CN102182858B - Mining integrated solenoid valve and control method thereof - Google Patents
Mining integrated solenoid valve and control method thereof Download PDFInfo
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- CN102182858B CN102182858B CN201110104321.2A CN201110104321A CN102182858B CN 102182858 B CN102182858 B CN 102182858B CN 201110104321 A CN201110104321 A CN 201110104321A CN 102182858 B CN102182858 B CN 102182858B
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Abstract
The invention discloses a mining integrated solenoid valve and a control method thereof, wherein the mining integrated solenoid valve comprises a control circuit and a solenoid valve connected with the output end of the control circuit; the control circuit comprises an infrared receiving module, a CPU (Central Processing Unit) control module, a wireless transceiver module and a power supply module. The infrared receiver and the solenoid valve which are originally separated are integrated in the mining integrated solenoid valve, wireless communications between the solenoid valve and the main control body and between the solenoid valve and the solenoid valve are realized, and the mining integrated solenoid valve is convenient to use, mount and maintain.
Description
Technical field
The present invention relates to a kind of solenoid valve, relate in particular to a kind of mine-used integral solenoid valve and controlling method thereof.
Background technique
In progress of coal mining, can produce a large amount of coal dusts, conventionally need to carry out depositing dust operation with mining atomizing de-dusting apparatus, and because most coal dusts are manufactured by coal winning machine, therefore modal mining atomizing de-dusting apparatus is the mining atomizing de-dusting apparatus of trailing type, existing trailing type is mining, and atomizing de-dusting apparatus comprises the infrared transmitter being arranged on coal winning machine, be arranged on some groups of control gear in tunnel and there is the spraying device of several nozzles, every group of control gear is by infrared remote receiver, control box and solenoid valve form, each solenoid valve is connected with a nozzle, infrared transmitter is constantly launched infrared signal in coal winning machine working procedure, when coal winning machine moves near a certain group of control gear, when receiving infrared signal, the infrared remote receiver of this group control gear sends it to the control box of this group control gear by communication cable, this control box is controlled the solenoid valve of this group control gear again and is opened, thereby open spraying device and carry out depositing dust, yet this control gear is to consist of a plurality of discrete parts, cause use and installation and maintenance all inconvenient, and the mode that between the control box in it and infrared remote receiver is all the wire communication of employing also causes use inconvenience.
Summary of the invention
The object of the present invention is to provide a kind of mine-used integral solenoid valve easy for installation, easy to use and controlling method thereof.
For achieving the above object, one aspect of the present invention provides a kind of mine-used integral solenoid valve, comprising: control circuit and the solenoid valve being connected with the output terminal of described control circuit, and described control circuit comprises:
Infrared receiving module, the infrared signal sending for receiving described infrared transmitter, is transmitted to CPU control module by described infrared signal;
CPU control module, for generating primary importance information according to described infrared signal, according to configuration information and described primary importance information, control the switching of the solenoid valve of this mine-used integral solenoid valve, or, according to configuration information and second place information, control the switching of the solenoid valve of this mine-used integral solenoid valve;
Radio receiving transmitting module, be used for and the communication of described CPU control module, described primary importance information is sent to the second mine-used integral solenoid valve of appointment in configuration information, or when described infrared transmitter moves to described the second mine-used integral solenoid valve position, receive the second place information of described the second mine-used integral solenoid valve transmission to described CPU control module, by described CPU control module, according to described configuration information and described second place information, controlled the switching of the solenoid valve of described mine-used integral solenoid valve;
Described power module, for powering to described infrared receiving module, described CPU control module and described radio receiving transmitting module.
Mine-used integral solenoid valve of the present invention, described CPU control module comprises that model is singlechip chip and the peripheral circuit thereof of R5F212L4SDFP, described infrared receiving module comprises that model is infrared receiving tube and the peripheral circuit thereof that the infrared receiving chip of BL9150 and peripheral circuit thereof and model are HS0038B, described radio receiving transmitting module comprises that model is radio transmitting and receiving chip and the peripheral circuit thereof of PTR6100M, and described power transfer module comprises that model is SPX1117M3-L-3.3 voltage stabilizing chip and peripheral circuit thereof.
Mine-used integral solenoid valve of the present invention, the 3rd~8th pin correspondence of described infrared receiving module is connected with the 1st pin with the 17th, the 16th, the 15th, the 14th, the 13rd of described CPU control module.
Mine-used integral solenoid valve of the present invention, the 2nd~7th pin correspondence of described radio receiving transmitting module is connected with the 8th pin with the 32nd, the 29th, the 28th, the 27th, the 26th of described CPU control module.
