CN108548449A - A kind of unpowered on-line cleaning device - Google Patents

Abstract

The invention discloses a kind of unpowered on-line cleaning devices, are related to cleaning device technical field, including service robot and ball collecting device, and service robot is laminar-flow type ejector；The first input end of service robot with water inlet pipe for connecting, and for directly being connect with the water inlet end interface of device to be cleaned, shape and size and the water inlet end interface of the interface of outlet end match the interface at the jet exit end of service robot；For being connect with the water outlet of device to be cleaned, the ball water output end of ball collecting device and the second input terminal of negative pressure of service robot connect the input terminal of ball collecting device.The present invention cancels existing Rubber ball pump or flushing water pump, dedicated service robot is installed in the water inlet end interface of cleaned device, glueballs, which will be cleaned, by mode of jet injects cleaned device, utilize the principle of jet stream and the pressure of system itself, online wash cycles can not be can be achieved with by additional power source, energy-saving effect is notable, and makes glueballs is relatively uniform to be input to cleaned device, to improve cleaning efficiency.

Description

A kind of unpowered on-line cleaning device

Technical field

The present invention relates to cleaning device technical fields, more particularly to a kind of unpowered on-line cleaning device.

Background technology

Condenser in the process of running, is evaporated with the splashing of cooling tower, and cycles of concentration rises, in cooling circulating water easily at The calcium ions and magnesium ions content of dirt is higher and higher.When cooling water flows through the heat exchanger tube of condenser, hardness dirt is formed.It is dissolved in cooling water In oxygen can also cause metal erosion, corrosion product iron rust forms rust deposite.Dust in air enters cycle with cooling tower The glutinous mud that water system and microbial metabolism generate forms dirt.In cooling circulating water, the most slow place of flow velocity is exactly condenser Heat exchanger tube, these hardness dirt, rust deposite and dirt form compound scale in condenser heat-exchange pipes, cause under condenser heat transfer effect Drop, can block pipe, keep heat transfer effect ineffective when fouling is serious.

Cleaning way traditional for a long time such as mechanical means (scrape, brush), high pressure water, chemical cleaning (pickling) etc. pair are being set There are many problems when standby cleaning：Need stop cleaning；Destruction of the mechanical cleaning to Water in Condenser side ducts protective film, cannot be thorough Remove the deposits such as incrustation scale；Chemical cleaning acid solution causes corrosion to form loophole equipment, and remaining acid generates secondary corruption to material Erosion or underdeposit corrosion, eventually lead to more exchange device, in addition, cleaning waste liquid is toxic, substantial contribution are needed to carry out wastewater treatment.

Chiller cleaning unit is that a certain number of rotating wash bowls are injected into the water side heat exchanger tube of condenser, by cold Condenser heat exchange tube inner wall makees machinery wiping, is ceaselessly cleaned in this way to condensation copper pipe inner wall, makes dirt in water, incrustation scale, bacterium Algae has no chance to adhere in copper pipe inner wall, cleaning rate 100%.It is pollution-free, radiationless, corrosion-free, improve host and water system gold Belong to the service life of part.And without shutting down, the continuous operation of condenser is not influenced.

Its working mechanism is to select suitable sponge glueballs, the hygrometric state diameter of ball more bigger than cleaned bore (about 1-2mm), and hygrometric state proportion and water phase are close.Glueballs is in the case where the flow more slightly higher than circulating water intake pressure drives, into condensation Device.Because glueballs is the elastomer of the softness of micropore more than one, under the action of recirculated water inlet and outlet pressure difference, it is squeezed through cooling Pipe once smears wiping to cooling bore progress, so that inside pipe wall dirt is taken out of with flow, glueballs enters receipts with recirculated water through outlet pipe Ball device separates glueballs under the obstruction of ball screen plate, comes back to condenser by glueballs pumped, so recycles past It is multiple that continuous automatic cleaning is realized to condenser.

Chiller cleaning unit is divided into following two class at present：

1, Rubber ball pump continuous wash type：Using the Rubber ball pump of big runner as cleaning power source, by leaving condenser water end Water in the ball and system of ball collecting device expert's machine is pressurized the water inlet end for being sent to condenser together, and rotating wash bowl and cooling water enter together It is cleaned in the heat exchanger tube of Water in Condenser side.So on circulate.Glueballs delivery pump is to carry out glueballs in rubber ball cleaning system The power-equipment constantly recycled.The pump is a dedicated accessible centrifugal pump, and two panels impeller constitutes tubular conduit.It has Not the characteristics of not blocking ball.Have the characteristics that wide runner, the slow-speed of revolution, small, suitable long-time continuous operation simultaneously.But Rubber ball pump There are enough lift and flow, pump inlet connecting tube is tight, to keep rubber ball cleaning system normal operation.Installed power and fortune Row power is high, and glueballs with also glueballs can be caused to damage with impeller generation frictional impact in the pump housing.Thus operation power consumption and glue Ball loss is high.

