DE212020000583U1 - Heat dissipation network equipment rack for a large gateway - Google Patents

Abstract

A heat dissipation network equipment rack for a large gateway, comprising a heat dissipation frame (1), the heat dissipation frame (1) being provided with a heat dissipation mechanism (2) and a cooling mechanism (3), the heat dissipation mechanism (2) above the heat dissipation frame (1) is arranged, the heat dissipation mechanism (2) comprises a heat dissipation box (21) fixed above the heat dissipation frame (1), the heat dissipation box (21) is fixed to the upper inside of the heat dissipation frame (1), which is inside on the upper side with a motor (22), the motor (22) having a fan (23) at its output end, the heat dissipation mechanism (2) having a heat sink hole (24) at its bottom where it is connected to the heat dissipation frame (1). , wherein the heat sink hole (24) connects the heat dissipation frame (1) to the inside of the heat dissipation box (21), wherein the cooling mechanism (3) has a A water tank (31) fixed to the bottom of the heat dissipation frame (1), the water tank (31) being provided with a water pump (32) inside, the water pump (32) having a first L-shaped water pipe (33). its exit end, the first L-shaped water tube (33) extending outside the water tank (31) and into a wall of the heat dissipation frame (1), the first L-shaped water tube (33) connected to a first serpentine tube (34). the first serpentine tube (34) being connected at its other end to a cross water tube (35), the first serpentine tube (34) being connected at its other end to a cross water tube (35), the cross water tube (35) passing through the interior of the heat dissipation frame (1) extends to the other side of the heat dissipation frame (1) and is connected to a second serpentine line (36) located inside the wall of the other side of the heat dissipation frame (1), the the second serpentine conduit (36) is connected to a second L-shaped water pipe (37), the second L-shaped water pipe (37) extending into the interior of the water tank (31).

Description

The present invention relates to the technical field of the heat-dissipation network equipment rack, particularly to a heat-dissipation network equipment rack for a large-scale gateway.

Gateways, also known as network connectors or protocol converters, enable network connection above the network layer and are complex network connection devices that serve only to connect two networks with different high-level protocols. Gateways can be used for both WAN connections and LAN connections. A gateway is a computer system or device that does the heavy lifting of conversion and requires the use of network equipment such as large servers in large gateways.

Existing network equipment for large gateways is simply placed in a chassis or on a storage shelf that cannot be protected from external collisions while allowing good heat dissipation.

To overcome the shortcomings of the prior art, the present invention provides a heat dissipation network equipment rack for a large gateway, not only can enable external protection of network equipment, but also improve heat dissipation and cooling through a heat dissipation mechanism and a cooling mechanism , so that the practicality of the device is effectively improved, which rewards to promote.

In order to solve the above technical problems, the present invention provides the following technical solutions: heat dissipation network equipment rack for a large gateway, which includes a heat dissipation frame, the heat dissipation frame is provided with a heat dissipation mechanism and a cooling mechanism, the heat dissipation mechanism above the heat dissipation frame is arranged, the heat dissipation mechanism comprises a heat dissipation box fixed above the heat dissipation frame, the heat dissipation box is fixed to the upper inside of the heat dissipation frame, which is provided inside on the upper side with a motor, the motor having a fan at its output end, wherein the heat dissipation mechanism has a heat sink hole at its bottom where it is connected to the heat dissipation frame, the heat sink hole connecting the heat dissipation frame to the interior of the heat dissipation box where wherein the cooling mechanism comprises a water tank fixed to the bottom of the heat dissipation frame, the water tank being provided with a water pump inside, the water pump having a first L-shaped water tube at its output end, the first L-shaped water tube being outside the water tanks and extends into a wall of the heat dissipation frame, the first L-shaped water tube being connected to a first serpentine tube, the first serpentine tube being connected to a cross water tube at its other end, the first serpentine tube being connected to a cross water tube at its other end , wherein the transverse water pipe extends through the inside of the heat dissipation frame to the other side of the heat dissipation frame and is connected to a second serpentine pipe located inside the wall of the other side of the heat dissipation frame, the second serpentine pipe having a second L-shaped water pipe r is connected, with the second L-shaped water pipe extending into the interior of the water tank.

