CN107890719B - Servo device and filter device thereof - Google Patents

Abstract

The invention discloses a filtering device which is suitable for being arranged on a shell of an electronic device and comprises a filtering frame and an assembling frame. The filter frame comprises a frame body and a filter screen. The filter screen is installed in the support body. The assembling frame comprises a first plate, a second plate, a third plate frame and a plurality of clamping plates. The second plate and the third plate are respectively connected to two opposite sides of the first plate to form an accommodating groove. The clamping plate is connected to one side, far away from the first plate, of the second plate and extends towards the third plate to cover part of the accommodating groove. One side of the filter frame is abutted against the second plate and limited by the clamping plate to be positioned between the first plate and the clamping plate. The other side of the filter frame is abutted against the third plate to enable the filter frame to be fixed in the accommodating groove, and the clamping plate is used for being buckled on the shell of the electronic device in a sliding mode. The invention also discloses a servo device with the filter device.

Description

Servo device and filter device thereof

Technical Field

The present invention relates to a servo device, and more particularly, to a servo device having a filter.

Background

The rise of networks in recent years drives the emergence of a plurality of information household electrical appliances. The term "Information Appliances" (IA) generally refers to devices having communication or internet connectivity capabilities and specific uses for Information and entertainment. Network servers are installed to provide network services, and a network switch is one of the main components of the network servers.

Because the network switch has a fast transmission speed and a high operation temperature, the network switch is usually equipped with a large number of fans to ensure the heat dissipation effect of the network switch. The fan brings in external air flow from the air inlet of the network exchanger, blows the air flow to the heating element inside the machine, and then brings out the air flow from the air outlet. However, in order to ensure the quality of the airflow entering the network exchanger, the dust in the airflow is prevented from entering the network exchanger to influence the transmission speed of the network. Network switches are approved for compliance prior to the market in the united states and must be tested by the Network Equipment Building System (NEBS). Therefore, it is one of the problems to be solved by developers how to avoid the influence of dust in the air entering the inside of the network exchanger on the transmission speed of the network exchanger.

Disclosure of Invention

The present invention provides a server device, which achieves the effect of filtering dust by hanging a filter device, and further prevents dust in the air from entering the network exchanger to affect the transmission speed of the network exchanger.

The filter device disclosed by the embodiment of the invention is suitable for being arranged on a shell of an electronic device and comprises a filter frame and an assembly frame. The filter frame comprises a frame body and a filter screen. The filter screen is installed in the support body. The assembling frame comprises a first plate, a second plate, a third plate frame and a plurality of clamping plates. The second plate and the third plate are respectively connected to two opposite sides of the first plate to form an accommodating groove. The clamping plate is connected to one side, far away from the first plate, of the second plate and extends towards the third plate to cover part of the accommodating groove. One side of the filter frame is abutted against the second plate and limited by the clamping plate to be positioned between the first plate and the clamping plate. The other side of the filter frame is abutted against the third plate to enable the filter frame to be fixed in the accommodating groove, and the clamping plate is used for being buckled on the shell of the electronic device in a sliding mode.

The servo device disclosed by another embodiment of the invention comprises a cabinet, a network exchanger, a filtering device and at least two fixed plate pieces. The rack includes two at least fixed columns and two first slide rails. Two first slide rails are arranged on at least two fixed columns. The network exchanger comprises a shell, two second sliding rails and an electronic component. The casing comprises a front plate, a top plate and two side plates. The front plate, the top plate and the two side plates form an accommodating space together. The electronic component is located in the accommodating space. The front plate has a plurality of connection ends and a plurality of air inlets. The top plate has a plurality of card slots. The two second sliding rails are respectively arranged on the two side plates and can be arranged on the two first sliding rails of the cabinet in a drawing mode. The filtering device comprises a filtering frame and an assembling frame. The filter frame comprises a frame body and a filter screen. The filter screen is installed in the support body. The assembling frame comprises a first plate, a second plate, a third plate and a plurality of clamping plates. The second plate and the third plate are respectively connected to two opposite sides of the first plate to form an accommodating groove. The clamping plate is connected to one side, far away from the first plate, of the second plate and extends towards the third plate to cover part of the accommodating groove. One side of the filter frame is abutted against the second plate and limited by the clamping plate to be positioned between the first plate and the clamping plate. The other side of the filter frame is abutted against the third plate to enable the filter frame to be fixed in the accommodating groove, and the clamping plate can be buckled with the clamping groove of the network exchanger in a sliding manner. Each fixing plate comprises a first fixing part, a second fixing part and a third fixing part. The second fixing part and the third fixing part are respectively connected to two opposite sides of the first fixing part. The first fixing part is fixed on a side plate of the network exchanger. The second fixing part is fixed on a fixing column of the cabinet. The third fixing part is fixed on the assembling frame.

