RU208633U1 - Device for direct liquid cooling of computer products - Google Patents

Abstract

The utility model relates to devices for direct liquid cooling of computer products. The device for direct liquid cooling of computer products consists of a housing that includes a hydraulic unit and a reservoir having a rectangular shape in the lower part and a stepped protrusion in the upper part formed by a double-curved front wall. A distribution partition with holes is installed parallel to the bottom. A partition is vertically installed along the contour of the first bend of the front wall, separating the protrusion cavity from the internal volume of the tank with the formation of an overflow section. Rectangular holes are made in the upper part of the protrusion for installing universal communication patch panels, and under them a power distribution unit is installed inside. A mounting plate is installed along the rear wall on its inner side. The hydraulic unit is installed outside the tank under the horizontal edge of the protrusion, which communicates with outlet holes on its horizontal edge and inlet holes on the bottom of the tank. The objective of the utility model is to expand the arsenal of cooling means for computer equipment. , namely, in simplifying the design and maintenance, improving ease of use, reducing the volume of the tank.

Description

The utility model relates to devices for cooling electronic products, in particular, to devices for direct liquid cooling of computer products.

Devices for cooling computer products are known from the prior art, in which heated coolant is removed from electronic components by overflowing from the tank chamber in which they are installed into a section or chamber where it is discharged to a hydraulic unit.

So, for example, in titles of protection (RU 2645721 C2, pub. 2018.02.28, EP 2932349 B1, publ. 08.30.2017, ES 2642774 T3, pub. 11.20.2017, JP 6228228 B2, pub. B, Published 02/07/2018, PL 2932349 T3, Published 02/28/2018, US 10405457 B2, Published 09/03/2019, US 10820446 B2, Published 10/27/2020, WO 2014109869 MPC 102B A1, Published PK17.2 15/04, G06F 1/20, H05K 7/20) discloses a device for cooling computer products, providing for their installation in a housing with coolant. The coolant is supplied through a plurality of holes in a distribution baffle installed parallel to the bottom of the tank. The selection of the heated coolant is carried out due to its overflow through the side wall of the tank into the overflow chamber mounted on the outer side of this wall. Thus, the body of the device in cross section has a rectangular shape with a ledge in the upper part formed by the overflow chamber. Coolant from the overflow chamber is supplied to the hydraulic unit. The pumps are mounted under the overflow chamber, and the heat exchangers are mounted on its wall.

The disadvantage of this device is that the overflow chamber is a separate component and is mounted on a tank in which cooled computer equipment is installed, which complicates the design of the device. In addition, the supply of coolant to the distribution partition is carried out using pipelines partially placed in the tank, which makes it difficult to maintain the device.

Protective documents (WO 2020183038 A1, publ. 09/17/2020, IPC H05K 7/20) disclose a device for cooling computer products, providing for their installation in a housing with coolant. The coolant is supplied through holes in the distribution baffle installed parallel to the bottom of the tank. The selection of the heated coolant is carried out due to its overflow through the side walls of the tank into the overflow sections, which are the protruding parts of the tank. Thus, the tank in cross section has a rectangular shape with two symmetrical protrusions in the upper part, and the end walls have a T-shape. The coolant from the overflow chambers is supplied to the hydraulic unit, which is made as a separate module and installed inside the tank close to one of its end walls.

The disadvantage of this device is the location of the hydraulic unit inside the tank, which complicates the maintenance of the device and increases the volume of the tank. In addition, this security document does not disclose in sufficient detail exactly how the protrusions are made. Based on the above description, it can be assumed that the protrusions consist of several components, which complicates the design of the known device.

The objective of the utility model is to expand the arsenal of means for cooling computer products.

The technical result of the utility model is to expand the arsenal of means for cooling computer products, namely, to simplify the design and maintenance, improve ease of use, and reduce the volume of the tank.

The technical result is achieved by the fact that the device for direct liquid cooling of computer products consists of a housing, including a hydraulic unit and a reservoir with a lid, designed to be filled with coolant, having a rectangular shape in the lower part and a stepped protrusion in the upper part, with a distribution partition with holes, installed parallel to the bottom, dividing the tank into the lower distribution chamber and the upper chamber, by a partition that does not reach the level of the upper edge of the tank, separates the protrusion cavity from the internal volume of the tank with the formation of an overflow section, and on which fasteners are mounted for installing and fixing computer equipment products inside the upper chamber of the tank, according to the utility model, the protrusion is formed by the upper part of the front wall of the tank double-curved at a right angle, the partition is installed vertically along the contour of the first bend of the front wall, the fastening a rail with fasteners for installing and fixing computer equipment inside the upper chamber of the tank is installed along the rear wall on its inner side above the level of the first bend of the front wall, in the upper part of the protrusion above the level of the upper edge of the partition, rectangular holes are made for installing universal communication patches. panels, and under these holes on the inner side of the ledge above the level of the upper edge of the partition, a power distribution unit is installed, the hydraulic unit is installed outside the tank under the horizontal edge of the ledge and communicates with the overflow section through the outlet holes made on the horizontal edge of the ledge, and the lower distribution chamber through the inlet holes in the bottom of the tank.

The drawing shows a cross section of the tank of the proposed device.