In a preferred technical solution of the present invention, it is that the heat dissipation frame is provided with a fixing mechanism inside, the fixing mechanism includes a fixing seat fixed to the inner wall of the heat dissipation frame, the fixing seat being fixed with an electric telescopic rod inside, the telescopic electric rod having a movable block at the other end, the movable block passing through and protruding from the mounting seat, the movable block having a fixed block at the end of the mounting seat protruding therefrom.

In a preferred technical solution of the present invention, it is that the water tank is provided with a perforation on the side near the second L-shaped water pipe, the second L-shaped water pipe extending into the inside of the water tank through the perforation, wherein the perforation is provided with a sealing ring placed outside the second L-shaped water tube.

In a preferred technical solution of the present invention, it is that the heat dissipation frame is provided with a support base at the bottom, the support base is provided in plurality and evenly distributed on the bottom of the heat dissipation frame, the support base is provided with a support foot underneath.

In a preferred technical solution of the present invention, the bottom of the Heat dissipation frame is provided with a base plate, the base plate being uniformly provided with through holes, the through holes being circular.

In a preferred technical solution of the present invention, the mounting seat is provided with a non-slip pad at an end remote from the moving block, the non-slip pad being made of nitrile rubber.

In a preferred technical solution of the present invention is that the moving block is provided with a push rod in an external fixed sleeve, the push rod is provided with slides on both ends, the fixed seat is provided with slide rails on both sides inside, the slides slide within the slide rails.

In a preferred technical solution of the present invention, the telescopic electric rod is covered with a spring on the outside, the ends of the spring being connected to the inner wall of the mounting seat and to the moving block, respectively.

In a preferred technical solution of the present invention, it is that the fixing seats are provided in two sets, and the two sets of fixing seats are evenly distributed between the fixing blocks and the inner wall of the heat dissipation frame.

• Die Erfindung ist mit einem Wärmeableitungsmechanismus und einem Kühlmechanismus versehen, wenn diese Vorrichtung verwendet wird, werden der Motor und die Wasserpumpe gestartet, zu diesem Zeitpunkt treibt der Motor den Ventilator an, um die Netzwerkausrüstung innerhalb des Wärmeableitungsrahmens abzukühlen, gleichzeitig pumpt die Wasserpumpe das Wasser im Wassertank in das erste L-förmige Wasserrohr, dann wird die Netzwerkausrüstung durch das erste Serpentinenrohr, das Querwasserrohr und das zweite Serpentinenrohr abgekühlt, durch die Einstellung des ersten Serpentinenrohrs und des zweiten Serpentinenrohrs können die Kühlfläche im Inneren des Geräts effektiv vergrößern werden, und schließlich fließt das Wasser durch das zweite L-förmige Wasserrohr zur Wiederaufbereitung zurück in den Wassertank, was sehr umweltfreundlich ist. Durch die o.g Maßnahmen kann man nicht nur externen Schutz von Netzwerk-Gerät ermöglichen, sondern auch durch einen Wärmeableitungsmechanismus und einen Kühlmechanismus die Wärmeableitung und Kühlung verbessern, damit die Praktikabilität des Gerätes effektiv verbessert wird, was belohnt, zu fördern.

Compared with the prior art, the present invention can achieve the advantageous effect that:

• The invention is provided with a heat dissipation mechanism and a cooling mechanism, when this device is used, the motor and the water pump are started, at this time the motor drives the fan to cool the network equipment inside the heat dissipation frame, at the same time the water pump pumps the water inside Water tank into the first L-shaped water pipe, then the network equipment is cooled through the first serpentine pipe, the cross water pipe and the second serpentine pipe, through the adjustment of the first serpentine pipe and the second serpentine pipe, the cooling area inside the equipment can be effectively increased, and finally flows the water back to the water tank through the second L-shaped water pipe for recycling, which is very environmentally friendly. Through the above measures, one can not only enable external protection of network equipment, but also improve heat dissipation and cooling through a heat dissipation mechanism and a cooling mechanism, so that the practicability of the equipment is effectively improved, which is rewarding to promote.

