Summary of the invention
The manufacturing line board that the invention provides a kind of notebook computer, it contributes to the lifting of production capacity, can keep the smooth and easy of logistics simultaneously.
The present invention proposes a kind of manufacturing line board of notebook computer, comprises two get the raw materials ready region, two assembling regions, two test zones, two first unloading areas, delivery track, shaft down region and two packaging areas.Two regions of getting the raw materials ready are arranged in parallel with each other.Two regions of getting the raw materials ready receive the required assembled material of multiple notebook computers by two first entrances, and transmit the required assembled material of notebook computer along a first direction.The two assembling regions correspondence area configurations of getting the raw materials ready respectively, are assembled into notebook computer by assembled material, and transmit notebook computer along first direction.Two test zones are corresponding assembling area configurations respectively, to receive notebook computer, and transmits notebook computer along a first direction.The first unloading area is disposed on the transfer path of notebook computer, and provides parking space to notebook computer.Delivery track is disposed between the first unloading area.Delivery track is suitable for reception from the notebook computer of test zone or receives the notebook computer from the first unloading area, and sequentially along first direction and a second direction, transmits those notebook computers.Shaft down region receives by the second entrance the notebook computer that delivery track transmits along second direction, and the notebook computer transmitting along second direction is rotated to along first direction transmission, so that shaft down region is sent to two first by notebook computer, exports.The first outlet is positioned at the relative both sides in shaft down region.First outlet in corresponding shaft down region, two packaging areas is arranged, and unloading area is disposed between packaging area.Packaging area receives notebook computer by two the 3rd entrances respectively, and along first direction, notebook computer is sent to two second outlets.
In one embodiment of this invention, above-mentioned delivery track comprises the first track and the second track.The second track is positioned at the top of the first track.The first track and the second track transmit notebook computer along first direction and second direction respectively, and shaft down region receives notebook computer by one the 3rd outlet of the second track.First direction and second direction are opposite each other.
In one embodiment of this invention, the first above-mentioned unloading area receives the notebook computer from test zone by the first track.Shaft down region receives the notebook computer from the first unloading area by the second track.
In one embodiment of this invention, above-mentioned notebook computer is carried out the download of an operating system in the first unloading area.
In one embodiment of this invention, above-mentioned notebook computer is carried out the decompression of operating system in shaft down region.
In one embodiment of this invention, above-mentioned shaft down region comprises stand and swing-around trajectory.Swing-around trajectory be shaped as class annular, wherein stand is disposed on swing-around trajectory, and is suitable for moving along swing-around trajectory.
In one embodiment of this invention, the manufacturing line board of notebook computer also comprises inspection bin.Inspection bin is disposed at the side of the one of packaging area.
In one embodiment of this invention, also one second unloading area of the manufacturing line board of notebook computer.The second unloading area is disposed at the top of delivery track.
In one embodiment of this invention, the manufacturing line board of notebook computer also comprises two inclined planes.Two inclined planes are disposed at the top of test zone.Inclined plane is suitable for receiving the notebook computer from the first outlet, and transmits notebook computer.
In one embodiment of this invention, the first above-mentioned unloading area comprises a unloading frame.
Based on above-mentioned, the manufacturing line board of notebook computer of the present invention arranges unloading area by the adjacent place of delivery track, thereby can reduce the distance of worker carrying notebook computer, and keeps the smooth and easy of logistics.In addition, because notebook computer also carries out the decompression of operating system in shaft down region, therefore can reduce the number of times of worker carrying notebook computer.In addition, the manufacturing line board of notebook computer of the present invention comprises two test zones, two first unloading areas, and the framework that its double-throw enters manufacturing line contributes to the lifting of production capacity.
For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate accompanying drawing to be described in detail below.
The specific embodiment
For making object, technical scheme and the advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.
Fig. 1 is the manufacturing line board of the notebook computer of one embodiment of the invention.Fig. 2 A is the amplification stereogram of the region A of Fig. 1.Referring to Fig. 1 and Fig. 2 A, the manufacturing line board 100 of the notebook computer of the present embodiment comprises two get the raw materials ready region (kitting area) 160, two assembling regions (assembly area) 150, two test zones (test area) 110, two unloading areas (downloadarea) 120, delivery track 130, shaft down region (run-in area) 140 and two packaging areas (packing area) 170.
