Field of the Invention
The present invention relates to a liquid cooling device, in particular, to a water supply structure of a liquid cooling device, a pump having the water supply structure, and a liquid cooling device having the water supply structure.
Description of Related Art
The traditional liquid cooling device mainly comprises plural pipes connected in series to components such as a water block, a pump, a cooling module, and a liquid reservoir. After operating the liquid cooling device for a long time, the amount of the coolant inside will decrease due to vaporization and thus the coolant will become inadequate. The amount of the coolant of the traditional liquid cooling device is added according to the user's observation of the coolant amount by opening the liquid reservoir manually to supplement the coolant.
However, the above procedures are made manually by the user, which not only cannot supplement the water timely, but also will cause the inconvenience because the user will easily forget to supplement water due to the carelessness. As a result, the liquid cooling device with insufficient coolant inside operates continuously and thus causes damage.
In view of this, the inventor pays special attention to research with the application of related theory and tries to improve and overcome the above disadvantages regarding the above related art. Finally, the inventor proposes the invention which is a reasonable design and overcomes the above disadvantages.
It is an objective of the present invention to provide a water supply structure of a liquid cooling device, a pump having the water supply structure, and a liquid cooling device having the water supply structure, which can timely supplement the coolant inside the liquid cooling device to prevent the generation of air and further reduce the side effects caused by the air to increase the life time thereof.
In order to achieve the above objective, the present invention provides a water supply structure of a liquid cooling device, disposed on the liquid cooling device. The water supply structure comprises a lower lid, an upper lid, and a pressure control member. An outlet is disposed in the lower lid. The outlet communicates with the interior of the liquid cooling device. The upper lid is combined on the lower lid. A chamber is formed between the lower lid and the upper lid. The chamber communicates with the outlet of the lower lid and accommodates a coolant. The pressure control member is disposed moveable in the chamber of the upper lid. The pressure control member comprises a piston and an elastic part controlling the piston to move inside the chamber. The elastic part pushes against the piston to move inside the chamber such that the coolant is injected into the liquid cooling device until hydraulic pressure equilibrium is achieved.
In order to achieve the above objective, the present invention also provides a pump having a water supply structure, comprising a pump and a water supply structure disposed on the pump. The pump is provided with an inlet. The water supply structure comprises a lower lid, an upper lid, and a pressure control member. An outlet is disposed in the lower lid and communicates with the inlet of the pump. The upper lid is combined on the lower lid. A chamber is formed between the lower lid and the upper lid. The chamber communicates with the outlet of the lower lid and accommodates a coolant. A pressure control member is disposed moveable in the chamber of the upper lid. The pressure control member comprises a piston and an elastic part controlling the piston to move inside the chamber. The elastic part pushes against the piston to move inside the chamber such that the coolant is injected into the pump until hydraulic pressure equilibrium is achieved.
In order to achieve the above objective, the present invention further provides a liquid cooling device having a water supply structure, comprising a water block, a pump, a cooling module, a liquid reservoir, a plurality of pipes which are connected among the water block, the pump, the cooling module, and the liquid reservoir, and a water supply structure. The water supply structure comprises a lower lid, an upper lid, and a pressure control member. An outlet is disposed in the lower lid and communicates with the interior of the liquid cooling device. The upper lid is combined on the lower lid. A chamber is formed between the lower lid and the upper lid. The chamber communicates with the outlet of the lower lid and accommodates a coolant. The pressure control member is disposed moveable in the chamber of the upper lid. The pressure control member comprises a piston and an elastic part controlling the piston to move inside the chamber. The elastic part pushes against the piston to move inside the chamber such that the coolant is injected into the liquid cooling device until hydraulic pressure equilibrium is achieved.
To further disclose the characteristics and technical details of the present invention, please refer to the following detailed description and accompanying figures. However, the accompanying figures are only for reference and explanation, but not to limit the scope of the present invention.
Please refer to
Please refer to
The lower lid 60 is connected to the above-mentioned pump 2 and may have a connection hole 600 combined with the upper lid 61. The lower lid 60 is proved with an outlet 601 in the connection hole 600. The outlet 601 corresponds to the inlet 20 of the pump 2 such that when the coolant in the water supply structure 6 is delivered from the outlet 601, the coolant can be filled into the pump 2 through the inlet 20.
The upper lid 61 is combined on the lower lid 60 and a chamber 610 is formed between the lower lid 60 and the upper lid 61. The chamber 610 is used to accommodate the above-mentioned pressure control member 62 and the coolant 63. The upper lid 61 forms a chamber wall 611 surrounding outside the chamber 610. The chamber wall 611 is connected tightly to the connection hole 600 of the lower lid 60 correspondingly such that the chamber 610 communicates the outlet 601 of the lower lid 60.
The pressure control member 62 is disposed moveable in the chamber 610 of the upper lid 61 to divide the chamber 610 into an upper chamber 610a allowing an air access and a lower chamber 610b which is enclosed to accommodate the coolant 63. The upper lid 61 further comprises an air hole 610c communicating with the upper chamber 610a. The pressure control member 62 comprises a piston 620 and at least one elastic part 621 controlling the piston 620 to move inside the chamber 610 such that the piston 620 can move up and down in the chamber 610. In the current embodiment, a shaft 6200 is disposed on the piston 620. The upper lid 61 is provided with a throughhole 612 through which the shaft 6200 is moveably penetrated such that the shaft 6200 is disposed through the throughhole 612, the piston 620 is located in the chamber 610, and the elastic part 621 in the chamber 610 is pressed against between the upper lid 61 and the piston 620. Further, the elastic part 621 pushes against the piston 620 in the chamber 610 to move downward until the hydraulic pressure equilibrium in the pump 2 is achieved. Moreover, a sidewall 6201 can be disposed surrounding the piston 620. The sidewall 6201 corresponds to the chamber 610. A waterproof gasket 6202 is disposed between the sidewall 6201 and the chamber 610. Also, the elastic part 621 may be plural and a plurality of positioning rings 6203 are disposed on the piston 620 to position the elastic parts 621 to facilitate the positioning and assembly of the elastic parts 621.
Besides, as shown in
Also, as shown in
Additionally, as shown in
Accordingly, by the assembly of the above structure, the water supply structure of the liquid cooling device, the pump having the water supply structure, and the liquid cooling device having the water supply structure of the present invention can be obtained.
Therefore, by means of the water supply structure of the liquid cooling device, the pump having the water supply structure, and the liquid cooling device having the water supply structure of the present invention, which can supplement the coolant in the liquid cooling device timely to prevent the generation of air and reduce the side effects caused by the air to increase the life time thereof.
In summary, the present invention is really an outstanding product, which can achieve the expected objective and overcome the disadvantages of the prior art. Also, the present invention is indeed novel, useful, and non-obvious to be patentable. Please examine the application carefully and grant it as a formal patent for protecting the rights of the inventor.
The embodiments described above are only preferred ones of the present invention and not to limit the claimed scope of the present invention. Therefore, all the equivalent modifications and variations applying the specification and figures of the present invention should be embraced by the claimed scope of the present invention.
Number | Date | Country | Kind |
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2014 2 0617470 U | Oct 2014 | CN | national |
Number | Name | Date | Kind |
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3172466 | Hirsch | Mar 1965 | A |
3238932 | Simpson | Mar 1966 | A |
4389984 | Destrampe | Jun 1983 | A |
6125800 | Lugs | Oct 2000 | A |
9038668 | Marin | May 2015 | B2 |
Number | Date | Country | |
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20160115676 A1 | Apr 2016 | US |