CN105300165A - Washing device for condenser - Google Patents

Abstract

The invention discloses a washing device for a condenser. The washing device comprises a ball serving pump, a ball serving device and a ball receiving device; the ball serving device is a three-way fluid transportation device capable of generating negative pressure for absorption; the water outlet end of the ball serving pump is connected with the first input end of the ball serving device, and the output end of the ball serving device is used for being connected with the water inlet end of the condenser to be washed through a ball serving pipe; and the input end of the ball receiving device is used for being connected with the water outlet end of the condenser to be washed, and the first output end of the ball receiving device is connected with the second negative pressure input end of the ball serving device. By means of the washing device, the ball serving pump is matched with the three-way fluid transportation device (ball serving device) capable of generating the negative pressure for absorption, so that ball and pump separation is achieved, and the service life of washing balls is greatly prolonged; and meanwhile, through the above matched arrangement, the washing device has the obvious energy-saving effect and is suitable for application and popularization.

Description

A kind of chiller cleaning unit

Technical field

The present invention relates to cleaning device field, particularly, relate to a kind of chiller cleaning unit.

Background technology

Condenser is in running, and along with the splashing of cooling tower is evaporated, cycles of concentration rises, and easily becomes the calcium ions and magnesium ions content of dirt more and more higher in cooling circulating water.When cooling water flow is when the heat exchanger tube of condenser, form hardness dirt.The oxygen be dissolved in cooling water also can cause metal erosion, and corrosion product iron rust forms rust deposite.The glutinous mud that dust in air enters into circulation and microbial metabolism generation along with cooling tower forms dirt.In cooling circulating water, the slowest place of flow velocity is exactly the heat exchanger tube of condenser, and these hardness dirt, rust deposite and dirts form compound scale in condenser heat-exchange pipes, cause condenser heat transfer effect to decline, when fouling is serious, meeting cramming, makes heat transfer effect ineffective.

There is a lot of problem when cleaning equipment in cleaning way traditional for a long time such as mechanical means (scrape, brush), water under high pressure, Chemical cleaning (pickling) etc.: needs stop cleaning; Mechanical cleaning, to the destruction of Water in Condenser side ducts diaphragm, thoroughly can not remove the deposits such as incrustation scale; Chemical cleaning acid solution causes corrosion to form leak to equipment, and residual acid produces anticaustic or underdeposit corrosion to material, finally causes more exchange device, and in addition, cleaning waste liquid is poisonous, needs substantial contribution to carry out wastewater treatment.

Chiller cleaning unit is injected into by the rotating wash bowl of some in the water side heat exchanger tube of condenser, by doing mechanical wiping to condenser heat-exchange pipes inside pipe wall, so ceaselessly condensation copper pipe inwall is cleaned, make the dirt in water, incrustation scale, bacterium algae have no chance copper pipe inwall attachment, cleaning rate 100%.Pollution-free, radiationless, corrosion-free, improve the service life of main frame and water system metalwork.And without the need to shutting down, do not affect the continuous operation of condenser.

Its working mechanism selects suitable sponge glueballs, the hygrometric state diameter of ball than by scavenge pipe internal diameter more bigger (about 1-2mm), and hygrometric state proportion and aqueous phase near.Glueballs, under the current slightly higher than circulating water intake pressure drive, enters condenser.Because of the elastomer that glueballs is micropore softness more than, under the effect of recirculated water inlet and outlet pressure difference, be extruded by cooling tube, once wiping is smeared to cooling tube internal diameter, inside pipe wall dirt is taken out of with current, glueballs enters ball collecting device with recirculated water through outlet pipe, under the obstruction of ball screen plate, glueballs is separated, extracted out by Rubber ball pump and come back to condenser, so move in circles to condenser realization cleaning automatically continuously.