The device for direct liquid cooling of computer products is a housing consisting of a tank 1 with a lid (not shown in the drawing) and a hydraulic unit (not shown in the drawing) mounted in a common frame.

The reservoir 1 is made with the possibility of filling with coolant. The tank 1 is made rectangular in the lower part and has a stepped protrusion 2 in the upper part, formed by a front wall twice bent at a right angle. Thus, the end walls are L-shaped.

A partition 3 is vertically installed along the contour of the first bend of the front wall, not reaching the level of the upper edge of the tank. The partition 3 separates the cavity of the protrusion 2 from the internal volume of the tank with the formation of the overflow section 4.

In the upper part of the protrusion 2, above the level of the upper edge of the partition 3, rectangular holes 5 are made, which are intended for the installation of universal communication patch panels. Under the holes 5 on the inner side of the protrusion 2 above the level of the upper edge of the partition 3, a power distribution unit 6 is installed.

On the horizontal edge of the protrusion 2, there are outlet holes for diverting the heated coolant from the overflow section 4 to the hydraulic unit.

Mounting bar 7 is installed along the rear wall on its inner side above the level of the first bend of the front wall. The upper edge of the mounting bar 7 reaches the level of the upper edge of the partition 3.

In the lower part of the tank, parallel to its bottom, a distribution partition 8 is installed, dividing the internal volume of the tank 1 into the lower distribution chamber 9 and the upper chamber 10. The distribution partition 8 has holes for supplying coolant from the lower distribution chamber 9 to the upper chamber 10. These holes are located in such a way that when computer products are installed above them, the centers of orthogonal projections of heated electronic components on the surface of the distribution partition 8 coincide with the centers of these holes, and the diameter of each such hole is proportional to the heat release power of the electronic component on whose orthogonal projection this hole is located. The lower distribution chamber 9 acts as a distribution manifold for organizing a proportional supply of coolant to the electronic components through the holes on the distribution partition 8, serves to equalize the pressure over the entire surface of the distribution partition 8. On the bottom of the tank there are inlets for supplying coolant from the hydraulic unit to the lower distribution chamber 9.

The partition 3 and the mounting plate 7 are provided with fasteners for installing and fixing computer equipment products in the upper chamber 10 of the tank 1.

Under the horizontal edge of the protrusion 2 outside the tank 1, a hydraulic unit is mounted, which is connected to the overflow section 4 through the outlet holes made on the horizontal edge of the protrusion 2, and with the lower distribution chamber 9 through the inlet holes made on the bottom of the tank.

The proposed device works as follows. Computer equipment products are installed inside the tank 1 and fixed with fasteners made on the partition 3 and the mounting plate 7.

The coolant, using the pumps of the hydraulic unit, through the inlet holes made on the bottom of the tank, is supplied to the lower distribution chamber 9, then through the holes made on the distribution partition 8, it enters the upper chamber 10 and fills it up to the overflow level through the partition 3. Coolant overflows through the partition 3 into the overflow section 4, and then through the outlet holes made on the horizontal edge of the protrusion 2, is discharged from the overflow section 4 into the hydraulic unit. The coolant cooled in the hydraulic unit is fed through the inlet holes made on the bottom of the tank back to the lower distribution chamber 9.

Synthetic or natural oils are used as coolant.

Simplification of maintenance and increase in the convenience of operation of the proposed device is achieved due to the location of the hydraulic unit outside the tank under the ledge, on the vertical edge of which there is also a power distribution unit and universal communication patch panels are supposed to be installed. Such an arrangement of the components of the proposed device facilitates and simplifies access to them during maintenance and operation of the device, and also reduces the total volume of the reservoir and the amount of coolant. Simplification of the design of the proposed device is achieved due to the fact that the protrusion is formed by the bends of the front wall of the tank, and is not a separate component.

Claims (1)

The device for direct liquid cooling of computer products consists of a housing, including a hydraulic unit and a tank with a lid designed to be filled with coolant, having a rectangular shape in the lower part and a stepped protrusion in the upper part, with a distribution partition with holes installed parallel to the bottom, separating the tank on the lower distribution chamber and the upper chamber, with a partition that does not reach the level of the upper edge of the tank, separates the protrusion cavity from the internal volume of the tank with the formation of an overflow section, and on which fasteners are mounted for installing and fixing computer equipment inside the upper chamber of the tank, which differs the fact that the protrusion is formed by the upper part of the front wall of the tank double-curved at a right angle, the partition is installed vertically along the contour of the first bend of the front wall, the mounting plate with fasteners for installation and fi The storage of computer products inside the upper chamber of the tank is installed along the rear wall on its inner side above the level of the first bend of the front wall, while the upper edge of the mounting plate reaches the level of the upper edge of the partition, in the upper part of the projection above the level of the upper edge of the partition, rectangular holes are made, designed for the installation of universal communication patch panels, and under these holes on the inner side of the ledge above the level of the upper edge of the partition, a power distribution unit is installed, the hydraulic unit is installed outside the tank under the horizontal edge of the ledge and communicates with the overflow section through outlet holes made on the horizontal edge of the ledge, and the lower distribution chamber through the inlet holes made on the bottom of the tank.

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