Mine-used integral solenoid valve of the present invention, the 2nd pin of described power transfer module is connected with the 7th pin with the 1st, the 3rd of the 7th pin of described CPU control module and the 25th pin, described radio receiving transmitting module respectively, and the 3rd pin of described power transfer module is connected with the 3rd pin of the 24th pin of described infrared receiving chip, described infrared receiving tube respectively.
Mine-used integral solenoid valve of the present invention, described control circuit also comprises the display modular being connected with described CPU control module, described display modular comprises that model is display driver chip and the peripheral circuit thereof of CH452A, and several seven segment numerical display tubes that are connected with described display driver chip.
Mine-used integral solenoid valve of the present invention, the 25th~28th pin correspondence of described display driver chip is connected with the 12nd~9th pin of described CPU control module, and the 14th pin of described display driver chip is connected with the 2nd pin of described power transfer module.
On the one hand, the present invention also provides a kind of controlling method of above-mentioned mine-used integral solenoid valve, comprises the following steps again:
Infrared receiving module receives the infrared signal that infrared transmitter sends, and infrared signal is transmitted to CPU control module;
CPU control module generates primary importance information according to infrared signal, controls the switching of the solenoid valve of this mine-used integral solenoid valve according to configuration information and primary importance information;
Radio receiving transmitting module and the communication of CPU control module, send to primary importance information the second mine-used integral solenoid valve of appointment in described configuration information;
When described infrared transmitter moves to another one mine-used integral solenoid valve position, described radio receiving transmitting module receives the second place information of described another one mine-used integral solenoid valve transmission to described CPU control module;
Described CPU control module is controlled the switching of the solenoid valve of this mine-used integral solenoid valve according to described configuration information and described second place information.
The controlling method of mine-used integral solenoid valve of the present invention, described configuration information comprises opening on solenoid valve spraying delay time, solenoid valve opens quantity and solenoid valve interval quantity under quantity, solenoid valve.
Mine-used integral solenoid valve of the present invention comprises control circuit and the solenoid valve being connected with the output terminal of control circuit, wherein, control circuit comprises: the infrared signal that infrared receiving module sends for receiving infrared transmitter, is transmitted to CPU control module by infrared signal; CPU control module is for generating primary importance information according to infrared signal, according to configuration information and primary importance information, control the switching of the solenoid valve of this mine-used integral solenoid valve, or, according to configuration information and second place information, control the switching of the solenoid valve of this mine-used integral solenoid valve; Radio receiving transmitting module, be used for and the communication of CPU control module, primary importance information is sent to the second mine-used integral solenoid valve of appointment in configuration information, or when infrared transmitter moves to the second mine-used integral solenoid valve position, receive the second place information of the second mine-used integral solenoid valve transmission to CPU control module, by CPU control module, according to configuration information and described second place information, controlled the switching of the solenoid valve of mine-used integral solenoid valve.Thereby original discrete infrared remote receiver, solenoid valve etc. are integrated, and realized solenoid valve and Main Control Tank between, the wireless telecommunications between solenoid valve and solenoid valve, facilitated use and installation and maintenance.
Accompanying drawing explanation
Fig. 1 is the structured flowchart of mine-used integral solenoid valve of the present invention;
Fig. 2 is the circuit theory diagrams of the control circuit of mine-used integral solenoid valve of the present invention.
Embodiment
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail:
Shown in figure 1, mine-used integral solenoid valve of the present invention comprises control circuit 1 and the solenoid valve 2 being connected with the output terminal of control circuit 1, wherein, control circuit 1 comprises: infrared receiving module, the infrared signal sending for receiving infrared transmitter, is transmitted to CPU control module by infrared signal; CPU control module, for generating primary importance information according to infrared signal, according to configuration information and primary importance information, control the switching of the solenoid valve of this mine-used integral solenoid valve, or, the switching of the solenoid valve of this mine-used integral solenoid valve according to configuration information and second place information, controlled; Radio receiving transmitting module, be used for and the communication of CPU control module, primary importance information is sent to the second mine-used integral solenoid valve of appointment in configuration information, or when infrared transmitter moves to the second mine-used integral solenoid valve position, receive the second place information of the second mine-used integral solenoid valve transmission to CPU control module, by CPU control module, according to configuration information and second place information, controlled the switching of the solenoid valve of mine-used integral solenoid valve; Power module, for powering to infrared receiving module, CPU control module and radio receiving transmitting module.
