CN101585429A - The assemble method of a kind of material-supplying box, assembling tray and host computer - Google Patents

Abstract

A kind of assemble method of host computer, this method comprises the steps: to stand 1 in the worker: big part material is placed in the cooresponding storage lattice of material-supplying box, described material-supplying box is mounted to it is followed treat that the stack-mounted cabinet enters next worker station again; Stand 2 in the worker:, attach it on the mainboard in the described storage lattice near CPU and internal memory Material Staging Area the take required CPU and the internal memory of current worker standing; Follow-up worker stands and 3 stands 8 to the worker: each takes out corresponding material and is installed to and treats in the stack-mounted cabinet in the storage lattice of material-supplying box; Stand 9 in the worker: the operator checks in all storage lattice of described material-supplying box can assemble side cover behind the no leftover materials, finishes the assembling of host computer.Utilize the present invention can optimize the assembling flow path of host computer, improve the host computer assembling efficiency.

Description

The assemble method of a kind of material-supplying box, assembling tray and host computer

Technical field

The present invention relates to the assemble method of a kind of material-supplying box, assembling tray and host computer.

Background technology

The mode of the material loading while assembling is taked in Level 10 host computers assembling at present, and material all need be deposited in all worker stations.Traditional host computer assembling flow path as shown in Figure 1.In Fig. 1, the required material in each assembling worker station (stand 1 stand 8 to the worker from the worker) all be placed on this worker station near.Wherein, the worker stands and comprises the connection of CD-ROM drive data line in the assembling of 6 CD-ROM drive, and the worker stands and comprises the connection of hard disc data line in 7 the hard disk assembling.

But big part material takies the big quantity space of assigned line, is easy to cause transportation not smooth, influences packaging efficiency.And the staff is when the assembling host computer, because the work carelessness, the situation of neglected loading part happens occasionally, and has a strong impact on work efficiency.

Summary of the invention

In view of above content, be necessary to provide a kind of material-supplying box, described material-supplying box is made up of the storage lattice of a plurality of mutual separations, the downside hook is installed on the sidewall at the seamed edge place that described material-supplying box length is the longest, wherein: the partition between the storage lattice of described a plurality of mutual separations adopts movable blade card mode, can be combined into different storage lattice according to the quantity and the size of different material kind and big minor adjustment storage lattice.

In view of above content, the assembling tray that provides a kind of and above-mentioned material-supplying box to be used also is provided, described material-supplying box links together with described assembling tray by described downside hook, the surface of described assembling tray is made up of a plurality of grid, is used to place described material-supplying box and treats the stack-mounted cabinet.

In view of above content, also be necessary to provide a kind of and utilize above-mentioned material-supplying box to carry out host computer stack-mounted method, this method comprises the steps:

Stand 1 in the worker: will treat that the stack-mounted cabinet is placed on the assembling tray, big part material is placed in the cooresponding storage lattice of described material-supplying box simultaneously, make each store in lattice and all deposited a kind of material, again described material-supplying box is mounted to and it is followed treat that the stack-mounted cabinet enters next worker station, described big material comprises mainboard, cpu heat, video card, CD-ROM drive, hard disk, data line, and described data line comprises CD-ROM drive data line and hard disc data line;

Stand 2 in the worker:, attach it on the mainboard in the described storage lattice near CPU and internal memory Material Staging Area the take required CPU and the internal memory of current worker standing;

Stand 3 in the worker: the operator carries out visual inspection earlier, confirm that described CPU and internal memory have been in place after, again mainboard is installed to described treating in the stack-mounted cabinet;

Stand 4 in the worker: store the required cpu heat of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 5 in the worker: store the required video card of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 6 in the worker: store the required CD-ROM drive of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 7 in the worker: store the required hard disk of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 8 in the worker: store required CD-ROM drive data line and the hard disc data line of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 9 in the worker: the operator checks in all storage lattice of described material-supplying box behind the no leftover materials, near the current worker side cover Material Staging Area required side cover of taking of standing, attaches it to described treating and finishes the assembling of host computer on the stack-mounted cabinet.

Compared to prior art, described host computer assemble method, can utilize material-supplying box and assembling tray optimization host computer assembling flow path, material to deposit layout type and material-uploading style, improve the host computer assembling efficiency, the while can reduce neglected loading, adorn the situation generation of part more.

Description of drawings

Fig. 1 is the assigned line flow sheet before host computer assemble method of the present invention is optimized.

Fig. 2 is the scheme drawing of the material-supplying box that uses in the host computer assemble method of the present invention.

Fig. 3 is the scheme drawing of the assembling tray that is used with material-supplying box shown in Fig. 2.

Fig. 4 is the assigned line flow sheet after host computer assemble method of the present invention is optimized.

The specific embodiment

As shown in Figure 1, be that host computer assemble method of the present invention is optimized preceding assigned line flow sheet.In Fig. 1, the required material in each assembling worker station (stand 1 stand 8 to the worker from the worker) all be placed on this worker station near.

