CN104391550A - Computer and bearing frame thereof - Google Patents

Abstract

The invention provides a bearing frame which comprises a bearing disk and a sliding window. The bearing disk comprises a bearing surface, a back and a plurality of mother board assembly columns, the back is opposite to the bearing surface, the mother board assembly columns project over the bearing surface, the sliding window comprises a joint portion and a wall portion, the wall portion is erected on the joint portion and provided with at least one input and output port through hole, the joint portion is slidably jointed to the back of the bearing disk, the wall portion projects over the bearing surface of the bearing disk, and the input and output port through holes are formed above the bearing disk. The sliding window can slide relative to the bearing disk to change the horizontal distance among axes of input and output port through holes in the wall portion and the mother board assembly columns.

Description

Computing machine and carrying support body thereof

Technical field

The present invention relates to a kind of computing machine and carrying support body, particularly a kind of tool sliding window computing machine and carrying support body.

Background technology

The epoch of information multi-media now, undoubtedly computing machine has almost become life and one of necessity in work for the present mankind, no matter server (server), workstation (workstation), desk-top computer (desktop computer) or mobile computer (notebookcomputer), even industrial computer (industrial computer), among common people's life with work, computing machine becomes indispensable important tool gradually.

Desk-top computer is broadly divided into host machine part, display and interfacing equipment.Host machine part also includes computer housing, and the inside of computer housing is equipped with the electronic components such as motherboard, CPU (central processing unit), adapter and internal memory.In addition, the inside of computer housing also includes the storage devices such as hard disk (hardware disk), floppy disk (floppy disk) and CD-ROM drive (CD-ROM drive).

In general, motherboard all can be provided with the electric connector for external electronic components (as mouse, keyboard or display) grafting, and computer housing corresponding can be provided with the perforate that power-feed connector wears, make external electronic components can directly from computer housing outside grafting electric connector.Based on such design, when mounted, meeting and computer housing produce interferes motherboard, therefore user needs first be placed in computer housing by motherboard, then horizontal sliding motherboard, allows the electric connector of motherboard through perforate.That is, the contraposition process between motherboard and casing, all needs the slippage in horizontal direction contraposition to complete.But due to the bottom surface of motherboard and non-planar surface, therefore user is difficult to smoothly slide motherboard and have the probability collided with computer housing, and then add the chance that the electronic package on motherboard damages.

Summary of the invention

The object of the present invention is to provide a kind of computing machine and carrying support body thereof, allowing motherboard be easier to being positioned on casing, to avoid in the installation process of motherboard, the problem of motherboard and casing collision occurs.

For solving the problems of the technologies described above, the invention provides a kind of computing machine, comprising a carrier, a motherboard group and a sliding window.Carrier has a relative loading end and a back side.Motherboard group comprises a substrate, a central processing unit and at least one input and output port.Substrate is installed in above loading end.Central processing unit and at least one input and output port are electrically connected at substrate, and the part at input and output port protrudes from a lateral margin of substrate.Sliding window comprises a joint portion and a wall portion.Joint portion is stood in wall portion.Wall portion has the perforation of at least one input and output port.Joint portion is incorporated into the back side of carrier slidably, and wall portion protrudes from the loading end of carrier, is bored a hole in input and output port and is positioned at the top of loading end.Wherein, sliding window can relatively slide and have a block position and a loading position by carrier.The wall portion being positioned at loading position is comparatively positioned at the wall portion of block position away from input and output port, and when sliding window is positioned at block position, at least one input and output port is located in the perforation of at least one input and output port, and when sliding window is positioned at loading position, at least one input and output port departs from the perforation of at least one input/output port, and makes motherboard group be installed on carrier along the normal direction displacement of loading end or to shift out from carrier.

Carrying support body disclosed by the present invention, comprises a carrier and a sliding window.Carrier has a relative loading end and a back side.Carrier has multiple motherboard assembling post.These motherboards assembling post protrudes from loading end.Sliding window comprises a joint portion and a wall portion.Joint portion is stood in wall portion.Wall portion has the perforation of at least one input and output port.Joint portion is incorporated into the back side of carrier slidably, and wall portion protrudes from the loading end of carrier, is bored a hole in input and output port and is positioned at the top of carrier.Wherein, sliding window can slide and horizontal range between the axis that post assembled by the input/output port perforation that changes in wall portion and each motherboard by carrier relatively.