2, centrifugal water pump single is interrupted cleaning-type：When cleaning, will storage ball device and centrifugal pump water inlet end valve close, by from The cleaning glueballs being stored in ball device is headed into the water inlet end of condenser by the water of heart pump supercharging.It is entered after rubber ball cleaning Ball collecting device.After completing primary cleaning, then starts second glueballs of the water pump through being stored in ball collecting device and be drawn into Chu Qiuqi.Such as This reciprocal switching electrically operated valve and water pump complete cleaning and receive ball.Such cleaning device needs frequent switching and opens and closes corresponding water pump And motor-driven valve, service life is short, and can not complete continuous wash.

Main problem existing for on-line cleaning device at present：

1, operation energy consumption is high：Glueballs formula on-line cleaning device is all by Rubber ball pump or flushing water pump by water, glueballs at present Or the mixed liquor of glueballs and water is transported to the entrance of cleaned device and is cleaned to cleaned device.

2, cleaning efficiency is low：Glueballs is in turbulence state in cleaned device water inlet end, and cleaned device water inlet pipe is small In the water inlet port of cleaned object, it can only clean what cleaned device centre was connected with water inlet pipe so as to cause cleaning glueballs Partial objects, and the cleaning object for being more than water inlet tube portion for being cleaned device water inlet end cannot achieve on-line cleaning, thus Cleaning performance is poor.

It can be seen that how to found the on-line cleaning device that a kind of operation energy consumption is low, cleaning efficiency is high, become current industry Boundary pole needs improved target.

Invention content

That the object of the present invention is to provide a kind of operation energy consumptions is low, cleaning efficiency is high and is capable of the unpowered online of continuous wash Cleaning device.

To achieve the above object, the present invention adopts the following technical scheme that：

The present invention provides a kind of unpowered on-line cleaning device, including service robot and ball collecting device, and the service robot is laminar flow Formula ejector；

The first input end of the service robot for being connect with water inlet pipe, use by the interface at the jet exit end of the service robot It is connect in the water inlet end interface with device to be cleaned, the water inlet end interface is the interface for being connect with end cap, the outlet The shape and size of the interface at end match with the water inlet end interface；

The input terminal of the ball collecting device with the water outlet of device to be cleaned for connecting, the ball water output end of the ball collecting device It is connect with the second input terminal of negative pressure of service robot.

The water inlet end interface of the present invention is the interface for being connect with end cap, refers to removing the end cap on device to be cleaned Afterwards, the interface at jet exit end is directly installed on the position of original installation end cap.

Further, it is also associated with ball between the ball water output end of the ball collecting device and the second input terminal of negative pressure of service robot Separator, the ball water output end of the ball collecting device and ball separator are connected by receiving bulb, the negative pressure of the service robot the Two input terminals are connected with the first water outlet of ball separator by service pipe.

Further, it is provided with note ball valve on the receipts bulb, sphere-lok and check valve, institute is provided in the service pipe The water outlet for stating check valve flows to the service robot.

Further, first water outlet is arranged on ball separator top.

Further, the ball separator is spherical, cube or cone.

Further, it is also associated between the service robot and the second water outlet of the ball separator and receives ball cleaning Pipe, the ball separator are prevented in being internally provided with for the second water outlet for preventing cleaning glueballs from entering the first of the cleaning pipe Protection unit is provided with receipts ball valve in the receipts ball cleaning pipe.

Further, second water outlet is arranged in the lower part of the ball separator, and the receipts ball cleaning pipe passes through Three-way connection is connect with the service pipe, valveless between the second input terminal of negative pressure of the three-way interface and the service robot.

Further, the bottom of the ball separator is provided with sewage draining exit, inside the sewage draining exit of the ball separator It is provided with the second protective device, the sewage draining exit is externally connected with blow-off pipe, blowdown valve is provided on the blow-off pipe.

Further, first protective device and the second protective device are protection network.

Further, the service robot is laminar jet device.

Further, the interface of the outlet end of the service robot is horn-like, at horn-like wide opening with it is described with wait for it is clear The water inlet end Interference fit of cleaning device connects.

Further, the ball collecting device is T-type, Y types or conical filter.

Further, it is additionally provided with discharge outlet on the ball collecting device.

