CN204301951U - Relay scanning vibration-testing platform - Google Patents
Relay scanning vibration-testing platform Download PDFInfo
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- CN204301951U CN204301951U CN201420713279.3U CN201420713279U CN204301951U CN 204301951 U CN204301951 U CN 204301951U CN 201420713279 U CN201420713279 U CN 201420713279U CN 204301951 U CN204301951 U CN 204301951U
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Abstract
The utility model relates to a kind of relay scanning vibration-testing platform, belongs to electronic devices and components detection technique field.The utility model establishes frock by card outside shaking table, the medial surface of this frock overlaps with the lateral surface of shaking table upper end, the upper surface of frock is laid with connector installation position, for mounted connector, described connector one end is by test cable for connecting placement relay to be tested on a vibration table, and the other end is connected with contact chatter monitor by monitoring cable.When carrying out relay scanning vibration-testing, relay is connected with contact chatter monitor by the connector in frock, prevent stressed the produced hidden danger of relay device root, solve each monitoring point simultaneously and connect problem unordered in a jumble, improve work efficiency.
Description
Technical field
The utility model relates to a kind of relay scanning vibration-testing platform, belongs to electronic devices and components detection technique field.
Background technology
In current relay scanning vibration operation, for the shaking table that relay scanning vibration uses, do not design any frock, be directly bonded on vibration table surface by the relay welded, the cable of the test lead of relay directly hangs down on the ground, the length of cable reaches more than 3 meters, weight is very heavy, easily causes relay root stressed, produces hidden danger, and very inconvenient when operating, not only the root of inefficiency but also relay pin easily produces stress.
Monitoring cable is divided into two ends, one end is contact chatter monitoring of equipment cut cable (referred to as monitoring cable), be connected with the monitoring point of monitoring of equipment module, the other end is the test cable section (referred to as test cable) connecting relay, welds with relay pin to be measured.The line of each monitoring point of monitoring of equipment cable connection device is unordered very in a jumble, the not easily standard fault location of going fast when having a fault.A kind of D connector of what the docking of two sections of monitoring cables was used in addition is RS company, this connector is without any the locking device of anticreep, easily when shaking table vibrate or pull cable when operative and progressively throw off, thus affect relay and scan vibration-testing.
Utility model content
The purpose of this utility model is to provide a kind of relay scanning vibration-testing platform, cause relay device root stressed and the hidden danger of generation so that the test lead cable stress solving current relay scanning vibration-testing process repeat circuit is excessive, and significantly can improve the efficiency of test.
The utility model provides a kind of relay to scan vibration-testing platform for solving the problems of the technologies described above, involving vibrations platform, monitoring cable and contact chatter monitor, frock is arranged with outside described shaking table, the medial surface of this frock overlaps with the lateral surface of shaking table upper end, the upper surface of described frock is laid with connector installation position, for mounted connector, described connector one end is by test cable for connecting placement relay to be tested on a vibration table, and the other end is connected with contact chatter monitor by monitoring cable.
The upper surface of described frock and the upper surface of shaking table maintain an equal level, and frock overlaps with the axis of shaking table.
Described frock bottom is provided with two U-shaped holes, and two screws of vibration stage body are fixed on vibration stage body by these two U-shaped holes of this frock bottom.
The connector installation position that described frock is laid above is at least two, and each connector installation position decile, around the upper surface being laid in frock, numbering is stayed with laser incising in the installation position of each connector.
Described each connector installation position is equipped with mounting hole, and each connector is fixed by screws on corresponding connector installation position.
In the connector that described each connector installation position is installed and contact chatter monitor, each monitoring modular is connected one to one according to numbering by monitoring cable.
Described connector adopts bayonet type aviation socket.
Described circular ring type frock material adopts aluminium alloy, and surface is non-conductive after adopting true qualities anodic passivity process.
Described frock shell is connected with ground strap ground connection.
The edge of described frock shell adopts chamfering structure.
