Embodiment
Figure 1 shows that the according to an embodiment of the invention structural representation of automatic heat engine device of circuit board.Figure 2 shows that the according to an embodiment of the invention accommodating unit of automatic heat engine device of circuit board and the partial structurtes synoptic diagram of the first transport part.Please in the lump with reference to figure 1 and Fig. 2.
The automatic heat engine device of circuit board 1 that present embodiment provides is used for circuit board 2 is carried out heat engine, and wherein circuit board 2 has the first connecting portion 20.
In present embodiment, automatic heat engine device of circuit board 1 comprises that the first transport part 10, accommodating unit 11, control module 12, the first supporting part 14, the second supporting part 13, the second transport part 15, the first sensing unit 16, the second sensing unit 17, circuit board provide unit 18 and circuit board retrieval unit 19.Control module 12 couples various piece, with the running of control each several part.
In present embodiment, the first transport part 10 has first input end 101 and the first output terminal 102, the first transport parts 10 and comprises that the first power supply provides unit 103, required power supply when being used for providing circuit board 2 to carry out heat engine.The first power supply provides unit 103 can comprise for electrical contacts 1030.In present embodiment, the first power supply provides unit 103 can be connected to an external power supply (not shown) so that the power supply of 220V to be provided, and can be copper rail or copper coin for electrical contacts 1030, in order to transmit this power supply.Yet the present invention does not restrict this.
In present embodiment, accommodating unit 11 is in order to accommodating circuit board 2.As shown in Figure 1, it can have a plurality of accommodating lattice 112.Each accommodating lattice 112 can carry respectively a circuit board.These accommodating lattice 112 are presented lower equidistant arrangement.In present embodiment, the material of accommodating unit 11 is bakelite, and has the bakelite dividing plate between adjacent two accommodating lattice 112, so that keep between each circuit board being electrically insulated.Yet the present invention does not do any restriction to number and the arrangement mode of accommodating lattice 112.
In present embodiment, accommodating unit 11 comprises that also the second connecting portion 110 provides unit 111 with second source.The second connecting portion 110 couples respectively second source first connecting portion 20 of unit 111 with circuit board 2 is provided.In present embodiment, second source provides unit 111 to comprise and is subjected to electrical contacts 1110 and cable 1111.Cable 1111 couples respectively and is subjected to electrical contacts 1110 and the second connecting portion 110.
In present embodiment, control module 12 control accommodating unit 11 enter the first input end 101 of the first transport part 10, and this moment, accommodating unit 11 utilized the first transport part 10 to be sent to the first output terminal 102 by first input end 101.When accommodating unit 11 is between first input end 101 and the first output terminal 102, be subjected to electrical contacts 1110 for electrical contacts 1030 contacts.Thus, within predetermined time, the first power supply provides unit 103 can provide power supply to provide unit 111 to second source.And transfer to circuit board 2 by the second connecting portion 110.
In other embodiment, accommodating unit 11 comprises that second source provides unit 111, and has most terminal (not shown).Circuit board 2 also has most terminal (not shown), and circuit board 2 is when entering accommodating unit 11, the mutual electrical contact of those terminals.When control module 12 control accommodating unit 11 entered first input end 101, the first power supply provided unit 103 can provide power supply to provide unit 111 to second source.At this moment, second source provide unit 111 utilize those terminals with power delivery to circuit board 2.The present invention does not restrict this.
In present embodiment, the first supporting part 14 is arranged at a side of the first output terminal 102.As shown in Figure 1, the left side of the first output terminal 102 has one first support group, 192, the first supporting parts 14 and is arranged at the first support group 192.After circuit board 2 was finished the heat engine process, control module 12 control accommodating unit 11 entered the first supporting part 14.
In present embodiment, the first support group 192 has a default circuit board extracting position 193, and circuit board retrieval unit 19 is arranged at this circuit board extracting position 193.Control module 12 controls the first supporting part 14 moves accommodating unit 11, so that accommodating unit 11 enters default circuit board extracting position 193.Under the control of control module 12, circuit board retrieval unit 19 can take out circuit board 2 by accommodating unit 11.
In present embodiment, circuit board retrieval unit 19 can comprise output track 191 and propulsion system (not shown).After accommodating unit 11 utilized the first supporting part 14 to enter default circuit board extracting position 193, propulsion system pushed the circuit board 2 in the accommodating lattice 112 in the output track 191.Wherein output track 191 can connect different accommodation devices or other equivalent as required.
For example, circuit board 2 need enter testing producing lines usually to carry out follow-up various functional test after finishing the heat engine process.At this moment, then output track 191 connecting tests can be produced line.So, circuit board 2 can directly enter testing producing lines along output track 191.And the output track 191 of circuit board retrieval unit 19 also can comprise the rotating mechanism (not shown), with according to the differing heights that produces line, output track 191 is carried out angular setting.
In present embodiment, the second transport part 15 has the second input end 151 and the second output terminal 152.In present embodiment, the second transport part 15 is arranged at 10 tops, the first transport part, and namely the second output terminal 152 is arranged at first input end 101 tops, and the second input end 151 is arranged at the first output terminal 102 tops.In other embodiment, the second transport part 15 also can be arranged at 10 belows, the first transport part, and the present invention does not limit the relative position relation of the first transport part 10 and the second transport part 15.
In present embodiment, after circuit board 2 in accommodating unit 11 takes out, control module 12 can further be controlled the first supporting part 14 and move accommodating unit 11, so that accommodating unit 11 is moved to the second input end 151 of the second transport part 15 by default circuit board extracting position.