As shown in Figure 2, be the scheme drawing of the material-supplying box that uses in the host computer assemble method of the present invention.Described material-supplying box 2 is made up of the storage lattice 21 of a plurality of mutual separations.Wherein, downside hook 22 is installed on the sidewall at the seamed edge place that described material-supplying box 2 length are the longest, on the described downside hook 22 buffering spacer 23 is installed, described material-supplying box 2 four edges up are equipped with riveted fixed sturcture 24.In the present embodiment, described downside hook 22 is installed on the sidewall at the longest seamed edge place of described material-supplying box 2 length.In other embodiments, downside hook 22 can be installed simultaneously on two sidewalls at the seamed edge place that described material-supplying box 2 length are the longest.

The storage lattice 21 of described a plurality of mutual separations are used to deposit big part material, and described big material comprises: mainboard, cpu heat, video card, CD-ROM drive, hard disk, data line etc.Partition between the storage lattice 21 of described a plurality of mutual separations adopts movable blade card mode, can assemble the quantity and the size of the material variety and the big minor adjustment storage lattice of machine according to difference, is combined into different storage lattice.Wherein, the quantity of described storage lattice equals the quantity of material variety, and storage lattice are only deposited a kind of material, remain " lattice one thing ".

Described downside hook 22 is used for described material-supplying box 2 is articulated to an assembling tray (as shown in Figure 3), and the two is fused, and splits to return first worker station and reuse after assembling is finished.

Described buffering spacer 23 be used to reduce other object (as treating the stack-mounted cabinet) and as described in the collision dynamics of material-supplying box 2 when bumping, with outward appearance damage of preventing other object etc.Described buffering spacer 23 can adopt soft and whippy material, as foamed plastic etc.

Described riveted fixed sturcture 24 is used for fixing other material-supplying box that vertically is positioned on the described material-supplying box 2.

As shown in Figure 3, be the scheme drawing of the assembling tray that is used with material-supplying box shown in Fig. 22.The surface of described assembling tray 1 is made up of a plurality of grid, is used for placing described material-supplying box 2 and treats stack-mounted cabinet (Fig. 3 is not shown).In order to prevent electrostatic interference, the surface of described assembling tray 1 can cover one deck electrostatic prevention cloth.Described material-supplying box 2 links together with described assembling tray 1 by described downside hook 22.In the present embodiment, the surface design of described assembling tray 1 becomes the grid pattern, and its effect is the mechanical strength when strengthening assembling tray 1 load-bearing.In other embodiments, the surface of described assembling tray 1 also can be designed to other pattern.

As shown in Figure 4, be assigned line flow sheet after host computer assemble method of the present invention is optimized.The worker stands 1 at (initial worker station): material loading, to treat that the stack-mounted cabinet is placed on the described assembling tray 1, simultaneously big part material is placed in the described material-supplying box 2 cooresponding storage lattice 21, make each storage all deposit a kind of material in lattice 21, described material-supplying box 2 is mounted to it is followed treat that the stack-mounted cabinet enters next worker station again.Described big material comprises: mainboard, cpu heat, video card, CD-ROM drive, hard disk, data line etc., described data line comprises CD-ROM drive data line and hard disc data line.Wherein, described CD-ROM drive data line identifies with different colors with the hard disc data line and is distinguished.For example, the orange sign of CD-ROM drive data line, the hard disc data line identifies with blue.In order to shorten haulway as far as possible, reducing time and the manpower that the material transport point consumes, the worker stands and 1 is arranged on local proper near the material storage repository as far as possible.And stand the worker by the big part material used in the assembling process of described material-supplying box 2 with back worker station as far as possible and 1 to prepare enough, avoid material loading in the assembling process at worker station in the back, improve packaging efficiency.Can confirm material when all being placed with material when all storage lattice 21 of described material-supplying box 2 gets all the ready.

The worker stands 2: the mainboard preparative treatment near CPU and internal memory Material Staging Area take required CPU and the internal memory of current worker standing, attaches it on the mainboard in the described storage lattice 21.Because CPU and internal memory is more valuable, damage in transit easily, and it is little to take up room, so arrange described CPU and internal memory directly in mainboard preparative treatment worker stand material loading, installation.

The worker stands 3: mainboard assembling, the operator carries out visual inspection earlier, confirm that described CPU and internal memory have been in place after, again mainboard is installed to described treating in the stack-mounted cabinet.

Stand 4:CPU radiator assembling of worker is taken out required cpu heat from described material-supplying box 2 corresponding storage lattice 21, attach it to described treating in the stack-mounted cabinet.

The worker stands 5: the video card assembling, from described material-supplying box 2 corresponding storage lattice 21, take out required video card, and attach it to described treating in the stack-mounted cabinet.

