Cooler station for connection of a liquid cooler

专利摘要:
Cooling station (1) with a liquid cooler (3) having a first distribution box (14) consisting of a hollow extruded aluminum, which has outwardly open guide grooves, and with a platform (10) passing through in the guide grooves of the first distributor box usable mechanical connection elements can be pushed onto the liquid cooler and fixedly connected to it, wherein the cooler station comprises a set of platforms, wherein in each case a platform with the liquid cooler is connectable and the set comprises platforms having different hydraulic and / or electrical connections. The cooler station may be installed in a liquid cooler system which further includes a blower, a liquid tank and a liquid filter. The liquid cooler, the blower, the liquid tank and / or the liquid filter can each be selected from a set, so that a modular system for the provision of liquid cooling systems arises.
公开号:AT516942A4
申请号:T255/2015
申请日:2015-04-28
公开日:2016-10-15
发明作者:
申请人:Euler-Rolle Thomas Dipl Ing；
IPC主号:

专利说明:

The present invention relates to a cooler station with a liquid cooler, which has a first distribution box, consisting of a hollow extruded aluminum, having outwardly open guide grooves, and with a platform which can be used by insertable into the guide grooves of the first distribution box mechanical connection elements on the Liquid cooler can be pushed on and firmly connected to it. Furthermore, the invention relates to a system for providing liquid chillers.
Various types of liquid coolers, in particular oil coolers, are known in the prior art. A stream of liquid oil to be cooled is passed through hollow metal fins, which transmit the heat to the ambient air and release it there. Such chillers have been widely used for decades and find use, for example, as part of engines in which continuously heated oil must be cooled down during operation. Liquid or oil coolers are not used alone, but are part of an oil circuit consisting of an oil tank, an oil filter and various connections. It is also known to ensure the cooling performance of a liquid cooler by connecting to an air blower.
There is still a need to provide liquid coolers, cooler stations, and liquid cooler systems with various hydraulic connection options, various additional functions, such as integrated temperature measurement, various characteristics of cooling performance, filter types, oil tank sizes, and other parameters. At the same time, there is a need to reduce the manufacturing cost of said devices.
The cooler station according to the invention achieves this by virtue of the cooler station comprising a set of platforms, one platform each being connectable to the liquid cooler and the set of platforms comprising platforms having different hydraulic and / or electrical connections, each platform of the set being of the same mechanical design Having connection elements for connection to the liquid cooler.
A preferred embodiment of the cooler station is characterized in that the liquid cooler has a second distribution box, consisting of a hollow extruded aluminum, having outwardly open guide grooves for attachment to a base.
In one embodiment of the invention, the first distribution box has a liquid discharge coaxially guided to the liquid supply line within an opening.
For further embodiment of the invention, the set of platforms comprises at least two members.
In one embodiment of the liquid cooling system, it is preferred that at least one platform from the set of platforms has an electrical thermometer for measuring the liquid temperature.
In one embodiment of the invention, at least one platform of the set of platforms has an exchangeable fluid filter.
In another embodiment of the invention, at least one platform from the set of platforms has at least one flange for rigidly connecting the platform to a portion of an external frame, frame, or the like. on.
A preferred embodiment of the cooler station is characterized in that the cooler station comprises a set of liquid coolers consisting of liquid coolers of different cooling capacities, each liquid cooler of the set having the same mechanical and hydraulic connections and an equal width.
For a further embodiment of the invention, the cooler station has a frame connected to the liquid cooler, through which the cooler station can be erected and in which a volume of space is formed in which at least one liquid cooler and a fan can be accommodated simultaneously, and wherein the Cooling station has a base on which are provided connections for a liquid cooler, a fan and a liquid tank, and wherein the base has an insertion opening for a liquid filter, which is arranged such that the liquid filter in the insertion opening and in the liquid tank in the base Connected state is outstanding used. -
A preferred embodiment of the cooler station is characterized in that it is connected to the following four elements: a liquid cooler, a fan, a
Liquid tank and a liquid filter.