• 1 zeigt eine schematische Darstellung des Aufbaus der vorliegenden Erfindung.
• 2 zeigt eine schematische Darstellung des Aufbaus der Grundplatte der vorliegenden Erfindung.
• 3 zeigt eine schematische Darstellung des Aufbaus des ersten Serpentinenrohrs der vorliegenden Erfindung; und
• 4 zeigt eine schematische Darstellung des Aufbaus des Befestigungsmechanismus der vorliegenden Erfindung; und
• 5 zeigt eine vergrößerte Ansicht von A im Rahmen der vorliegenden Erfindung.

The invention is equipped with a fastening mechanism. When using this device, by operating the electric telescopic rod 43, the movable block 44 is pushed so that the fixed block 47 is pressed against the network device, thereby fixing and clamping the network device, thereby preventing the network device from moving back inside the heat dissipation frame 1 moves, which is an effective security function for the network device.

• 1 Fig. 12 shows a schematic representation of the structure of the present invention.
• 2 Fig. 12 shows a schematic representation of the structure of the base plate of the present invention.
• 3 Figure 12 shows a schematic representation of the construction of the first serpentine tube of the present invention; and
• 4 Figure 12 shows a schematic representation of the structure of the attachment mechanism of the present invention; and
• 5 shows an enlarged view of A in the scope of the present invention.

As in the 1 and 3 As shown, the present invention provides a heat dissipation network equipment rack for a large gateway, comprising a heat dissipation frame 1, the heat dissipation frame 1 being provided with a heat dissipation mechanism 2 and a cooling mechanism 3, the heat dissipation mechanism 2 being disposed above the heat dissipation frame 1, the Heat dissipation mechanism 2 comprises a heat dissipation box 21 fixed above the heat dissipation frame (1), the heat dissipation box 21 is fixed to the upper inside of the heat dissipation frame 1, which is provided with a motor 22 inside at the upper side, the motor 22 at its output end a fan 23, the heat dissipation mechanism 2 having a heat sink hole 24 at its bottom where it is connected to the heat dissipation frame 1, the heat sink hole 24 connecting the heat dissipation frame 1 to the inside of the heat dissipation box 21, the cooling mechani smus 3 comprises a water tank 31 fixed to the bottom of the heat dissipation frame 1, the water tank 31 being provided with a water pump 32 inside, the water pump 32 having a first L-shaped water pipe 33 at its output end, the first L -shaped Water pipe 33 extends outside the water tank 31 and into a wall of the heat dissipation frame 1, the first L-shaped water pipe 33 is connected to a first serpentine pipe 34, the first serpentine pipe 34 is connected at its other end to a transverse water pipe 35, the first Serpentine pipe 34 is connected at its other end to a cross water pipe 35, the cross water pipe 35 extending through the inside of the heat dissipation frame 1 to the other side of the heat dissipation frame 1 and connecting to a second serpentine pipe 36 extending inside the wall of the other side of the heat dissipation frame 1 , the second serpentine pipe 36 is connected to a second L-shaped water pipe 37 , the second L-shaped water pipe 37 extending inside the water tank 31 .

When this device is used, the motor 22 and water pump 32 are started, at this time the motor 22 drives the fan 23 to cool the network equipment inside the heat dissipation frame 1, at the same time the water pump 32 pumps the water in the water tank 31 into the first L-shaped water pipe 33, then the network equipment is cooled through the first serpentine pipe 34, the cross water pipe 35 and the second serpentine pipe 36, through the adjustment of the first serpentine pipe 34 and the second serpentine pipe 36 can effectively increase the cooling area inside the equipment, and finally, the water flows back into the water tank 31 through the second L-shaped water pipe 37 for recycling, which is very environmentally friendly. Through the above measures, one can not only enable external protection of network equipment, but also improve heat dissipation and cooling through a heat dissipation mechanism and a cooling mechanism, so that the practicability of the equipment is effectively improved, which is rewarding to promote.

In another embodiment, as in the 1 and 4 shown, the invention discloses that the heat dissipation frame 1 is provided with an attachment mechanism 4 inside, the attachment mechanism 4 comprising an attachment seat 41, the attachment seat 41 being attached to the inner wall of the heat dissipation frame 1, the attachment seat 41 being connected to an electric telescopic rod 43 fixed inside, the telescopic electric rod 43 having a movable block 44 at the other end, the movable block 44 passing through and protruding from the fixing seat 41, the movable block 44 having a fixed block 47 at the end of the fixing seat 41 , which protrudes from this.