Current chiller cleaning unit is divided into following two classes:

1, Rubber ball pump continuous wash type: adopt the Rubber ball pump of large runner as cleaning power source, ball supercharging together with the water in system of the ball collecting device expert machine of leaving condenser water end is delivered to the water inlet end of condenser, rotating wash bowl enters in the heat exchanger tube of Water in Condenser side and cleans together with cooling water.Circulate and so forth.Glueballs delivery pump is the power-equipment making glueballs carry out constantly circulation in rubber ball cleaning system.This pump is a special accessible centrifugal pump, and its two panels impeller forms tubular conduit.It has the advantages that not block ball.There is the feature of wide runner, the slow-speed of revolution, little, the applicable long-time continuous operation of volume simultaneously.But Rubber ball pump will have enough lifts and flow, pump inlet tube connector is tight, normally runs to keep rubber ball cleaning system.Installed power and operate power high, and glueballs with also in the pump housing, frictional impact can be produced with impeller and cause glueballs to damage.Thus run power consumption and glueballs loss high.

2, centrifugal water pump single is interrupted cleaning-type: during cleaning, will store up ball device and centrifugal pump water inlet end valve closing, by the water of centrifugal pump supercharging, the cleaning glueballs be stored in ball device is headed into the water inlet end of condenser.Ball collecting device is entered into after rubber ball cleaning.After completing once cleaning, then start second water pump and be drawn into Chu Qiuqi through the glueballs be stored in ball collecting device.Switching electrically operated valve and water pump complete cleaning and receive ball and so forth.This type of cleaning device needs the frequent water pump and the motor-driven valve that switch and open and close correspondence, and service life is short, and cannot complete continuous wash.

As can be seen here, above-mentioned existing chiller cleaning unit, in structure, method and use, obviously still has inconvenience and defect, and is urgently further improved.How to found and a kind ofly extend rotating wash bowl service life, continuous wash can be realized and automatically receive the chiller cleaning unit of ball, become the target that current industry pole need be improved.

Summary of the invention

The technical problem to be solved in the present invention is to provide and a kind ofly extends rotating wash bowl service life, can realize continuous wash and automatically receive the chiller cleaning unit of ball.

For solving the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of chiller cleaning unit, comprise service pump, service robot, ball collecting device, described service robot is the triplet type fluid conveyor that can produce negative-pressure adsorption; The described water side of service pump is connected with the first input end of service robot, and the output of described service robot is used for being connected with the water inlet end of condenser to be cleaned by service pipe; The input of described ball collecting device is used for being connected with the water side of condenser to be cleaned, and the first output of described ball collecting device is connected with negative pressure second input of service robot.

Further, also comprise Chu Qiuqi and be arranged on the receipts ball actuator storing up ball device output, described receipts ball actuator is the headstock gear with filtering rotating wash bowl function;

Described storage ball device and receipts ball actuator are connected between the first output of ball collecting device and negative pressure second input of service robot; Or described storage ball device and receive ball actuator and be connected on the service pipe of the output of service robot.

Further, between first output and negative pressure second input of service robot of described ball collecting device, also arrange the ball-distributer being built-in with filter screen, the water inlet end of described service pump is also connected with the water side of described ball-distributer;

Described cleaning device also comprises Chu Qiuqi and is arranged on the receipts ball actuator of storage ball device output, and described receipts ball actuator is the headstock gear with filtering rotating wash bowl function;

Described storage ball device and receipts ball actuator are connected on the service pipe of the output of service robot; Or described storage ball device and receive ball actuator and be connected between negative pressure second input pommel and service robot of ball-distributer; Or described storage ball device and receive ball actuator and be connected between the first output of ball collecting device and the input of ball-distributer.

Further, described receipts ball actuator adopts orifice plate type valve.

Further, described storage ball device is for having visual function and openable medium storage.

Further, described storage ball device adopts visor.

Further, also comprise electric cabinet, described electric cabinet is with service pump and receive ball actuator and be connected.

Further, described ball collecting device is built-in with the filter screen that can retain rotating wash bowl, and described ball collecting device is also provided with the second water side.

Further, described service robot adopts ejector.