Shown in Fig. 2, wherein, CPU control module is that model is singlechip chip and the peripheral circuit thereof of R5F212L4SDFP, infrared receiving module is that model is infrared receiving tube and the peripheral circuit thereof that the infrared receiving chip of BL9150 and peripheral circuit thereof and model are HS0038B, radio receiving transmitting module is that model is radio transmitting and receiving chip and the peripheral circuit thereof of PTR6100M, power transfer module is that model is SPX1117M3-L-3.3 voltage stabilizing chip and peripheral circuit thereof, display modular is that model is display driver chip and the peripheral circuit thereof of CH452A, if and 3 seven segment numerical display tubes that are connected with display driver chip.Wherein the 3rd~8th pin correspondence of infrared receiving module is connected with the 1st pin with the 17th, the 16th, the 15th, the 14th, the 13rd of CPU control module.The 2nd~7th pin correspondence of radio receiving transmitting module is connected with the 8th pin with the 32nd, the 29th, the 28th, the 27th, the 26th of CPU control module.The 2nd pin of power transfer module is connected with the 7th pin with the 1st, the 3rd of the 7th pin of CPU control module and the 25th pin, radio receiving transmitting module respectively, and the 3rd pin of power transfer module is connected with the 24th pin of infrared receiving chip, the 3rd pin of infrared receiving tube respectively.The 25th~28th pin correspondence of display driver chip is connected with the 12nd~9th pin of CPU control module, and the 14th pin of display driver chip is connected with the 2nd pin of power transfer module.
Illustrate the controlling method of mine-used integral solenoid valve of the present invention below, during use, need several mine-used integral solenoid valves of the present invention are online with the control box that is built-in with wireless control module, for example, by 80 mine-used integral solenoid valve being arranged in tunnel of interval as requested that are numbered from left to right 1 to No. 80, then each mine-used integral solenoid valve is docked with a nozzle of spraying device, in advance this control box is arranged, rear control box has been set and configuration information can have been mail to 80 mine-used integral solenoid valves by wireless mode.The configuration information of concrete control box can be as follows:
Solenoid valve spraying delay time: 60 seconds
On solenoid valve, open quantity: 2
Under solenoid valve, open quantity: 3
Solenoid valve interval quantity: 1
Suppose coal winning machine mobile coal mining from left to right, after powering on when the infrared receiving module of No. 10 mine-used integral solenoid valves detect the infrared transmitter transmitting on coal winning machine infrared signal (be coal winning machine move to No. 10 mine-used integral solenoid valves in face of), the CPU control module of No. 10 mine-used integral solenoid valves is controlled its radio receiving transmitting module " infrared transmitter on coal winning machine (being coal winning machine) is in the position of No. 10 integrated electromagnetic valves " this position information is mail to other 79 mine-used integral solenoid valves by wireless mode, therefore the radio receiving transmitting module of other 79 mine-used integral solenoid valves by separately receives after this position information, also just known the position that coal winning machine is current, according to configuration information, No. 7, No. 8 mine-used integral solenoid valves are opened and (on solenoid valve, are opened quantity: 2, solenoid valve interval quantity: 1), No. 12, No. 13, No. 14 mine-used integral solenoid valves are opened and (under solenoid valve, are opened quantity: 3, solenoid valve interval quantity: 1), open and automatically close afterwards for 60 seconds.
Above embodiment is described the preferred embodiment of the present invention; not scope of the present invention is limited; design under the prerequisite of spirit not departing from the present invention; various distortion and improvement that the common engineers and technicians in related domain make technological scheme of the present invention, all should fall in the definite protection domain of claims of the present invention.
Claims (9)
1. a mine-used integral solenoid valve, comprises control circuit and the solenoid valve being connected with the output terminal of described control circuit, and control circuit comprises power transfer module, for to described control circuit power supply, it is characterized in that, described control circuit also comprises:
Infrared receiving module, the infrared signal sending for receiving infrared transmitter, is transmitted to CPU control module by described infrared signal;
CPU control module, for generating primary importance information according to described infrared signal, according to configuration information and described primary importance information, control the switching of the solenoid valve of this mine-used integral solenoid valve, or, according to configuration information and second place information, control the switching of the solenoid valve of this mine-used integral solenoid valve;
Radio receiving transmitting module, be used for and the communication of described CPU control module, described primary importance information is sent to the second mine-used integral solenoid valve of appointment in configuration information, or when described infrared transmitter moves to described the second mine-used integral solenoid valve position, receive the second place information of described the second mine-used integral solenoid valve transmission to described CPU control module, by described CPU control module, according to described configuration information and described second place information, controlled the switching of the solenoid valve of described mine-used integral solenoid valve.