Computing machine disclosed by the invention described above and carrying support body thereof, because sliding window is for slidably to design, makes motherboard group only need vertically can complete and the contraposition of carrier and assembling, do not need horizontal slip on carrier.Therefore, the design of sliding window can allow the installation of motherboard group more laborsaving, and promote the assembling quality of computing machine in the lump.

Above about the explanation of content of the present invention and the explanation of following embodiment be in order to demonstration with explain principle of the present invention, and provide patent claim of the present invention further to explain.

Accompanying drawing explanation

Fig. 1 is the sectional perspective schematic diagram of computing machine described according to a first embodiment of the present invention.

Fig. 2 is the decomposing schematic representation of Fig. 1.

Fig. 3 is the assembling process figure of the computing machine of Fig. 1.

Fig. 4 and Fig. 5 is the assembling process figure of the computing machine of Fig. 1.

Fig. 6 is the partial cutaway schematic of computing machine described according to a second embodiment of the present invention.

Fig. 7 is the partial cutaway schematic of computing machine described according to a third embodiment of the present invention.

Embodiment

The computing machine proposed the present invention below in conjunction with the drawings and specific embodiments and carrying support body thereof are described in further detail.According to the following describes and claims, advantages and features of the invention will be clearer.It should be noted that, accompanying drawing all adopts the form that simplifies very much and all uses non-ratio accurately, only in order to object that is convenient, the aid illustration embodiment of the present invention lucidly.

Refer to Fig. 1 to Fig. 3.Fig. 1 is the sectional perspective schematic diagram of computing machine described according to a first embodiment of the present invention.Fig. 2 is the decomposing schematic representation of Fig. 1.Fig. 3 is the assembling process figure of the computing machine of Fig. 1.

The computing machine 10 of the present embodiment comprises a carrier 100, biside plate 200, motherboard group 500, sliding window 300, multiple securing member 400 and two locking parts 600.Wherein carrier 100, biside plate 200 and sliding window 300 form a carrying support body altogether.

Carrier 100 has relative loading end 110 and a back side 120.Loading end 110 is in order to bearing article.Carrier 100 has more multiple motherboard assembling post 130 and multiple chute 140.These motherboards assembling post 130 protrudes from loading end 110.These chutes 140 run through loading end 110 and the back side 120.These chutes 140 are arranged in the side of carrier 100, and extend along equidirectional.In addition, in the present embodiment, carrier 100 has more the groove 150 be stamped to form towards the direction of loading end 110 from the back side 120.The position of groove 150 is positioned at the below of these chutes 140.

Biside plate 200 is erected in the relative both sides of carrier 100 respectively, and protrudes from the loading end 110 of carrier 100.

Motherboard group 500 comprises substrate 510, central processing unit 520 and multiple input and output port 530.Substrate 510 is installed in above loading end 110.Central processing unit 520 and these input and output ports 530 are electrically connected at substrate 510, and the part at these input and output ports 530 protrudes from a lateral margin of substrate 510.

Sliding window 300 comprises wall portion, joint portion 310, one 320 and two locking parts 330.Joint portion 310 is stood in wall portion 320.Wall portion 320 has multiple input and output port perforation 321.Joint portion 310 is slidably located in groove 150, and the thickness of joint portion 310 and the degree of depth of groove 150 match, to make the surface bottom computing machine 10 comparatively smooth.Wall portion 320 protrudes from the loading end 110 of carrier 100, and input and output port perforation 321 is positioned at the top of loading end 110.Two locking parts 330 are connected to the relative both sides in wall portion 320.