By adopting technique scheme, the present invention at least has the following advantages:

1, the present invention adopts service pump to coordinate with the triplet type fluid conveyor (service robot) producing negative-pressure adsorption, achieve ball pump to be separated, no matter cleaning or receiving in ball process, rotating wash bowl does not all contact with service pump, substantially prolongs the service life of rotating wash bowl.

2, by arranging electric cabinet, coordinating with receipts ball actuator, pump of serving a ball, Automatic continuous cleaning can be realized and automatically receive ball.

Water from the supercharging of service pump is delivered to service pipe by the service robot 3, producing negative pressure in the present invention together with the ball water mixed liquid of suction bulb, and the flow of pump of thus serving a ball reduces by 50%, thus the installed power of correspondence and operation power consumption reduce by 50%.Package unit is without pressure relief facility, and flow speed stability, pump lift of thus serving a ball reduces about 25% compared with the lift of legacy equipment.Overall operation power consumption reduces about 75%, has obvious energy-saving effect.

Accompanying drawing explanation

Above-mentioned is only the general introduction of technical solution of the present invention, and in order to better understand technological means of the present invention, below in conjunction with accompanying drawing and detailed description of the invention, the present invention is described in further detail.

Fig. 1-Fig. 5 is the structural representation of 5 kinds of multi-form chiller cleaning units of the present invention.

Detailed description of the invention

As shown in Figure 1, a kind of chiller cleaning unit of the present invention, comprise service pump 7, service robot 3, ball collecting device 2, service robot 3 is the triplet type fluid conveyor that can produce negative-pressure adsorption, as selected ejector.The water side of service pump 7 is connected with the first input end of service robot 3, and the output of service robot 3 is used for being connected with the water inlet end of condenser 1 to be cleaned by service pipe 11; The input of ball collecting device 2 is used for being connected with the water side of condenser 1 to be cleaned, and the first output of ball collecting device 2 is connected with negative pressure second input of service robot 3.

The water inlet water source of above-mentioned service pump 7 can connect water intaking from the water inlet pipe and water outlet pipe of condenser 1 or fetch water from the water source of other outside.During cleaning condenser 1, service pump 7 starts, water supercharging is delivered to service robot 3 by it, service robot 3 along with the water of service pump 7 supercharging pass through time, produce negative pressure, rotating wash bowl is sucked service robot 3 by negative pressure second input, is sent to the water inlet pipe network of condenser 1, rotating wash bowl enters in condenser the compound dirt cleaned in water side ducts on pipeline along with the water inlet end current of condenser 1, cleans dirt out and rotating wash bowl along with current to flow out from condenser 1 water side.The rotating wash bowl flowed out enters into ball collecting device 2 and is retained down, along with the running water suction of service pump 7, the rotating wash bowl entering ball collecting device 2 finally enters into service robot 3 along with water movement, circulate and so forth, until eliminate the dirt in condenser 1 water side ducts, condenser 1 returns to setting operating condition, completes a cleaning frequency.The present invention, by above-mentioned setting, achieves ball pump and is separated, and rotating wash bowl does not contact all the time with service pump, substantially prolongs the service life of rotating wash bowl, and is equipped with due to above-mentioned, have obvious energy-saving effect.

In the above-described embodiments, in order to make this cleaning device can complete cleaning and receive ball function simultaneously, can arrange in a device and receive ball actuator 4 and storage ball device 5, receipts ball actuator 4 is the headstock gear with mechanical filter rotating wash bowl function, as adopted orifice plate type valve.Store up ball device 5 for there is visual function and the medium storage that can open at any time, as visor.Wherein receive the output that ball actuator 4 need be arranged on storage ball device 5, the optional position between the first output and negative pressure second input of service robot 3 that can be placed into ball collecting device 2 but receipts ball actuator 4 and storage ball device 5 combine, its concrete annexation is: the first output of ball collecting device 2 is connected by the input of return of serve pipe 9 with storage ball device 5, and the output of storage ball device 5 is connected with negative pressure second input of service robot 3 by inhaling bulb 10.Above-mentioned receipts ball actuator 4 and storage ball device 5 combine also can be placed into and serve a ball on the optional position of pipe 11, and now the output of service robot 3 is connected (coordinating shown in Fig. 2) with the input of storage ball device 5.

