CN111871952A - Industrial cleaning cyclic regeneration emission reduction system - Google Patents

Abstract

The invention discloses an industrial cleaning, recycling, regenerating and emission reducing system which comprises a cleaning module for completing a cleaning function and is used for cleaning industrial parts by using liquid substances. The system also comprises a separation module, namely a solid-liquid or liquid-solid separation module, wherein the separation module is connected with the cleaning module through a pipeline, liquid substances enter the separation module through a liquid inlet pipe of the pipeline, and the liquid substances after impurities are removed return to the cleaning module through a liquid outlet pipe of the pipeline, so that the purification of the liquid substances in the cleaning module is completed. The separation module can adopt a two-phase or three-phase centrifuge, and the slag discharge mode comprises automatic or manual. According to the invention, the centrifuge is integrated into the traditional cleaning equipment to realize the cyclic regeneration function, so that the consumption of the cleaning solution can be obviously reduced, the cost of treating the cleaning solution sewage of an enterprise is greatly reduced, the pollution of the cleaning solution to the environment is also reduced, and the environment-friendly purpose of reducing the emission of harmful substances in the environment is facilitated.

Description

Industrial cleaning cyclic regeneration emission reduction system

Technical Field

The invention belongs to the technical field of cleaning, and relates to a technology for removing waste in cleaning liquid by applying a centrifugal machine to industrial cleaning equipment.

Background

With the higher and higher requirements of modern industry on cleaning parts, new cleaning machines such as ultrasonic cleaning machines, high-pressure jet cleaning machines, raceway type (bridge type) cleaning machines and the like are produced. The cleaning machines on the market at present basically use liquid substances as cleaning liquids to clean and scrub parts to be cleaned, and the main purpose is to remove particles, oil stains and chemical residues on the parts or assemblies and to prevent rust. The cleaning machine mainly adopts a filtering tank to continuously purify cleaning liquid, and filtering bags with different precisions are attached in the filtering tank. However, in practice, even if the filter bag is frequently replaced, the requirement on the cleanliness of parts or assembly parts is still difficult to achieve, and meanwhile, the filter bag cannot effectively remove oil stains in the cleaning liquid, so that the cleaning liquid needs to be frequently replaced, the cost of industrial cleaning is increased, a large amount of resources are wasted, and the load of the ecological environment is increased.

In addition, in actual production, the precision of the filter bag in the filter tank cannot be guaranteed, and the filter bag is subjected to large water pressure in the filter tank, so that meshes of the filter bag are likely to deform, the expected filtering effect cannot be achieved, and the expected service life of the cleaning solution cannot be met. Especially when the product cleanliness exceeds standard, then need frequently to change the cleanliness of washing liquid in order to guarantee the product, at this moment, not only the washing liquid is wasted, and enterprise's environmental protection expense also increases thereupon, still need take time to shut down, and cleaning equipment causes the rise of human cost. At present, cleaning equipment production companies generally only pay attention to the cleaning capability of the cleaning equipment, but pay less attention to the later cleaning solution treatment, which is also a main cause of the above problems.

If the centrifugal machine is applied to the cleaning liquid to remove particles, undissolved impurity oil and other impurities in the cleaning liquid of the cleaning machine, the service life of the cleaning liquid can be effectively prolonged, and various wastes are reduced. Notice No. is CN 205200061U's utility model discloses a solid separator of oil of cleaning machine, it includes the cleaning machine oil tank, is equipped with a centrifuge and a booster pump in addition for the life of cleaning oil obtains the extension, but its shortcoming need add the booster pump, leads to the cost-push, and commonality and integration are poor moreover, can't adapt to the demand of modern industry to whole solution. The two-phase or three-phase centrifuge, the deslagging way includes automatic or manual, can separate solid and liquid, liquid and liquid, solid and two kinds of liquid with different specific gravities in a fast and continuous way, wherein the specific gravity of the solid must be greater than the specific gravity of the liquid to be separated, this kind of centrifuge has extensive application in chemical industry, medicine, food, industrial industry, there is not yet in the prior art to apply this kind of two-phase or three-phase centrifuge (the deslagging way can be either automatic or manual) to the industrial cleaning system in the way of integrated design, centralized control of earlier stage or later stage, in order to improve the cleaning quality, reduce the downtime and cleaning frequency of the cleaning solution equipment, reduce the relevant disclosure of the operation cost of the enterprise.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an integral solution for applying the two-phase or three-phase centrifugal machine with the deslagging mode to an industrial cleaning system, wherein the two-phase or three-phase centrifugal machine can be used automatically or manually, so that the service life of the cleaning liquid can be greatly prolonged, the waste of the cleaning liquid is reduced, the pollution is reduced, and the investment of manpower and material resources of enterprises is reduced.