According to the servo device and the filtering device thereof disclosed by the embodiment, the filtering device is additionally arranged at the air inlet of the network exchanger to filter the air flow entering the network exchanger, so that the phenomenon that the transmission speed of the network exchanger is influenced by the dust in the air entering the network exchanger can be avoided.

In addition, the clamping plate of the filtering device is arranged in the clamping groove of the network exchanger in a sliding and buckling mode, so that the assembly efficiency between the filtering device and the network exchanger can be improved, and the slender filtering frame is prevented from deviating from the air inlet of the network exchanger due to bending deformation or inclination. In this way, the filter device can provide dust protection for the network switch.

The foregoing summary of the invention, as well as the following detailed description of the embodiments, is provided to illustrate and explain principles of the invention and to provide further explanation of the invention as claimed.

Drawings

Fig. 1 is a perspective view of a servo device and a filter device thereof according to a first embodiment of the invention.

Fig. 2 is a partially exploded view of the servo apparatus of fig. 1.

Fig. 3 is a partial cross-sectional view of the servo apparatus of fig. 1.

Fig. 4 is a perspective view of a first step in the assembly process of the filter device of fig. 1.

Fig. 5 is a perspective view of a second step in the assembly process of the filter device of fig. 1.

Wherein, the reference numbers:

1 Servo device

10 machine cabinet

11 fixed column

12 first slide rail

20 network exchanger

21 casing

211 front plate

2111 connecting end

2112 air inlet

212 Top plate

2121 card slot

213 side plate

214 accommodating space

22 second slide rail

23 electronic assembly

30 filtration device

31 filter rack

311 frame body

3111 first support

31111 first ventilation opening

3112 second support

31121 second ventilation port

3113 third support

31131 third ventilation port

312 filter screen

3121 first filter stage

3122 second filter stage

3123 third Filter stage

313 first abdicating space

32 assembling rack

321 first plate member

3211 second abdicating space

3212 air inlet

322 second plate

323 third plate

324 limit plate

325 assembling plate

326 clamping plate

3261 Release segment

3262 clamping segment

327 receiving groove

40 fixed plate

41 first fixed part

42 second fixed part

421 screw hole

43 third fixing part

Detailed Description

The detailed features and advantages of the present invention are described in detail in the embodiments below, which are sufficient for anyone skilled in the art to understand the technical contents of the present invention and to implement the present invention, and the related objects and advantages of the present invention can be easily understood by anyone skilled in the art according to the disclosure of the present specification, the protection scope of the claims and the attached drawings. The following examples further illustrate aspects of the present invention in detail, but are not intended to limit the scope of the invention in any way.

Please refer to fig. 1 to 3. Fig. 1 is a perspective view of a servo device and a filter device thereof according to a first embodiment of the invention. Fig. 2 is a partially exploded view of the servo apparatus of fig. 1. Fig. 3 is a partial cross-sectional view of the servo apparatus of fig. 1. A server 1 of the present embodiment includes a cabinet 10, a network switch 20, a filtering device 30 and two fixing plates 40.

The cabinet 10 includes two fixing posts 11 and two first sliding rails 12. Two first slide rails 12 are disposed on the two fixing posts 11.

The network switch 20 includes a housing 21, two second sliding rails 22, and an electronic component 23. The housing 21 includes a front plate 211, a top plate 212 and two side plates 213. The front plate 211, the top plate 212 and the two side plates 213 together form an accommodating space 214. The electronic component 23 is located in the accommodating space 214. The front plate 211 has a plurality of connection ends 2111 and a plurality of air inlets 2112. The top plate 212 has a plurality of card slots 2121. The two second slide rails 22 are respectively disposed on the two side plates 213, and are drawably disposed on the two first slide rails 12 of the cabinet 10.

