Insertion element for frame racks

专利摘要:
An insertion element (1) for frame racks, in particular racks, for use in information and network technology, comprises a plurality of slots (2), the slots (2) insertable cable storage elements (6), in each of which a cable (7) is taken, the two cable ends (8,9) on the front side (10) of the cable storage element (6) formed openings (21) led to the outside and variable in length from the cable storage element (6) are pulled out.
公开号:AT515664A4
申请号:T380/2014
申请日:2014-05-20
公开日:2015-11-15
发明作者:
申请人:Hofstätter Josef；
IPC主号:

专利说明:

The invention relates to a slide-in element for frame racks, in particular racks, for use in the information and network technology, comprising a plurality of slots. The invention further relates to a cable storage element for insertion into a slot of the insertion element.
In information and network technology, it is often necessary to store a large number of network components and computers within a rack and to connect them via cables, in particular network cables. In data center operation, but also in event, laboratory and control technology, the term rack stands for a rack for electrical appliances with a standardized width of 19 inches, in which the individual devices (so-called plug-in elements) that can be mounted in the rack, a Front panel width of exactly 48.26cm (19 "). The plug-in elements are fastened with four screws each in the rows of holes vertically running sheet metal angle near the front edges of the rack.
The wiring of the individual plug-in elements with each other is complex. When cables with standard cable lengths are used, there is the problem that there is often an excess length resulting in a great deal of untidiness, which further causes confusion and difficulty of handling the various cables of the network system.
The present invention therefore aims to avoid the aforementioned disadvantages.
To solve this problem, the insertion element according to the invention for frame racks, in particular racks, for use in information and network technology, a plurality of slots, wherein the slots accommodate retractable cable storage elements, in each of which a cable is accommodated, the two cable ends on on the front page the cable memory element formed openings are led to the outside and variable in length from the cable storage element can be pulled out. This ensures a tidy and space-saving storage of the cables within the rack and a variability in the length of each required cable connections. The fact that both cable ends can be led out variable in length on the front side of the cable storage element, the required cable length can be pulled out of the cable storage, so that both the connection between two adjacent insertion elements or components, as well as inserted in the rack further away from each other plug-in elements respectively.
Components is possible. Disturbing cable overlengths are avoided.
It is particularly advantageous if the two cable ends can be pulled out of the cable storage independently of each other.
The insertion element according to the invention is preferably further developed such that the two cable ends are each independently removable from the cable storage element against a spring force. If only one of the cable ends has to be plugged inside the rack, this is possible without having to loosen the connections at the other end of the cable. This helps to avoid complicated plugging and re-arranging of cable connections. In particular, this avoids that a cable of a defined length must be replaced by a shorter or longer cable.
Advantageously, the insertion element according to the invention is further developed to the effect that the cable is guided in the cable storage element about a fixed to a spring element roller and is guided around a deflecting element on the opposite end of the spring element. By the spring element is in the
Cable storage element recorded cable held on train.
The cable to be accommodated is guided around the roller attached to the spring element, and due to the spring element, the roller can be moved by pulling on the respective cable ends within the cable storage element in the direction of the end face of the cable storage element and is released by means of the spring force exerted on the roller by the spring element the cable connection also retracted back into the cable storage element. The spring element may, for example, as a coil spring, torsion spring, bending spring, e.g. Spiral leaf spring or the like may be formed. Furthermore, the cable received in the cable storage element is guided around a deflection element on the end face of the cable storage element. By twice guiding the cable around the roller and the deflection element, a large amount of cable can be accommodated in a comparatively small memory element and the spring element allows for variable withdrawal and retraction of one or both cable ends.
The insertion element according to the invention can be further developed, in particular, such that the deflection element is designed as a fixed element in the longitudinal direction, in particular as a fixed roller. The deflecting element thus fulfills a double function. On the one hand, it serves to deflect the cable to be accommodated in the cable storage element - ie to guide it around the deflection element and, on the other hand, to guide the upper and the lower end of the cable out of the cable storage element above or below the deflection element. The deflecting element is preferably rotatably mounted.
The insertion element according to the invention is preferably further developed such that the cable storage element comprises a housing enclosing a cuboid storage space and the cable is received in the storage space. Due to the fact that both the insertion element and the cable storage element are formed cuboid, a highly space-saving and at the same time the space within the insertion element optimally ausnützende storage option for the respective cable is created.
Advantageously, the insertion element according to the invention is further developed in that the insertion element has a height of 1.75 inches and a width of 19 inches. These dimensions correspond to the insertion spaces available in a commercially available rack, which allows easy insertion of the insertion elements provided according to the invention into already existing racks.
The insertion element according to the invention therefore does not require any specially prepared racks.
The depth of the insertion element can be selected variable and depending on the length of the cable to be stowed. Depths of 40cm, 60cm, 100cm and 120cm are conceivable, for example.
The insertion element according to the invention can be further developed in particular such that the insertion element has at least 3, preferably 5 to 48, in particular 24 insertion slots. In each case, it depends on the thickness or the length of the male cable. For thin, short cables, the cable storage element can be made less wide and deep, which requires that an insert element can also have a greater number of slots. With thicker, longer cables wider cable storage elements are needed, which in turn requires push-in elements that have fewer slots. Furthermore, a combination of different widths of insertion slots within a push-in element is conceivable.
The insertion element according to the invention is preferably further developed in such a way that the roller attached to the spring element has a center of the roller arranged separating element. The separating element acts as a partition between the cable sections guided around the roller. This allows a problem-free in and pulling out of the cable ends, since the different cable sections can not overlap due to the separator.
