CN203023079U - Intelligent self-priming pump circuit structure - Google Patents
Intelligent self-priming pump circuit structure Download PDFInfo
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- CN203023079U CN203023079U CN 201220339468 CN201220339468U CN203023079U CN 203023079 U CN203023079 U CN 203023079U CN 201220339468 CN201220339468 CN 201220339468 CN 201220339468 U CN201220339468 U CN 201220339468U CN 203023079 U CN203023079 U CN 203023079U
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Abstract
Provided is an intelligent self-priming pump circuit structure. The intelligent self-priming pump circuit structure comprises a fuse FU1and a normally closed stop button SB1, a general power source is sequentially in series connection with a main contact KM2, a thermoelement FR and an electromotor, the general power source is further provided with a branch circuit which is sequentially in series connection with the fuse FU1, the normally closed stop button SB1, and a normally closed stop button SB1 alpha, and a plurality of circuits are connected between the other end of the branch circuit and an N line in parallel. According to the intelligent self-priming pump circuit structure, through pressing a manual rotation button SA, an intelligent pump and an intelligent pump sensor are sequentially started to work, a command of starting a self-priming pump is sent, and the intelligent pump is closed in a delayed mode; when under an automatic condition, through pressing a remote starting button, the intelligent pump and the intelligent pump sensor are started to work by a liquid level floating ball, the command of starting the self-priming pump is sent, and the intelligent pump is closed in a delayed mode; and the intelligent pump sensor closes the intelligent pump and gives an alarm when the intelligent pump sensor works and finds a fault, and after the fault is removed, the alarm can be canceled manually or remotely. Therefore, the intelligent self-priming pump can achieve the effect of energy saving and emission reduction, and synchronous working of gas discharge and water outlet.
Description
Technical field: the utility model relates to intelligent self-priming pump line construction.
Background technique: at present all can not self-priming with other pumps such as Under Water Pumps, long-shaft pump, submerged pump, fire water pump, membrane pump with pneumatic drives, and present self-priming pump is all take the WFB type as main, must be provided with electrically-controlled valve and outlet non-return valve, can not adopt wellhead type to install, the bend that intake-outlet adopts can't overcome the bend pipe loss in water flow process, efficient is low, self-priming time is long, and energy consumption is large, does not have intelligent system to control, can not prevent the water pump dry grinding, reduce the economic benefit of social benefit and enterprise.
Summary of the invention: the purpose of this utility model will provide a kind of intelligent self-priming pump line construction exactly, and it can guarantee that intelligent self-priming pump works according to designing requirement.The purpose of this utility model is achieved in that intelligent self-priming pump line construction, comprises fus FU
1, normally closed stop button SB
1, it is characterized in that: general power is in series with main contact KM successively by integral switch QS
2, thermoelement FR, three-phase alternating-current motor; General power also is provided with one and is in series with successively fus FU
1, normally closed stop button SB
1, normally closed stop button SB
1 αMinute branch road; Be parallel with some circuits between the other end of described minute branch road and N line, they are to be in series with successively manual rotation button SA on first circuit, often to open button SB successively
2, coil KM
2, normal Slipper FR, relay K A9, relay K A5; The described button SB that often opens
2On be parallel with successively and often open button SB
2 α, often open auxiliary contact KM
2, relay K A
2, relay K A
10And communicate with second circuit; Described coil KM
2On be parallel with power cut off delay coil KT
1, electromagnetic valve coil KF; Be in series with successively automatic rotation button SA, electronic type liquid level relay JYB on second circuit, coil relay KA
10In parallel with electronic type liquid level relay JYB after connecting with PLC, and the coil relay KA that is provided with electronic type liquid level relay JYB
2Branch road communicates; Be in series with successively fus FU on the 3rd circuit
2, intelligent sensor K
3, coil relay KA
4, often open auxiliary contact KM
2, relay K T
1, coil relay KA
5,Relay K A
8, distant place failure reset button SB
3 α, failure reset button SB on the spot
3Be connected in parallel on intelligent sensor K after the series connection successively
3, coil relay KA
4, often open auxiliary contact KM
2On, relay K T wherein
1On be parallel with relay K A
5Be in series with successively relay K A on the 4th circuit
8, coil relay KA
6, relay K A
7Be in series with successively relay K A on the 5th circuit
8, coil relay KA
7, relay K A
6Be in series with successively manual rotation button SA, relay K A on six roots of sensation circuit
4, coil relay KA
8, coil relay KA
9With time-delay coil KT
2Series connection, then at time-delay coil KT
2Upper relay K A in parallel
9After, with coil relay K A on six roots of sensation circuit
8Parallel connection, relay K A
2With relay K A
10After parallel connection successively with relay K A
8, time-delay coil KT
2, relay K A
9The series connection, and with six roots of sensation circuit on relay K A
4, relay K A
8In parallel; Be in series with successively normally closed auxiliary contact KM and tutorial light on the 7th circuit; Be in series with successively on the 8th circuit and often open auxiliary contact KM and tutorial light.