Two regions 160 of getting the raw materials ready are arranged in parallel with each other, and by two entrance IP1, receive the required assembled material M of testing element TC and for example, along a first direction (be+directions X) transmission assembled material M.Two assembling regions 150 configure in the correspondence region 160 of getting the raw materials ready respectively, and assembled material M is assembled into testing element TC, and edge+directions X transmission testing element TC, and wherein testing element TC is for example notebook computer (notebook computer).Two test zones 110 configure in corresponding assembling region 150 respectively, and to receive testing element TC, and edge+directions X transmits testing element TC.Test zone 110 receives respectively testing element TC by two entrance IP1 ', and edge+directions X transmits testing element TC.Two unloading areas 120 are disposed on the transfer path P1 of testing element TC, and provide parking space 122 to testing element TC.In addition, unloading area 120 is for example unloading frame.
Delivery track 130 is disposed between unloading area 120.Delivery track 130 is suitable for receiving from the testing element TC of test zone 110 or from the testing element TC of unloading area 120, sequentially edge+directions X and a second direction (being for example-directions X) transmission testing element TC.In the present embodiment, the width of delivery track 130 is for example 0.4 meter, and its length is for example 100 meters.Shaft down region 140 receives by entrance IP2 the testing element TC that delivery track 130 edge-directions Xs transmit, and edge-directions X continues to transmit testing element TC.Shaft down region 140 by the direction of transfer of testing element TC by the rotation of-directions X to+directions X, and edge+directions X is sent to two outlet OP1 by testing element TC, wherein the two relative both sides that export OP1 and be positioned at shaft down region 140.In addition, the manufacturing line board 100 of the notebook computer of the present embodiment also comprises unloading area 120 ' (being depicted in Fig. 2 A).As shown in Figure 2 A, unloading area 120 ' is disposed at the top of delivery track 130.When the production capacity of manufacturing line board promotes, unloading area 120 ' can provide more parking space to testing element TC.
Specifically, arrange in the assembling region 150 of the present embodiment respectively entrance IP1 ' of corresponding test zone 110, and by two outlet OP3, testing element TC edge+directions X is sent to the entrance IP1 ' of test zone 110, wherein testing element TC comprises multiple demonstration modules.Show that module is for example liquid crystal module (liquid crystal module, LCM).In addition, the region 160 two entrance IP3 arrangements in corresponding assembling region 150 respectively of getting the raw materials ready, and provide demonstration module required assembled material M.Wherein assembled material M be for example display panel, backlight module, front frame and after-frame at least one of them, and display panel example is display panels (liquid crystal display panel).As shown in Figure 1, the region 160 of getting the raw materials ready is sent to assembled material M edge+directions X by two outlet OP4 the entrance IP3 in assembling region 150, so that assembled material M is assembled into testing element TC in assembling region 150.For instance, the assembling region 150 of the present embodiment can be for example for showing module group assembling region.
On the other hand, the outlet OP1 in corresponding shaft down region, packaging area 170 140 arranges, and unloading area 120 is disposed between packaging area 170.Packaging area 170 receives the testing element TC from shaft down region 140 by two entrance IP4 respectively, and edge+directions X transmits testing element TC to two outlet OP5.From the above, in the present embodiment, the two two outlet OP5 that get the raw materials ready the two entrance IP1 in region 160 and two packaging areas 170 are respectively two outlets and two entrances of the manufacturing line board 100 of notebook computer.
In addition, the manufacturing line board 100 of the notebook computer of the present embodiment also comprises inspection bin 180.Inspection bin 180 is disposed at the side of the one of packaging area 170.In the present embodiment, the number of inspection bin 180 is for example two, and is disposed at respectively the side of two packaging areas 170.Furthermore, inspection bin 180 is for example the inspection bin of attachment, and it is in order to provide the related accessories such as the specification sheets of testing element TC or laser disc.