Advantageously, the insertion element according to the invention is further developed such that means for braking the return movement of the roller are provided.
Furthermore, the insertion element according to the invention can be further developed in particular in such a way that the roller interacts in a grinding manner with the housing wall of the storage space of the cable storage element. The height of the separating element can therefore be selected, for example, such that the diameter of the roller reaches the height of the housing of the cable storage element only slightly below, whereby the role when releasing one of the cable ends due to the spring force slowly runs back and thus prevents uncontrolled and jerky retraction of the cable becomes.
Furthermore, it can preferably be provided that the cable storage element comprises a roller system with a plurality of, in particular two resiliently held rollers. This makes it easier to pull out the two spring-loaded rollers together with the cables surrounding them independently.
Particularly preferably, the insertion element according to the invention is further developed to the effect that between each two resiliently held rollers of the roller system, a partition wall is attached. The push-in element according to the invention is here preferably further developed such that the partition divides the storage space into two chambers and the first spring-mounted roller is guided in the first chamber and the second resiliently held roller is guided in the second chamber.
As a result, a trouble-free movement of the respective role is made possible without this being hindered by the respective other role.
The insertion element according to the invention can be developed in particular to the effect that the cable is a ribbon cable, in particular a coaxial cable or a twisted pair cable or a round cable. The cable may further be a network cable, an audio cable or a telephone cable.
Advantageously, the insertion element according to the invention is further developed such that the cable storage element can accommodate up to 2.4 m cable. The recording of 2.4m cable is especially possible with a cable storage element with a depth of 60cm. Similarly, a cable storage element with a depth of 30cm can accommodate 1.2m cable, a cable storage element with a depth of 100cm 4m cable and a cable storage element with a depth of 120cm 4.8m cable.
The invention further relates to a cable storage element for insertion into a slot of a plug-in element, which comprises an elongated, a cuboid storage space housing, wherein in the storage space, a cable is accommodated, the two cable ends guided on formed on the front side of the cable storage element openings to the outside and variable in length the cable storage element can be pulled out.
Preferred developments of the cable storage element will become apparent from the dependent claims and have already been discussed in connection with the insertion element according to the invention. ,
The invention will be explained in more detail with reference to embodiments shown schematically in the drawing. 2 shows a first embodiment of the cable storage element according to the present invention, FIG. 3 shows a top view according to the first embodiment of the cable storage element from FIG. 2, and FIG. 4 shows a second embodiment of the cable storage element according to the present invention Invention.
Fig.l shows an insertion element 1 for frame racks, which has 24 juxtaposed slots 2 for receiving insertable into the slots 2 cable storage elements. The individual slots are separated by longitudinal separating elements, in particular dividers. The male member has a cuboid housing having a preferred height a of 1.75 inches and a preferred width b of 19 inches. The cable storage elements are inserted in the direction of arrow 3 in the slots 2 of the insertion element 1 and fixed by snapping the clip 4 at the head end of the cable storage element in the insertion element 1. By means of the side attached to both sides of the insertion element 1 connecting elements 5, the insertion element 1 can be screwed to the frame.
2 shows a first embodiment of a cable storage element 6 according to the invention, which can be inserted into the insertion element shown in Fig.l. The cable storage element 6 has a cuboidal housing 15 whose width and height substantially correspond to the width and height of the insertion slots 2. In this case, the housing accommodates a cable 7 whose two cable ends 8, 9 are guided outward in the direction of the arrow 11 via openings (not shown here) formed on the end face 10 of the cable storage element 6 and can be pulled out of the cable storage element 6 in a variable-length manner.
It would be conceivable, for example, that the openings on both sides run tight and the cables after pulling in the laterally narrower areas of the openings can be clamped and thus fixed.
2 that the cable storage element 6 has a spring element 12, a roller 13 fastened to the spring element 12, and a roller-shaped deflecting element 14. The recorded in the cable storage element 6 cable 7 is guided around the fixed to the spring element 12 roller 13 and further guided around the deflecting element 14 on the spring element 12 opposite end. The cable 7 is in this case introduced on the end face 10 of the cable storage element 6 in the cuboid housing 15, guided in the direction of the roller 13, guided a first time around the roller 13 and deflected by 180 °. Subsequently, the cable 7 is returned to the end face 10 of the cable storage element 6, where it is guided around the deflecting element 14, is again deflected by 180 ° and is then guided a second time in the direction of the roller 13. There, the cable 7 is again guided around the roller 13, deflected by 180 ° and again returned to the end face 10 of the cable storage element 6, where it leaves the parallelepiped housing 15.
By pulling on the two cable ends 8, 9 according to arrow 11, the cable ends 8, 9 are each independently pulled against the force exerted by the spring element 12 spring force from the cable storage element 6.
The cable 7 is thus guided around both the roller 13 and around the deflecting element 14, which makes it possible that twice the amount of cable 7 in the cable storage element 6 can be accommodated.
Furthermore, it would be conceivable that the cable is guided around the roller 13 and the deflection element 14 more than twice, which makes it possible to stow longer cables 7 in the cable storage element 6.
FIG. 3 shows a plan view according to the first embodiment of the cable storage element 6 from FIG. 2. The roller 13 fastened to the spring element 12 has a separating element 16 arranged centrally in the roller 13, which firstly serves to arrange the cable 7 even after the roller 13 has been wound around to guide and secondly acts as a means for braking the return movement of the roller 13, since the height of the separating element 16 is selected such that the separating element 16 cooperating with the housing wall 15 of the storage space of the cable storage element 6 abradingly.
In Fig. 4 is shown with reference to a further embodiment of the present invention, that the insertion element 6 may comprise a roller system with two resiliently held rollers 17, 18. Here, a partition wall 19 is mounted between the two resiliently held rollers 17, 18 of the roller system. The partition wall 19 divides the storage space 20 into two chambers, wherein the first resiliently held roller 17 is guided in the first chamber and the second resiliently held roller 18 is guided in the second chamber.
Furthermore, the openings 21 (not shown in FIG. 2) are shown in FIG. 4, via which the cable 7 leaves the storage space 20 of the cable storage element 6 above and below the deflection element 14.