The filter device 30 includes a filter frame 31 and an assembly frame 32. The filter rack 31 includes a rack 311 and a filter 312.

The frame 311 includes a first support 3111, a second support 3112 and a third support 3113. The second support 3112 and the third support 3113 are respectively connected to two opposite ends of the first support 3111 and extend in the same direction to form a first yielding space 313. Specifically, the frame 311 is a U-shaped frame composed of three brackets, thereby forming a first offset space 313. The first support 3111 has a first vent 31111, the second support 3112 has a second vent 31121, and the third support 3113 has a third vent 31131. The first ventilating opening 31111, the second ventilating opening 31121 and the third ventilating opening 31131 are all communicated with the first relief space 313. The third vent 31131 of the third rack 3113 is further in communication with an inlet 2112 of the network exchanger 20. The screen 312 includes a first filtering section 3121, a second filtering section 3122 and a third filtering section 3123 connected together. The first filter segment 3121, the second filter segment 3122, and the third filter segment 3123 are disposed at the first bracket 3111, the second bracket 3112, and the third bracket 3113, respectively. In detail, each bracket has a concave structure for mounting three filtering sections.

The assembly frame 32 includes a first plate 321, a second plate 322, a third plate 323, two limiting plates 324, two assembly plates 325, and three engaging plates 326. The first plate 321 has a second relief space 3211 extending from a side connected to the third plate 323 toward a direction close to the second plate 322, and the second relief space 3211 is communicated with the first relief space 313. The first plate member 321 further has an air inlet 3212. The air inlet 3212 communicates with a third vent 31131 of the third rack 3113. The second plate 322 and the third plate 323 are respectively connected to two opposite sides of the first plate 321, and the two limiting plates 324 are connected to two sides of the first plate 321 and between the second plate 322 and the third plate 323, so that the first plate 321, the second plate 322, the third plate 323, and the two limiting plates 324 together form an accommodating groove 327, and can be used for limiting the filter holder 31 in the accommodating groove 327. The three engaging plates 326 are connected to a side of the second plate 322 away from the first plate 321, and extend toward the third plate 323 to cover a portion of the receiving groove 327. Each of the snap-fit plates 326 includes a release section 3261 and a snap-fit section 3262 connected thereto. The two assembly plates 325 are respectively connected to the two limiting plates 324 and extend in opposite directions of the receiving groove 327.

In the present embodiment, the three engaging plates 326 of the assembling frame 32 are respectively connected to the left, middle and right positions of the second plate 322. Therefore, the filtering device 30 can be engaged with the network switch 20 with an even force without tilting or tilting, but not limited thereto. In other embodiments, the number of snap plates 326 may be other.

It should be noted that, since the filter frame 31 has the first yielding space 313 and the assembly frame 32 has the second yielding space 3211, and neither side of the two yielding spaces 313 and 3211 is blocked by a frame body to form a gap. Therefore, the filter device 30 can be directly hung on the network switch 20 from top to bottom through the gaps of the yielding spaces 313 and 3211, so that the wires connected to the connection end 2111 on the network switch 20 are located in the yielding spaces without interfering with the filter device 30. On the contrary, when the filter device 30 needs to be disassembled, the filter device 30 is also directly pulled upward away from the network switch 20 by the gaps of the relief spaces 313, 3211. That is, the wires inserted into the connection end 2111 do not need to be removed before the installation and removal operations of the filtering device 30 and the network switch 20, so as to improve the assembling and disassembling efficiency of the filtering device 30.

Each fixing plate 40 includes a first fixing portion 41, a second fixing portion 42 and a third fixing portion 43. The second fixing portion 42 and the third fixing portion 43 are respectively connected to two opposite sides of the first fixing portion 41. The two first fixing portions 41 are fixed to the two side plates 213 of the network switch 20, respectively. Each second fixing portion 42 has two screw holes 421, and the second fixing portion 42 is fastened to the fixing column 11 of the cabinet 10 by screws, for example. The third fixing portion 43 is fixed to the assembly plate 325. The projection of the third fixing portion 43 on the second fixing portion 42 does not overlap with the two screw holes 421 of the second fixing portion 42. Therefore, the screw hole 421 of the second fixing portion 42 is not shielded by the third fixing portion 43 to affect the locking operation.

