CN201527617U - Wind screen for category memory - Google Patents

Abstract

The utility model discloses a wind screen for a category memory, which is installed inside an electronic device, and comprises a plate body, two backstop parts and at least one pair of insert blocks. The two backstop parts are respectively arranged on two corresponding lateral surfaces of the plate body; the pair of the insert blocks are symmetrically arranged on two corresponding lateral edges of the plate body in projecting manner; the plate body can selectively adopt one insert block on one lateral edge to be inserted inside a memory slot of the electronic device; and wind resistant state inside the electronic device is maintained by the arrangement of the two backstop parts.

Description

The deep bead of class internal memory

Technical field

The utility model relates to a kind of deep bead, particularly a kind of non-directional deep bead that is inserted in the memory bank.

Background technology

Computer system is in order to satisfy the requirement of consumer for data processing speed, and in the hope of open the various programs of carrying out in the shortest time, industry reaches the developing goal that promotes processing speed and multitask computing with the means that increase chip precision.Constantly promote in computer system processor speed, and under the trend that at present volume of electronic package is small day by day, following one by one is the golf calorific value problem that computer installation produces.

For this problem, then there is manufacturer to utilize an air ducting to be installed on the inner also cover of casing and is overlying on internal memory (Dual Inline Memory Module, DIMM) top, to concentrate air quantity to blow the electronic unit of paramount thermal source, by forced convertion mode (Forced Convection), make the electronic unit of heating effectively be cooled to stable working temperature, such as TaiWan, China bulletin patent M358518 number announcement.This air ducting is that guide vane is set on wind scooper, and activity is provided with a plurality of sheets that compress on guide vane, when being overlying on memory bank with the wind scooper cover, a plurality of sheets that compress will hang down and place on the memory bank that is not inserted with internal memory, the flow direction so as to barrier air, air-flow can be concentrated blow to internal memory, and the radiating effect of enhancing internal memory.

Yet this air ducting is being formed suitable complexity on the structure, and the relative air ducting that makes becomes in the exploitation and whole assembling operation of assembly in individual groups, need expend sizable production and manufacturing cost.And, the wind scooper of this air ducting has certain volume size, when air ducting is installed in the less casing in inner space (as 1U prescribed server casing), to make the casing inner space more urgent, and then influence the flow field state of casing internal gas flow, and radiating efficiency is reduced.

Form complex structure, high manufacturing cost and be unsuitable for being applied in problem such as small-sized casing because present employed air ducting exists, therefore, there is relevant dealer to develop a kind of cooling device of single-piece, so as to overcoming above-mentioned problem, as U.S.'s bulletin patent the 7th, 403, No. 383 disclose.This cooling device is to be designed to the single piece component similar with internal memory, and two engagement components (engagement member) are set on the two-end-point of the single side of cooling device, cooling device can directly be inserted in the memory bank by these engagement components.

Yet, this cooling device that only has single mounting direction, on the assembly operation of reality, operating personnel must confirm earlier the direction that is provided with of engagement component on the cooling device, and then are inserted in the memory bank with engagement component.Therefore, cause operating personnel when carrying out the assembling of cooling device, need the action of extra increase by one upset cooling device after, could combine with memory bank with the side that cooling device has an engagement component.This will expend considerable manpower and assembly operation time for the electronic installation that a large amount of assemblings are produced, and therefore have assembly operation equally and be difficult for, and the too high problem of manufacturing cost.

The utility model content

In view of above problem, the utility model provides the deep bead of a kind internal memory, so as to the composition complex structure that improves existing air ducting, the difficult installation and the too high problem of manufacturing cost.And improve existing single-piece cooling device simultaneously and only have single mounting direction, make operating personnel can't finish assembly operation fast and effectively, be difficult for installing and the too high problem of manufacturing cost and have equally.