In order to achieve the purpose, the industrial cleaning cycle regeneration emission reduction system provided by the invention comprises a cleaning module for completing a cleaning function, and industrial parts are cleaned by using liquid substances. The system also comprises a separation module, namely a solid-liquid or liquid-solid separation module, wherein the separation module is connected with the cleaning module through a pipeline, liquid substances enter the separation module through a liquid inlet pipe of the pipeline, the liquid substances after impurities are removed return to the cleaning module through a liquid outlet pipe of the pipeline, and the liquid substances in the cleaning module are purified so as to meet the requirement of cleaning operation on the cleaning degree of the liquid substances.

In order to remove the particulate matters and the undissolved miscellaneous oil in the cleaning liquid of the cleaning machine, the separation module adopts a two-phase or three-phase centrifuge, the slag discharge mode comprises automatic or manual operation, and the densities of phases of the separated liquid substances are different and the density of a solid phase is higher than that of any one of the liquid phases.

Preferably, the three-phase centrifuge is a disk-type centrifuge capable of simultaneously separating three liquid-solid phases.

Preferably, the two-phase centrifuge is a three-leg solid-liquid separation centrifuge.

The solid-liquid or liquid-solid separation module can be a manual slag discharge centrifuge or an automatic slag discharge centrifuge, and the cleaning module adopts ultrasonic cleaning, high-pressure spray cleaning, raceway cleaning, pass cleaning or any combination of the cleaning modes.

As the simplest and most direct application mode, the solid-liquid or liquid-solid separation module is directly connected to the water tank of the cleaning module to directly purify liquid substances in the water tank.

As one of the advantages of the system, the cleaning module and the solid-liquid or liquid-solid separation module can independently operate or jointly operate under the control of the same control system.

For convenience of implementation, the cleaning module and the solid-liquid separation module can be integrally designed and manufactured, and the solid-liquid or liquid-solid separation module can be integrated with the cleaning module in a later configuration mode.

The cleaning module usually comprises a water pump, liquid substances are purified by the solid-liquid or liquid-solid separation module, and then the purified cleaning liquid is conveyed to an operation area of the cleaning module through the liquid outlet pipe to clean the parts, and a booster pump is not required to be additionally arranged.

In order to adapt to various operation scenes of industrial cleaning, the state of the parts in the operation area of the cleaning module can be a moving state or a static state.

The cleaning module comprises a filtering tank, wherein liquid substances firstly enter the filtering tank and then are purified by a solid-liquid or liquid-liquid separation module; or the separation module directly purifies the waste water without a filter tank, and the filter is used as an auxiliary.

Compared with the prior art, the invention has the following beneficial technical effects:

the invention adopts the centrifuge integrated into the traditional cleaning equipment to realize the cyclic regeneration emission reduction function of industrial cleaning, and the two kinds of equipment can independently run and can also be controlled by the same control system. The clear liquid equipment can be designed by integrating the centrifugal machine in the manufacturing process, and the centrifugal machine can be configured at a later stage to purify the cleaning liquid in the cleaning equipment. The service life of the cleaning liquid can be prolonged by several times or even more than ten times by the cleaning machine provided with the centrifugal machine.

2, the invention can obviously reduce the consumption of the cleaning solution through the cyclic regeneration function, greatly reduce the cost of treating the cleaning solution sewage of enterprises, reduce the pollution of the cleaning solution to the environment and realize the positive effect of reducing the emission of harmful substances in the environment.

3, the equipment can work continuously for twenty-four hours, so that unattended operation is realized, the downtime and the cleaning frequency of cleaning liquid equipment can be effectively reduced, and the operation cost of an enterprise is obviously reduced.