The worker stands 6: the CD-ROM drive assembling, from described material-supplying box 2 corresponding storage lattice 21, take out required CD-ROM drive, and attach it to described treating in the stack-mounted cabinet.

The worker stands 7: the hard disk assembling, from described material-supplying box 2 corresponding storage lattice 21, take out required hard disk, and attach it to described treating in the stack-mounted cabinet.

The worker stands 8: data line connects, and takes out required CD-ROM drive data line and hard disc data line from described material-supplying box 2 corresponding storage lattice 21, attaches it to described treating in the stack-mounted cabinet.

The worker stands 9: side cover assembling, the operator checks in all storage lattice 21 of described material-supplying box 2 behind no leftover materials, near the current worker side cover Material Staging Area required side cover of taking of standing, attaches it to described treating and finishes the assembling of host computer on the stack-mounted cabinet.

In the present embodiment, the big part material of storage comprises in the storage lattice 21 of described material-supplying box 2: mainboard, cpu heat, video card, CD-ROM drive, hard disk, data line etc.In other embodiments, the user can assemble the quantity and the size of the material variety and the big minor adjustment storage lattice of machine according to difference, be combined into different storage lattice, and each storage lattice has all been deposited a kind of material.

In addition, worker in the present embodiment stands and 4 also can adjust according to the material type that difference is assembled machine to stand 7 assembling sequence of worker.

It should be noted that at last, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not break away from the spirit and scope of technical solution of the present invention.

Claims (10)

1. a material-supplying box is characterized in that, described material-supplying box is made up of the storage lattice of a plurality of mutual separations, and the downside hook is installed on the sidewall at the seamed edge place that described material-supplying box length is the longest, wherein:

Partition between the storage lattice of described a plurality of mutual separations adopts movable blade card mode, can be combined into different storage lattice according to the quantity and the size of different material kind and big minor adjustment storage lattice.

2. material-supplying box as claimed in claim 1 is characterized in that, on the described downside hook buffering spacer is installed.

3. material-supplying box as claimed in claim 2 is characterized in that, described buffering spacer adopts elastomeric material.

4. material-supplying box as claimed in claim 1 is characterized in that, at material-supplying box four edges up the riveted fixed sturcture is installed, and is used for fixing other material-supplying box that vertically is positioned on the described material-supplying box.

One kind with claim 1 in the assembling tray that is used of material-supplying box, it is characterized in that, described material-supplying box links together with described assembling tray by described downside hook, and the surface of described assembling tray is made up of a plurality of grid, is used to place described material-supplying box and treats the stack-mounted cabinet.

6. assembling tray as claimed in claim 5 is characterized in that, the surface coverage of described assembling tray has one deck electrostatic prevention cloth.

7. one kind is utilized the material-supplying box in the claim 1 to carry out host computer stack-mounted method, it is characterized in that this method comprises the steps:

Stand 1 in the worker: will treat that the stack-mounted cabinet is placed on the assembling tray, big part material is placed in the cooresponding storage lattice of described material-supplying box simultaneously, make each store in lattice and all deposited a kind of material, again described material-supplying box is mounted to and it is followed treat that the stack-mounted cabinet enters next worker station, described big material comprises mainboard, cpu heat, video card, CD-ROM drive, hard disk, data line, and described data line comprises CD-ROM drive data line and hard disc data line;

Stand 2 in the worker:, attach it on the mainboard in the described storage lattice near CPU and internal memory Material Staging Area the take required CPU and the internal memory of current worker standing;

Stand 3 in the worker: the operator carries out visual inspection earlier, confirm that described CPU and internal memory have been in place after, again mainboard is installed to described treating in the stack-mounted cabinet;

Stand 4 in the worker: store the required cpu heat of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 5 in the worker: store the required video card of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 6 in the worker: store the required CD-ROM drive of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 7 in the worker: store the required hard disk of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet;

Stand 8 in the worker: store required CD-ROM drive data line and the hard disc data line of taking-up the lattice accordingly from described material-supplying box, attach it to described treating in the stack-mounted cabinet; And

Stand 9 in the worker: the operator checks in all storage lattice of described material-supplying box behind the no leftover materials, near the current worker side cover Material Staging Area required side cover of taking of standing, attaches it to described treating and finishes the assembling of host computer on the stack-mounted cabinet.

8. host computer assemble method as claimed in claim 7 is characterized in that, described worker stands and 4 can adjust according to the material type that difference is assembled machine to stand 7 assembling sequence of worker.

9. host computer assemble method as claimed in claim 7, it is characterized in that, the big part material of storing in the storage lattice of described material-supplying box is determined according to the material variety of difference assembling machine, the quantity of described storage lattice is adjusted according to the material variety and the size of different assembling machines with size, and the quantity of described storage lattice equals the kind quantity of material.

10. host computer assemble method as claimed in claim 7 is characterized in that, described CD-ROM drive data line identifies with different colors with the hard disc data line and distinguished.

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