To achieve these goals, the utility model discloses the deep bead of a kind internal memory, be installed in the electronic installation with a circuit board, this electronic installation has a circuit board, electrically be provided with a plurality of memory banks on this circuit board, and this memory bank is pivoted with two fasteners, it is characterized in that, the deep bead of such internal memory includes:

One plate body is inserted in wherein in this memory bank, and this plate body has two relative first sides, two relative second sides, and two opposite side faces;

At least one pair of abaculus, this is convexly set on this two first side the abaculus symmetry, and what this plate body can be selected serves as to insert position in this memory bank with this abaculus of this first side wherein; And

Two stop parts are arranged at respectively on this two side faces, to keep the windage state of this electronic installation inside.

The deep bead of above-mentioned class internal memory is characterized in that, include two this to abaculus, these two pairs of abaculus are symmetricly set in the two ends of this two first side, and corresponding with this two fastener of this memory bank respectively.

The deep bead of above-mentioned class internal memory, it is characterized in that, respectively this second side of this plate body has two buckling grooves, this two buckling groove is corresponding to abaculus with this of this two first side respectively, when this plate body serves as to insert this memory bank position with this two abaculus of this first side wherein, this of this memory bank two fasteners are fastened on corresponding this buckling groove of this two abaculus with this first side respectively.

The deep bead of above-mentioned class internal memory is characterized in that, each this stop part also has two catch, is erected in this side respectively.

The deep bead of above-mentioned class internal memory is characterized in that, this two catch and this memory bank are perpendicular.

The deep bead of above-mentioned class internal memory is characterized in that, each this stop part is a barricade, is located on this side.

The deep bead of above-mentioned class internal memory is characterized in that, each this stop part is a block, is convexly set on this side.

The deep bead of above-mentioned class internal memory is characterized in that, this plate body, this is to abaculus, and this two stop part structural member that is formed in one.

Effect of the present utility model is, the deep bead of the disclosed class internal memory of the utility model adopts the structural design of single-piece, for existing air ducting, reduce the exploitation manufacturing and the assembly cost of relevant spare part significantly, and can directly plug to memory bank therefore suitable convenience in the operation of assembling and dismounting in the use.

Simultaneously, the setting that on the relative side of the deep bead of class internal memory, all has abaculus, the deep bead with the class internal memory that the operating personnel that makes end can be real-time is inserted in the memory bank, reaches the effect of non-directional assembling, and then make the assembling speed of production obtain to promote.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is installed in the schematic perspective view of electronic installation for the deep bead of the class internal memory of the utility model first embodiment;

Fig. 2 is installed in the combination synoptic diagram of memory bank for the deep bead of the class internal memory of the utility model first embodiment;

Fig. 3 is installed in the decomposing schematic representation of memory bank for the deep bead of the class internal memory of the utility model first embodiment;

Fig. 4 has the schematic side view of two pairs of abaculus for the deep bead of the class internal memory of the utility model first embodiment;

Fig. 5 A is that the stop part of deep bead of the class internal memory of the utility model one embodiment is the schematic perspective view of two catch;

Fig. 5 B is that the stop part of deep bead of the class internal memory of the utility model one embodiment is the schematic perspective view of block; And

Fig. 6 is arranged at the decomposing schematic representation of memory bank for the deep bead of the class internal memory of another embodiment of the utility model.

Wherein, Reference numeral

The deep bead of 10 class internal memories

11 plate bodys

111 first sides

111 ' first side

112 second sides

112 ' second side

113 sides

114 first buckling grooves

115 second buckling grooves

12 stop parts

121 catch

13 first abaculus

14 second abaculus

15 the 3rd abaculus

16 the 4th abaculus

20 electronic installations

21 circuit boards

22 memory banks

221 fasteners

222 trips

30 internal memories

Embodiment

Below in conjunction with accompanying drawing structural principle of the present utility model and principle of work are done concrete description:

Deep bead according to the disclosed class internal memory of the utility model, be applied to an electronic installation, wherein said electronic installation comprises but is not limited to computer installations such as desk-top computer, mobile computer, server, so as to keeping the windage state in the electronic installation.Below in the detailed description of the present utility model, will be with server as most preferred embodiment of the present utility model.Yet appended graphic reference and the explanation usefulness of only providing not is in order to restriction the utility model.

