CN203394724U - Automatic submersible sewage pump alternation control system - Google Patents

Abstract

The utility model relates to the technical field of submersible sewage pumps and in particular relates to an automatic submersible sewage pump alternation control system. The automatic submersible sewage pump alternation control system comprises a first submersible sewage pump and a second submersible sewage pump and also comprises a conversion switch, a floating ball control device, a first motor driving device and a second motor driving device, wherein the conversion switch is connected with the first motor driving device and the second motor driving device respectively; the first motor driving device is connected with a motor of the first submersible sewage pump to form a first submersible sewage pump driving loop for driving the first submersible sewage pump to work; the second motor driving device is connected with a motor of the second submersible sewage pump to form a second submersible sewage pump driving loop for driving the second submersible sewage pump to work; the first submersible sewage pump driving loop and the second submersible sewage pump driving loop are connected in parallel, then are connected with the floating ball control device and are controlled by the floating ball control device to drive the first submersible sewage pump and the second submersible sewage pump to work.

Description

Submerged pump automatic alternate control system

Technical field

The utility model relates to submerged pump technical field, particularly submerged pump draining automatic control system, specifically a kind of submerged pump automatic alternate control system.

Background technique

At present, a lot of occasions are due to the difference of the design concept of condition and the reason of cost, most of submerged pump control system do not have automatic alternate function, what minority had an automatic alternate function has all increased programmable controller (be called for short PLC), this cost to control system has increased a lot, for cost-saving consideration, most of occasions can not used PLC to control.But so, cesspool just can only be used a pollution discharge pump when carrying out draining, and this will increase its loss greatly, due to serious wear, greatly shorten the working life of pollution discharge pump; And the water level of cesspool is too high sometimes, a pollution discharge pump probably has little time draining.In addition, owing to only having a pollution discharge pump, once fault or the generation electric leakage of generating pump, there is no the input of standby submerged pump, will have a strong impact on operating efficiency, if sewage quantity is excessive, also will diffuse out cesspool, cause serious consequence.

This cover automatic alternate control system does not have programmable controller, and price is very low, and this provides prospect widely for submerged pump automatic alternate control system.

Summary of the invention

The purpose of this utility model is to provide a kind of submerged pump automatic alternate control system of not using programmable controller, make two sewage pumps can automatic alternate work, solved that above-mentioned sewage pump cost is high, drainage efficiency is poor, serious wear and without the problem of stand by pump.

For solving the problems of the technologies described above, the utility model provides a kind of submerged pump automatic alternate control system, comprises the first submerged pump and the second submerged pump, wherein, also comprise throw over switch, float ball controller, the first motor drive unit, and the second motor drive unit; Described throw over switch is connected with described the first motor drive unit, described the second motor drive unit respectively; The motor that described the first motor drive unit connects described the first submerged pump forms the first submerged pump driving loop that drives described the first submerged pump work, and the motor formation that described the second motor drive unit connects described the second submerged pump drives the second submerged pump of described the second submerged pump work to drive loop; Described the first submerged pump is connected with described float ball controller after driving loop to drive loop parallel connection with described the second submerged pump, and described the first submerged pump drives loop, described the second submerged pump to drive loop to control to drive described the first submerged pump, described the second submerged pump to work by described float ball controller.

Above-mentioned submerged pump automatic alternate control system, wherein, described float ball controller comprises rotation control circuit, is located at the ball float at cesspool middle water level place, and another ball float of being located at cesspool high water level place; When the water level of cesspool rises high during to middle water level place, described ball float sends middle water level signal to described rotation control circuit, and described the first submerged pump drives loop, described the second submerged pump to drive loop to control to drive described the first submerged pump, described the second submerged pump wheel to change jobs by described rotation control circuit; When the water level of cesspool rises high during to high water level, described another ball float sends high water level signal to described rotation control circuit, and described the first submerged pump drives loop and described the second submerged pump to drive loop to control to drive described the first submerged pump and described the second submerged pump to work by described rotation control circuit simultaneously.

Above-mentioned submerged pump automatic alternate control system, wherein, also comprises the warning device being connected with described float ball controller, and when the water level of cesspool rises highly during to high water level, described warning device sends alarm signal.

