connecting piece, the first opening and the second opening are located in the pump Around the pump body, the first connector is arranged on the first opening, the second connector is arranged on the second opening, and the first connector of one of the pumps can be connected to the pump The other of the second connectors is detachably connected so that each of the pumps can be detachably connected to any of the pumps. 2 . The pump assembly of claim 1 , wherein one of the first connector and the second connector is a male quick connector, and the first connector and the second connector are The other is a female quick connector. 3 . The pump assembly of claim 1 , wherein the pump body of each pump is a regular polygon. 4 . 4. The pump combination of claim 1, wherein each of the pumps further comprises a first electrical contact and a second electrical contact, the first electrical contact is selectively disposed on the On the first connector or adjacent to the first opening, the second electrical contact is selectively disposed on the second connector or adjacent to the second opening corresponding to the first electrical contact. When the first connection When the connecting element is connected to the second connecting element, the first electrical contact and the second electrical contact are electrically connected. 5 . The pump assembly of claim 4 , wherein the first electrical contact and the second electrical contact are circular. 6 . 6. The pump assembly of claim 4, wherein each of the pumps further comprises a circuit board and a power connector, the circuit board and the power connector are disposed in the pump body, the The power connector, the first electrical contact and the second electrical contact are electrically connected to the circuit board. 7. The pump combination of claim 1, wherein each of the pumps further comprises a sensor for sensing the flow rate, pressure and/or temperature of a working fluid in the pump. 8 . The pump assembly of claim 1 , wherein each of the pumps further comprises a light-emitting unit disposed around the pump body. 9 . 9 . The pump assembly of claim 1 , wherein each of the pumps further comprises a guide post and a guide hole, the guide post is disposed on the pump body and adjacent to the first pump body. 10 . A connecting piece, the guide hole is formed on the pump body and adjacent to the second connecting piece, when the first connecting piece is connected with the second connecting piece, the guide post is inserted into the guide hole. 10. The pump assembly of claim 9, wherein each of the pumps further comprises a release button and a first elastic member, the release button is movably disposed on the pump body, the first An elastic piece abuts between the release button and the pump body, the release button has an engaging portion, a through hole is formed on the pump body and communicates with the guide hole, and the engaging portion is inserted into the pump body In the through hole and through the guide hole, the guide post has a slot, and when the guide post is inserted into the guide hole, the engagement portion is engaged with the slot. 11. The pump assembly of claim 10, wherein each of the pumps further comprises a second elastic member, the second elastic member is disposed in the guide hole, and when the guide post is inserted When in the guide hole, the second elastic member is compressed by the guide post, and when the release button is pressed to make the engaging portion disengage from the slot, the second elastic member generates an elastic force to release the The guide post pushes out the guide hole. 12. The pump assembly of claim 1, wherein each of the pumps further comprises a rotating member, the rotating member is rotatably disposed on the pump body, and the rotating member has an engaging portion , a groove is formed on the pump body, the groove has a slot, when the first connecting piece is connected with the second connecting piece, a part of the rotating piece is accommodated in the groove, when the first connecting piece is connected with the second connecting piece When the part of the rotating member is accommodated in the groove, the rotating member can be rotated so that the engaging portion is engaged with or disengaged from the engaging groove. 13 . The pump assembly of claim 1 , wherein each of the pumps further comprises a spacer, and the spacer is selectively disposed on one of the first connector and the second connector. 14 . On the other hand, when the first connecting piece is connected with the second connecting piece, the gasket abuts between the first connecting piece and the second connecting piece. 14. A pump, characterized in that it comprises: a pump body; a first opening, located around the pump body; a second opening, located around the pump body; a first connector disposed on the first opening; and A second connecting piece is disposed on the second opening. 15. The pump as claimed in claim 14, wherein one of the first connector and the second connector is a male quick connector, and the other of the first connector and the second connector One is a female quick connector. 16. The pump of claim 14, wherein the pump body is a regular polygon. 17. The pump of claim 14, further comprising a first electrical contact and a second electrical contact, the first electrical contact being selectively disposed on the first connecting member or Adjacent to the first opening, the second electrical contact is selectively disposed on the second connector or adjacent to the second opening corresponding to the first electrical contact. 18. The pump of claim 17, wherein the first electrical contact and the second electrical contact are circular. 19. The pump of claim 17, further comprising a circuit board and a power connector, the circuit board and the power connector are disposed in the pump body, the power connector, the first power connector An electrical contact and the second electrical contact are electrically connected to the circuit board. 