Drawings

FIG. 1 is a schematic view of the internal structure of a single-direction centrifugal pump centrifuge;

FIG. 2 is a schematic diagram of the internal structure of a two-way centrifugal pump centrifuge;

FIGS. 3-5 are front, top and left side views, respectively, of a cleaning system comprised of a single-unit centrifugal pump centrifuge and an ultrasonic cleaner;

FIG. 6 is an isometric view of the cleaning system of FIGS. 3-5;

FIGS. 7 and 8 are a front view and a top view, respectively, of a cleaning system consisting of an automatic slag discharge bidirectional heart pump centrifuge and an ultrasonic cleaner;

FIG. 9 is an isometric view of the cleaning system of FIGS. 7-8;

FIG. 10 is a front view of a cleaning system consisting of a two-phase centrifuge (automatic or manual deslagging) and an ultrasonic cleaner;

FIG. 11 is an isometric view of the cleaning system of FIG. 10;

FIG. 12 is an isometric view of a cleaning system comprised of a single-unit pump centrifuge and a raceway cleaning machine;

FIG. 13 is an isometric view of a cleaning system consisting of a two-phase centrifuge (automatic or manual deslagging) and a raceway cleaner;

FIG. 14 is an isometric view of a cleaning system consisting of an automatic reject bi-directional heart pump centrifuge and a raceway cleaner;

FIG. 15 is an isometric view of a cleaning system comprised of a single-core pump centrifuge and a tunnel-type high pressure spray cleaner;

FIG. 16 is a top view of the cleaning system of FIG. 15;

FIG. 17 is an isometric view of a cleaning system comprised of an automatic reject bi-directional heart pump centrifuge and a tunnel-type high pressure spray cleaner;

FIG. 18 is a left side view of a cleaning system consisting of a two-phase centrifuge (automatic or manual deslagging) and a tunnel-type high pressure spray cleaner;

the meaning of the reference symbols in the figures: 1, a centrifugal machine; 2, a cleaning machine; 3, a liquid inlet pipe; 4, a liquid outlet pipe; 5, a centrifuge operating panel; 6, cleaning a tank; 7, automatically discharging slag of a centrifuge motor; and 8, a solid slag collecting box.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings.

The invention optimizes the problems of the existing industrial cleaning machine, and provides the condition that cleaning liquid is frequently replaced, more resources are wasted, the enterprise sewage treatment cost is higher, and the value of the cleaning liquid is wasted when a cleaning device user uses a product with high requirement on cleanliness, so that the cleaning liquid is purified by using a centrifugal machine. Because centrifuge's separation precision and efficiency are invariable, and centrifuge during operation need not the consumptive material, and the precision of separation is high and stable, consequently can improve above-mentioned problem greatly.

The centrifugal machine with the one-way heart pump structure shown in the figure 1 has the advantages of being low in manufacturing cost, small in occupied area, easy to operate and the like, the using amount of cleaning liquid of users of some ultrasonic cleaning machines is not large, the size of the cleaning groove 6 is small, the positions of the ultrasonic cleaning machines are not very fixed, the centrifugal machine needs to be frequently moved, the size of parts needing to be cleaned is small, when impurity liquid is contained in the cleaning liquid, the centrifugal machine with the one-way heart pump structure shown in the figure 1 can be used, the investment is low, and the beneficial technical effects can be obtained.

Fig. 2 shows the inner structure of a bidirectional heart pump type centrifuge, which is generally suitable for being used when an industrial cleaning, cyclic regeneration and emission reduction system needs to clean larger parts, and has the advantages of high efficiency, stability and capability of realizing twenty-four hours of unattended operation.

