CN205324160U - Mud that remote control manual control had concurrently divides sand machine - Google Patents

Abstract

The utility model provides a mud that remote control manual control had concurrently divides sand machine, mud divides the slush pump that the sand machine was equipped with the vibrating motor that utilizes excitation source production vibration and was used for extracting mud, the drive vibrating motor puddles the control circuit of operating circuit for having two kinds of control mode of manual control and remote control of pump, control circuit include power module, slush pump drive module, vibrating motor drive module and manual remote control drive module, slush pump drive module and two vibrating motor drive module connects in parallel on the main line respectively, the one end on main line and power module electricity are connected, the other end and manual remote control drive module electricity connect. Divide the sand machine to realize the operation through manual / remote control: manual control can in situ observation running situation of the equipment, reduces equipment trouble and rates, any place that remote control can be within 300m (except the special occasion: if strong magnetism, intensive barrier etc. ) realize opening stopping, effectively reduce intensity of labour, improve work efficiency, have higher safety guarantee.

Description

The mud sand separator that a kind of remote control manual control has concurrently

Technical field

This utility model relates to the control circuit field of mud sand separator, the mud sand separator that particularly a kind of remote control manual control has concurrently。

Background technology

Construct at shield machine, construction of diaphragm wall, punching post and boring column foundation construction not only need manufacture enough, suitable mud, also to strengthen the daily management of mud, adjust, ensure the performance of mud, possess conditions above to be also nowhere near, because the premium mud all using coming of new needs substantial amounts of high-quality bentonite, fresh water, soda, CMC etc., raw material also to utilize machine power to stir synthesis, a large amount of manpower can be consumed, material resources, both add construction and hold cost, also the engineering time can be affected, if and the waste mud produced when constructing is dealt with improperly, construction environment is caused to worsen, increase difficulty of construction, affect construction speed, and environmental pollution can be caused, have a strong impact on resident living environment and quality。

Waste mud is pollutant and a kind of resource, the process of mud, disposes that to combine with recycling be its best outlet。Existing mud purifying device is to sieve out by thick, the medium sand in waste slurry, and the mud after sieving can not be used for constructing backup mud, and sand factor is high, and it is unreasonable to there is design, on-the-spot problem poor for applicability。The process of waste mud, disposal are completely resolved。

During sand separator of the prior art work, sand separator ambient vibration noise is relatively big, and operating mode is more complicated, is not suitable for workers with long time and operates monitoring in this environment。

Summary of the invention

For drawbacks described above, the purpose of this utility model is in that to propose the mud sand separator that a kind of remote control manual control has concurrently, both can carry out distance operation and control sand separator, again can the running of closely manual adjustments sand separator, flexible operation, save manpower。

For reaching this purpose, this utility model by the following technical solutions:

The mud sand separator that a kind of remote control manual control has concurrently, described mud sand separator is provided with the vibrating motor utilizing exciting source to produce to vibrate and the slush pump for extracting mud；The operating circuit driving described vibrating motor and slush pump is the control circuit with Non-follow control and two kinds of control modes of remote control, described control circuit includes power module, slush pump drives module, driven by vibrating motors module and manual remote control drive module, described slush pump drives module and two described driven by vibrating motors modules to be connected in parallel on respectively on main line, the one end on described main line electrically connects with power module, the other end with described manual remote control drive module to electrically connect。

Further, described power module is three phase mains, described three phase mains is connected with the one end controlling switch QF1, the other end controlling switch QF1 is connected with one end of open phase relay A, the other end of open phase relay A with manual remote control drive module to be connected, described slush pump is connected into after driving module and two described driven by vibrating motors wired in parallel and controls to switch the main line between QF1 and open phase relay A；

Described slush pump drives module include being sequentially connected in series slush pump M together, overheat protector FR1, A.C. contactor KM1-1 and control switch QF2, and the other end controlling switch QF2 accesses main line；

Two described driven by vibrating motors modules include the vibrating motor M, overheat protector FR2, the A.C. contactor KM2 that are sequentially connected in series together and control switch QF3, and the other end controlling switch QF3 accesses main line；