Due to the adoption of the above technical scheme, the present invention has at least the following advantages：

(1) present invention cancels Rubber ball pump or flushing water pump in the prior art, in the water inlet end interface peace of cleaned device Dedicated service robot, preferably ejector are filled, will clean glueballs by mode of jet injects cleaned device, utilizes the original of jet stream The pressure of reason and system itself completes on-line cleaning, since ejector is directly installed on water end interface, in the work of ejector Under, the pressure at the second input port of service robot quickly reduces, and is more than so as to cause the ball water output end pressure of ball collecting device Pressure at second input port of service robot, to which the glueballs of cleaning and water are flowed into service robot under the action of pressure difference, It is cleaned to be injected into cleaned device.Cleaning glueballs is set not can be achieved with recycling online by additional power source Cleaning, energy-saving effect is notable, while the interface of laminar jet device outlet end is directly connect with the water inlet end of cleaned device, outlet Diffuser is formed between water inlet end interface at the interface at end and the jet exit of ejector, makes glueballs is relatively uniform to be input to Cleaned device, to complete effectively cleaning.

(2) service robot of the invention is preferably laminar jet device, and the fluid state of the outlet of ejector is layer flow mode, The Interface Shape at jet exit end and the termination mouth-shaped of size and cleaned device are identical as size, to the work due to laminar flow With principle, realize that each cleaned pipe, realization full flow clean all cleaning glueballs evenly into cleaned device, significantly Improve cleaning efficiency.

(3) ball separator is arranged in the present invention between ball collecting device and service robot, can be completed by switching respective valves Ball work or rubber ball cleaning work are received in on-line cleaning work.

Description of the drawings

The above is merely an overview of the technical solutions of the present invention, in order to better understand the technical means of the present invention, below In conjunction with attached drawing, the present invention is described in further detail with specific implementation mode.

Fig. 1 is one embodiment figure of the unpowered on-line cleaning device of the present invention；

Fig. 2 is the structural schematic diagram of the service robot of the present invention；

Fig. 3 is another example structure schematic diagram of the ball separator of the present invention；

Fig. 4 is the further embodiment structural schematic diagram of the ball separator of the present invention.

Specific implementation mode

The present invention provides a kind of embodiment of unpowered on-line cleaning device, as shown in Figures 1 to 4, including 1 He of service robot Ball collecting device 3, service robot 1 are laminar-flow type ejector；The first input end of service robot 1 is used to connect with water inlet pipe 10, service robot 1 For the interface at jet exit end for being connect with the water inlet end interface of device 2 to be cleaned, water inlet end interface is for being connect with end cap Interface, the shape and size of the interface of outlet end and water inlet end interface match；The input terminal of ball collecting device 3 be used for it is to be cleaned The water outlet of device 2 connects, and the ball water output end of ball collecting device 3 is connect with the second input terminal of negative pressure of service robot 1.

In the use of the present invention, service robot, by water inlet tube of intaking, preferably pressure current is intake, and service robot passes through jet stream side Formula will clean glueballs and inject cleaned device, due to being mounted directly ejector in water inlet end interface, in the work of laminar-flow type ejector Under, the pressure at the second input port of service robot quickly reduces, and is more than so as to cause the ball water output end pressure of ball collecting device Pressure at second input port of service robot, to which the glueballs of cleaning and water are flowed into service robot under the action of pressure difference, It is cleaned to be injected into cleaned device.Cleaning glueballs is set not can be achieved with recycling online by additional power source Cleaning, energy-saving effect is notable, while the interface of ejector outlet end is directly connect with the water inlet end of cleaned device, outlet end At the jet exit of interface and ejector to water inlet end interface between form diffuser, make glueballs it is relatively uniform be input to it is clear Cleaning device, to complete effectively cleaning.

Service robot is laminar jet device, and the fluid state of the outlet of ejector is layer flow mode, and jet exit end connects Mouth-shaped and the end cap Interface Shape of size and cleaned device are identical as size, to the action principle due to laminar flow, realize All cleaning glueballs realize full flow cleaning, greatly improve cleaning efficiency evenly into cleaned device.

The water inlet end interface of the present invention is the interface for being connect with end cap, refers to removing the end cap on device to be cleaned Afterwards, the interface at jet exit end is directly installed on the position of original installation end cap.

As an improvement can also connect between the ball water output end of ball collecting device 3 and the second input terminal of negative pressure of service robot 1 It is connected to ball separator 4, the ball water output end and ball separator 4 of ball collecting device 3 can be connected by receiving bulb 5, service robot 1 First water outlet of the second input terminal of negative pressure and ball separator 4 can be connected by service pipe 6.