Fig. 2 B is the shaft down region 140 and the front elevation of delivery track 130 along Y-direction of Fig. 2 A.Referring to Fig. 2 A and Fig. 2 B, delivery track 130 comprises track 132 and track 134.Track 134 is positioned at the top of track 132, and its middle orbit 132 and track 134 be edge+directions X and-directions X transmission testing element TC respectively.Shaft down region 140 receives testing element TC by the outlet OP2 of 134 tracks.In addition, unloading area 120 receives the testing element TC from test zone 110 by track 132, and shaft down region 140 receives the testing element TC from unloading area 120 by track 134.Wherein testing element TC is in the direct of travel of track 132 and opposite each other in the direct of travel of track 134.For instance, testing element TC in the direct of travel of track 132 is for example+directions X, and testing element TC in the direct of travel of track 134 is for example-directions X direction.
In the present embodiment, testing element TC lies in unloading area 120 and carries out the download of operating system (operation system, OS).For example, on unloading area 120, have power lead and network circuit, so that the image shelves of downloading operating system are to testing element TC.Specifically,, when worker moves to track 132 by the testing element TC of operating system to be downloaded from test zone 110 (step S1), track 132 can transmit testing element TC by edge+directions X.It should be noted, because test zone 110 is for example, to very nearly (within 2 meters) of distance of track 132, therefore be convenient to the transport operation of worker.
Come, worker can be picked up the testing element TC in face of sending to from track 132, and is transported on unloading area 120 to carry out the download of operating system again.Specifically, the unloading area 120 of the present embodiment is that corresponding delivery track 130 is set, and wherein for example approximately 30 meters of the length of delivery track 130, and delivery track 130 are other just has worker every a segment distance.Therefore,, when testing element TC is sent to the responsible region of each worker, as long as everyone be placed on unloading area 120 by the testing element TC being responsible in region.Because unloading area 120 is just on the side of delivery track 130, thus the handling time of worker can be shortened, and contribute to the smooth and easy of logistics.That is worker testing element TC when carrying must not leave main line body, but mat track 132 just can be sent to testing element TC each fixed point.The unloading area 120 of the present embodiment for example can hold 1000 testing element TC, and wherein testing element TC is for example for to be downloaded or downloading the notebook computer of operating system.
Then, worker can take off the testing element TC that has downloaded operating system from unloading area 120, and is put on track 134, so that track 134 is sent to shaft down region 140 (step S2) by testing element TC edge-directions X.Finally, shaft down region 140 can receive testing element TC by the outlet OP2 of track 134.As shown in Figure 2 A, shaft down region 140 comprises stand 142 and swing-around trajectory 144, swing-around trajectory 144 be shaped as a class annular, wherein stand 142 is disposed on swing-around trajectory 144, and is suitable for moving along swing-around trajectory 144.Specifically, stand 142 can be rotated at swing-around trajectory 144.
Fig. 2 C is shaft down region 140, the packaging area 170 and the front elevation of inclined plane 182 along Y-direction of Fig. 2 A.Referring to Fig. 2 A and Fig. 2 C, in the present embodiment, testing element TC lies in shaft down region 140 carries out the decompression of operating system.When stand 142 rotations to the decompression of close outlet OP 1 and operating system has completed, worker just can in by import and export OP1 locate the testing element TC on stand 142 is taken off, and by inclined plane 182, testing element TC is sent to packaging area 170 (step S3).Specifically, inclined plane 182 is disposed at the top of test zone 110.Inclined plane 182 is suitable for receiving the testing element TC from outlet OP1, and transmits testing element TC to packaging area 170.Wherein testing element TC is for example for pending or carrying out the notebook computer of the decompression of operating system.In addition, the tilt angle theta of the inclined plane 182 of the present embodiment is for example 20 degree, and direction of transfer is for example+directions X.
In known skill, because stand 142 is to be positioned at outside main line body (being manufacturing line board), therefore must carrying far distance, worker testing element TC could be placed on stand 142.But in the present embodiment, because the decompression of operating system is to complete in shaft down region 140, therefore worker does not need in addition testing element TC to be moved on to other district, just can carry out the decompression of system, and then can reduce the number of times of carrying testing element TC.In addition, in the present embodiment, the height h between layers of stand 142 is for example 230 millimeters (mm), and always the number of plies is for example 8 layers, generally speaking can hold altogether and approximately have 3000 testing element TC.Therefore,, compared to known skill, the stand 142 of the present embodiment can be placed more testing element TC, and then can promote production capacity.