As shown in Figure 1 to Figure 3, the deep bead 10 of the disclosed class internal memory of the utility model first embodiment is installed in the electronic installation 20, has a circuit board 21 in the electronic installation 20, and on circuit board 21, electrically be provided with a plurality of memory banks 22, the two ends of these memory banks 22 fastener 221 that is pivoted respectively, one end of fastener 221 is movably arranged on the memory bank 22, and the other end has a trip 222.And, on some memory banks 22, being inserted with internal memory 30, the deep bead 10 of class internal memory is inserted in other memory bank that is not inserted with internal memory 30 22.

Please consult Fig. 1 to Fig. 4 simultaneously, the deep bead 10 of class internal memory includes a plate body 11, two stop parts 12, paired first abaculus 13 and second abaculus 14 and paired the 3rd abaculus 15 and the 4th abaculus 16.Plate body 11 has relative side 113, relative second side, two relative first sides 111,111 ', two 112,112 ' and two, has one first buckling groove 114 and one second catching groove 115 respectively on each second side 112,112 '.Two stop parts 12 are arranged at respectively on the two side faces 113 of plate body 11, in the present embodiment, two stop parts 12 are that the form with barricade is located on respectively on the two side faces 113, in order to the flow direction of the air-flow that produced by the radiator fan (not shown) in the block electrons device 20, to keep the windage state in the electronic installation 20.Therefore, about the set-up mode of stop part 12 including, but not limited to this, shown in Fig. 5 A, stop part 12 can block form be convexly set on the side 113, or shown in Fig. 5 B, each stop part 12 is set to the form of two catch 121, two catch 121 are erected on the side 113, and two catch 121 are with perpendicular to memory bank 22, or are arranged on the side 113 with the relation that tilts an angle (not shown) with respect to memory bank 22.The set-up mode of the above stop part is in order to as illustrating, but not as limit.

Please consult Fig. 1 to Fig. 4 once more, on the deep bead 10 of class internal memory, paired first abaculus 13 and second abaculus 14, and the 3rd paired abaculus 15 and the 4th abaculus 16, on two first sides 111,111 ' that the position is set is corresponding with two fasteners 221 on the memory bank 22 respectively.Wherein, the first paired abaculus 13 and second abaculus 14 are in symmetrical mode, be convexly set in respectively on two first sides 111,111 ', the 3rd paired abaculus 15 and the 4th abaculus 16 same in symmetrical mode, be convexly set in respectively on two first sides 111,111 '; Meaning is the two ends that first abaculus 13 and the 3rd abaculus 15 lay respectively at a first side 111, second abaculus 14 and the 4th abaculus 16 then lay respectively at the two ends of another first side 111 ', and second abaculus 14 and the 4th position of abaculus 16 on plate body 11 correspond respectively to first abaculus 13 and the 3rd abaculus 15 (as shown in Figure 4).

In addition, the first paired abaculus 13 and second abaculus 14 also are corresponding relation with first buckling groove 114 and second buckling groove 115 of a second side 112 of plate body 11 respectively, and the 3rd paired abaculus 15 and the 4th abaculus 16 also are corresponding relation with first buckling groove 114 and second buckling groove 115 of another second side 112 ' respectively.

Therefore, when the deep bead 10 of class internal memory is inserted in memory bank 22, the deep bead 10 of class internal memory is inserted in the memory bank 22 with first abaculus 13 and the 3rd abaculus 15, and promote two fasteners 221 simultaneously and on memory bank 22, pivot, make the trip 222 of two fasteners 221 be fastened on two second sides 112 respectively, in 112 ' first buckling groove 114, and then make the deep bead 10 of class internal memory be fixed in (as shown in Figure 1) on the memory bank 22 by clipping, with in two stop parts, 12 block electrons devices 20 by the flow directions of the air-flow that radiator fan was produced, and keep the windage state of electronic installation 20 inside.