Above-mentioned submerged pump automatic alternate control system, wherein, described warning device comprises buzzer and mute button, and after receiving alarm signal, there is ring in described buzzer, and described buzzer cuts out ring by described mute button.

Above-mentioned submerged pump automatic alternate control system; wherein; described the first submerged pump drives loop, described the second submerged pump to drive loop to be also respectively equipped with RCCB; when described the first submerged pump or described the second submerged pump electric leakage, described RCCB carries out earth leakage protective to described the first submerged pump or described the second submerged pump.

Above-mentioned submerged pump automatic alternate control system, wherein, also comprises several power supply indicators, high water level tutorial light, and work indicator light.

Above-mentioned submerged pump automatic alternate control system, wherein, described throw over switch comprises hand switch, stop switch and recloser.

Above-mentioned submerged pump automatic alternate control system, wherein, the recloser of described throw over switch is opened, and described the first submerged pump drives loop, described the second submerged pump to drive the first submerged pump described in drive circuit, described the second submerged pump automatic alternate work; The hand switch of described throw over switch is opened, and described the first submerged pump drives loop, described the second submerged pump to drive the first submerged pump described in drive circuit, described the second submerged pump manual pulley to change jobs; The stop switch of described throw over switch is opened, and described the first submerged pump drives loop, described the second submerged pump to drive loop to stop driving described the first submerged pump, described the second submerged pump wheel to change jobs.

In terms of existing technologies, cost is low for the utility model mode of execution, can make two submerged pump automatic alternates, guarantees that the wearing and tearing of all submerged pumps are all the same, has improved working life; When a submerged pump breaks down, another submersible pump can be devoted oneself to work automatically; When cesspool water level is too high, there is warning function, can make two submerged pumps work simultaneously; There is creepage protection function.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is circuit theory diagrams of the present utility model.

Embodiment

For making the purpose of this utility model, technological scheme and advantage clearer, below in conjunction with accompanying drawing, each mode of execution of the present utility model is explained in detail.Yet, persons of ordinary skill in the art may appreciate that in each mode of execution of the utility model, in order to make reader understand the application better, many ins and outs have been proposed.But, even without these ins and outs and the many variations based on following mode of execution and modification, also can realize each claim of the application technological scheme required for protection.

As an embodiment of the present utility model, as shown in Figure 1, the present embodiment relates to a kind of submerged pump automatic alternate control system, comprise the first submerged pump and the second submerged pump, wherein, also comprise throw over switch, float ball controller, the first motor drive unit, and the second motor drive unit; Throw over switch is connected with the first motor drive unit, the second motor drive unit respectively; The motor formation that the first motor drive unit connects the first submerged pump drives the first submerged pump of the first submerged pump work to drive loop, and the second motor drive unit connects the second submerged pump driving loop of the motor formation driving second submerged pump work of the second submerged pump; The first submerged pump is connected with float ball controller after driving loop to drive loop parallel connection with the second submerged pump, and the first submerged pump drives loop, the second submerged pump to drive loop to control to drive the first submerged pump, the second submerged pump to work by float ball controller.

Wherein, float ball controller comprises rotation control circuit, is located at the ball float at cesspool middle water level place, and another ball float of being located at cesspool high water level place; When the water level of cesspool rises high during to middle water level place, ball float sends middle water level signal to rotation control circuit, and the first submerged pump drives loop, the second submerged pump to drive loop to control to drive the first submerged pump, the second submerged pump wheel to change jobs by rotation control circuit; When the water level of cesspool rises high during to high water level, another ball float sends high water level signal to rotation control circuit, and the first submerged pump drives loop and the second submerged pump to drive loop to control to drive the first submerged pump and the second submerged pump to work by rotation control circuit simultaneously.

The present embodiment also comprises the warning device being connected with float ball controller, and when the water level of cesspool rises highly during to high water level, warning device sends alarm signal.Warning device comprises buzzer and mute button, and buzzer, after receiving alarm signal, ring occurs, and buzzer cuts out ring by mute button.The first submerged pump drives loop, the second submerged pump to drive loop to be also respectively equipped with RCCB, and when the first submerged pump or the electric leakage of the second submerged pump, RCCB carries out earth leakage protective to the first submerged pump or the second submerged pump.In the present embodiment system, also comprise several power supply indicators, high water level tutorial light, and work indicator light.