Described manual remote control drive module to include remote control branch road parallel with one another, driven by vibrating motors branch road and slush pump to drive branch road, access main line, one end after described remote control branch road, driven by vibrating motors branch road and slush pump driving branch circuit parallel connection, the other end is connected with one end of signal projector B, and the other end of signal projector B is connected with the other end of open phase relay A；The one end selecting switch S3 is connected with signal projector B, and the other end drives branch road to be connected with remote control branch road, driven by vibrating motors branch road and slush pump respectively；Signal projector B is connected by signal with remote controller；

Described remote control branch road includes after signal projector C, relay K A1, time relay KT1 and auxiliary reclay KA1, relay K A1 connect with time relay KT1 in parallel with auxiliary reclay KA1, and auxiliary reclay KA1 connects with signal projector C；One end of described remote control branch road is connected with selecting switch S3, and the other end is connected with main line；

Described slush pump drives branch road to include hand switch S5, hand switch S6, A.C. contactor KM1-1, time relay KT2, overheat protector FR1, time relay KT1 and auxiliary reclay KA1; hand switch S6, A.C. contactor KM1-1 and time relay KTI are connected in parallel rear one end and are connected with one end of hand switch S5, and the other end of hand switch S5 is connected with selecting switch S3；Hand switch S6, A.C. contactor KM1-1 and time relay KTI be connected in parallel after the other end be connected with one end of overheat protector FR1; after time relay KT2 and A.C. contactor KM1-1 parallel connection, one end is connected with the other end of overheat protector FR1, and time relay KT2 and the other end after A.C. contactor KM1-1 parallel connection are connected with main line；

Described driven by vibrating motors branch road includes hand switch S7, hand switch S8, A.C. contactor KM2, time relay KT1, overheat protector FR2, overheat protector FR3, A.C. contactor KM2 and A.C. contactor KM3; hand switch S8, A.C. contactor KM2 and time relay KTI are connected in parallel rear one end and are connected with one end of hand switch S7, and the other end of hand switch S7 is connected with selecting switch S3；After overheat protector FR2 and overheat protector FR3 parallel connection one end be connected in parallel with hand switch S8, A.C. contactor KM2 and time relay KTI after the other end be connected; overheat protector FR2 connects with A.C. contactor KM2; the other end of A.C. contactor KM2 is connected with main line; overheat protector FR3 connects with A.C. contactor KM3, and the other end of A.C. contactor KM3 is connected with main line。

Hand switch S6, A.C. contactor KM1-1 and time relay KTI be connected in parallel after the other end be connected with one end of overheat protector FR1; after time relay KT2 and A.C. contactor KM1-1 parallel connection, one end is connected with the other end of overheat protector FR1, and time relay KT2 and the other end after A.C. contactor KM1-1 parallel connection are connected with main line。

Further, the other end of signal projector B is connected with one end of emergency stop switch S1, and the other end of emergency stop switch S1 is connected with the other end of open phase relay A。

Further, described slush pump is started by star delta circuit。

Further, the described main line controlled between switch QF1 and open phase relay A is serially connected with ammeter A。

Further, the two ends of described remote control branch road are parallel with warning lamp L1, L2, L3, L4, and warning lamp L2, L3, L4 concatenate with overheat protector FR1, overheat protector FR2, overheat protector FR3 respectively on respective branch road；Electric fuse F1 it is serially connected with between warning lamp L1 and open phase relay A。

The beneficial effects of the utility model: sand separator manually/remote control realizes running: Non-follow control can Real Time Observation machine operation, reduce equipment failure rate, remote pilot can realize start and stop (except special occasions: such as strong magnetic, intensive barrier etc.) within 300m Anywhere, effectively reduce labor intensity, improve work efficiency, there is higher safety guarantee。

Accompanying drawing explanation

Fig. 1 is the function structure chart of an embodiment of the present utility model；

