CN203951253U - For the electrical interlocking control device of multiple-way supply device - Google Patents
For the electrical interlocking control device of multiple-way supply device Download PDFInfo
- Publication number
- CN203951253U CN203951253U CN201420207446.7U CN201420207446U CN203951253U CN 203951253 U CN203951253 U CN 203951253U CN 201420207446 U CN201420207446 U CN 201420207446U CN 203951253 U CN203951253 U CN 203951253U
- Authority
- CN
- China
- Prior art keywords
- interface
- relay
- input circuit
- iii
- control device
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 239000000853 adhesive Substances 0.000 abstract description 14
- 230000001070 adhesive effect Effects 0.000 abstract description 14
- 238000012423 maintenance Methods 0.000 abstract description 2
- 230000005540 biological transmission Effects 0.000 description 12
- 230000005611 electricity Effects 0.000 description 12
- 238000005516 engineering process Methods 0.000 description 2
- 239000003245 coal Substances 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000007858 starting material Substances 0.000 description 1
Landscapes
- Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)
Abstract
A kind of electrical interlocking control device for multiple-way supply device, include relay, include relay, the number of relay is set to be connected with the mutual tandem of odd number interface of the number of input circuit interface few and relay, the mutual tandem connection of even number interface of relay, the adhesive of interface and the input circuit interface on disconnection maintenance one tunnel by relay are communicated with loading interfaces, do not re-use circuit breaker, therefore simplified electric circuit, realized input circuit interface and be at least three.
Description
One, technical field
The utility model relates to a kind of electrical interlocking control device, especially a kind of electrical interlocking control device for multiple-way supply device.
Two, background technology
In mine produces, for the safety that ensures that mine produces, all generally multiple-way supply one tunnel output, therefore be a kind of important mine device for the electrical interlocking control device of multiple-way supply device, at the existing electrical interlocking control device for multiple-way supply device, in the master control system of the starters that combine under coal mine more, Power supply only needs a road duplex feeding sometimes, rely in this case between circuit breaker is that machinery or electrical interlock are all easily realized, but when adding three tunnels in power supply and when above, between the inlet wire of several roads, realize the complexity that interlocking is suitable, now also there is no a kind of electrical interlocking control device for electric supply installations more than three tunnels.
Three, summary of the invention
In order to overcome above-mentioned technical disadvantages, the purpose of this utility model is to provide a kind of electrical interlocking control device for multiple-way supply device, has therefore simplified electric circuit, has realized input circuit interface and has been at least three.
For achieving the above object, the technical scheme that the utility model is taked is: include relay, the number of relay is set to be connected with the mutual tandem of odd number interface of the number of input circuit interface few and relay, the mutual tandem connection of even number interface of relay.
Owing to having designed relay, be communicated with loading interfaces by the adhesive of interface and the input circuit interface on disconnection maintenance one tunnel of relay, do not re-use circuit breaker, therefore simplify electric circuit, realize input circuit interface and be at least three.
The utility model has designed, include relay I, relay II and relay III, relay I is provided with interface K1, interface K2, interface K3, interface K4, interface K5, interface K6, interface K7 and interface K8, relay II is provided with interface K1, interface K2, interface K3, interface K4, interface K5 and interface K6, relay III is provided with interface K1, interface K2, interface K3 and interface K4
The interface K1 of relay I and the interface K2 of relay I are set to and input circuit I interface K, the interface K3 of relay III and the interface K4 of relay III are set to and input circuit II interface K, the interface K1 of relay II and the interface K2 of relay II are set to and input circuit III interface K, the interface K7 of relay I and the interface K8 of relay I are set to and input circuit IV interface K, be set to loading interfaces K I at the output between the interface K1 of relay I and the interface K3 of relay I and between the interface K5 of relay I and the interface K1 of relay III, be set to loading interfaces K II at the output between the interface K1 of relay I and the interface K4 of relay I and between the interface K6 of relay I and the interface K2 of relay III,
The interface K1 of relay I, the interface K3 of relay I, the interface K3 of relay II and the interface K3 of relay III are set to be connected in series successively, the interface K2 of relay I, the interface K4 of relay I, the interface K4 of relay II and the interface K4 of relay III are set to be connected in series successively, the interface K1 of relay II, the interface K5 of relay I, the interface K1 of relay III, the interface K5 of relay II and the interface K7 of relay I are set to be connected in series successively, the interface K2 of relay II, the interface K6 of relay I, the interface K2 of relay III, the interface K6 of relay II and the interface K8 of relay I are set to be connected in series successively.
