Cooler station for connection of a liquid cooler

Abstract

A cooler station comprising a liquid cooler, which has a first distributor box consisting of a hollow extruded section made of aluminium having outwardly open guide groove, and comprising a platform which can be pushed onto the liquid cooler and fixedly connected thereto by mechanical connecting elements which can be inserted into the guide grooves of the first distributor box. The cooler station comprises a set of platforms, wherein in each case one platform can be connected to the liquid cooler, and comprises the set of platforms which have the different hydraulic and/or electrical connections. The cooler station can be installed in a liquid cooler system which also comprises 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, such that a modular system is produced for providing from liquid cooler systems.

Claims

1. A cooler station system, comprising: at least one liquid cooler, comprising a first distributor box, having a hollow extruded section of aluminum having outwardly open guide grooves, a platform that is pushable onto the liquid cooler by mechanical connecting elements, which are insertable into the guide grooves of the first distributor box, and is fixedly connected to the liquid cooler, wherein the platform is one platform of a set of platforms, wherein each platform of the set of platforms is connectable to the liquid cooler without another platform of the set of platforms being connectable to the liquid cooler simultaneously, wherein each platform of the set of platforms has hydraulic and/or electrical connections which are different from each other, wherein each platform of the set of platforms has mechanical connecting elements for connection to the liquid cooler which are a same as each other, and wherein each platform of the set of platforms has separate connections for a liquid inlet line and a liquid outlet line.

2. The cooler station system according to claim 1, wherein the liquid cooler has a second distributor box having a hollow extruded section of aluminum, which has outwardly open guide grooves for attachment to a base.

3. The cooler station system according to claim 1, further comprising a liquid inlet line and a liquid outlet line, and wherein the first distributor box has an opening, and both the liquid inlet line and the liquid outlet line extend through the opening.

4. The cooler station system according claim 1, wherein at least one platform of the set of platforms has an electric thermometer for measuring a temperature of a liquid.

5. The cooler station system according to claim 1, further comprising a liquid filter.

6. The cooler station system according to claim 1, wherein at least one platform of the set of platforms has at least one flange.

7. The cooler station system according to claim 1, wherein the cooler is one of a set of liquid coolers.

8. The cooler station system according to claim 1, further comprising: a frame connected to the liquid cooler, by which the cooler station is providable independently, and in which a volume is formed, in which the liquid cooler and one fan are disposable at a same time, and a base on which connections for the liquid cooler, a fan and a liquid tank are provided, and wherein the base has an insertion opening for a liquid filter, which is disposed such that the liquid filter is insertable to protrude into the insertion opening and into the liquid tank when connected to the base.

9. The cooler station system according to claim 8, further comprising: a fan, a liquid tank, and a liquid filter.

10. The cooler station system according to claim 1, further comprising a liquid inlet line and a liquid outlet line, and wherein the liquid inlet line and the liquid outlet line are in a coaxial arrangement in each platform of the set of platforms, respectively.

11. The cooler station system according to claim 10, wherein the liquid outlet line is disposed around the liquid inlet line.

12. The cooler station system according to claim 1, further comprising a liquid inlet line and a liquid outlet line, and wherein the liquid inlet line and the liquid outlet line are in a coaxial arrangement in the first distributor box.

13. The cooler station system according to claim 12, wherein the liquid outlet line is disposed around the liquid inlet line.

14. A cooler station system, comprising: at least one liquid cooler, comprising a first distributor box, having a hollow extruded section of aluminum having outwardly open guide grooves, a platform that is pushable onto the liquid cooler by mechanical connecting elements, which are insertable into the guide grooves of the first distributor box, and is fixedly connected to the liquid cooler, wherein the platform is one platform of a set of platforms, wherein each platform of the set of platforms is connectable to the liquid cooler, without another platform of the set of platforms being connectable to the liquid cooler simultaneously, wherein each platform of the set of platforms has hydraulic and/or electrical connections which are different from each other, wherein each platform of the set of platforms has mechanical connecting elements for connection to the liquid cooler which are a same as each other, and wherein each platform of the set of platforms has separate connections comprising a liquid inlet line connection and a liquid outlet line connection.

15. The cooler station system according to claim 14, wherein the liquid cooler has a second distributor box having a hollow extruded section of aluminum, which has outwardly open guide grooves for attachment to a base.

16. The cooler station system according to claim 14, further comprising a liquid inlet line and a liquid outlet line, and wherein the first distributor box has an opening, and both the liquid inlet line and the liquid outlet line extend through the opening.

17. The cooler station system according claim 14, wherein at least one platform of the set of platforms has an electric thermometer for measuring a temperature of a liquid.