Fig. 2 is the circuit structure diagram of an embodiment of the present utility model；

Fig. 3 be in Fig. 2 manual remote control drive the circuit structure diagram of module。

Wherein: power module 1, slush pump drives module 2, driven by vibrating motors module 3, manual remote control drive module 4, open phase relay A, signal projector B, signal projector C。

Detailed description of the invention

The technical solution of the utility model is further illustrated below in conjunction with accompanying drawing and by detailed description of the invention。

As it is shown in figure 1, the mud sand separator that a kind of remote control manual control has concurrently, described mud sand separator is provided with the vibrating motor utilizing exciting source to produce to vibrate and the slush pump for extracting mud；The circuit driving described vibrating motor and slush pump operating is the control circuit with Non-follow control and two kinds of control modes of remote control, described control circuit includes power module 1, slush pump drives module 2, driven by vibrating motors module 3 and manual remote control drive module 4, described slush pump drives module 2 and two described driven by vibrating motors modules 3 to be connected in parallel on respectively on main line, the one end on described main line electrically connects with power module 1, the other end with described manual remote control drive module 4 to electrically connect。

Sand separator manually/remote control realizes running: Non-follow control can Real Time Observation machine operation, reduce equipment failure rate, remote pilot can realize start and stop (except special occasions: such as strong magnetic, intensive barrier etc.) within 300m Anywhere, effectively reduce labor intensity, improve work efficiency, there is higher safety guarantee。

As shown in Figures 2 and 3, described power module 1 is three phase mains, described three phase mains is connected with the one end controlling switch QF1, the other end controlling switch QF1 is connected with one end of open phase relay A, the other end of open phase relay A with manual remote control drive module 4 to be connected, described slush pump is connected into the main line controlled between switch QF1 and open phase relay A after driving module 2 and the parallel connection of two described driven by vibrating motors modules 3；

Described slush pump drives module 2 include being sequentially connected in series slush pump M together, overheat protector FR1, A.C. contactor KM1-1 and control switch QF2, and the other end controlling switch QF2 accesses main line；

Two described driven by vibrating motors modules 3 include the vibrating motor M, overheat protector FR2, the A.C. contactor KM2 that are sequentially connected in series together and control switch QF3, and the other end controlling switch QF3 accesses main line；

Described manual remote control drive module 4 to include remote control branch road parallel with one another, driven by vibrating motors branch road and slush pump to drive branch road, access main line, one end after described remote control branch road, driven by vibrating motors branch road and slush pump driving branch circuit parallel connection, the other end is connected with one end of signal projector B, and the other end of signal projector B is connected with the other end of open phase relay A；The one end selecting switch S3 is connected with signal projector B, and the other end drives branch road to be connected with remote control branch road, driven by vibrating motors branch road and slush pump respectively；Signal projector B is connected by signal with remote controller；

Described remote control branch road includes after signal projector C, relay K A1, time relay KT1 and auxiliary reclay KA1, relay K A1 connect with time relay KT1 in parallel with auxiliary reclay KA1, and auxiliary reclay KA1 connects with signal projector C；One end of described remote control branch road is connected with selecting switch S3, and the other end is connected with main line；

Described slush pump drives branch road to include hand switch S5, hand switch S6, A.C. contactor KM1-1, time relay KT2, overheat protector FR1, time relay KT1 and auxiliary reclay KA1; hand switch S6, A.C. contactor KM1-1 and time relay KTI are connected in parallel rear one end and are connected with one end of hand switch S5, and the other end of hand switch S5 is connected with selecting switch S3；Hand switch S6, A.C. contactor KM1-1 and time relay KTI be connected in parallel after the other end be connected with one end of overheat protector FR1; after time relay KT2 and A.C. contactor KM1-1 parallel connection, one end is connected with the other end of overheat protector FR1, and time relay KT2 and the other end after A.C. contactor KM1-1 parallel connection are connected with main line；