In the technical program, relay is important technical characterictic, in the technical field of the electrical interlocking control device for multiple-way supply device, has novelty, creativeness and practicality.
Four, brief description of the drawings
Fig. 1 is schematic diagram of the present utility model.
Five, embodiment
Fig. 1 is an embodiment of the present utility model, illustrate by reference to the accompanying drawings the present embodiment, include relay I 1, relay II 2 and relay III 3, relay I 1 is provided with interface K1, interface K2, interface K3, interface K4, interface K5, interface K6, interface K7 and interface K8, relay II 2 is provided with interface K1, interface K2, interface K3, interface K4, interface K5 and interface K6, relay III 3 is provided with interface K1, interface K2, interface K3 and interface K4
The interface K1 of relay I 1 and the interface K2 of relay I 1 are set to and input circuit I interface K, the interface K3 of relay III 3 and the interface K4 of relay III 3 are set to and input circuit II interface K, the interface K1 of relay II 2 and the interface K2 of relay II 2 are set to and input circuit III interface K, the interface K7 of relay I 1 and the interface K8 of relay I 1 are set to and input circuit IV interface K, be set to loading interfaces K I at the output between the interface K1 of relay I 1 and the interface K3 of relay I 1 and between the interface K5 of relay I 1 and the interface K1 of relay III 3, be set to loading interfaces K II at the output between the interface K1 of relay I 2 and the interface K4 of relay I 1 and between the interface K6 of relay I 1 and the interface K2 of relay III 3,
The interface K1 of relay I 1, the interface K3 of relay I 1, the interface K3 of relay II 2 and the interface K3 of relay III 3 are set to be connected in series successively, the interface K2 of relay I 1, the interface K4 of relay I 1, the interface K4 of relay II 2 and the interface K4 of relay III 3 are set to be connected in series successively, the interface K1 of relay II 2, the interface K5 of relay I 1, the interface K1 of relay III 3, the interface K5 of relay II 2 and the interface K7 of relay I 1 are set to be connected in series successively, the interface K2 of relay II 2, the interface K6 of relay I 1, the interface K2 of relay III 3, the interface K6 of relay II 2 and the interface K8 of relay I 1 are set to be connected in series successively.
In the time that two-way is powered simultaneously, input circuit I interface K and input circuit II interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay I 1 and relay I 1, the interface K3 of relay I 1 and the interface K4 of relay I 1 disconnect, and loading interfaces K is communicated with input circuit I, input circuit III interface K and input circuit II interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay II 2 and relay II 2, the interface K3 of relay II 2 and the interface K4 of relay II 2 disconnect, and loading interfaces K is communicated with input circuit III, input circuit III interface K and input circuit IV interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay II 2 and relay II 2, the interface K5 of relay II 2 and the interface K6 of relay II 2 disconnect, and loading interfaces K is communicated with input circuit III, input circuit I interface K and input circuit IV interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay I 1 and relay I 1, the interface K7 of relay I 1 and the interface K8 of relay I 1 disconnect, and loading interfaces K is communicated with input circuit I, input circuit I interface K and input circuit III interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay I 1 and relay I 1, the interface K5 of relay I 1 and the interface K6 of relay I 1 disconnect, and loading interfaces K is communicated with input circuit I, input circuit II interface K and input circuit IV interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay III 3 