These securing members 400 are each passed through these chutes 140, and in conjunction with carrier 100 and joint portion 310, can slide by relative carrier 100 through these chutes 140 and these securing members 400 in joint portion 310.Specifically, each securing member 400 comprises a section 410, stage casing 420 and a rear 430.The width W 1 of the head section 410 of securing member 400 is greater than the width W 2 in the stage casing 420 of securing member 400.The width W 2 in the stage casing 420 of securing member 400 is greater than the width W 3 of the rear 430 of securing member 400.Head section 410 is resisted against the loading end 110 of carrier 100 or the joint portion 310 of sliding window 300.Stage casing 420 is through chute 140, corresponding, and the back side 120 that rear 430 protrudes from carrier 100 is with joint portion 310 and be connected to the joint portion 310 of sliding window 300.Thus, sliding window 300 can pass through these chutes 140 and can slide by relative carrier 100 with these securing members 400, and there is a block position (please first consulting Fig. 5) and a loading position (please first consulting Fig. 3), and the wall portion 320 being positioned at loading position is comparatively positioned at the wall portion 320 of block position away from input and output port 530, the detailed action of computing machine 10 illustrates after a while in the lump.

In addition, in the present embodiment, the width W 2 in the stage casing 420 of securing member 400 is greater than the width W 3 of the rear 430 of securing member 400, but not as limit, in other embodiment (not shown), the width W 2 in the stage casing 420 of securing member 400 also can equal the width W 3 of the rear 430 of securing member 400.

Motherboard group 500 comprises substrate 510, central processing unit 520 and multiple input and output port 530.Substrate 510 is installed in the motherboard assembling post 130 above loading end 110.Central processing unit 520 and these input and output ports 530 are electrically connected at substrate 510, and the part at these input and output ports 530 protrudes from a lateral margin of substrate 510.

When sliding window 300 is positioned at block position, two locking parts 600 are each passed through biside plate 200 and are locked on two locking parts 330 respectively, so that sliding window 300 is fixed on block position.

It should be noted that the quantity of the locking part 330 of the present embodiment and locking part 600 is respectively for two, but not as limit, in other embodiments, locking part 600 may also be only one with the quantity of locking part 330.

Refer to Fig. 3 to Fig. 5.Fig. 4 and Fig. 5 is the assembling process figure of the computing machine of Fig. 1.

As shown in Figure 3, before the motherboard assembling post 130 that motherboard group 500 will be loaded on carrier 100, first sliding window 300 is pulled back in (direction along indicated by arrow a), allow sliding window 300 be positioned at loading position.When sliding window 300 is positioned at loading position, the space D 1 that the axis A of post 130 assembled by wall portion 320 and motherboard is greater than input/output port 530 and exceeds the ultimate range D2 that the axis A of post 130 assembled by motherboard.The space D 1 of assembling the axis A of post 130 due to wall portion 320 and motherboard is greater than input/output port 530 and exceeds the ultimate range D2 that the axis A of post 130 assembled by motherboard, therefore motherboard group 500 is when vertically putting to carrier 100, the input and output port 530 of motherboard group 500 can't produce with sliding window 300 interferes.

Then, as shown in Figure 4, because of sliding window 300 be positioned at block position time, motherboard group 500 can't produce with sliding window 300 interferes, therefore when sliding window 300 is positioned at block position, motherboard group 500 vertically can be placed on carrier 100 along the normal direction of loading end 110 (direction as indicated by arrow b) by user, and the contraposition in the lump between completing substrate 510 and carrier 100.Due to motherboard group 500 be placed on carrier 100 time, slip in the horizontal direction comparatively has some setbacks, therefore motherboard group 500 easily collides because of the slip had some setbacks.But because above-mentioned sliding window 300 is for slidably to design, makes motherboard group 500 only need vertically can complete and the contraposition of carrier 100 and assembling, do not need horizontal slip on carrier 100.Therefore, it is more laborsaving that the design of sliding window 300 can allow motherboard group 500 install, and promote the assembling quality of computing machine 10 in the lump.

Then, as shown in Figure 5, after the substrate 510 of motherboard group 500 is fixed on each motherboard assembling post 130, sliding window 300 can be allowed to return back to block position along the direction indicated by arrow c.When sliding window 300 is positioned at block position, the space D 3 that the axis A of post 130 assemble by wall portion 320 and motherboard is less than input/output port 530 and exceeds the ultimate range D4 that the axis A of post 130 assembled by motherboard, makes these input and output ports 530 be located in these input and output ports respectively and bores a hole in 321.