In addition, throw over switch in the present embodiment comprises hand switch, stop switch and recloser, wherein, the recloser of throw over switch is opened, and the first submerged pump drives loop, the second submerged pump to drive drive circuit the first submerged pump, the second submerged pump automatic alternate work; The hand switch of throw over switch is opened, and the first submerged pump drives loop, the second submerged pump to drive drive circuit the first submerged pump, the second submerged pump manual pulley to change jobs; The stop switch of throw over switch is opened, and the first submerged pump drives loop, the second submerged pump to drive loop to stop driving the first submerged pump, the second submerged pump wheel to change jobs.

As another embodiment of the present utility model, the present embodiment is a upper embodiment's physical circuit schematic diagram, its structure is mutually corresponding with each constituent element of a upper embodiment, specifically referring to Fig. 2, wherein, the motor M 1 of the first submerged pump is connected respectively the first motor drive unit (L11 leading-out wire circuit structure) and the second motor drive unit (L21 leading-out wire circuit structure) with the motor M 2 of the second submerged pump, the first submerged pump that forms respectively the first submerged pump work of driving drives the second submerged pump of loop and the second submerged pump work of driving to drive loop, the first submerged pump drives loop to connect the first RCCB 1QF, the second submerged pump drives loop to connect the second RCCB 2QF, throw over switch 1SAC is connected with the first motor drive unit, the second motor drive unit respectively, in the first motor drive unit and the second motor drive unit, comprise respectively very first time relay coil 1KT, the first ac contactor coil 1KM and the second time relay coil 2KT, the second ac contactor coil 2KM, the first motor drive unit is also connected the 3rd auxiliary reclay coil 3KA jointly with the second motor drive unit, rotation control circuit in float ball controller comprises ball float contact 1FQ and another ball float contact 2FQ, and the auxiliary reclay coil 1KA being connected with ball float contact 1FQ, another auxiliary reclay coil 2KA of being connected with another ball float contact 2FQ, when the water level of cesspool rises to the ball float of middle water level, ball float contact 1FQ is closed, the hand switch of throw over switch 1SAC is opened, and controls the first submerged pump drive loop, described the second submerged pump to drive the first submerged pump described in drive circuit, described the second submerged pump manual pulley to change jobs by button 1SB, 2SB, 3SB and 4SB, warning device comprises buzzer HA and mute button 5SB, and buzzer HA, after receiving alarm signal, ring occurs, and buzzer HA closes ring by mute button 5SB.

The specific works principle of the present embodiment is as follows: main breaker and the RCCB lock that closes, when the hand switch of throw over switch 1SAC, to open, and the first submerged pump and the second submerged pump can be started and be stopped by 1SB, 2SB, 3SB, 4SB button.When the recloser of throw over switch is opened, at this moment the start and stop of two submerged pumps are controlled by ball float, sewage in cesspool constantly rises, when arriving middle water level, ball float contact 1FQ is closed, auxiliary reclay coil 1KA obtains electric, and the first ac contactor coil 1KM obtains electric, the first submerged pump work; While very first time relay coil 1KT obtains electric, timing closing, and the 3rd auxiliary reclay coil 3KA obtains electric; When the first submerged pump exhausts water, ball float contact 1FQ disconnects, auxiliary reclay coil 1KA dead electricity, and the first ac contactor coil 1KM dead electricity, the first submerged pump quits work.When water level increases to middle water level again, ball float contact 1FQ is closed, and auxiliary reclay coil 1KA obtains electric, due to the 3rd auxiliary reclay coil 3KA obtain electric, so that the second ac contactor coil 2KM obtains is electric, the second submerged pump work; While the second time relay coil 2KT obtains electric, timing closing, the 3rd auxiliary reclay coil 3KA dead electricity; When the second submerged pump exhausts water, ball float contact 1FQ disconnects, auxiliary reclay coil 1KA dead electricity, and the first ac contactor coil 1KM dead electricity, the second submerged pump quits work.When water level rises high time again, can be again the first submerged pump work, so move in circles, automatic alternate.If a water pump can not exhaust sewage, water level continues to rise up, arrives high water level, and another ball float contact 2FQ is closed, and warning device can send alarm signal, buzzer HA ring, and at this moment two water pumps are worked simultaneously, until water is exhausted.