When using this device, by operating the electric telescopic rod 43, the movable block 44 is pushed so that the fixed block 47 is pressed against the network device, thereby fixing and clamping the network device, thereby preventing the network device from moving back inside the heat dissipation frame 1 moves, which is an effective security function for the network device.

In another embodiment, as in the 1 and 5 1, the invention discloses that the water tank 31 is provided with a perforation on one side near the second L-shaped water tube 37, the second L-shaped water tube 37 extending through the perforation into the interior of the water tank 31, wherein the perforation is provided with a sealing ring 9 located outside the second L-shaped water pipe 37; by providing a sealing ring 9 located outside the second L-shaped water pipe 37 inside the perforation, the water inside the water tank 31 can be prevented from overflowing.

In a further embodiment, as in the 1 1, the present invention discloses that the underside of the heat dissipation frame 1 is provided with a support seat 5, the support base 5 being provided in plurality and evenly distributed on the underside of the heat sink frame 1, the support base 5 having a support foot 6 below the support base 5 is provided; by providing the support base 5 and the support foot 6 at the bottom of the heat dissipation frame 1, the stability of the device can be increased.

In another embodiment, as in the 1 and 2 As shown, the invention discloses that the underside of the heat dissipation frame 1 is provided with a base plate 7, the base plate 7 being provided with through holes 8 uniformly, the through holes 8 being circular; the heat dissipation of the device can be further improved by providing uniformly circular through holes 8 in the base plate 7.

In another embodiment, as in the 1 and 4 As shown, the present invention discloses that the fixed block 47 is provided with a non-slip pad 48 at an end remote from the movable block 44, the non-slip pad 48 being made of nitrile rubber; by providing the non-slip pad 48, the friction between the movable block 44 and the net device can be increased which improves the stability of the attachment mechanism 4.

In another embodiment, as in the 1 and 4 As shown, the invention discloses that the moving block 44 is provided with a push rod 45 on the outer fixed device, the push rod 45 being provided with slides 49 at both ends, the fixed seat 41 being provided with slide rails 46 at both sides internally, the sliders 49 sliding within the slide rails 46; by providing slide rails 46, push rod 45 and sliders 49, the moving position of the moving block 44 can be limited, and the stability of the apparatus is improved.

In another embodiment, as in the 1 and 4 As shown, the invention discloses that the telescopic electric rod 43 is provided with a spring 42 on the outside of the telescopic electric rod 43, the ends of the spring 42 being connected to the inner wall of the fixed seat 41 and the movable block 44, respectively; by providing the spring 42 on the outside of the electric telescopic rod 43, the electric telescopic rod 43 can be temporarily replaced to act as a thrust for the moving block 44 in the event of a malfunction of the electric telescopic rod 43.

In another embodiment, as in the 1 and 4 1, the invention discloses that the fixed seats 41 are provided in two sets and that the two sets of the fixed seats 41 are evenly distributed between the fixed block 47 and the inner wall of the heatsink frame 1; the stability of the attachment mechanism 4 can be further increased by the adjustment of two sets of fixed seats 41.

In the present invention, unless expressly stated and limited otherwise, the first feature "above" or "below" the second feature may include direct contact between the first and second features or non-direct contact between the first and second features , but via a separate feature between them. When the first feature is "above," "upper of," and "on the upper side" of the second feature, it also means that the first feature is directly above and diagonally above the second feature, or it simply means that the first feature is horizontally higher than the second feature. The first feature lying "below", "below" and "on the lower side" of the second feature also means that the first feature is directly below and diagonally below the second feature, or it simply means that the first feature is horizontally lower than the second feature.

Reference List

1

heat dissipation frame

2

heat dissipation mechanism

21

heat dissipation box

22

engine

23

Fan

24

heat dissipation hole

3

cooling mechanism

31

water tank

32

water pump

33

first L-shaped water pipe

34

first serpentine pipe

35

cross water pipe

36

second serpentine tube

37

second L-shaped water pipe

4

fastening mechanism

41

mounting seat

42

feather

43

electric telescopic rod

44

moving block

45

push rod

46

sliding rail

47

solid block

48

non-slip pads

49

slider

5

support seat

6

support leg

7

bottom plate

8th

through hole

9

sealing ring

Claims (9)