Otherwise, to motherboard group 500 is pulled down from carrier 100, then again sliding window 300 can be pulled to loading position, make these input and output ports 530 again depart from these input and output ports perforation 321, directly motherboard vertically can be picked up along the normal direction of loading end 110 (direction as indicated by arrow b) in order to user.

Refer to Fig. 6.Fig. 6 is the partial cutaway schematic of computing machine described according to a second embodiment of the present invention.The present embodiment is similar to the embodiment of above-mentioned 1st figure, therefore is only described for deviation.

In the present embodiment, carrier 100 has one first relative side 100a and one second side 100b.The wall portion 320 of sliding window 300 is adjacent to the first side 100a of carrier 100.Sliding window 300 more comprises an inflexed part 340, inflexed part 340 is connected to wall portion 320, and protrude towards the direction of the second side 100b along the first side 100a and be covered in the top of part carrier 100 or the top of joint portion 310, the perforation 321 of input and output port is between inflexed part 340 and joint portion 310.

Maximum difference between the embodiment of the present embodiment and the 1st figure is, the sliding window more than 300 of the present embodiment structure of inflexed part 340, therefore, when sliding window 300 is positioned at loading position along the direction slippage indicated by arrow a, the space D 5 that the axis of post 130 assembled by wall portion 320 and motherboard must be greater than input/output port 530 and exceed the length D7 that ultimate range D6 that motherboard assembles the axis A of post 130 adds protruding wall portion, inflexed part 340 320, when can guarantee that motherboard group 500 is vertically put to carrier 100, the input and output port 530 of motherboard group 500 can't produce with sliding window 300 interferes.

Refer to Fig. 7.Fig. 7 is the partial cutaway schematic of computing machine described according to a third embodiment of the present invention.The present embodiment is similar to the embodiment of above-mentioned 1st figure, therefore is only described for deviation.

In the above-described embodiments, chute 140 structure is all be positioned on carrier 100, but not as limit, in the present embodiment, chute 140 structure also can be positioned on sliding window 300.Specifically, the joint portion 310 of the sliding window 300 of the present embodiment has multiple chute 311.These securing members 400 are each passed through these chutes 140, and are incorporated into carrier 100, make sliding window 300 can pass through these chutes 140 and can slide by relative carrier 100 with these securing members 400.

Computing machine disclosed by the invention described above and carrying support body thereof, because sliding window is for slidably to design, makes motherboard group only need vertically can complete and the contraposition of carrier and assembling, do not need horizontal slip on carrier.Therefore, the design of sliding window can allow the installation of motherboard group more laborsaving, and promote the assembling quality of computing machine in the lump.

Foregoing description is only the description to present pre-ferred embodiments, any restriction not to the scope of the invention, and any change that the those of ordinary skill in field of the present invention does according to above-mentioned disclosure, modification, all belong to the protection domain of claims.

Claims (10)

1. a computing machine, is characterized in that, comprising:

One carrier, has a relative loading end and a back side;

One motherboard group, comprise a substrate, a central processing unit and at least one input and output port, this substrate is installed in above this loading end, and this central processing unit and this at least one input and output port are electrically connected at this substrate, and the part at this input and output port protrudes from a lateral margin of this substrate; And

One sliding window, comprise a joint portion and a wall portion, this joint portion is stood in this wall portion, this wall portion has the perforation of at least one input and output port, this joint portion is incorporated into this back side of this carrier slidably, and this wall portion protrudes from this loading end of this carrier, and the perforation of this input and output port is positioned at the top of this loading end;

Wherein, this sliding window can relatively slide and have a block position and a loading position by this carrier, this wall portion being positioned at this loading position is comparatively positioned at this wall portion of this block position away from this input and output port, and when this sliding window is positioned at this block position, this at least one input and output port is located in the perforation of this at least one input and output port, and when this sliding window is positioned at this loading position, this at least one input and output port departs from the perforation of this at least one input and output port, and make this motherboard group be installed on this carrier along the normal direction displacement of this loading end or to shift out from this carrier.