Otherwise, when the deep bead 10 of class internal memory is inserted in memory bank 22 with second abaculus 14 and the 4th abaculus 16, two fasteners 221 of memory bank 22 are fastened on respectively in two second sides 112,112 ' second buckling groove 115, and the same deep bead 10 of class internal memory that can allow is fixed on the memory bank 22 by clipping.

In view of the above, the deep bead 10 of the disclosed class internal memory of the utility model is in operation, optionally be inserted in memory bank 22 with first abaculus 13 and the 3rd abaculus 15 that is positioned at a first side 111, or be inserted in memory bank 22 with second abaculus 14 and the 4th abaculus 16 that is positioned at another first side 111 ', make the deep bead 10 of class internal memory possess the mode that plugs of no specific assembling directivity.Therefore, when operating personnel are assembled in electronic installation 20 with the deep bead 10 of class internal memory, carry out the affirmation of mounting direction with not spending the extra time, and then can significantly promote the assembling speed of electronic installation 20 integral body.

Simultaneously, in the deep bead of the disclosed class internal memory of the utility model, plate body, paired abaculus and stop part can integrated mode form the air guide structure of single-piece, therefore compared to existing air guide structure, can save the manufacturing production cost of air guide structure, and, therefore can not take other space of electronic installation inside, and be applicable to that inside has the various electronic installations of memory bank because the deep bead of class internal memory directly is installed on the memory bank.

In addition, the deep bead 10 of the class internal memory of the mode that plugs of this no specific assembling directivity, on structure is provided with, also can be as shown in Figure 6, one paired first abaculus 13 and the set-up mode of second abaculus 14 only are set on plate body 11, same can allow operating personnel optionally be inserted in the memory bank 22, and accelerate the speed of assembling operation with first abaculus 13 or second abaculus 14 deep bead 10 with the class internal memory.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims (8)

1. the deep bead of a kind internal memory is installed in the electronic installation, and this electronic installation has a circuit board, electrically is provided with a plurality of memory banks on this circuit board, and this memory bank is pivoted with two fasteners, it is characterized in that the deep bead of such internal memory includes:

One plate body is inserted in wherein in this memory bank, and this plate body has two relative first sides, two relative second sides, and two opposite side faces;

At least one pair of abaculus, this is convexly set on this two first side the abaculus symmetry, and what this plate body can be selected serves as to insert position in this memory bank with this abaculus of this first side wherein; And

Two stop parts are arranged at respectively on this two side faces, to keep the windage state of this electronic installation inside.

2. the deep bead of class internal memory according to claim 1 is characterized in that, include two this to abaculus, these two pairs of abaculus are symmetricly set in the two ends of this two first side, and corresponding with this two fastener of this memory bank respectively.

3. the deep bead of class internal memory according to claim 2, it is characterized in that, respectively this second side of this plate body has two buckling grooves, this two buckling groove is corresponding to abaculus with this of this two first side respectively, when this plate body serves as to insert this memory bank position with this two abaculus of this first side wherein, this of this memory bank two fasteners are fastened on corresponding this buckling groove of this two abaculus with this first side respectively.

4. the deep bead of class internal memory according to claim 1 is characterized in that, each this stop part also has two catch, is erected in this side respectively.

5. the deep bead of class internal memory according to claim 4 is characterized in that, this two catch and this memory bank are perpendicular.

6. the deep bead of class internal memory according to claim 1 is characterized in that, each this stop part is a barricade, is located on this side.

7. the deep bead of class internal memory according to claim 1 is characterized in that, each this stop part is a block, is convexly set on this side.

8. the deep bead of class internal memory according to claim 1 is characterized in that, this plate body, this is to abaculus, and this two stop part structural member that is formed in one.

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