When the utility model is manual, press manual rotation button SA, open successively intelligent pump work, the intelligent pump working sensor sends the instruction of startup self-priming pump, the time-delay closing intelligent pump; When the intelligent pump working sensor is found fault, it will be closed intelligent pump and report to the police, after fault is got rid of, can be manually or a distant place remove warning.Automatically the time, start by a distant place, liquid-level floater is opened intelligent pump work, and the intelligent pump working sensor sends the instruction of startup self-priming pump, the time-delay closing intelligent pump; When the intelligent pump working sensor is found fault, it will be closed intelligent pump and report to the police, after fault is got rid of, can be manually or a distant place remove warning.Can control water pump high water level in the pond, Auto Power On, autostop when low water level is inhaled sky; prevent water pump dry grinding and energy waste, can realize that water pump moves automatically under unmanned monitoring condition; greatly saved administration expenses, the other operation of the machine of also can setting and telecontrol make the user easy to use.Intelligent system appts does not have transmission part, does not have vibration and mechanical failure, does not need inspection and maintenance.Make intelligent self-priming pump reach efficient that energy-saving and emission-reduction, exhaust synchronous working with water outlet.
Description of drawings:
Fig. 1 is the utility model circuti diagram;
1. first circuit, 2. second circuit, 3. the 3rd circuit, 4. the 4th circuit, 5. the 5th circuit, 6. six roots of sensation circuit, 7. the 7th circuit, 8. the 8th circuit.
L11, L12, L13, N are general power, 113,121 is solenoid valve, 131,135 is intelligent sensor, 301,303,305 is the upper and lower limit liquid-level floater, 103,105 stop for a distant place, 107,113 are that a distant place starts, and 105,163,133 are self-priming pump operation and stop signal, 199, N is PLC distant place startup.