20. The pump of claim 14, further comprising a sensor for sensing the flow rate, pressure and/or temperature of a working fluid in the pump. 21. The pump of claim 14, further comprising a light-emitting unit disposed around the pump body. 22. The pump of claim 14, further comprising a guide post and a guide hole, the guide post is disposed on the pump body and adjacent to the first connector, the guide A hole is formed on the pump body adjacent to the second connector. 23. The pump of claim 22, further comprising a release button and a first elastic member, the release button is movably disposed on the pump body, and the first elastic member abuts on the pump body Between the release button and the pump body, the release button has an engaging portion, a through hole is formed on the pump body and communicates with the guide hole, the engaging portion is inserted in the through hole and passes through the through hole A guide hole, the guide post has a clamping slot. 24. The pump of claim 23, further comprising a second elastic member disposed in the guide hole. 25. The pump of claim 14, further comprising a rotating member, the rotating member is rotatably disposed on the pump body, the rotating member has an engaging portion, and a groove is formed in the pump body. On the pump body, the groove has a clamping groove. 26. The pump of claim 14, further comprising a spacer selectively disposed on one of the first connecting member and the second connecting member. 27. A liquid cooling system, characterized in that it comprises: A pump includes a pump body, a first opening, a second opening, a first connector and a second connector, the first opening and the second opening are located around the pump body, the The first connecting piece is disposed on the first opening, and the second connecting piece is disposed on the second opening; and an external device, comprising a third opening and a third connecting piece, the third connecting piece is disposed on the third opening; Wherein, the third connector can be detachably connected to one of the first connector and the second connector, so that the external device can be detachably connected to the pump. 28. The liquid cooling system as claimed in claim 27, wherein one of the first connector and the second connector is a male quick connector, and the other of the first connector and the second connector One is a female quick connector, and the third connecting piece is a male quick connector or a female quick connector. 29. The liquid cooling system of claim 27, wherein the pump body is a regular polygon. 30. The liquid cooling system of claim 27, wherein the pump further comprises a guide post, the guide post is disposed on the pump body and adjacent to the first connecting piece, and the external device further comprises a guide post. A guide hole is included. The guide hole is formed adjacent to the third connecting piece. When the first connecting piece is connected with the third connecting piece, the guide post is inserted into the guide hole. 31. The liquid cooling system of claim 30, wherein the external device further comprises a release button and a first elastic member, the release button is movably disposed on the external device, and the first elastic member Abutting between the release button and the external device, the release button has an engaging portion, a through hole is formed on the external device and communicates with the guide hole, the engaging portion is inserted in the through hole and passes through In the guide hole, the guide post has a slot, and when the guide post is inserted into the guide hole, the engagement portion is engaged with the slot. 32. The liquid cooling system of claim 31, wherein the external device further comprises a second elastic member, the second elastic member is disposed in the guide hole, when the guide post is inserted into the guide hole When the second elastic member is in the guide hole, the second elastic member is compressed by the guide post. When the release button is pressed to make the engaging portion disengage from the slot, the second elastic member generates an elastic force, so that the guide The guide post pushes out the guide hole. 33. The liquid cooling system of claim 27, wherein the pump further comprises a guide hole, the guide hole is formed on the pump body and adjacent to the second connecting member, and the external device further comprises a guide hole. A guide post is included. The guide post is disposed adjacent to the third connection piece. When the second connection piece is connected with the third connection piece, the guide post is inserted into the guide hole. 34. The liquid cooling system of claim 33, wherein the pump further comprises a release button and a first elastic member, the release button is movably disposed on the pump body, the first elastic member The release button abuts between the release button and the pump body, the release button has an engaging portion, a through hole is formed on the pump body and communicates with the guide hole, and the engaging portion is inserted into the through hole In and through the guide hole, the guide post has a slot, and when the guide post is inserted into the guide hole, the engagement portion is engaged with the slot. 35. The liquid cooling system of claim 34, wherein the pump further comprises a second elastic member, the second elastic member is disposed in the guide hole, when the guide post is inserted into the guide hole When the second elastic member is in the guide hole, the second elastic member is compressed by the guide post. When the release button is pressed to make the engaging portion disengage from the slot, the second elastic member generates an elastic force, so that the guide The guide post pushes out the guide hole. 36. The liquid cooling system of claim 27, wherein the external device is a radiator, a liquid cooling head or a liquid storage tank.