Next, the assembling method of the filter device 30 will be further described. Referring to fig. 4 and 5, fig. 4 is a perspective view illustrating a first step in an assembling process of the filter device in fig. 1, and fig. 5 is a perspective view illustrating a second step in the assembling process of the filter device in fig. 1. First, the first bracket 3111 of the filter rack 31 with the filter screen 312 is disposed in the receiving groove 327 and leans against the second plate 322, so that the first bracket 3111 is limited by the first plate 321 and the engaging plate 326 and is located between the first plate 321 and the engaging plate 326. Next, the second support 3112 and the third support 3113 of the filter rack 31 are placed in the receiving groove 327, and the filter rack 31 is temporarily engaged in the receiving groove 327 by the interference of the third plate 323 with the second support 3112 and the third support 3113. In this way, the assembly of the filter device 30 is completed.

Next, the operation flow of the filtering device 30 installed in the network switch 20 will be described. Please refer to fig. 1 to fig. 3. According to the above, since the filter rack 31 is temporarily engaged with the receiving groove 327 of the assembly rack 32, the filter rack 31 will not fall out of the assembly rack 32 and affect the operation during the process of assembling the filter device 30 and the network switch 20. First, each of the clamping plates 326 is aligned with each of the slots 2121 of the network switch 20, so that the clamping plate 326 can be pushed into the slot 2121 along the extending direction of the release section 3261. After the engaging plate 326 completely enters the slot 2121, the filter device 30 is pushed along the extending direction of the engaging section 3262, so that the engaging section 3262 can be engaged by the top plate 212 of the network switch 20, and the air inlet 3212 of the filter device 30 can be aligned with the air inlet 2112 of the network switch 20. Next, the left and right assembly plate members 325 of the filter device 30 are respectively locked to the left and right third fixing portions 43 of the fixing plate member 40 by, for example, hand-turning screws. Thus, the assembly of the filtering device 30 and the network switch 20 is completed. When the filter device 30 is installed in the network switch 20, before the external air flow is guided to be sucked into the network switch 20, the air flow enters the third ventilating opening 31131 through the air inlet 3212 of the filter device 30, then passes through the filter screen 312 through the third ventilating opening 31131, and then enters the network switch 20 through the air inlet 2112. Therefore, the air flow is filtered by the filtering device 30 before entering the network exchanger 20, and the proportion of the dust entrained in the air flow can be reduced.

In addition, in the embodiment, the fixing plate 40, the network switch 20, the filtering device 30 and the cabinet 10 are assembled by screwing in the screw holes, but not limited thereto. In other embodiments, the three components can be fixed by a snap or the like.

According to the servo device and the filtering device thereof in the embodiment, the filtering device is additionally arranged at the air inlet of the network exchanger to filter the air flow entering the network exchanger, so that the influence of dust in the air entering the network exchanger on the transmission speed of the network exchanger can be avoided.

In addition, the clamping plate of the filtering device is arranged in the clamping groove of the network exchanger in a sliding and buckling mode, so that the assembly efficiency between the filtering device and the network exchanger can be improved, and the slender filtering frame is prevented from deviating from the air inlet of the network exchanger due to bending deformation or inclination. In this way, the filter device can provide dust protection for the network switch.

Furthermore, a gap is formed because one side of the yielding space is not blocked by the frame body. Therefore, the filter device can be directly hung on the network switch from top to bottom by the gap of the yielding space, or the filter device can be directly pulled out of the network switch from top to bottom. That is to say, the wire inserted into the connecting end does not need to be pulled out before the installation and the disassembly operation of the filtering device and the network exchanger, and the loading and unloading efficiency of the filtering device can be further improved.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. A filter device, suitable for being installed in a casing of an electronic device, comprising:

the filter frame comprises a frame body and a filter screen, the frame body comprises a first support, a second support and a third support, the second support and the third support are respectively connected to two opposite ends of the first support and extend towards the same direction to form a first abdicating space, and the filter screen is arranged in the first abdicating space; and

the assembling frame comprises a first plate, a second plate, a third plate and a plurality of clamping plates, wherein the second plate and the third plate are respectively connected to two opposite sides of the first plate to form an accommodating groove;

wherein one side of the filter frame is abutted against the second plate and is limited by the clamping plates to be positioned between the first plate and the clamping plates, the other side of the filter frame is abutted against the third plate to fix the filter frame in the accommodating groove, and the clamping plates are used for being buckled on the shell of the electronic device in a sliding manner,

wherein, this filter screen is including a first fillter section, a second fillter section and a third fillter section that link to each other, and this first fillter section, this second fillter section and this third fillter section set up respectively in this first support, this second support and this third support, and this first plate has from connecting in one side of this third plate to a second space of stepping down that extends towards the direction that is close to this second plate, and this second space of stepping down communicates with each other with this first space of stepping down.