18. The cooler station system according to claim 14, further comprising: a frame connected to the liquid cooler, by which the cooler station is providable independently, and in which a volume is formed, in which the liquid cooler and one fan are disposable at a same time, and a base on which connections for the liquid cooler, a fan and a liquid tank are provided, and wherein the base has an insertion opening for a liquid filter, which is disposed such that the liquid filter is insertable to protrude into the insertion opening and into the liquid tank when connected to the base.

19. The cooler station system according to claim 14, further comprising at least one of a fan, a liquid tank and a liquid filter.

20. The cooler station system according to claim 14, further comprising a liquid inlet line and a liquid outlet line, and wherein the liquid inlet line and the liquid outlet line are in a coaxial arrangement.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention is explained in greater detail below on the basis of one exemplary embodiment which is illustrated in the drawings, in which:

(2) FIG. 1 shows a perspective view of the cooler station;

(3) FIG. 2 shows a perspective view of the platform;

(4) FIG. 3 shows a section through the cooler station;

(5) FIG. 4 shows a perspective view of the cooler station;

(6) FIG. 5 shows an exploded diagram of the liquid cooler installation; and

(7) FIG. 6 shows a schematic perspective view of an assembled liquid cooler installation.

DETAILED DESCRIPTION

(8) According to FIG. 1, the cooler station 1 consists of a liquid cooler 3 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, depending on the customer's wishes. However, each platform 10 from this set can be connected to the liquid cooler 3 in the same way. The connection is established by setting or, if necessary, pushing the platform 10 onto the distributor box 14 of the liquid cooler, which has two T grooves 9 as outwardly open mechanical connecting means. Then, according to FIG. 2, the platform has matting mechanical connecting elements 15, which engage in the fitting T grooves 9 on the distributor box 14.

(9) A plurality of cooler stations 1 with different parameters can be made available in this way by using only a few modular elements. In addition, the liquid cooler 3 can be selected from a set of liquid coolers 3 with various cooling performance levels. The mechanical connection to a platform 10 is always accomplished in the same way (see above).

(10) In the example illustrated in FIG. 1, the platform 10 has connections 20 for the liquid inlet line and the liquid outlet line 19 as well as an integrated thermometer 16 for determining the temperature of the liquid (preferably the liquid leaving the liquid cooler 3). Furthermore, the platform 10 is equipped with flanges 17, so that the cooler station as a whole can be mounted on the frame of a surrounding structure, motor or machine (not shown). Alternatively, the liquid cooler 3 is equipped with a distributor box 13 on its side facing away from the platform 10 and having T grooves 9 of the same predetermined standard. The cooler station 1 can therefore be connected to additional elements or to a machine (not shown) according to a selected system within the invention.

(11) As is known in the prior art, the distributor boxes 13 and 14 consist of a hollow extruded section of aluminum. Distributor boxes 13, 14 in the past were provided with two openings, one opening for the liquid inlet line and one opening for the liquid outline line. According to the invention, these two openings, as shown in FIGS. 2 and 3, are combined into one joint opening 11, which is made possible by a coaxial guidance of the liquid inlet line and the liquid outlet line. Inside the platform 10, separate connections for the liquid inlet line and the liquid outlet line are combined coaxially. According to FIG. 3, the hydraulic counterpart to the opening 11—yet another opening—is situated in the distributor box 14 and in the liquid cooler 3 on the whole, where the two streams that are guided coaxially are separated, so that liquid from the liquid inlet line is carried first to the distributor box 13, whereupon the liquid stream inside the distributor box 13 is distributed to the hollow ribs. At the other end of the hollow ribs, all the liquid streams inside the distributor box 14 are combined again and sent to the liquid outlet line. This design has the advantage that the number of required gaskets (between the distributor box 14 and the platform 10 here) in connecting the liquid inlet line and outlet line to a liquid cooler 3 can be reduced from two to one.

(12) According to FIG. 4, a liquid filter 18 may be integrated into one of the platforms 10 to which the liquid cooler 3 can be connected.

(13) The cooler station 1 together with the idea of modular design can be expanded to a liquid cooler installation. According to FIG. 5, the central part of a liquid cooler installation remains the cooler station 1, consisting of a liquid cooler 3 and a platform 10, shown as platform 10′ (which includes connections 20 for the liquid inlet line and the liquid outlet line 19), selected from a set, as shown in FIG. 1. A base 6 and a frame 2 offer connection options for the cooler station 1, a fan 4, a liquid tank 5 and a liquid filter 8 (unless the latter is already integrated into the platform 10′ or if a second filter 8, in addition to filter 18, is desired in the platform 10′. Depending on the design, the term “connections” is understood to refer to mechanical connections (screw connections, hooks or sections for a suspension, etc.), electrical connections or hydraulic connections (connections in an oil circulation). In addition, the base 6 and the frame 2 define the volume, in which the components of the liquid cooler installation have a place in the most compact possible assembly. The base 6 is therefore designed essentially as a cover for the cooler station 1 and/or the liquid cooler installation, which defines the width B and the depth T of the liquid cooler installation. For example, the base 6 may have an almost square footprint, i.e., the width B and depth T are essentially the same in size. The frame 2, which is connected to the base 6, then determines the height H of the cooler station 1 and/or of the liquid cooler installation as a whole. If the height H is essentially the same as the width B and the depth T, then the liquid cooler installation has the contour of a cube. To complete the liquid cooler installation, the following four elements are installed into this cooler station 1: a liquid cooler 3, a fan 4, an oil tank 5 and an oil filter 8. Each of these four components can be selected from a set to select the parameters of the liquid cooler installation, such as the size of the oil tank, the cooler efficiency, power consumption, etc. (see below).