权利要求:
Claims (27)
[1]
1. insertion element for frame racks, in particular racks, for use in information and network technology, comprising a plurality of slots, characterized in that the slot (2) insertable cable storage elements (6) receive, in each of which a cable (7) is taken, the two cable ends (8,9) on the front side (10) of the cable storage element (6) formed openings (21) led to the outside and variable in length from the cable storage element (6) are pulled out.
[2]
2. Insertion element according to claim 1, characterized in that the two cable ends (8,9) are each independently from a spring force from the cable storage element (6) can be pulled out.
[3]
3. Insertion element according to claim 1 or 2, characterized in that the cable (7) in the cable storage element (6) is guided around a on a spring element (12) mounted roller (13) and on the spring element (12) opposite end to a deflecting element (14) is guided around.
[4]
4. insertion element according to claim 3, characterized in that the deflecting element (14) is designed as a fixed element, in particular as a fixed roller.
[5]
5. Insertion element according to one of claims 1 to 4, characterized in that the cable storage element (6) comprises a cuboid storage space (20) enclosing housing (15) and the cable (7) is received in the storage space (20).
[6]
6. Insertion element according to one of claims 1 to 5, characterized in that the insertion element (1) has a height of 1.75 inches and a width of 19 inches.
[7]
7. Insertion element according to one of claims 1 to 6, characterized in that the insertion element (1) has at least 3, preferably 5 to 48, in particular 24 slots.
[8]
8. insertion element according to one of claims 3 to 7, characterized in that the spring element (12) mounted roller (13) has a centrally of the roller (13) arranged separating element (16).
[9]
9. insertion element according to one of claims 3 to 8, characterized in that means for braking the return movement of the roller (13) are provided.
[10]
10. Insertion element according to one of claims 5 to 9, characterized in that the roller (13) slidingly with the housing wall (15) of the storage space (20) of the cable storage element (6) cooperates.
[11]
11. Insertion element according to one of claims 1 to 10, characterized in that the cable storage element (6) comprises a roller system with a plurality, in particular two resiliently held rollers (17,18).
[12]
12. Insertion element according to claim 11, characterized in that between each two resiliently held rollers (17,18) of the roller system, a partition wall (19) is mounted.
[13]
13. Insertion element according to claim 12, characterized in that the partition wall (19) divides the storage space (20) into two chambers and the first resiliently held roller (17) is guided in the first chamber and the second resiliently held roller (18) in the second chamber is guided.
[14]
14. Insertion element according to one of claims 1 to 13, characterized in that the cable (7) is a ribbon cable, in particular a coaxial cable or a twisted pair cable or a round cable.
[15]
15. Insertion element according to one of claims 1 to 14, characterized in that the cable storage element (6) can accommodate up to 2.4 m cable (7).
[16]
16. Cable storage element (6) for insertion into a slot (2) of an insertion element (1) according to one of claims 1 to 15, comprising an elongated, a cuboid storage space (20) enclosing the housing (15), wherein in the storage space (20) Cable (7) is received, whose two cable ends (8,9) on the front side (10) of the cable storage element (6) formed openings (21) led to the outside and variable in length from the cable storage element (6) are pulled out.
[17]
17. Cable storage element according to claim 16, characterized in that the two cable ends (8,9) are each independently from a spring force from the cable storage element (6) can be pulled out.
[18]
18. Cable storage element according to claim 16 or 17, characterized in that the cable (7) is guided in the cable storage element (6) about a spring element (12) mounted roller (13) and on the spring element (12) opposite end to a deflecting element (14) is guided around.
[19]
19. Cable storage element according to claim 16, 17 or 18, characterized in that the deflecting element (14) is designed as a fixed element, in particular as a fixed roller.
[20]
20. Cable storage element according to claim 18 or 19, characterized in that the spring element (12) mounted roller (13) has a centrally of the roller (13) arranged separating element (16).
[21]
21. Cable storage element according to claim 18, 19 or 20, characterized in that means for braking the return movement of the roller (13) are provided.
[22]
22. Cable storage element according to one of claims 16 to 21, characterized in that the roller (13) slidingly with the housing wall (15) of the storage space (20) of the cable storage element (6) cooperates.
[23]
23. Cable storage element according to one of claims 16 to 22, characterized in that the cable storage element (6) comprises a roller system with a plurality, in particular two resiliently held rollers (17,18).
[24]
24. Cable storage element according to claim 23, characterized in that between each two resiliently held rollers (17,18) of the roller system, a partition wall (19) is mounted.
[25]
25. Cable storage element according to claim 24, characterized in that the partition wall (19) divides the storage space (20) into two chambers and the first resiliently held roller (17) is guided in the first chamber and the second resiliently held roller (18) in the second chamber is guided.
[26]
26. Cable storage element according to one of claims 16 to 25, characterized in that the cable (7) is a ribbon cable, in particular a coaxial cable or a twisted pair cable or a round cable.
[27]
27. Cable storage element according to one of claims 16 to 26, characterized in that the cable storage element (6) can accommodate up to 2.4 m cable (7). Vienna, 20 May 2014 Applicants by:

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AT515664B1|2014-05-20|2015-11-15|Hofstätter Josef|Insertion element for frame racks|AT515664B1|2014-05-20|2015-11-15|Hofstätter Josef|Insertion element for frame racks|

法律状态:
2020-08-15| HA| Change or addition of new inventor|Inventor name: JOSEF HOFSTAETTER, AT Effective date: 20200702 Inventor name: ALEXANDER GENG, AT Effective date: 20200702 |

优先权:

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申请号 | 申请日 | 专利标题

---

ATA380/2014A|AT515664B1|2014-05-20|2014-05-20|Insertion element for frame racks|ATA380/2014A| AT515664B1|2014-05-20|2014-05-20|Insertion element for frame racks|

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PCT/AT2015/000076| WO2015176086A1|2014-05-20|2015-05-19|Insert element for frameworks|

---

CN201580038974.1A| CN106575023B|2014-05-20|2015-05-19|Push-in element for frame|

---

DK15728377.1T| DK3146814T3|2014-05-20|2015-05-19|Push-in element for frame racks|

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ES15728377T| ES2828709T3|2014-05-20|2015-05-19|Insert for racks|

---

EP15728377.1A| EP3146814B1|2014-05-20|2015-05-19|Insert element for frameworks|

---

US15/312,551| US9854699B2|2014-05-20|2015-05-19|Insert element for frameworks|

---

HK17105812.6A| HK1232302A1|2014-05-20|2017-06-13|Insert element for frameworks|