Fig. 3-5 show an industrial cleaning, circulating, regenerating and emission-reducing system composed of a one-way centrifugal pump centrifuge and a small and medium-sized ultrasonic cleaning machine, which is characterized in that: the centrifugal machine is a three-phase separator, the centrifugal machine and the cleaning machine can both move and can be independently operated, and particularly, the application scene that a user of the cleaning machine installs the ultrasonic cleaning machine firstly and then adds the centrifugal machine is realized; the implementation mode can meet the use requirement of a production field conveniently, can ensure the cleanliness of the cleaned product, and is more easily accepted by users due to the characteristics of less investment, small occupied area and the like. Wherein feed liquor pipe 3 does not have the specific limit requirement with drain pipe 4, can be decided according to actual site conditions, for example when containing particulate matter and greasy dirt in the washing liquid, feed liquor pipe 3 need get liquid near the liquid level, has guaranteed to suck the greasy dirt and separate, and drain pipe 4 can be connected and is close to 6 bottom positions of washing tank, and the washing liquid of being purified back backward flow this moment can make the particulate matter upward movement of suspension 6 bottoms of washing tank, is inhaled by feed liquor pipe 3 more easily.

Fig. 6 is an axonometric view of a three-phase one-way centrifugal pump centrifuge and a small and medium-sized ultrasonic cleaning machine.

Fig. 7-8 show an embodiment of the combined application of an automatic deslagging bidirectional centrifugal pump and a medium-large ultrasonic cleaning machine, which is characterized in that the centrifugal machine is a three-phase separator, the amount of cleaning solution in the ultrasonic cleaning machine is large, the centrifugal machine with large purification capacity can meet the requirement of product cleanliness, meanwhile, unattended operation can be realized, the positions of the ultrasonic cleaning machine and the automatic deslagging bidirectional centrifugal pump are fixed, the two devices operate independently, and particularly, after a user purchases the medium-large ultrasonic cleaning machine first, the automatic deslagging bidirectional centrifugal pump and the ultrasonic cleaning machine are connected and operate together. Wherein feed liquor pipe 3 and drain pipe 4 do not have the specific limit requirement, and it is decided according to actual site conditions, for example when containing particulate matter and greasy dirt in the washing liquid, feed liquor pipe 3 need get liquid near the liquid level, has guaranteed to suck the greasy dirt and separate, and drain pipe 4 can be connected and is close to 6 bottom positions of washing tank, and the washing liquid of being purified back backward flow this moment can make the particulate matter upward movement of suspension 6 bottoms of washing tank, is inhaled by feed liquor pipe 3 more easily.

FIG. 9 is an isometric view of an embodiment of a three-phase automatic slagging two-way heart pump centrifuge in combination with a medium or large ultrasonic cleaner.

Fig. 10 shows an embodiment of the combined application of a two-phase centrifuge (automatic or manual deslagging) and an ultrasonic cleaning machine, which is characterized in that the centrifuge with the structure can continuously and rapidly separate solids in cleaning liquid, is mainly used when the flow is required to be large, and the separation precision of solid particles is not strict, is easy to operate, has no other special auxiliary equipment requirements, is relatively fixed in place, and can be fixed or moved.

FIG. 11 is an isometric view of an embodiment of a two-phase centrifuge (automatic or manual reject) in combination with an ultrasonic cleaner.

Fig. 12 is an isometric view of an embodiment of a combination of a centrifugal pump with a single pump and a roller path type (gap bridge type) washer, which is characterized in that the centrifugal pump is a three-phase separator, the roller path type washer has a function of automatically conveying parts to be washed, and is generally suitable for washing parts with small sizes, a worker can only take the parts to be washed, and the roller path type washer has the function of carrying out the operation of going up and down according to the sizes of the parts, and the washing grooves have the sizes and can be divided into two or more washing grooves to ensure the cleaning degree of the parts. Meanwhile, the program of the centrifuge or the program of the cleaning machine can be modified in the later stage so as to achieve the purpose of unified control.

Fig. 13 is an isometric view of an embodiment of a two-phase centrifuge (automatic or manual deslagging) and a roller-track (bridge-type) cleaning machine in combination, wherein the two-phase centrifuge (automatic or manual deslagging) can efficiently and continuously separate solid particles in the cleaning liquid when only two liquid and solid particles are in the cleaning liquid, so as to ensure that the service life of the cleaning liquid is prolonged. Meanwhile, the two-phase centrifugal machine (automatic or manual slag discharge) has the characteristics of large treatment capacity, simplicity in operation and the like, and is suitable for a raceway type (bridge type) cleaning machine with large cleaning liquid consumption. Meanwhile, the program of the centrifuge or the program of the cleaning machine can be modified in the later stage so as to achieve the purpose of unified control.