Described driven by vibrating motors branch road includes hand switch S7, hand switch S8, A.C. contactor KM2, time relay KT1, overheat protector FR2, overheat protector FR3, A.C. contactor KM2 and A.C. contactor KM3; hand switch S8, A.C. contactor KM2 and time relay KTI are connected in parallel rear one end and are connected with one end of hand switch S7, and the other end of hand switch S7 is connected with selecting switch S3；After overheat protector FR2 and overheat protector FR3 parallel connection one end be connected in parallel with hand switch S8, A.C. contactor KM2 and time relay KTI after the other end be connected; overheat protector FR2 connects with A.C. contactor KM2; the other end of A.C. contactor KM2 is connected with main line; overheat protector FR3 connects with A.C. contactor KM3, and the other end of A.C. contactor KM3 is connected with main line。

Hand switch S6, A.C. contactor KM1-1 and time relay KTI be connected in parallel after the other end be connected with one end of overheat protector FR1; after time relay KT2 and A.C. contactor KM1-1 parallel connection, one end is connected with the other end of overheat protector FR1, and time relay KT2 and the other end after A.C. contactor KM1-1 parallel connection are connected with main line。

The other end of signal projector B is connected with one end of emergency stop switch S1, and the other end of emergency stop switch S1 is connected with the other end of open phase relay A。

By the urgent disconnection of emergency stop switch S1, the impact that in the loop that reply causes such as other branch, short-circuits, manual remote control is driven module 4 to cause by the emergency case such as electric current increase suddenly, raising security performance。

Described slush pump is started by star delta circuit。

Slush pump needs to drive electric current, is started by star delta circuit, and dispersion reduces it and drives the electric current heat affecting to whole circuit, it is to avoid heat circuit caused due to life-time service is too high and easily burns out circuit, improves the safety of circuit。

The described main line controlled between switch QF1 and open phase relay A is serially connected with ammeter A。Detected the electric current in control circuit by ammeter A, for electric current too low or too high time take in time to remedy mode accordingly, improve work efficiency。

The two ends of described remote control branch road are parallel with warning lamp L1, L2, L3, L4, and warning lamp L2, L3, L4 concatenate with overheat protector FR1, overheat protector FR2, overheat protector FR3 respectively on respective branch road；Electric fuse F1 it is serially connected with between warning lamp L1 and open phase relay A。During sand separator normal operation, warning lamp L1 is bright；When driven by vibrating motors branch road or slush pump drive branch road to go wrong, corresponding warning lamp L4, L2, L3 are bright, and maintainer can carry out specific aim maintenance, improve maintenance efficiency。

Know-why of the present utility model is described above in association with specific embodiment。These describe and are intended merely to explanation principle of the present utility model, and can not be construed to the restriction to this utility model protection domain by any way。Based on explanation herein, those skilled in the art need not pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes fall within protection domain of the present utility model。

Claims (6)

1. the mud sand separator that remote control manual control has concurrently, described mud sand separator is provided with the vibrating motor utilizing exciting source to produce to vibrate and the slush pump for extracting mud；The operating circuit driving described vibrating motor and slush pump is the control circuit with Non-follow control and two kinds of control modes of remote control, described control circuit includes power module, slush pump drives module, driven by vibrating motors module and manual remote control drive module, described slush pump drives module and two described driven by vibrating motors modules to be connected in parallel on respectively on main line, the one end on described main line electrically connects with power module, the other end with described manual remote control drive module to electrically connect。

2. the mud sand separator that a kind of remote control manual control according to claim 1 has concurrently, it is characterized in that: described power module is three phase mains, described three phase mains is connected with the one end controlling switch QF1, the other end controlling switch QF1 is connected with one end of open phase relay A, the other end of open phase relay A with manual remote control drive module to be connected, described slush pump is connected into after driving module and two described driven by vibrating motors wired in parallel and controls to switch the main line between QF1 and open phase relay A；

Described slush pump drives module include being sequentially connected in series slush pump M together, overheat protector FR1, A.C. contactor KM1-1 and control switch QF2, and the other end controlling switch QF2 accesses main line；