Embodiment;
The utility model is described in further detail below in conjunction with accompanying drawing;
Intelligence self-priming pump line construction comprises fus FU
1, normally closed stop button SB
1, it is characterized in that: general power is in series with main contact KM successively by integral switch QS
2, thermoelement FR, three-phase alternating-current motor; General power also is provided with one and is in series with successively fus FU
1, normally closed stop button SB
1, normally closed stop button SB
1 αMinute branch road; Be parallel with some circuits between the other end of described minute branch road and N line, they are to be in series with successively manual rotation button SA on first circuit, often to open button SB successively
2, coil KM
2, normal Slipper FR, relay K A9, relay K A5; The described button SB that often opens
2On be parallel with successively and often open button SB
2 α, often open auxiliary contact KM
2, relay K A
2, relay K A
10And communicate with second circuit; Described coil KM
2On be parallel with power cut off delay coil KT
1, electromagnetic valve coil KF; Be in series with successively automatic rotation button SA, electronic type liquid level relay JYB on second circuit, coil relay KA
10In parallel with electronic type liquid level relay JYB after connecting with PLC, and the coil relay KA that is provided with electronic type liquid level relay JYB
2Branch road communicates; Be in series with successively fus FU on the 3rd circuit
2, intelligent sensor K
3, coil relay KA
4, often open auxiliary contact KM
2, relay K T
1, coil relay KA
5,Relay K A
8, distant place failure reset button SB
3 α, failure reset button SB on the spot
3Be connected in parallel on intelligent sensor K after the series connection successively
3, coil relay KA
4, often open auxiliary contact KM
2On, relay K T wherein
1On be parallel with relay K A
5Be in series with successively relay K A on the 4th circuit
8, coil relay KA
6, relay K A
7Be in series with successively relay K A on the 5th circuit
8, coil relay KA
7, relay K A
6Be in series with successively manual rotation button SA, relay K A on six roots of sensation circuit
4, coil relay KA
8, coil relay KA
9With time-delay coil KT
2Series connection, then at time-delay coil KT
2Upper relay K A in parallel
9After, with coil relay K A on six roots of sensation circuit
8Parallel connection, relay K A
2With relay K A
10After parallel connection successively with relay K A
8, time-delay coil KT
2, relay K A
9The series connection, and with six roots of sensation circuit on relay K A
4, relay K A
8In parallel; Be in series with successively normally closed auxiliary contact KM and tutorial light on the 7th circuit; Be in series with successively on the 8th circuit and often open auxiliary contact KM and tutorial light.during concrete enforcement, the normally opened contact of relay K A8 is provided with 157 on six roots of sensation circuit, 159 stop for self-priming pump, the normally opened contact of coil relay K A6 is provided with 171 on the 4th circuit, 173 are the self-priming pump startup, the normally opened contact of coil relay K A5 is provided with 175 on the 3rd circuit, 177 is the fault output signal, the normally opened contact of coil relay K A5 is provided with 181 on the 3rd circuit, 183 for starting the stand by pump signal, 143, 145 is distant place failure reset, 105, 119 is the fault initiating signal, 193, 195 is current transformer, the normally opened contact of coil relay K A6 is provided with 185 on the 4th circuit, 187 is the electric valve opening signal, the normally opened contact of coil relay K A7 is provided with 189 on the 5th circuit, 191 close signal for electric valve.In the time of manually, press manual rotation button SA, open successively intelligent pump work, the intelligent pump working sensor sends the instruction of startup self-priming pump, the time-delay closing intelligent pump; When the intelligent pump working sensor is found fault, it will be closed intelligent pump and report to the police, after fault is got rid of, can be manually or a distant place remove warning.Automatically the time, start by a distant place, liquid-level floater is opened intelligent pump work, and the intelligent pump working sensor sends the instruction of startup self-priming pump, the time-delay closing intelligent pump; When the intelligent pump working sensor is found fault, it will be closed intelligent pump and report to the police, after fault is got rid of, can be manually or a distant place remove warning.The utility model need not electrically-controlled valve and outlet non-return valve, first start venting gas appliance during work, this device can be rapidly with the Bas Discharged in intake pipe and pump chamber, thereby make medium enter pump chamber, be provided with sensor in pump chamber, the sensor contact medium can pass the signal to intelligent control system at once, intelligent control system realizes conversion immediately by the starting mode of pump conversion equipment, main pump starts, venting gas appliance quits work simultaneously, water pump is normal water outlet just, reaches draining and synchronouss working with water outlet, and self-priming time almost can be ignored.