2. The filtering device as claimed in claim 1, wherein the first bracket, the second bracket and the third bracket each have at least one ventilation opening, and the ventilation openings are communicated with the accommodating groove or the first yielding space.

3. The filter apparatus of claim 2, wherein the first plate further has an intake vent in communication with the intake vent of the third bracket.

4. The filtering device as claimed in claim 1, wherein the assembly frame further comprises two limiting plates and two assembly plates, the two limiting plates are respectively located at two sides of the first plate and the filtering frame is located between the two limiting plates, and the two assembly plates are respectively connected to the two limiting plates and extend towards opposite directions of the accommodating groove.

5. A servo apparatus, comprising:

the equipment cabinet comprises at least two fixed columns and two first sliding rails, wherein the two first sliding rails are arranged on the at least two fixed columns;

the network exchanger comprises a shell, two second sliding rails and an electronic assembly, wherein the shell comprises a front plate, a top plate and two side plates, the front plate, the top plate and the two side plates jointly form an accommodating space, the electronic assembly is positioned in the accommodating space, the front plate is provided with a plurality of connecting ends and a plurality of air inlets, the top plate is provided with a plurality of clamping grooves, and the two second sliding rails are respectively arranged on the two side plates and can be arranged on the two first sliding rails of the cabinet in a pulling and pulling manner;

a filter apparatus, comprising:

the filter frame comprises a frame body and a filter screen, the frame body comprises a first support, a second support and a third support, the second support and the third support are respectively connected to two opposite ends of the first support and extend towards the same direction to form a first abdicating space, and the filter screen is arranged in the first abdicating space; and

the assembling frame comprises a first plate, a second plate, a third plate and a plurality of clamping plates, wherein the second plate and the third plate are respectively connected to two opposite sides of the first plate to form an accommodating groove;

one side of the filter frame is abutted against the second plate and limited by the clamping plates and is positioned between the first plate and the clamping plates, the other side of the filter frame is abutted against the third plate so that the filter frame is fixed in the accommodating groove, and the clamping plates are slidably buckled with the clamping grooves of the network exchanger; and

at least two fixing plate members, each of the at least two fixing plate members including a first fixing portion, a second fixing portion and a third fixing portion, the second fixing part and the third fixing part are respectively connected with two opposite sides of the first fixing part, the first fixing part is fixed on the side plate of the network exchanger, the second fixing parts are respectively fixed on the at least two fixing columns of the cabinet, the third fixing part is fixed on the assembling frame, wherein the filter screen comprises a first filter section, a second filter section and a third filter section which are connected, the first filtering section, the second filtering section and the third filtering section are respectively arranged on the first bracket, the second bracket and the third bracket, the first plate is provided with a second yielding space which extends from one side connected with the third plate to the direction close to the second plate, and the second yielding space is communicated with the first yielding space.

6. The servo device as claimed in claim 5, wherein the second fixing portion has two screw holes, and a projection of the third fixing portion on the second fixing portion is not overlapped with the two screw holes.

7. The servo device as claimed in claim 5, wherein the first, second and third supports each have at least one ventilation opening, the ventilation openings are connected to the receiving groove or the first yielding space, the first plate further has an air inlet, and the air inlet is connected to the at least one ventilation opening of the third support.

8. The servo device as claimed in claim 5, wherein the assembly frame further comprises two limiting plates and two assembly plates, the two limiting plates are respectively located at two sides of the first plate and the filter frame is located between the two limiting plates, the two assembly plates are respectively connected to the two limiting plates and extend towards opposite directions of the accommodating groove, and the third fixing portions of the at least two fixing plates are fixed to the assembly plates.

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