Fig. 14 is an axonometric view of an embodiment of the combined application of an automatic deslagging bidirectional heart pump centrifuge and a raceway type (gap bridge type) cleaning machine, and is characterized in that when liquid, liquid and solid phases exist in cleaning liquid, the automatic deslagging bidirectional heart pump centrifuge can efficiently separate out two other liquid and solid phases in the cleaning liquid, meanwhile, unattended operation can be realized, the efficiency of the automatic deslagging bidirectional heart pump centrifuge is higher than that of a one-way heart pump centrifuge, the cleaning liquid has more severe requirements, and when the purification speed and the efficiency have higher requirements, the automatic deslagging bidirectional heart pump centrifuge is suitable for application of the automatic deslagging bidirectional heart pump centrifuge. Meanwhile, the program of the centrifuge or the program of the cleaning machine can be modified in the later stage so as to achieve the purpose of unified control.

Fig. 15 is an isometric view of an industrial cleaning cycle regeneration emission reduction system consisting of a single centripetal pump centrifuge and a channel type high pressure spray washer, in which case the equipment has high automation and integration, and the single centripetal pump centrifuge has been integrated during the design and manufacture of the washer and delivered to the end user as an integral cleaning system. It should be noted that the cleaning machine in this kind of scheme is not limited to the channel type high pressure spray cleaning machine either, but also can be a composite cleaning process including channel type high pressure spray, ultrasonic wave, raceway type (bridge type), or use the manipulator to make the parts to be cleaned move correspondingly, there can be a plurality of cleaning tanks in the cleaning machine, through setting up corresponding pipeline, solenoid valve, etc., make centrifuge switch over every cleaning tank through the unified electrical control system, and purify the cleaning solution in the cleaning tank, effectively prolong the life of the cleaning solution, make the equipment can work incessantly twenty-four hours. The equipment with the structure is generally very fixed, and unmanned guard can be realized.

Fig. 16 is a top view of fig. 15.

Fig. 17 is an axonometric view of an industrial cleaning cycle regeneration emission reduction system composed of an automatic slag discharge bidirectional heart pump three-phase centrifuge and a channel type high-pressure spray cleaning machine, in this case, the equipment is highly automated and highly integrated, and the automatic slag discharge bidirectional heart pump centrifuge is integrated in the design and manufacture of the cleaning machine and delivered to an end user as an integral cleaning system. The cleaning system with the structure is generally used for large parts or assemblies, the using amount of the cleaning liquid is large, and the cleaning liquid to be purified is liquid-solid three-phase, and the cleaning system is particularly suitable for parts such as the engine cleaning field, the cylinder block and the cylinder cover of an engine and the like. It should be noted that the cleaning machine in this kind of scheme is not limited to the channel type high pressure spray cleaning machine, but may also be a composite cleaning process composed of channel type high pressure spray, ultrasonic wave, and raceway type (bridge type), or a manipulator is used to make the parts to be cleaned move correspondingly. There are a plurality of washing tanks in the cleaning machine, through setting up corresponding pipeline, solenoid valve etc. make centrifuge can switch over every washing tank through unified electrical system to purify the washing liquid in the washing tank, effectively prolong the life-span of washing liquid, make equipment can twenty four hours uninterrupted duty. The equipment with the structure is generally very fixed, and unmanned guard can be realized.

Fig. 18 is a left side view of a cleaning system of a two-phase centrifuge (automatic or manual reject) and a tunnel-type high pressure spray cleaner, which is a highly automated, highly integrated solution for the design and manufacture of the cleaner into which an automatic reject bi-directional centrifugal pump centrifuge has been integrated for delivery to the end user as a unitary cleaning system. The cleaning system with the structure is generally used for large parts or assemblies, the cleaning liquid consumption is large, and the cleaning liquid to be cleaned is in a liquid-solid two-phase state, and is particularly suitable for parts such as large gears, gear shafts, fluted discs and the like on engineering machinery. It should be noted that the cleaning machine in this scheme is not limited to the channel-type high-pressure spray cleaning machine, but may also be a composite cleaning process composed of channel-type high-pressure spray, ultrasonic waves and a raceway type (bridge type), or a manipulator is used to make the parts to be cleaned move correspondingly. There are a plurality of washing tanks in the cleaning machine, through setting up corresponding pipeline, solenoid valve etc. make centrifuge can switch over every washing tank through unified electrical system to purify the washing liquid in the washing tank, effectively prolong the life-span of washing liquid, make equipment can twenty four hours uninterrupted duty. The equipment with the structure is generally very fixed, and unmanned guard can be realized.