The system according to the invention for providing liquid chillers comprises at least one chiller station and a set of liquid chillers consisting of liquid chillers of different refrigerating capacities, each chiller of the set having equal mechanical and hydraulic connections and a same width, a set of blowers consisting of blowers of different capacities wherein each blower of the set has equal mechanical and electrical connections as well as external dimensions, and a set of liquid tanks consisting of liquid tanks of different capacities, each liquid tank of the set having equal connections and a same width - a set of liquid filters consisting of liquid filters of different sizes Characteristics, wherein each liquid filter of the set has the same mechanical and hydraulic connections.
A preferred embodiment of the system is characterized in that the set of liquid coolers and / or the set of blowers and / or the set of liquid tanks and / or the set of liquid filters has at least two members.
The invention is explained below with reference to an embodiment executed in the drawings. 1 is an oblique view of the cooler station, FIG. 2 is an oblique view of the platform, FIG. 3 is a section through the cooler station, FIG. 4 is an oblique view of the cooler station, FIG. 5 is an exploded view of the liquid chiller system, and FIG An oblique view of a composite liquid cooler system.
According to FIG. 1, the cooler station 1 consists of a liquid cooler 3, which is connected to a platform 10. The platform 10 is selected from a set of many platforms 10, each having different hydraulic, mechanical or electrical connections in response to customer needs. However, each platform 10 of this set is connectable to the liquid cooler 3 in the same way. The connection is made by placing or optionally pushing the platform 10 on the distribution box 14 of the liquid cooler, which has two outwardly open T-slots 9 as a mechanical connection means. The platform then has, as shown in FIG. 2, the matching, opposing mechanical connection elements 15 which engage in the T-slots 9 of the distribution box 14.
In this way can be provided with a few modular elements, a plurality of cooler stations 1 with different parameters. In addition, the liquid cooler 3 can be selected from a set of liquid coolers 3 with different cooling capacities. The mechanical connection with a platform 10 always takes place in the same way (see above).
In the example shown in Fig. 1, the platform 10 has connections for the liquid supply and the liquid keitsableitung 19 and an integrated temperature meter 16 for determining the temperature of the (preferably the liquid cooler 3 left) liquid. Further, the platform 10 is provided with flanges 17 so that the cooler station as a whole can be mounted to the frame of a surrounding structure, engine or machine (not shown). Alternatively, the liquid cooler 3 is equipped on its side facing away from the platform 10 with a distribution box 13 having T-slots 9 of the same predetermined standard. Thereby, the cooler station 1 is connectable to other elements or a machine (not shown) according to a system chosen within the invention.
As known in the art, the distribution boxes 13 and 14 consist of a hollow extruded aluminum. So far, the distribution boxes 13, 14 were provided with two openings; one for the liquid supply and one for the liquid discharge. According to the invention, these two openings, as shown in FIGS. 2 and 3, combined to form a common opening 11. This is made possible by a coaxial guidance of the liquid supply and the liquid discharge. Within platform 10, separate liquid supply and liquid discharge ports are coaxially combined. The hydraulic counterpart to the opening 11 - again an opening - is shown in FIG. 3 in the distribution box 14 and in the liquid cooler 3 in total, where the coaxially guided two streams are separated, so that the liquid is first led from the liquid supply to the distribution box 13, whereupon the liquid flow is distributed within the distribution box 13 on the hollow ribs. At the other end of the hollow ribs, all liquid flows within the distribution box 14 are combined again and fed to the liquid discharge. This design has the advantage of reducing the number of seals required (here: between distribution box 14 and platform 10) when connecting the liquid supply and discharge lines to a liquid cooler 3 from two to one.
According to FIG. 4, a liquid filter 18 can be integrated into one of the platforms 10 with which the liquid cooler 3 can be connected.
The cooler station 1 can be expanded together with the idea of the modular structure to a liquid cooler system. The central part of a liquid cooling system remains, according to FIG. 5, the cooler station 1, consisting of a liquid cooler 3 and a platform 10 selected from a set, as shown in FIG. A base 6 and a frame 2 provide the connection options for the cooler station 1, a fan 4, a liquid tank 5 and a liquid filter 8 (if the latter is not already integrated in the platform 10 or if a second filter 8 to the filter 18 in the platform 10 is desired). Depending on the type of construction, connections mean mechanical connections (screw connections, hooks or profiles for hooking etc.), electrical connections or hydraulic connections (connections in the oil circuit). In addition, base 6 and frame 2 define the volume of space in which the components of the liquid cooling system have space in the most compact possible summary. For this purpose, the base 6 is formed substantially as a cover of the radiator station 1 and the liquid chiller, which determines the width B and the depth T of the liquid chiller. For example, the base 6 may have a nearly square plan, i. Width B and depth T are essentially the same size. The frame 2 connected to the base 6 then defines the height H of the cooler station 1 or the liquid cooler system as a whole. If the height H is substantially equal to the width B and depth T, then the liquid cooling system receives the contour of a cube. To complete the chiller plant, the following four elements are incorporated in this chiller station 1: a liquid chiller 3, a blower 4, an oil tank 5 and an oil filter 8. These four constituents can each be selected from a set of chiller plant parameters such as oil tank size , Cooling capacity, power consumption, etc., to choose (see below).