Two described driven by vibrating motors modules include the vibrating motor M, overheat protector FR2, the A.C. contactor KM2 that are sequentially connected in series together and control switch QF3, and the other end controlling switch QF3 accesses main line；

Described manual remote control drive module to include remote control branch road parallel with one another, driven by vibrating motors branch road and slush pump to drive branch road, access main line, one end after described remote control branch road, driven by vibrating motors branch road and slush pump driving branch circuit parallel connection, the other end is connected with one end of signal projector B, and the other end of signal projector B is connected with the other end of open phase relay A；The one end selecting switch S3 is connected with signal projector B, and the other end drives branch road to be connected with remote control branch road, driven by vibrating motors branch road and slush pump respectively；Signal projector B is connected by signal with remote controller；

Described remote control branch road includes after signal projector C, relay K A1, time relay KT1 and auxiliary reclay KA1, relay K A1 connect with time relay KT1 in parallel with auxiliary reclay KA1, and auxiliary reclay KA1 connects with signal projector C；One end of described remote control branch road is connected with selecting switch S3, and the other end is connected with main line；

Described slush pump drives branch road to include hand switch S5, hand switch S6, A.C. contactor KM1-1, time relay KT2, overheat protector FR1, time relay KT1 and auxiliary reclay KA1; hand switch S6, A.C. contactor KM1-1 and time relay KTI are connected in parallel rear one end and are connected with one end of hand switch S5, and the other end of hand switch S5 is connected with selecting switch S3；Hand switch S6, A.C. contactor KM1-1 and time relay KTI be connected in parallel after the other end be connected with one end of overheat protector FR1; after time relay KT2 and A.C. contactor KM1-1 parallel connection, one end is connected with the other end of overheat protector FR1, and time relay KT2 and the other end after A.C. contactor KM1-1 parallel connection are connected with main line；

Described driven by vibrating motors branch road includes hand switch S7, hand switch S8, A.C. contactor KM2, time relay KT1, overheat protector FR2, overheat protector FR3, A.C. contactor KM2 and A.C. contactor KM3; hand switch S8, A.C. contactor KM2 and time relay KTI are connected in parallel rear one end and are connected with one end of hand switch S7, and the other end of hand switch S7 is connected with selecting switch S3；After overheat protector FR2 and overheat protector FR3 parallel connection one end be connected in parallel with hand switch S8, A.C. contactor KM2 and time relay KTI after the other end be connected; overheat protector FR2 connects with A.C. contactor KM2; the other end of A.C. contactor KM2 is connected with main line; overheat protector FR3 connects with A.C. contactor KM3, and the other end of A.C. contactor KM3 is connected with main line。

Hand switch S6, A.C. contactor KM1-1 and time relay KTI be connected in parallel after the other end be connected with one end of overheat protector FR1; after time relay KT2 and A.C. contactor KM1-1 parallel connection, one end is connected with the other end of overheat protector FR1, and time relay KT2 and the other end after A.C. contactor KM1-1 parallel connection are connected with main line。

3. the mud sand separator that a kind of remote control manual control according to claim 2 has concurrently, it is characterised in that: the other end of signal projector B is connected with one end of emergency stop switch S1, and the other end of emergency stop switch S1 is connected with the other end of open phase relay A。

4. the mud sand separator that a kind of remote control manual control according to claim 2 has concurrently, it is characterised in that: described slush pump is started by star delta circuit。

5. the mud sand separator that a kind of remote control manual control according to claim 2 has concurrently, it is characterised in that: the described main line controlled between switch QF1 and open phase relay A is serially connected with ammeter A。

6. the mud sand separator that a kind of remote control manual control according to claim 2 has concurrently; it is characterized in that: the two ends of described remote control branch road are parallel with warning lamp L1, L2, L3, L4, warning lamp L2, L3, L4 concatenate with overheat protector FR1, overheat protector FR2, overheat protector FR3 respectively on respective branch road；Electric fuse F1 it is serially connected with between warning lamp L1 and open phase relay A。