When cleaning, the water inlet water source of service pump 7 adopts external water source, above-mentioned receipts ball actuator 4 is in closed condition (water now in storage ball device 5 and rotating wash bowl all enter service robot 3 by receiving ball actuator 4 and then are recycled in the pipe network of whole device); When clean complete need to receive ball time, start service pump 7, and make above-mentioned receipts ball actuator 4 be in opening (now only allowing the water in storage ball device 5 enter service robot 3 by receiving ball actuator 4 and then be recycled in the pipe network of condenser 1); Water supercharging is delivered to service robot 3 by pump 7 of now serving a ball, service robot 3 along with the water of service pump 7 supercharging pass through time, produce negative pressure, by resting in the pipe network of whole device, the rotating wash bowl of condenser 1 water side ducts, ball collecting device 2 li is drawn in storage ball device 5, thus collected by rotating wash bowl in storage ball device 5.Along with the continuous operation of service pump 7, progressively all rotating wash bowls are collected in storage ball device 5.

Coordinate shown in Fig. 3,4,5, in the above-described embodiments, in cleaning device, also ball-distributer 6 can be set, its built-in machines screen pack, ball-distributer 6 is arranged between the first output of ball collecting device 2 and negative pressure second input of service robot 3, now, the water inlet end of service pump 7 is also connected with the water side of ball-distributer 6, using the water source in ball-distributer 6 as resource of water supply.Now, store up ball device 5 and receive ball actuator 4 and can be connected to (Fig. 5) on the service pipe 11 of the output of service robot 3; Or storage ball device 5 and receive between negative pressure second input going out pommel and service robot 3 that ball actuator 4 can be connected to ball-distributer 6 (Fig. 3); Or storage ball device 5 and receive ball actuator 4 and can be connected to (Fig. 4) between the first output of ball collecting device 2 and the input of ball-distributer 6, namely ensure that rotating wash bowl can not enter service pump 7.

During work, the large water gaging of ball-distributer 6 directly enters into the water inlet end of service pump 7 from ball-distributer 6 water side.

Be adopt manual operation cleaning in above-described embodiment, manual operation receives ball actuator 4 and service pump 7.In order to realize the automatic control of whole cleaning device, cleaning device can also comprise electric cabinet 8, and electric cabinet 8 is with service pump 7 and receive ball actuator 4 and be connected, and controls its action.

In above-mentioned lonely device cleaning device, ball collecting device 2 is built-in with the filter screen that can retain rotating wash bowl, and ball collecting device 2 is also provided with the second water side, by above-mentioned setting, can realize automatic cleaning during condenser on-line operation.

Operation principle and the course of work of whole cleaning device is described in detail below in conjunction with above-mentioned optimum embodiment.

Cleaning process:

When condenser 1 needs cleaning, receipts ball actuator 4 is in closed condition, electric cabinet 8 starts service pump 7, water supercharging is delivered to service robot 3 from ball-distributer 6 by service pump 7, service robot 3 along with the water of service pump 7 supercharging pass through time, produce negative pressure, the rotating wash bowl stored in storage ball device 5 is sucked service robot 3, be sent to the water inlet pipe network of condenser 1, rotating wash bowl enters in condenser the compound dirt cleaned in water side ducts on pipeline along with the water inlet end current of condenser 1, cleans dirt out and rotating wash bowl along with current to flow out from condenser 1 water side.The rotating wash bowl flowed out enters into ball collecting device 2, along with the running water suction of service pump 7, the rotating wash bowl entering ball collecting device 2 along with current successively by ball-distributer 6, storage ball device 5, receive ball actuator 4 and enter into service robot 3, circulate and so forth, until eliminate the dirt in condenser 1 water side ducts, condenser 1 returns to setting operating condition, completes a cleaning frequency.