Claims (1)
1. intelligent self-priming pump line construction, comprise fus FU
1, normally closed stop button SB
1, it is characterized in that: general power is in series with main contact KM successively by integral switch QS
2, thermoelement FR, three-phase alternating-current motor; General power also is provided with one and is in series with successively fus FU
1, normally closed stop button SB
1, normally closed stop button SB
1 αMinute branch road; Be parallel with some circuits between the other end of described minute branch road and N line, they are to be in series with successively manual rotation button SA on first circuit, often to open button SB successively
2, coil KM
2, normal Slipper FR, relay K A9, relay K A5; The described button SB that often opens
2On be parallel with successively and often open button SB
2 α, often open auxiliary contact KM
2, relay K A
2, relay K A
10And communicate with second circuit; Described coil KM
2On be parallel with power cut off delay coil KT
1, electromagnetic valve coil KF; Be in series with successively automatic rotation button SA, electronic type liquid level relay JYB on second circuit, coil relay KA
10In parallel with electronic type liquid level relay JYB after connecting with PLC, and the coil relay KA that is provided with electronic type liquid level relay JYB
2Branch road communicates; Be in series with successively fus FU on the 3rd circuit
2, intelligent sensor K
3, coil relay KA
4, often open auxiliary contact KM
2, relay K T
1, coil relay KA
5,Relay K A
8, distant place failure reset button SB
3 α, failure reset button SB on the spot
3Be connected in parallel on intelligent sensor K after the series connection successively
3, coil relay KA
4, often open auxiliary contact KM
2On, relay K T wherein
1On be parallel with relay K A
5Be in series with successively relay K A on the 4th circuit
8, coil relay KA
6, relay K A
7Be in series with successively relay K A on the 5th circuit
8, coil relay KA
7, relay K A
6Be in series with successively manual rotation button SA, relay K A on six roots of sensation circuit
4, coil relay KA
8, coil relay KA
9With time-delay coil KT
2Series connection, then at time-delay coil KT
2Upper relay K A in parallel
9After, with coil relay K A on six roots of sensation circuit
8Parallel connection, relay K A
2With relay K A
10After parallel connection successively with relay K A
8, time-delay coil KT
2, relay K A
9The series connection, and with six roots of sensation circuit on relay K A
4, relay K A
8In parallel; Be in series with successively normally closed auxiliary contact KM and tutorial light on the 7th circuit; Be in series with successively on the 8th circuit and often open auxiliary contact KM and tutorial light.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220339468 CN203023079U (en) | 2012-07-13 | 2012-07-13 | Intelligent self-priming pump circuit structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220339468 CN203023079U (en) | 2012-07-13 | 2012-07-13 | Intelligent self-priming pump circuit structure |
Publications (1)
Publication Number | Publication Date |
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CN203023079U true CN203023079U (en) | 2013-06-26 |
Family
ID=48647068
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 201220339468 Expired - Fee Related CN203023079U (en) | 2012-07-13 | 2012-07-13 | Intelligent self-priming pump circuit structure |
Country Status (1)
Country | Link |
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CN (1) | CN203023079U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104196736A (en) * | 2014-08-23 | 2014-12-10 | 王亚泉 | Control circuit structure of high-efficiency intelligent self-priming pump |
CN104696232A (en) * | 2015-03-10 | 2015-06-10 | 江苏创进泵阀制造有限公司 | Automatic timed control system of intelligent self-sucking pump and method thereof |
CN107607856A (en) * | 2017-09-20 | 2018-01-19 | 胡君分 | A kind of circuit board for testing intelligent self priming pump circuit board |
-
2012
- 2012-07-13 CN CN 201220339468 patent/CN203023079U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104196736A (en) * | 2014-08-23 | 2014-12-10 | 王亚泉 | Control circuit structure of high-efficiency intelligent self-priming pump |
CN104696232A (en) * | 2015-03-10 | 2015-06-10 | 江苏创进泵阀制造有限公司 | Automatic timed control system of intelligent self-sucking pump and method thereof |
CN104696232B (en) * | 2015-03-10 | 2016-06-01 | 江苏创进泵阀制造有限公司 | The intelligence automatic timing control system of vacuum primingpump and method |
CN107607856A (en) * | 2017-09-20 | 2018-01-19 | 胡君分 | A kind of circuit board for testing intelligent self priming pump circuit board |
CN107607856B (en) * | 2017-09-20 | 2019-10-15 | 永嘉智瓯科技有限公司 | A kind of circuit board for testing intelligent self priming pump circuit board |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130626 Termination date: 20140713 |
|
EXPY | Termination of patent right or utility model |