and relay III 3, the interface K3 of relay III 3 and the interface K4 of relay III 3 disconnect, and loading interfaces K is communicated with input circuit IV, when Dang San road powers simultaneously, input circuit I interface K, input circuit II interface K and input circuit III interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay I 1 and relay I 1, the interface K3 of relay I 1, the interface K4 of relay I 1, the interface K5 of relay I 1 and the interface K6 of relay I 1 disconnect, and loading interfaces K is communicated with input circuit I, input circuit IV interface K, input circuit II interface K and input circuit III interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay II 2 and relay II 2, the interface K3 of relay II 2, the interface K4 of relay II 2, the interface K5 of relay II 2 and the interface K6 of relay II 2 disconnect, and loading interfaces K is communicated with input circuit III, input circuit IV interface K, input circuit I interface K and input circuit III interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay I 1 and relay I 1, the interface K5 of relay I 1, the interface K6 of relay I 1, the interface K7 of relay I 1 and the interface K8 of relay I 1 disconnect, and loading interfaces K is communicated with input circuit I, input circuit IV interface K, input circuit I interface K and input circuit II interface K and transmission of electricity circuit communication, the interface K2 adhesive of the interface K1 of relay I 1 and relay I 1, the interface K3 of relay I 1, the interface K4 of relay I 1, the interface K7 of relay I 1 and the interface K8 of relay I 1 disconnect, and loading interfaces K is communicated with input circuit I, when Dang Si road powers simultaneously, input circuit III interface K, input circuit IV interface K, input circuit I interface K and input circuit II interface K and transmission of electricity circuit communication, the interface K1 of relay I 1, the interface K2 of relay I 1, the interface K1 of relay II 2, the interface K2 of relay II 2, the interface K2 adhesive of the interface K1 of relay III 3 and relay III 3, the interface K3 of relay I 1, the interface K4 of relay I 1, the interface K5 of relay I 1, the interface K6 of relay I 1, the interface K7 of relay I 1 and the interface K8 of relay I 1 disconnect, loading interfaces K is communicated with input circuit I.
The utlity model has lower feature:
1, owing to having designed relay, the adhesive of the interface by relay and disconnect and keep the input circuit interface on a road to be communicated with loading interfaces, does not re-use circuit breaker, has therefore simplified electric circuit, has realized input circuit interface and has been at least three.
2, owing to having designed relay I 1, relay II 2 and relay III 3, realize the connection of input circuit interface K Yu Yi road, Liao Si road loading interfaces K, ensure the security performance of transmission of electricity.
3, owing to having designed relay, automation control and remote operation have been realized.
Also having other the technical characterictic connecting with relay is all one of embodiment of the present utility model; therefore in the electrical interlocking control device technical field for multiple-way supply device; every handbag contains relay, and the number of relay is set to be connected with the mutual tandem of odd number interface of the number of input circuit interface few and relay, the technology contents of the mutual tandem connection of even number interface of relay is all in protection range of the present utility model.
Claims (2)
1. the electrical interlocking control device for multiple-way supply device; It is characterized in that: include relay, include relay, the number of relay is set to be connected with the mutual tandem of odd number interface of the number of input circuit interface few and relay, the mutual tandem connection of even number interface of relay.