The liquid cooler according to the invention, as shown in Fig. 6, can be placed standing upright. That is, each of its sides can be used as a footprint for parking without the need for immediate tipping or overturning aids due to possible but not destructive jolts. However, during operation of the liquid chiller, suspension to an external frame (not shown) or to a shelf / foot (not shown) may be useful (e.g., for unimpeded cooling air supply).
The result is a system for providing liquid chiller systems, the advantage of which is that the systems can be adapted to a wide variety of requirements, but each have the same radiator station 1 or the same combination of base 6 and frame 2 at the heart. The outer dimensions with respect to width B, depth T and height H according to FIG. 6 remain the same for all liquid cooling systems of the system. The modular design of the liquid cooling systems leads to a reduction in manufacturing costs.
Another advantage of the invention is that the liquid cooling systems of the system are very compact and at the same time user-friendly. The components work together: The frame 2 forms at the same time a part of the housing and the air channel for the liquid cooler 3. The tank 5 acts simultaneously as an air channel for the blower 4. The base 6 acts simultaneously as part of the housing and as a mechanical connection point for the liquid cooler 3 and the tank 5.
The liquid cooler 3 is designed as a plate cooler; between two distribution boxes a parallelepipedi-sches package of hollow ribs is arranged. While the Kühlersta-tion 1 provides the mechanical connection points for the liquid cooler 3, the liquid supply and the liquid discharge via a connected to the distribution box 14 platform 10 is prepared. The distribution boxes 13 and 14 have, as described above. Guide grooves 9, in which, for example, heads of connecting screws can be used. The guide grooves shown in the example have a T-shaped cross-section. In this way, the platform 10 can be easily, safely and quickly pushed onto the distribution box 14 and screwed tightly at the desired location.
Part of the system for providing liquid chillers is a set of at least two liquid chillers 3, which differ from one another in that they offer a different cooling performance. On the other hand, the liquid chillers 3 of the series constituting the set of liquid chillers 3 resemble each other in that they have an equal width (in the width B direction of the base 6) to be incorporated into the liquid chiller by the same means and the same process step to be able to.
In the cooler station 1, a fan 4 can be installed from a set of fans 4. In the embodiment shown in Fig. 5, the tank 5 represents the mechanical connection point for the blower 4. The electrical connections are made via the base 6. All blowers 4 from the set of blowers 4 are similar in their mechanical and / or electrical see connection options. They differ, for example, in their performance, i. in the volume of air carried per unit of time.
The liquid tank 5 to be connected to the base 6 is a member of a set of liquid tanks 5, respectively. All members of this set of liquid tanks 5 are different in their capacity, but are matched in their outer dimensions. In this case, the technical variation of the liquid tank 5 suitable for this system, regardless of the mechanical connection of the liquid filter 8 with the entire Liquid cooling system, done. In the embodiment shown, the liquid cooler 8 is inserted into the standardized opening 7 of the base 6 and at the same time brought into connection with the liquid of the liquid tank 5 in a suitable manner. After insertion in the liquid filter 8, the opening 7 is closed with a lid 12.
Also, the liquid filter 8 may be a member of a set of at least two liquid filters 8, whose members are mechanically designed so that they can be connected through the opening 7 with the liquid tank 5, however, differ in their filter properties. These properties may be filter performance, longevity, or orientation to a particular type of fluid or oil.
If, for example, the set of liquid coolers 3 consists of three different members or elements, just as the sets of blowers 4, liquid tanks 5 and liquid filters 8 each consist of three elements, the customer can use a system of S * * = 81 liquid cooling systems select different characteristics, while the manufacturer of the system essentially only one type cooler station 1 and twelve different components to be installed in stock must keep in stock. In practice, the component sets will sometimes comprise significantly more elements, so that the product range is drastically increased.