Receive ball process:

After cleaning process, electric cabinet 8 is opened and is received ball actuator 4, enters into and receives ball process.Water supercharging is delivered to service robot 3 from ball-distributer 6 by service pump 7, service robot 3 along with the water of service pump 7 supercharging pass through time, produce negative pressure, by rest on the pipe network of whole device, condenser 1 water side ducts, ball collecting device 2, ball-distributer 6 li rotating wash bowl be drawn in storage ball device 5, owing to receiving ball actuator 4 when opening, the water in storage ball device 5 is only allowed to be recycled to by entering into service robot 3 in the pipe network of whole device, rotating wash bowl not by receiving ball actuator 4, thus is collected in storage ball device 5 by rotating wash bowl.Along with the continuous operation of service pump 7, progressively all rotating wash bowls are collected in storage ball device 5.Now, service pump 7 closed automatically by electric cabinet 8, receives ball actuator 4 simultaneously and is in opening.Receive ball process to complete.

Prescribe a time limit when condenser 1 operating condition reaches in setting operating mode, repeat above-mentioned cleaning process and receive ball process.

When after operation a period of time, the outward appearance of rotating wash bowl can be observed from storage ball device 5, after rotating wash bowl wearing and tearing, open storage ball device 5, take out the rotating wash bowl of damage, and add new rotating wash bowl.

The above; it is only preferred embodiment of the present invention; not do any pro forma restriction to the present invention, those skilled in the art utilize the technology contents of above-mentioned announcement to make a little simple modification, equivalent variations or modification, all drop in protection scope of the present invention.

Claims (9)

1. a chiller cleaning unit, is characterized in that, comprise service pump, service robot, ball collecting device, described service robot is the triplet type fluid conveyor that can produce negative-pressure adsorption;

The described water side of service pump is connected with the first input end of service robot, and the output of described service robot is used for being connected with the water inlet end of condenser to be cleaned by service pipe;

The input of described ball collecting device is used for being connected with the water side of condenser to be cleaned, and the first output of described ball collecting device is connected with negative pressure second input of service robot.

2. chiller cleaning unit according to claim 1, is characterized in that, also comprises Chu Qiuqi and is arranged on the receipts ball actuator storing up ball device output, and described receipts ball actuator is the headstock gear with filtering rotating wash bowl function;

Described storage ball device and receipts ball actuator are connected between the first output of ball collecting device and negative pressure second input of service robot; Or described storage ball device and receive ball actuator and be connected on the service pipe of the output of service robot.

3. chiller cleaning unit according to claim 1, it is characterized in that, between first output and negative pressure second input of service robot of described ball collecting device, also arrange the ball-distributer being built-in with filter screen, the water inlet end of described service pump is also connected with the water side of described ball-distributer;

Described cleaning device also comprises Chu Qiuqi and is arranged on the receipts ball actuator of storage ball device output, and described receipts ball actuator is the headstock gear with filtering rotating wash bowl function;

Described storage ball device and receipts ball actuator are connected on the service pipe of the output of service robot; Or described storage ball device and receive ball actuator and be connected between negative pressure second input pommel and service robot of ball-distributer; Or described storage ball device and receive ball actuator and be connected between the first output of ball collecting device and the input of ball-distributer.

4. the chiller cleaning unit according to Claims 2 or 3, is characterized in that, described receipts ball actuator adopts orifice plate type valve.

5. the chiller cleaning unit according to Claims 2 or 3, is characterized in that, described storage ball device is for having visual function and openable medium storage.

6. chiller cleaning unit according to claim 5, is characterized in that, described storage ball device adopts visor.

7. the chiller cleaning unit according to Claims 2 or 3, is characterized in that, also comprises electric cabinet, and described electric cabinet is with service pump and receive ball actuator and be connected.

8. chiller cleaning unit according to claim 1, is characterized in that, described ball collecting device is built-in with the filter screen that can retain rotating wash bowl, and described ball collecting device is also provided with the second water side.

9. chiller cleaning unit according to claim 1, is characterized in that, described service robot adopts ejector.