A heat dissipation network equipment rack for a large gateway, comprising a heat dissipation frame (1), the heat dissipation frame (1) being provided with a heat dissipation mechanism (2) and a cooling mechanism (3), the heat dissipation mechanism (2) above the heat dissipation frame (1) is arranged, the heat dissipation mechanism (2) comprises a heat dissipation box (21) fixed above the heat dissipation frame (1), the heat dissipation box (21) is fixed to the upper inside of the heat dissipation frame (1), the internally provided with a motor (22) on the upper side, the motor (22) having a fan (23) at its output end, the heat dissipation mechanism (2) at its bottom where it is connected to the heat dissipation frame (1). , having a heat sink hole (24), the heat sink hole (24) connecting the heat dissipation frame (1) to the inside of the heat dissipation box (21), the cooling mechanism (3) comprising a water tank (31) installed at the bottom of the heat dissipation frame (1) is fixed, the water tank (31) being provided with a water pump (32) inside, the water pump (32) having a first L-shaped water pipe (33) at its output end, the first L-shaped water pipe (33 ) extends outside the water tank (31) and into a wall of the heat dissipation frame (1), wherein the first L-shaped water pipe (33) is connected to a first serpentine pipe (34), the first serpentine pipe (34) at its other end with a Q cross water pipe (35), the first serpentine pipe (34) being connected at its other end to a cross water pipe (35), the cross water pipe (35) extending through the interior of the heat dissipation frame (1) to the other side of the heat dissipation frame (1) extends and is connected to a second serpentine line (36) located inside the wall of the other side of the heat dissipation frame (1), the second serpentine line (36) being connected to a second L-shaped water pipe (37), the second L-shaped water tube (37) extends into the interior of the water tank (31). Heat dissipation network equipment rack for a large gateway according to claim 1 , characterized in that the heat dissipation frame (1) is provided with a fastening mechanism (4) inside, the fastening mechanism (4) comprising a fastening seat (41) which is fixed to the inner wall of the heat dissipation frame (1), the fastening seat ( 41) is fixed with an electric telescopic rod (43) inside, the electric telescopic rod (43) having at the other end a mobile block (44), the mobile block (44) passing through and out of the fixing seat (41). the mobile block (44) having a fixed block (47) at the end of the fixing seat (41) protruding therefrom. Heat dissipation network equipment rack for a large gateway according to claim 1 or 2 , characterized in that the water tank (31) is provided with a perforation on the side near the second L-shaped water pipe (37), the second L-shaped water pipe (37) protruding into the inside of the water tank through the perforation (31), the perforation being provided with a sealing ring (9) placed outside the second L-shaped water pipe (37). A heat dissipation network equipment rack for a large gateway according to any preceding claim, characterized in that the heat dissipation frame (1) is provided with a support base (5) at the bottom, the support base (5) in plurality and evenly distributed at the bottom of the heat dissipation frame (1), the support base (5) is provided with a support foot (6) underneath. Heat dissipation network equipment rack for a large gateway according to any one of the preceding claims, characterized in that the bottom of the heat dissipation frame (1) is provided with a base plate (7), the base plate (7) being provided with through holes (8) uniformly, the through holes (8) being circular. Heat dissipation network equipment rack for a large gateway according to claim 2 , characterized in that the fixed block (47) is provided with a non-slip pad (48) at an end remote from the movable block (44), the non-slip pad (48) being made of nitrile rubber. Heat dissipation network equipment rack for a large gateway according to claim 2 or 6 , characterized in that the moving block (44) is provided with a push rod (45) in an external fixed sleeve, the push rod (45) is provided with slides (49) at both ends, the fixed seat (41) with slide rails ( 46) on both sides inside, the slides (49) slide inside the slide rails (46). Heat dissipation network equipment rack for a large gateway according to any of claims 2 , 6 or 7 , characterized in that the telescopic electric rod (43) is sheathed externally with a spring (42), the ends of the spring (42) being connected to the inner wall of the fixing seat (41) and to the moving block (44) respectively. Heat dissipation network equipment rack for a large gateway according to any of claims 2 or 6 until 8th , characterized in that the fixing seats (41) are provided in two sets and the two sets of fixing seats (41) are evenly spaced between the fixed block (47) and the inner wall of the heat dissipation frame (1).

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