2. mine-used integral solenoid valve according to claim 1, it is characterized in that, described CPU control module comprises that model is singlechip chip and the peripheral circuit thereof of R5F212L4SDFP, described infrared receiving module comprises that model is infrared receiving tube and the peripheral circuit thereof that the infrared receiving chip of BL9150 and peripheral circuit thereof and model are HS0038B, described radio receiving transmitting module comprises that model is radio transmitting and receiving chip and the peripheral circuit thereof of PTR6100M, and described power transfer module comprises that model is SPX1117M3-L-3.3 voltage stabilizing chip and peripheral circuit thereof.
3. mine-used integral solenoid valve according to claim 2, is characterized in that, the 3rd~8th pin correspondence of described infrared receiving module is connected with the 1st pin with the 17th, the 16th, the 15th, the 14th, the 13rd of described CPU control module.
4. mine-used integral solenoid valve according to claim 2, is characterized in that, the 2nd~7th pin correspondence of described radio receiving transmitting module is connected with the 8th pin with the 32nd, the 29th, the 28th, the 27th, the 26th of described CPU control module.
5. mine-used integral solenoid valve according to claim 2, it is characterized in that, the 2nd pin of described power transfer module is connected with the 7th pin with the 1st, the 3rd of the 7th pin of described CPU control module and the 25th pin, described radio receiving transmitting module respectively, and the 3rd pin of described power transfer module is connected with the 3rd pin of the 24th pin of described infrared receiving chip, described infrared receiving tube respectively.
6. mine-used integral solenoid valve according to claim 2, it is characterized in that, described control circuit also comprises the display modular being connected with described CPU control module, described display modular comprises that model is display driver chip and the peripheral circuit thereof of CH452A, and several seven segment numerical display tubes that are connected with described display driver chip.
7. mine-used integral solenoid valve according to claim 6, it is characterized in that, the 25th~28th pin correspondence of described display driver chip is connected with the 12nd~9th pin of described CPU control module, and the 14th pin of described display driver chip is connected with the 2nd pin of described power transfer module.
8. a controlling method for mine-used integral solenoid valve claimed in claim 1, is characterized in that, comprises the following steps:
Infrared receiving module receives the infrared signal that infrared transmitter sends, and infrared signal is transmitted to CPU control module;
CPU control module generates primary importance information according to infrared signal, controls the switching of the solenoid valve of this mine-used integral solenoid valve according to configuration information and primary importance information;
Radio receiving transmitting module and the communication of CPU control module, send to primary importance information the second mine-used integral solenoid valve of appointment in described configuration information;
When described infrared transmitter moves to another one mine-used integral solenoid valve position, described radio receiving transmitting module receives the second place information of described another one mine-used integral solenoid valve transmission to described CPU control module;
Described CPU control module is controlled the switching of the solenoid valve of this mine-used integral solenoid valve according to described configuration information and described second place information.
9. the controlling method of mine-used integral solenoid valve according to claim 8, is characterized in that, described configuration information comprises opening on solenoid valve spraying delay time, solenoid valve opens quantity and solenoid valve interval quantity under quantity, solenoid valve.
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CN201110104321.2A CN102182858B (en) | 2011-04-25 | 2011-04-25 | Mining integrated solenoid valve and control method thereof |
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CN201110104321.2A CN102182858B (en) | 2011-04-25 | 2011-04-25 | Mining integrated solenoid valve and control method thereof |
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CN102182858B true CN102182858B (en) | 2014-02-19 |
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Families Citing this family (5)
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CN102352767B (en) * | 2011-10-25 | 2013-11-06 | 淮南润成科技股份有限公司 | Sound control automatic spray dust settling device |
CN102352766B (en) * | 2011-10-25 | 2013-11-06 | 淮南润成科技股份有限公司 | Timed automatic spraying and dust-settling device |
CN102373943B (en) * | 2011-10-25 | 2014-05-07 | 淮南润成科技股份有限公司 | Touch automatic spraying and dust-settling device |
CN103256423B (en) * | 2013-05-14 | 2014-12-03 | 中国计量学院 | Meter-valve integrated faucet device |
CN103527240A (en) * | 2013-10-14 | 2014-01-22 | 徐州大屯工贸实业公司 | Multifunctional mine intelligent spray controller |
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Address after: 232008 LITE-ON Road, Huainan economic and Technological Development Zone, Anhui Applicant after: Huainan Runcheng Technology Co., Ltd. Address before: 232008 LITE-ON Road, Huainan economic and Technological Development Zone, Anhui Applicant before: Huainan Runcheng Technology Co., Ltd. |
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