The centrifuges in the above embodiments may all work independently, be operated independently by an operator, or may be operated online with a corresponding washing machine through a software control program. The pipeline on the cleaning liquid water tank can be in a fixed installation mode or in a non-fixed mode, can meet the use requirement, and meets the requirement that the specification of general equipment is the minimum standard.

The invention provides an integrated solution for integrating the separation function of a centrifuge into the existing cleaning function to realize cleaning cycle regeneration. The centrifugal machine covers a two-phase or three-phase separation centrifugal machine, the deslagging mode comprises an automatic mode and a manual mode, when the three-phase separation centrifugal machine is applied, the internal flow channels of the centrifugal machine are different due to different working conditions and different sites, and the three-phase separation centrifugal machine is shown as an example in figures 1-2 and finally needs to be determined according to actual working conditions and sites. The cleaning machine includes the mainstream machine type currently used in industry, fig. 3 to 18 show the combination scheme of the centrifuge and the cleaning machine such as ultrasonic wave, channel type high pressure spray, raceway type (bridge type), etc., but these schemes are only exemplary and do not cover all application situations, and the cleaning module can adopt ultrasonic wave, high pressure spray, raceway type or the combination of the above cleaning modes according to the requirement.

It should be understood that the above description of specific embodiments is not intended to limit the invention, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides an industrial cleaning circulation regeneration emission reduction system, is including accomplishing the cleaning module of cleaning function, uses liquid class material to wash industry spare part, and its characterized in that system still includes the separation module, and the separation module passes through the pipeline and is connected with the cleaning module, and liquid class material gets into the separation module via the feed liquor pipe of pipeline, accomplishes in the cleaning module the purification of liquid class material, the liquid class material after getting rid of impurity returns the cleaning module via the drain pipe of pipeline to satisfy the cleaning operation to the requirement of liquid class material cleanliness factor.

2. The industrial cleaning cycle regeneration emission reduction system of claim 1, wherein the separation module is a two-phase or three-phase centrifuge, and the residue discharge manner comprises automatic or manual.

3. The industrial cleaning, recycling, regenerating and emission reducing system according to claim 2, characterized in that the two-phase centrifuge is a three-leg solid-liquid separation centrifuge, and the three-phase centrifuge is a three-phase settling disk centrifuge.

4. The industrial cleaning cycle regeneration emission reduction system according to claim 3, wherein the three-phase settling disk centrifuge is a disk centrifuge capable of simultaneously performing liquid-solid three-phase separation.

5. The industrial cleaning, recycling, regenerating and emission reducing system according to claim 1, wherein the cleaning module employs ultrasonic, high pressure spray, roller path type or a combination of the above cleaning modes.

6. The industrial cleaning cycle regeneration emission reduction system of claim 1, wherein the separation module is directly connected to the tank of the cleaning module to directly purify the liquid species in the tank.

7. The industrial cleaning cycle regeneration emission reduction system of claim 1, wherein the cleaning module and the separation module operate independently or under control of the same control system.

8. The industrial cleaning cycle regeneration emission reduction system of claim 1, wherein the cleaning module and the separation module system are integrally designed and manufactured or the separation module is integrated with the cleaning module in a post-configuration manner.

9. The industrial cleaning cycle regeneration emission reduction system of claim 1, wherein the cleaning module comprises a water pump, and the liquid substances are purified by the separation module and then delivered to the operation area of the cleaning module through the liquid outlet pipe to clean the parts in a dynamic state or a static state.

10. The industrial cleaning cycle regeneration emission reduction system of claim 9, wherein the cleaning module comprises a filtration tank, into which liquid species first enter and then are purified via the separation module; or the liquid substances are directly purified by the separation module without passing through the filter tank, and the filtration is used as an auxiliary.

Images