2. computing machine as claimed in claim 1, it is characterized in that, more comprise multiple chute and multiple securing member, those chutes are positioned at this carrier or this joint portion, those securing members are each passed through those chutes, and in conjunction with this carrier and this joint portion, can slide by this carrier relative with those securing members through those chutes in this joint portion.

3. computing machine as claimed in claim 2, it is characterized in that, each this securing member comprises a section, one stage casing and a rear, the width of this section is greater than the width in this stage casing, the width in this stage casing is not less than the width of this rear, this section is resisted against this loading end of this carrier, this stage casing is through this chute, this rear protrudes from this back side of this carrier and this joint portion and is connected to this joint portion of this sliding window, or this joint portion of this sliding window, this stage casing is through this chute, this rear protrudes from this loading end of this carrier and this joint portion and is connected to this carrier.

4. computing machine as claimed in claim 1, it is characterized in that, more comprise biside plate and two locking parts, this biside plate is erected in the relative both sides of this carrier respectively, and protrudes from this loading end of this carrier, and this wall portion is positioned between this biside plate, this sliding window more comprises two locking parts, this two locking part is connected to the relative both sides in this wall portion, and when this sliding window is positioned at this block position, this two locking part is each passed through this biside plate and is locked on this two locking part respectively.

5. computing machine as claimed in claim 1, it is characterized in that, this carrier has one first relative side and one second side, this wall portion of this sliding window is adjacent to this first side of this carrier, this sliding window more comprises an inflexed part, this inflexed part is connected to this wall portion, and is covered in the top of this carrier of part towards the direction of this second side protrusion along this first side, and the perforation of this input and output port is between this inflexed part and this joint portion.

6. carry a support body, it is characterized in that, comprising:

One carrier, has a relative loading end and a back side, and this carrier has multiple motherboard assembling post, and those motherboards assembling post is convex in this loading end; And

One sliding window, comprise a joint portion and a wall portion, this joint portion is stood in this wall portion, this wall portion has the perforation of at least one input and output port, this joint portion is incorporated into this back side of this carrier slidably, and this wall portion protrudes from this loading end of this carrier, bored a hole in this input and output port and be positioned at the top of this carrier;

Wherein, this sliding window can relatively this carrier slide and change in this wall portion this input/output port perforation and respectively this motherboard assemble the horizontal range between the axis of post.

7. carry support body as claimed in claim 6, it is characterized in that, more comprise multiple chute and multiple securing member, those chutes are positioned at this carrier or this joint portion, those securing members are each passed through those chutes, and in conjunction with this carrier and this joint portion, can slide by this carrier relative with those securing members through those chutes in this joint portion.

8. carry support body as claimed in claim 7, it is characterized in that, each this securing member comprises a section, one stage casing and a rear, the width of this section is greater than the width in this stage casing, the width in this stage casing is not less than the width of this rear, this section is resisted against this loading end of this carrier, this stage casing is through this chute, this rear protrudes from this back side of this carrier and this joint portion and is connected to this joint portion of this sliding window, or this joint portion of this sliding window, this stage casing is through this chute, this rear protrudes from this loading end of this carrier and this joint portion and is connected to this carrier.

9. carry support body as claimed in claim 6, it is characterized in that, more comprise biside plate and two locking parts, this biside plate is erected in the relative both sides of this carrier respectively, and protruding from this loading end of this carrier, this wall portion is positioned between this biside plate, and this sliding window more comprises two locking parts, this two locking part is connected to the connected both sides in this wall portion, and this two locking part is each passed through this biside plate and is locked on this two locking part respectively.

10. carry support body as claimed in claim 6, it is characterized in that, wherein this carrier has one first relative side and one second side, this wall portion of this sliding window is adjacent to this first side of this carrier, this sliding window more comprises an inflexed part, this inflexed part is connected to this wall portion, and is covered in the top of this carrier of part towards the direction of this second side protrusion along this first side, and the perforation of this input and output port is between this inflexed part and this carrier.