In use, service robot will clean glueballs by mode of jet and inject cleaned device, due in water inlet end Interface is mounted directly ejector, due to the jet action of service robot, under the action of ejector, and the second input port of service robot The pressure at place quickly reduces, and is more than the pressure at the second input port of service robot so as to cause the ball water output end pressure of ball collecting device Power carries out clearly to which the glueballs of cleaning and water are flowed into service robot under the action of pressure difference to be injected into cleaned device It washes.Cleaning glueballs is set not can be achieved with online wash cycles by additional power source, energy-saving effect is notable.

In order to facilitate the work of control on-line cleaning device, note ball valve 51 can be provided with by receiving on bulb 5, in service pipe 6 Sphere-lok 62 can be provided with.

Occur suck-back in order to prevent, check valve can be provided between service pipe 6 and the first water outlet of ball separator 4 61, the water outlet direction of check valve 61 flows to service robot 1.

Further, the first water outlet can be arranged on 4 top of ball separator.Since cleaning glueballs proportion is lighter than water, It is attached to ball separator top, cleaning glueballs is drawn into service pipe from ball separator top.

Further, ball separator 4 can be spherical, cube or cone, preferably cone structure form, ball separator It is equipped with automatic exhaust device example exhaust valve etc.；It (is received equipped with note ball mouth, the first water outlet (service interface tube), the second water outlet Ball cleans interface tube) and sewage draining exit；It is internally provided with the protective device for preventing glueballs from blow-off pipe and receiving the outflow of ball cleaning pipe, it is such as anti- Protecting wire net；The protective device of mesh form, mesh diameter is such as used to should be less than cleaning glueballs diameter, preferably less than clean glueballs The 50% of diameter.The internal diameter of total interface is not less than diameter of the cleaning glueballs when hygrometric state is run.

In order to facilitate rubber ball cleaning is carried out, can also be connected between service robot 1 and the second water outlet of ball separator 4 Ball cleaning pipe is received, ball separator 4 can be equipped in the inside of the second water outlet for preventing cleaning glueballs from entering cleaning pipe 7 First protective device 41 is received to be provided in ball cleaning pipe 7 and receives ball valve 71.

Cleaning glueballs, which enters, in order to prevent receives ball cleaning pipe, and the interface of cleaning pipe can be made to be less than the straight of cleaning glueballs Protective device, such as protection network can also be arranged in diameter.

Further, the second water outlet can be arranged in the lower part of ball separator 4, and three can be passed through by receiving ball cleaning pipe 7 Pass joint is connect with service pipe 6, valveless between the second input terminal of negative pressure of three-way interface and service robot 1.Receiving ball cleaning pipe 7 can Directly to be connect with service robot, can also be connected to in service pipe 6 to connect with service robot.

In order to facilitate the depositing contaminants in discharge ball separator, the bottom of ball separator 4 can be provided with sewage draining exit, The sewage draining exit of ball separator 4 is internally provided with the second protective device 41 ', and sewage draining exit is externally connected with blow-off pipe 8, on blow-off pipe 8 It is provided with blowdown valve 81.

Further, the first protective device 41 and the second protective device 41 ' can be protection network.First protective device 41 Can be mutually independent protection network with the second protective device 41 ', or integral protection network is connected, such as Fig. 3, Fig. 4 It is shown.

Further, the interface of the outlet end of service robot 1 be it is horn-like, at horn-like wide opening with device 2 to be cleaned Water inlet end Interference fit connection.

Further, ball collecting device 3 is T-type, Y types or conical filter.

It intakes for convenience into service robot, discharge outlet is additionally provided on ball collecting device 3, discharge outlet connects drainpipe 11.

Other valves in the present invention in addition to check valve be preferably can full tunnel operation valve such as ball valve, check valve is excellent It is selected as lift check valve, the destruction to avoid the valve plate in valve flowing channel to cleaning glueballs.If you need to automatic running, it is only necessary to match Corresponding PLC or microcontroller and the electrical control cabinet of relay class control are set, and the function that will need to realize automatic running Corresponding valve is set as motor-driven valve, pneumatic operated valve or solenoid valve etc..

Application method example is：

1, ball is noted：

It closes note ball valve, sphere-lok and receives ball valve, open blowdown valve, the note ball mouth on ball separator is opened, ball water Separator upper space is in anhydrous state, and cleaned glueballs is put into ball separator.