In present embodiment, the second sensing unit 17 is arranged at the first support group 192.When the first supporting part 14 moved to the second transport part 15 with accommodating unit 11, the second sensing unit 17 was so that control module 12 is controlled the second transport part 15, so that accommodating unit 11 is moved to the second output terminal 152 by the second input end 151.Start process about the second sensing unit 17 is detailed later.
In present embodiment, the second supporting part 13 is arranged at a side of first input end 101.As shown in Figure 1, the right side of first input end 101 has one second support group 194.Similar with the first supporting part 14, the second supporting part 13 is arranged at this second support group 194.When accommodating unit 11 moves to the second output terminal 152, utilize the control of control module 12, the second supporting part 13 moves accommodating unit 11.So, accommodating unit 11 can be entered by the second output terminal 152 of the second transport part 15 first input end 101 of the first transport part 10.
In present embodiment, the first sensing unit 16 is arranged at first input end 101.When accommodating unit 11 arrived first input end 101, the first sensing unit 16 was so that control module 12 controls the first transport part 10, so that accommodating unit 11 is moved to the first output terminal 102 by the first input end 101 of the first transport part 10.
Specifically, in present embodiment, the first sensing unit 16 is pressure transducer.When accommodating unit 11 arrives first input end 101, contact the first sensing unit 16, at this moment, and the first sensing unit 16 outputs one high levle enabling signal, control module 12 receives this enabling signal, controls the first transport part 10 and starts.The start principle of the second sensing unit 17 is identical with the first sensing unit 16, does not repeat them here.
In present embodiment, circuit board provides unit 18 to be arranged at a side of first input end 101.After operator was positioned over circuit board with pending circuit board 2 unit 18 is provided, under the control of control module 12, circuit board provided unit 18 to provide circuit board 2 to accommodating unit 11.Subsequently, utilize the second supporting part 13, accommodating unit 11 is movable to the first input end 101 of the first transport part 10, to carry out follow-up heat engine operation.Provide concrete structure and the start process of unit 18 about circuit board, be detailed later.
Figure 3 shows that the circuit board of automatic heat engine device of circuit board according to an embodiment of the invention provides the partial structurtes synoptic diagram of unit.Please in the lump with reference to figure 1.
In present embodiment, circuit board provides unit 18 to comprise drive unit 180 and input track 181, and drive unit 180 is arranged at a side of input track 181.
In present embodiment, when operator with circuit board 2 be positioned over the input track 181 a rear flank, the drive unit 180 that is positioned at opposite side can push circuit board 2 the accommodating lattice 112 of accommodating unit 11.At this moment, control module 12 can be controlled the second supporting part 13 declines one preset height, and this preset height equates with the spacing of accommodating lattice 112.Subsequently, the operator circuit board that next piece is pending is positioned over a side of input track 181, and utilizes drive unit 180 that it is pushed in the accommodating lattice 112.By that analogy, circuit board provides unit 18 successively a plurality of circuit boards 2 to be provided to accommodating unit 11.
In present embodiment, drive unit 180 can be the cylinder equal power device.In other embodiment, drive unit 180 can be the thing of other equivalence, and the present invention does not limit this.
In present embodiment, automatic heat engine device of circuit board 1 also can comprise data capture unit 182 and data storage cell (not shown).Wherein, data capture unit 182 couples control module 12, in order to the information of acquisition cuicuit plate 2.Data storage cell couples data capture unit 182, in order to receive the also information of memory circuit plate 2.
In present embodiment, data capture unit 182 can be arranged at a side of input track 181.In present embodiment, data capture unit can be arranged at circuit board unit 18 or circuit board retrieval unit 19 are provided.The present invention does not impose any restrictions this, but as long as the information of its acquisition cuicuit plate 2.
In present embodiment, circuit board 2 comprises storage element 21 and board recognition label 22.Wherein storage element 21 stores a test procedure.Obtain in Preset Time, to carry out this test procedure behind the power supplys until circuit board 2, namely carry out the heat engine process, with whether normal running of testing circuit board 2.
In present embodiment, when control module 12 control circuit boards provided unit 18 to provide circuit board 2 to accommodating unit 11, data capture unit 182 was in order to sweep circuit plate identification label 22, with acquisition cuicuit plate identification code.The parameters such as model of this board recognition code corresponding circuits plate 2.
In present embodiment, data capture unit 182 can be the one scan instrument, in order to sweep circuit plate identification label 22.In other embodiment, data capture unit 182 can be the device of camera or other equivalence.
In present embodiment, after data capture unit 182 has obtained the board recognition code, it can be stored to the data storage cell (not shown), carry out the information of the circuit board of heat engine process with record.In present embodiment, data storage cell can be independently storage card or is integrated in control module 12.The present invention does not impose any restrictions this.
In sum, the automatic heat engine device of circuit board that provides of present embodiment can be realized circuit board heat engine process automation.Dissimilar according to circuit board can arrange the control module in the automatic heat engine device of circuit board in advance, carry out within a schedule time with control circuit board heat engine process.Realize that circuit board carries out the operation of heat engine process simultaneously in batches, liberated manpower, and improved production efficiency.
Although the present invention discloses as above with preferred embodiment; so it is not to limit the present invention; have in the technical field under any and usually know the knowledgeable; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is as the criterion when looking claims person of defining.