2. the electrical interlocking control device for multiple-way supply device according to claim 1, it is characterized in that: include relay I (1), relay II (2) and relay III (3), relay I (1) is provided with interface K1, interface K2, interface K3, interface K4, interface K5, interface K6, interface K7 and interface K8, relay II (2) is provided with interface K1, interface K2, interface K3, interface K4, interface K5 and interface K6, relay III (3) is provided with interface K1, interface K2, interface K3 and interface K4, the interface K2 of the interface K1 of relay I (1) and relay I (1) is set to input circuit I interface K, the interface K4 of the interface K3 of relay III (3) and relay III (3) is set to input circuit II interface K, the interface K2 of the interface K1 of relay II (2) and relay II (2) is set to input circuit III interface K, the interface K8 of the interface K7 of relay I (1) and relay I (1) is set to input circuit IV interface K, be set to loading interfaces K I at the output between the interface K1 of relay I (1) and the interface K3 of relay I (1) and between the interface K5 of relay I (1) and the interface K1 of relay III (3), be set to loading interfaces K II at the output between the interface K1 of relay I (2) and the interface K4 of relay I (1) and between the interface K6 of relay I (1) and the interface K2 of relay III (3), the interface K1 of relay I (1), the interface K3 of relay I (1), the interface K3 of the interface K3 of relay II (2) and relay III (3) is set to be connected in series successively, the interface K2 of relay I (1), the interface K4 of relay I (1), the interface K4 of the interface K4 of relay II (2) and relay III (3) is set to be connected in series successively, the interface K1 of relay II (2), the interface K5 of relay I (1), the interface K1 of relay III (3), the interface K7 of the interface K5 of relay II (2) and relay I (1) is set to be connected in series successively, the interface K2 of relay II (2), the interface K6 of relay I (1), the interface K2 of relay III (3), the interface K8 of the interface K6 of relay II (2) and relay I (1) is set to be connected in series successively.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420207446.7U CN203951253U (en) | 2014-04-28 | 2014-04-28 | For the electrical interlocking control device of multiple-way supply device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420207446.7U CN203951253U (en) | 2014-04-28 | 2014-04-28 | For the electrical interlocking control device of multiple-way supply device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203951253U true CN203951253U (en) | 2014-11-19 |
Family
ID=51893270
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420207446.7U Expired - Lifetime CN203951253U (en) | 2014-04-28 | 2014-04-28 | For the electrical interlocking control device of multiple-way supply device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203951253U (en) |
-
2014
- 2014-04-28 CN CN201420207446.7U patent/CN203951253U/en not_active Expired - Lifetime
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| MX2016002130A (en) | Charging method and device. | |
| MX2021006276A (en) | Smart cable system for a truck trailer. | |
| MX2011011471A (en) | Automatic transfer switch responsive to serial communication message and power system including the same. | |
| MX2017012345A (en) | System, method, and apparatus for preserving vehicle battery. | |
| WO2012041902A3 (en) | Charging system for electric vehicles | |
| GB2519019A (en) | Systems and methods for mobile power conditioning platform | |
| GB201305429D0 (en) | Multiple redundant solar power system | |
| GB2538463A (en) | Automatic transfer switch maintenance bypass cabinet | |
| WO2014158934A3 (en) | Electric vehicle supply equipment having increased communication capabilities | |
| CN203951253U (en) | For the electrical interlocking control device of multiple-way supply device | |
| CN203732926U (en) | Digital input and output expansion module for AGV vehicle-borne control systems | |
| CN204256411U (en) | CAN communication mining intrinsic safety type crashstop closedown switch | |
| CN204144977U (en) | A kind of novel mine high-power UPS | |
| CN203691004U (en) | Charging device formed by network vehicle-borne charger set | |
| CN204283703U (en) | A kind of logic control circuit of engine health igniting | |
| CN203180573U (en) | Novel cascade line type charger | |
| CN203150856U (en) | Socket with USB charging interfaces | |
| MX2018015057A (en) | Socket with a communication system. | |
| WO2017016563A8 (en) | System and method for supplying energy to an electrical consumer and an energy station | |
| CN204285112U (en) | Underground coal mine illuminator | |
| CN204178792U (en) | Crosslinked polyethylene low smoke and zero halogen sheath adds control cables | |
| CN204270951U (en) | A kind of bracing wire emergency stop switch | |
| CN204720971U (en) | A kind of 110kV transforming plant main transformer dual-delay protection system | |
| CN204272187U (en) | A kind of Mine-used I. S line terminal | |
| CN204136794U (en) | Unmanned fog machine power system |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CP03 | Change of name, title or address |
Address after: 271000, 1399, Tianmen street, Tai'an hi tech Zone, Shandong Patentee after: TAIAN ZHONGCHENG AUTOMATION EQUIPMENT Co.,Ltd. Address before: High tech Zone of Shandong province Zhongtian Gate Street 271000 Tai'an spark science and Technology Park Patentee before: TAIAN ZHONGCHENG MINE AUTOMATION Co.,Ltd. |
|
| CP03 | Change of name, title or address | ||
| CX01 | Expiry of patent term |
Granted publication date: 20141119 |
|
| CX01 | Expiry of patent term |