The beneficial effects of the utility model are: the utility model establishes frock by card outside shaking table, the medial surface of this frock overlaps with the lateral surface of shaking table upper end, the upper surface of frock is laid with connector installation position, for mounted connector, described connector one end is by test cable for connecting placement relay to be tested on a vibration table, and the other end is connected with contact chatter monitor by monitoring cable.When carrying out relay scanning vibration-testing, relay is connected with contact chatter monitor by the connector in frock, prevents stressed the produced hidden danger of relay device root, solves each monitoring point simultaneously and connects problem unordered in a jumble.
Accompanying drawing explanation
Fig. 1 is the vertical view of the utility model relay scanning vibration-testing platform;
Fig. 2 is the side view of the utility model relay scanning vibration-testing platform;
Fig. 3 is the side view of circular ring type frock on the utility model relay scanning vibration-testing platform.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described further.
As shown in Figure 1, relay scanning vibration-testing platform involving vibrations platform 6 of the present utility model, relay contact analog control system cable 2, monitoring of equipment cable 5 and contact chatter monitor, wherein be arranged with frock 4 outside shaking table 6, the medial surface of frock overlaps with the lateral surface of shaking table upper end, the upper plane of frock 4 and the upper plane of shaking table 6 remain basically stable, the upper planar cloth of shaking table 6 is provided with the connector installation position 7 of mounted connector 3, connector 3 one end is used for connecting by relay contact analog control system cable 2 relay to be tested 1 be placed on shaking table 6, the other end is by monitoring of equipment cable 5 connecting terminal shake monitor.
This enforcement is described for bumping table, according to the stage body physical dimension of shaking table, the shape of blocking frock and the shaking table established outside shaking table is completely the same, frock adopts circular ring type frock, and the outer upper end without leave of shaking table periphery increases gradually to stage casing, and the inner headed face internal diameter of frock is the structure from top to bottom for increasing gradually, the inner headed face of frock overlaps completely with the periphery of shaking table upper end, when overlapping shaking table from top to bottom, to block on a vibration table securely, as shown in Figure 2.Circular ring type frock lowermost end is provided with two U-shaped holes 8, as shown in Figure 3, frock bottom is fixed on by two screws vibrating stage body, frock shell is connected with ground strap ground connection, the edge of frock shell adopts chamfering structure 9, N number of connector installation position 7 is evenly arranged with above circular ring type frock, contact chatter monitor in the present embodiment there are 8 monitoring modulars, as the M1 ~ M8 in Fig. 1, therefore the connector installation position that circular ring type frock is arranged above is also 8, each installation position engraves FX1 ~ FX8 with laser stamp, the installation site of a corresponding root device monitoring cable respectively, the line corresponding each monitoring modular receiving contact chatter monitor again of every root device monitoring cable, namely socket FX1 is corresponding with module M1 connects, socket FX2 is corresponding with module M2 to be connected ... by that analogy, not only wiring relationship schedule is strong in such connection, and fault is easy to search during equipment troubleshooting, localization of fault is accurate, fast.Only need be fixed on vibration table surface by relay to be measured during test, be then screwed in by device monitor cable above any one in these 8 sockets, the other end pin of jack cushion contact relay, easy to operate, corresponding relation is very clear.Circular ring type frock material adopts aluminium alloy, and surface is non-conductive after adopting true qualities anodic passivity process.
As shown in Figure 1, 8 monitoring modulars are had due to contact chatter monitor, each monitoring modular has 8 groups of monitor signals, often organize monitor signal and comprise monitoring, trembling breaks and tremble closes 3 road signals, therefore the monitor signal on each monitoring modular add up to 24 road pilot signals, in addition, contact chatter monitor has coil power 8 tunnel, every road comprises VDD-to-VSS 2 signals, every component is become 6 road power supplys and 6 road earth signals, just 6 relay coils can be driven, 8 groups can drive altogether 48 coils to work simultaneously, by 8 of each monitoring module groups of pilot signals and 6 groups of power supplys during design socket, earth signal is combined, calculate 24+6 × 2=36 road signal, so need the plug and socket of 36 pins to meet the demands, for safer, socket pin number is selected in 41 pins the most at last, remain the backup of 5 road signals.