2, on-line cleaning：

Note ball valve and sphere-lok are opened, blowdown valve is closed and receives ball valve, when injecting water source, service robot is started to work, and is led to The cleaning glueballs sucking ejector that ball separator is floated on top by jet stream suction inlet is crossed, by laminar flow diffuser cleaning glueballs Equably it is input to cleaned device.To realize function of on-line cleaning；

3, ball is received：

Sphere-lok and blowdown valve are closed, note ball valve is opened and receives ball valve, at this time due to the jet action of service robot, by ball water The water of separator is injected into cleaned medium, to realize that ball collecting device, will be in ball collecting device to the pressure difference between ball separator Cleaning glueballs and water are drawn into ball separator.

4, rubber ball cleaning：

Sphere-lok and blowdown valve are closed, note ball valve is opened and receives ball valve, at this time due to the jet action of service robot, by ball water The water of separator is injected into cleaned medium, to realize that ball collecting device, will be in ball collecting device to the pressure difference between ball separator Cleaning glueballs and water are drawn into ball separator, and cleaning glueballs is attached to ball separator top since proportion is lighter than water, receives bulb Ball separator is entered from top, ball cleaning pipe is received and draws water from lower part, under the current scour for receiving bulb, cleaning glueballs is in ball It is in turbulence state in separator, is mutually cleaned between cleaning glueballs, cleans the dirt to get off and is closed in sphere-lok and receipts ball valve The bottom of ball separator is deposited in the state of closing.

5, blowdown：

It closes sphere-lok and receives ball valve, open the depositing contaminants in note ball valve and blowdown valve discharge ball separator.

The above described is only a preferred embodiment of the present invention, be not intended to limit the present invention in any form, this Field technology personnel make a little simple modification, equivalent variations or modification using the technology contents of the disclosure above, all fall within this hair In bright protection domain.

Claims (10)

1. a kind of unpowered on-line cleaning device, which is characterized in that including service robot and ball collecting device, the service robot is laminar-flow type Ejector；

The first input end of the service robot with water inlet pipe for connecting, and the interface at the jet exit end of the service robot is for straight It connects and is connect with the water inlet end interface of device to be cleaned, the water inlet end interface is the interface for being connect with end cap, the outlet The shape and size of the interface at end match with the water inlet end interface；

The input terminal of the ball collecting device with the water outlet of device to be cleaned for connecting, ball water output end and the hair of the ball collecting device The second input terminal of negative pressure of ball device connects.

2. unpowered on-line cleaning device according to claim 1, which is characterized in that the ball water output end of the ball collecting device Ball separator, the ball water output end and ball moisture of the ball collecting device are also associated between the second input terminal of negative pressure of service robot From device by receiving bulb connection, the second input terminal of negative pressure of the service robot and the first water outlet of ball separator pass through service Pipe connects.

3. unpowered on-line cleaning device according to claim 2, which is characterized in that be provided with note ball on the receipts bulb Valve is provided with sphere-lok and check valve in the service pipe, and the water outlet of the check valve flows to the service robot.

4. unpowered laminar flow on-line cleaning device according to claim 3, which is characterized in that the first water outlet setting On ball separator top；

The ball separator is spherical, cube or cone.

5. according to any unpowered on-line cleaning device of claim 2 to 4, which is characterized in that the service robot and institute It states to be also associated between the second water outlet of ball separator and receives ball cleaning pipe, the ball separator is in the second water outlet Portion is equipped with the first protective device for preventing cleaning glueballs from entering the cleaning pipe, and receipts ball is provided in the receipts ball cleaning pipe Valve.

6. unpowered laminar flow on-line cleaning device according to claim 5, which is characterized in that the second water outlet setting In the lower part of the ball separator, the receipts ball cleaning pipe is connect by three-way connection with the service pipe, and described three connect Valveless between mouth and the second input terminal of negative pressure of the service robot.

7. unpowered on-line cleaning device according to claim 5, which is characterized in that the bottom of the ball separator is set It is equipped with sewage draining exit, the sewage draining exit of the ball separator is internally provided with the second protective device, and the sewage draining exit is externally connected with row Dirt is managed, and blowdown valve is provided on the blow-off pipe.

8. unpowered on-line cleaning device according to claim 7, which is characterized in that first protective device and second Protective device is protection network.

9. unpowered on-line cleaning device according to any one of claims 1 to 8, which is characterized in that the service robot goes out The interface at mouth end is horn-like, is connect with the water inlet end Interference fit of device to be cleaned with described at horn-like wide opening；

The ball collecting device is T-type, Y types or conical filter.

10. unpowered on-line cleaning device according to any one of claims 1 to 8, which is characterized in that on the ball collecting device also It is provided with discharge outlet.