By above-mentioned two embodiments, can be found out, the utlity model has lower cost, can make two submerged pump automatic alternates or manually rotation, guarantee that the wearing and tearing of all submerged pumps are all the same, improve working life; When any submerged pump operation, break down, no matter be RCCB tripping operation or thermorelay overload, another submerged pump all can put into operation as stand by pump, has avoided the unrestrained upper cesspool of sewage to cause serious consequence; In addition, submerged pump is owing to being placed in water always, and to circuit, wearing and tearing cause leaky to draw attention, and because RCCB exists, have creepage protection function, have avoided the generation of electric shock accidents; When cesspool water level is too high, there is warning function, can make two submerged pumps work simultaneously.

Persons of ordinary skill in the art may appreciate that the respective embodiments described above are to realize specific embodiment of the utility model, and in actual applications, can to it, do various changes in the form and details, and do not depart from spirit and scope of the present utility model.

Claims (8)

1. a submerged pump automatic alternate control system, comprises the first submerged pump and the second submerged pump, it is characterized in that, also comprises throw over switch, float ball controller, the first motor drive unit, and the second motor drive unit; Described throw over switch is connected with described the first motor drive unit, described the second motor drive unit respectively; The motor that described the first motor drive unit connects described the first submerged pump forms the first submerged pump driving loop that drives described the first submerged pump work, and the motor formation that described the second motor drive unit connects described the second submerged pump drives the second submerged pump of described the second submerged pump work to drive loop; Described the first submerged pump is connected with described float ball controller after driving loop to drive loop parallel connection with described the second submerged pump, and described the first submerged pump drives loop, described the second submerged pump to drive loop to control to drive described the first submerged pump, described the second submerged pump to work by described float ball controller.

2. submerged pump automatic alternate control system according to claim 1, is characterized in that, described float ball controller comprises rotation control circuit, is located at the ball float at cesspool middle water level place, and another ball float of being located at cesspool high water level place; When the water level of cesspool rises high during to middle water level place, described ball float sends middle water level signal to described rotation control circuit, and described the first submerged pump drives loop, described the second submerged pump to drive loop to control to drive described the first submerged pump, described the second submerged pump wheel to change jobs by described rotation control circuit; When the water level of cesspool rises high during to high water level, described another ball float sends high water level signal to described rotation control circuit, and described the first submerged pump drives loop and described the second submerged pump to drive loop to control to drive described the first submerged pump and described the second submerged pump to work by described rotation control circuit simultaneously.

3. submerged pump automatic alternate control system according to claim 1 and 2, is characterized in that, also comprises the warning device being connected with described float ball controller, and when the water level of cesspool rises highly during to high water level, described warning device sends alarm signal.

4. submerged pump automatic alternate control system according to claim 3, is characterized in that, described warning device comprises buzzer and mute button, and described buzzer, after receiving alarm signal, ring occurs, and described buzzer cuts out ring by described mute button.

5. submerged pump automatic alternate control system according to claim 1; it is characterized in that; described the first submerged pump drives loop, described the second submerged pump to drive loop to be also respectively equipped with RCCB; when described the first submerged pump or described the second submerged pump electric leakage, described RCCB carries out earth leakage protective to described the first submerged pump or described the second submerged pump.

6. submerged pump automatic alternate control system according to claim 1, is characterized in that, also comprises several power supply indicators, high water level tutorial light, and work indicator light.

7. submerged pump automatic alternate control system according to claim 1, is characterized in that, described throw over switch comprises hand switch, stop switch and recloser.

8. submerged pump automatic alternate control system according to claim 7, it is characterized in that, the recloser of described throw over switch is opened, and described the first submerged pump drives loop, described the second submerged pump to drive the first submerged pump described in drive circuit, described the second submerged pump automatic alternate work; The hand switch of described throw over switch is opened, and described the first submerged pump drives loop, described the second submerged pump to drive the first submerged pump described in drive circuit, described the second submerged pump manual pulley to change jobs; The stop switch of described throw over switch is opened, and described the first submerged pump drives loop, described the second submerged pump to drive loop to stop driving described the first submerged pump, described the second submerged pump wheel to change jobs.

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