(14) The liquid cooler installation according to the invention, as shown in FIG. 6, may be installed as free-standing units. In other words, each of its sides may be used as the base area for the installation without requiring any aids to prevent the unit from being overturned directly or falling over because of possible but nondestructive impacts. However, a suspension on an external frame (not shown) or on a pedestal and/or feet (not shown) might be appropriate (for example, for an uninterrupted supply of cooling air) during operation of the liquid cooler installation.

(15) The result is a system for making available liquid cooler installations, the advantage of which is that the installations can be adapted to a broad range of variation in requirements, although each one has the same cooler station 1 or the same combination of a base 6 and a frame 2 as the core items. The external dimensions with regard to the width B, depth T and height H according to FIG. 6 remain the same with all the liquid cooler installations of the system. The modular design of the liquid cooler installations results in a reduction in the cost of manufacturing.

(16) Another advantage of the invention is that the liquid cooler installations of the system are designed to be very compact and user friendly at the same time. The components work together: the frame 2 forms a part of the housing and a part of the air duct for the liquid cooler 3 at the same time. The tank 5 functions as an air duct for the fan 4 at the same time. The base 6 functions as part of the housing and as a mechanical connection point for the liquid cooler 3 and the tank 5 at the same time.

(17) The liquid cooler 3 is designed as a plate cooler, a parallelepiped package of hollow ribs being disposed between two vertical boxes. While the cooler station 1 provides the mechanical connection points for the liquid cooler 3, the liquid inlet line and the liquid outlet line are established by means of a platform 10 connected to the distributor box 14. The distributor boxes 13 and 14 have guide grooves 9 as described above, into which the heads of connecting screws, for example, can be inserted. The guide grooves illustrated in this example have a T-shaped cross section. The platform 10 can be pushed easily, reliably and quickly onto the distributor box 14 in this way and bolted securely at the desired location.

(18) Part of the system for providing liquid cooler installations is a set of at least two liquid coolers 3, which differ from one another in that they each offer a different cooling performance. On the other hand, the liquid coolers 3 from the series forming the set of liquid coolers 3 are similar to one another in that they have the same width (in the direction of the width B of the base 6), so they can be installed in the liquid cooler installation using the same means and operations.

(19) A fan 4 comprised of a set of fans 4 can be installed in the cooler station 1. In the exemplary embodiment shown in FIG. 5, the tank 5 constitutes the mechanical connecting point for the fan 4. The electrical connections are established via the base 6. All fans 4 from the set of fans 4 are the same in their mechanical and/or electrical connection options. They differ, for example, in their performance, i.e., in the volume of air delivered per unit of time.

(20) The liquid tank 5, which is to be connected to the base 6, is one member from a set of liquid tanks 5. All the members of the set of liquid tanks 5 differ in their capacity but they correspond in their external dimensions. The base 6 forms the cover that can be screwed onto each liquid tank 5 and in addition also forms the opening 7 for insertion of the liquid filter 8. In this way, the technical variation in the liquid tanks 5 suitable for the system may be accomplished independently of the mechanical connection of the liquid filters 8 to the entire liquid cooler installation. In the exemplary embodiment shown here, the liquid cooler 8 is inserted into the standardized opening 7 in the base 6 while being brought into connection with the liquid of the liquid tank 5 in a suitable manner at the same time. After being inserted into the liquid filter 8, the opening 7 is closed with a cover 12.

(21) The liquid filter 8 may also be a member of a set of at least two liquid filters 8, the members of which are designed mechanically so that they can each be connected to the liquid tank 5 through the opening 7, but they differ in their filter properties. These properties may include the filter performance, the durability or the alignment with a specific type of liquid or oil.

(22) For example, if the set of liquid coolers 3 consists of three different members and/or elements, such as the sets of fans 4, liquid tanks 5 and liquid filters 8 each consist of three elements, then the customer can select from a system of 3.sup.4=81 liquid cooler installations with various characteristic values, while the manufacturer of the system must keep on hand essentially only one type of cooler station 1 plus twelve different components to be installed therein. In practice, the sets of parts comprise substantially more elements in some cases, which drastically expands the product pallet.