On the other hand, by Fig. 1 and Fig. 2 A, also can be known and learn, the manufacturing line board 100 of the notebook computer of the present embodiment is to adopt double-throw to enter but not manufacturing line that single-throw enters, therefore have advantages of material one-in-and-one-out.Furthermore, the region 160 of getting the raw materials ready of the present embodiment, assembling region 150, test zone 110, unloading area 120 are all more than two with the number of packaging area 170, and assembled material M enters assembling region 150 to be assembled into testing element TC in assembling region 150 by two entrance IP3.Finally, testing element TC is after the decompression of the system of fulfiling assignment, then via two outlet OP5 outputs of two packaging areas 170.Hence one can see that, and the manufacturing line board 100 of the notebook computer of the present embodiment is not only convenient to the segmentation operation of worker, and the manufacturing line entering compared to single-throw has higher production capacity.For example, the total length of the double-throw lambda line body of the present embodiment is for example 105 meters, and its total length than single-throw lambda line body is also short.
Fig. 3 be the assembling region 150 of Fig. 1 along the section-drawing of hatching RR ', the width W 1 of wherein assembling region 150 is for example 0.8 meter, and its length L 1 is for example 2.8 meters.Fig. 4 is the packaging area 170 and the section-drawing of delivery track 130 along hatching SS ' of Fig. 1, and wherein the width W 2 of packaging area 170 is for example 0.6 meter, and its length L 2 is for example 4 meters.Fig. 5 is the inspection bin 180 and the section-drawing of packaging area 170 along hatching TT ' of Fig. 1.In Fig. 4, above packaging area 170, there is light source 194 so that illumination to be provided, wherein light source 194 is for example single tube daylight, and two packaging areas 170 are for example to link together by aluminum strip 192.In addition, the passage that region B is worker, so that worker is carried to testing element TC unloading area 120 or is carried to track 134 from unloading area 120 from track 132.
From another angle, watch, the present embodiment also provides a kind of product line method of notebook computer.Fig. 6 is the diagram of circuit of the product line method of the notebook computer of the present embodiment.Please refer to Fig. 6, first, by two entrances, receive respectively multiple testing elements, and transmit testing element (step S110) along a first direction.Then, by a delivery track, sequentially along first direction and a second direction, transmit testing element (step S120).Then, the testing element transmitting along first direction on delivery track is positioned over respectively to two first unloading areas (step S130).Come again, from the first unloading area, testing element is positioned over to delivery track, make testing element along second direction transmission (step S140).Finally, receive the testing element transmitting along second direction from delivery track, and the direction of transfer of testing element is rotated to first direction, testing element is sent to two outlets (step S150) along first direction.In the present embodiment, two entrances of step S110 are for example the entrance IP1 ' of Fig. 1, and testing element is for example the testing element TC of Fig. 1, and first direction is for example+directions X.The transporting rail of step S120 is for example the delivery track 130 of Fig. 2 A, and second direction is for example-directions X, and the first unloading area of step S130 is for example the unloading area 120 of Fig. 2 A.The outlet of step S150 is for example the outlet OP1 of Fig. 2 A.Because the product line method of the notebook computer of the present embodiment can, by obtaining enough teachings, suggestion and implementation in the relevant narration of Fig. 1~Fig. 2 C, therefore repeat no more.
In sum, the manufacturing line board of notebook computer of the present invention, by unloading area and main line body are integrated, arranges unloading area in the adjacent place of delivery track, thereby can reduce the distance of worker carrying testing element, and keeps the smooth and easy of logistics.In addition, because testing element also carries out the decompression of operating system in shaft down region, therefore can reduce the number of times of worker carrying testing element.In addition, the double-throw of the manufacturing line board of the notebook computer of the present embodiment enters manufacturing line and has advantages of material one-in-and-one-out, and contributes to the lifting of production capacity.
Although the present invention discloses as above with embodiment, so it is not in order to limit the present invention, those of ordinary skill in any affiliated technical field, but do a little change and retouching, and do not depart from the spirit and scope of the present invention.