权利要求:
Claims (12)
[1]
Claims:
1. cooler station with a liquid cooler, which has a first distribution box, consisting of a hollow extruded aluminum, which has outwardly open guide grooves, and with a platform which can be used by insertable into the guide grooves of the first distribution box mechanical connection elements the liquid cooler can be pushed and firmly connected to it, characterized in that the cooler station (1) comprises a set of platforms (10), one platform (10) each being connectable to the liquid cooler (3) and the set of platforms (10) comprising different hy-draulic and / or electrical connections, each platform (10) of the set having the same mechanical connection elements (15) for connection to the liquid cooler (3).
[2]
2. Cooling station according to claim 1, characterized in that the liquid cooler (3) has a second distribution box (13) consisting of a hollow extruded aluminum, aüfweist, which has outwardly open guide grooves (9) for attachment to a base (6) ,
[3]
3. Cooler station according to claim 1 or 2, characterized in that the first distribution box (14) has a coaxial to the liquid supply led liquid discharge within an opening (11).
[4]
4. cooler station according to one of claims 1 to 3, characterized in that the set of platforms (10) comprises at least two members.
[5]
5. cooler station according to one of claims 1 to 4, characterized in that at least one platform (10) from the set of platforms (10) has an electric thermometer (16) for measuring the liquid temperature.
[6]
6. cooler station according to one of claims 1 to 5, characterized in that at least one platform (10) from the set of platforms (10) has an exchangeable fluid filter (18).
[7]
7. cooler station according to one of claims 1 to 6, characterized in that at least one platform (10) from the set of platforms (10) has at least one flange (17).
[8]
8. cooler station according to one of claims 1 to 7, characterized in that the cooler station (1) comprises a set of liquid coolers (3) consisting of liquid coolers (3) different cooling outputs, each liquid cooler (3) of the set same mechanical and hydraulic Has connections and a same width.
[9]
9. cooler station (1) according to any one of claims 1 to 8, characterized in that the cooler station (1) having a liquid with the cooler (3) connected frame (2) through which the cooler station (1) standing up bar and in which a volume of space is formed in which at least one liquid cooler (3) and one fan (4) are receivable simultaneously, and wherein the cooler station (1) has a base (6) on which connections for a liquid cooler (3) , a blower (4) and a liquid tank (5) are provided, and wherein the base (6) has an insertion opening (7) for a liquid filter (8), which is arranged such that the liquid filter (8) in the insertion opening ( 7) and can be inserted into the liquid tank in the state connected to the base (6).
[10]
10. cooler station according to claim 9, characterized in that it is connected to the following four elements: a liquid cooler (3), a fan (4), a liquid tank (5) and a liquid filter (8).
[11]
A system for providing liquid chillers, comprising at least one chiller station (1) according to any one of claims 1 to 10, and a set of chillers (3) consisting of liquid chillers (3) of different refrigerating capacities, each chiller (3) of the set has the same mechanical and hydraulic connections and the same width, a set of blowers (4) consisting of blowers (4) of different capacities, each blower (4) of the set having the same mechanical and electrical connections and external dimensions, and a set of Liquid tanks (5) consisting of liquid tanks (5) of different capacities, each liquid tank (5) of the set having the same connections and the same width, a set of liquid filters (8) consisting of liquid filters (8) of different characteristics, each 8) of the set same mechanical and hydraulic Ansch has lows.
[12]
12. System for providing liquid chiller systems according to claim 7, characterized in that the set of liquid coolers (3) and / or the set of blowers (4) and / or the set of liquid tanks (5) and / or the set of liquid filters ( 8) has at least two members.

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA255/2015A|AT516942B1|2015-04-28|2015-04-28|Cooler station for connection of a liquid cooler|ATA255/2015A| AT516942B1|2015-04-28|2015-04-28|Cooler station for connection of a liquid cooler|

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PCT/AT2016/000012| WO2016172741A1|2015-04-28|2016-02-18|Cooler station for connection of a liquid cooler|

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CN201680024370.6A| CN107849953B|2015-04-28|2016-02-18|Cooler station for connecting liquid coolers|

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EP16710665.7A| EP3289303B1|2015-04-28|2016-02-18|Cooler station for connection of a liquid cooler|

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US15/570,043| US11231231B2|2015-04-28|2016-02-18|Cooler station for connection of a liquid cooler|