Simultaneously for preventing because of vibration or pulling the problem causing plug, socket to be thrown off, select and determine a kind of XCA with locking structure series cylindrical connector, this connector adopts bayonet type to connect fast, there is hyperboloid wire spring socket, the various problems considered determine the concrete model of plug and socket by consulting connector handbook, socket model is XCA33F41K1WP, and plug model is XCA33T41Z1P+FJDP.
The utility model establishes frock by card outside shaking table, the medial surface of this frock overlaps with the lateral surface of shaking table upper end, the upper surface of frock is laid with connector installation position, for mounted connector, described connector one end is by test cable for connecting placement relay to be tested on a vibration table, and the other end is connected with contact chatter monitor by monitoring cable.When carrying out relay scanning vibration-testing, relay is connected with contact chatter monitor by the connector in frock, prevents stressed the produced hidden danger of relay device root, solves each monitoring point simultaneously and connects problem unordered in a jumble.
Claims (10)
1. a relay scanning vibration-testing platform, involving vibrations platform, monitoring cable and contact chatter monitor, it is characterized in that, frock is arranged with outside described shaking table, the medial surface of this frock overlaps with the lateral surface of shaking table upper end, and the upper surface of described frock is laid with connector installation position, for mounted connector, described connector one end is by test cable for connecting placement relay to be tested on a vibration table, and the other end is connected with contact chatter monitor by monitoring cable.
2. relay scanning vibration-testing platform according to claim 1, it is characterized in that, the upper surface of described frock and the upper surface of shaking table maintain an equal level, and frock overlaps with the axis of shaking table.
3. relay scanning vibration-testing platform according to claim 1, it is characterized in that, described frock bottom is provided with two U-shaped holes, and two screws of vibration stage body are fixed on vibration stage body by these two U-shaped holes of this frock bottom.
4. relay scanning vibration-testing platform according to claim 2, it is characterized in that, the connector installation position that described frock is laid above is at least two, and each connector installation position decile, around the upper surface being laid in frock, numbering is stayed with laser incising in the installation position of each connector.
5. relay scanning vibration-testing platform according to claim 4, it is characterized in that, described each connector installation position is equipped with mounting hole, each connector is fixed by screws on corresponding connector installation position.
6. relay according to claim 5 scanning vibration-testing platform, is characterized in that, in the connector that described each connector installation position is installed and contact chatter monitor, each monitoring modular is connected one to one according to numbering by monitoring cable.
7. relay scanning vibration-testing platform according to claim 1, it is characterized in that, described connector adopts bayonet type aviation socket.
8. the relay scanning vibration-testing platform according to any one of claim 1-7, it is characterized in that, described circular ring type frock material adopts aluminium alloy, and surface is non-conductive after adopting true qualities anodic passivity process.
9. relay scanning vibration-testing platform according to claim 1, it is characterized in that, described frock shell is connected with ground strap ground connection.
10. relay scanning vibration-testing platform according to claim 1, it is characterized in that, the edge of described frock shell adopts chamfering structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420713279.3U CN204301951U (en) | 2014-11-24 | 2014-11-24 | Relay scanning vibration-testing platform |
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CN201420713279.3U CN204301951U (en) | 2014-11-24 | 2014-11-24 | Relay scanning vibration-testing platform |
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CN204301951U true CN204301951U (en) | 2015-04-29 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104359640A (en) * | 2014-11-24 | 2015-02-18 | 中国航空工业集团公司洛阳电光设备研究所 | Relay scanning vibration test platform |
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2014
- 2014-11-24 CN CN201420713279.3U patent/CN204301951U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104359640A (en) * | 2014-11-24 | 2015-02-18 | 中国航空工业集团公司洛阳电光设备研究所 | Relay scanning vibration test platform |
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