CN114735880B - Industrial oil distribution and transportation treatment integrated control system based on green operation and maintenance - Google Patents

Abstract

The invention discloses an industrial oil distribution, transportation and treatment integrated control system based on green operation and maintenance, which comprises a liquid supply device, a transfer supply pool, a waste liquid circulating mechanism and a waste liquid treatment device, wherein the waste liquid circulating mechanism is provided with a filtering and concentration detecting mechanism for filtering waste liquid generated by a machine tool, removing scrap iron and detecting the concentration of the waste liquid, the waste liquid circulating mechanism is connected with the waste liquid treatment device through a waste liquid treatment pipe, and the waste liquid treatment device is connected with the liquid supply device through a backflow assembly, so that the cyclic utilization and treatment of industrial oil are realized. The invention not only can realize the recycling of the waste liquid, but also can input the waste liquid into the waste liquid treatment device to form distilled water and concentrated liquid, the distilled water can be recycled by backflow, the treatment process is simple and efficient, no secondary pollution is caused, the energy consumption is reduced, the full-automatic control of a digital factory and a green manufacturing factory is realized, and the hazardous waste is comprehensively supervised.

Description

Integrated control system for distribution, transportation and treatment of industrial oil products based on green operation and maintenance

Technical Field

The invention relates to the technical field of industrial oil recycling and waste liquid treatment, in particular to an industrial oil distribution and transportation treatment integrated control system based on green operation and maintenance.

Background

The cutting fluid is an industrial oil product used for cooling and lubricating cutters and workpieces in the metal cutting and grinding process, has the characteristics of good cooling performance, lubricating performance, antirust performance, oil removal and cleaning function, anticorrosion function, easiness in dilution and the like, and is suitable for metal cutting and grinding.

When industrial oil products such as cutting fluid and the like are used in factories, the cutting fluid and water are generally mixed and added into a machine tool by manpower, and along with the increase of the number of the machine tools, the cutting fluid is added in such a way, so that the operation is complicated, the cutting fluid is easy to be mixed unevenly, the cooling and lubricating effects of a machine tool cutter are influenced, and the processing quality of a workpiece is further influenced; meanwhile, the waste liquid generated by the machine tool can be continuously used or not through manual observation, the recycling rate of the waste liquid is low, the waste liquid which can not be continuously used is directly discharged, the discharge of sewage is increased, and secondary pollution is easily caused.

Disclosure of Invention

The invention aims to provide a technical scheme of an industrial oil product distribution, transportation and treatment integrated control system based on green operation and maintenance aiming at the defects in the prior art, the industrial oil product can be proportioned, mixed and conveyed to a machine tool, the concentration of waste liquid generated by the machine tool can be detected, the waste liquid flows back to a transfer supply pool after being detected to be qualified, required industrial oil product and/or medium are added to meet the use requirements of the machine tool, the detected unqualified waste liquid is input into a waste liquid treatment device to be treated in a centralized manner, about 90% of distilled water and 10% of concentrated liquid are formed after vacuum distillation treatment, the distilled water can be recycled in a backflow manner, the concentrated liquid is treated in a centralized manner, the sewage quantity is greatly reduced, the treatment process is simple and efficient, secondary pollution is avoided, the energy consumption is greatly reduced, the full-automatic control of a digital factory and a green manufacturing factory is realized, and hazardous waste is subjected to omnibearing supervision.

In order to solve the technical problems, the invention adopts the following technical scheme:

industry oil distribution and transportation integrated control system of handling based on green fortune dimension, its characterized in that: comprises that

The liquid supply device is used for storing industrial oil products and/or media;

the transfer supply pool is used for mixing industrial oil products and media and conveying the mixed liquid to a machine tool through the mixed liquid conveying assembly;

the waste liquid circulating mechanism is provided with a filtering and concentration detecting mechanism and is used for filtering the waste liquid generated by the machine tool, removing scrap iron and detecting the concentration of the waste liquid; the waste liquid circulating mechanism is connected with the waste liquid treatment device through a waste liquid treatment pipe, and the waste liquid treatment device is connected with the liquid supply device through a backflow assembly, so that the cyclic utilization and treatment of industrial oil products are realized; not only can carry out the ratio mix with industrial oil and carry to the lathe, and can carry out concentration detection with the waste liquid that the lathe produced, it flows back to the transfer supply tank to detect qualified back, add required industrial oil and/or medium, satisfy the operation requirement of lathe, detect unqualified waste liquid input waste liquid processing apparatus and carry out centralized processing, form about 90% distilled water and 10% concentrate after handling through vacuum distillation, distilled water can backward flow circulation use, concentrate centralized processing, the sewage volume that significantly reduces, the succinct high efficiency of processing procedure, no secondary pollution, greatly reduced the energy consumption, realize digital factory, the full automated control of green manufacturing plant, make the danger useless and obtain omnidirectional supervision.

Further, waste liquid circulation mechanism includes first circulating line, second circulating line and second shunt tubes, and the lathe passes through the second shunt tubes and connects first circulating line, and first circulating line passes through the second circulating line and connects the transfer supply pond, realizes the cyclic utilization of waste liquid, and the waste liquid that the lathe produced after using is inputed first circulating line through the second shunt tubes and is assembled the transport.

Further, first circulating line is equipped with waste liquid power component and filters and concentration detection mechanism, and waste liquid power component is used for the transport of waste liquid to provide power, guarantees that the waste liquid after filtration and concentration detection carries out stable transport.

Further, it includes the staving to filter and concentration detection mechanism, the iron fillings collecting vat, drive assembly, the runner assembly, iron fillings adsorption component and fatlute adsorption mechanism, be equipped with the filter screen in the staving, liquid level detection mechanism and concentration detection mechanism, the iron fillings collecting vat is fixed in one side of staving, drive assembly locates on the top surface of staving, iron fillings adsorption component passes through the runner assembly and connects drive assembly, through drive assembly and runner assembly realization iron fillings adsorption component's upper and lower horizontal migration and rotation, fatlute adsorption mechanism removes to be connected in the staving, can carry out filtration treatment through the filter screen after the waste liquid input staving, hold back the iron fillings in the waste liquid in the staving, liquid level detection mechanism is used for detecting the liquid level height in the staving, after the waste liquid discharge in the staving, start drive assembly, drive assembly drives runner assembly horizontal migration from top to bottom through drive assembly, can realize that iron fillings adsorption component follows and removes together, satisfy the absorption and the release requirement to iron fillings in the waste liquid, the runner assembly can drive iron fillings adsorption component is rotatory, be convenient for concentrate the collection on the filter screen.

Further, drive assembly includes first cylinder, the lifter plate, the second cylinder, the swing arm, guide arm and balancing stand, first cylinder passes through first boosting subassembly and connects the lifter plate, the second cylinder passes through swing arm connection guide arm, the guide arm runs through the lifter plate through the second boosting subassembly and connects the balancing stand, first cylinder can drive the lifter plate through first boosting subassembly and reciprocate, and then can drive iron fillings absorption subassembly through the runner assembly and reciprocate, the second cylinder can drive guide arm and second boosting subassembly horizontal migration through the swing arm, and then can drive balancing stand horizontal migration, realize iron fillings absorption subassembly and runner assembly and follow horizontal migration together.

Further, the iron fillings absorption subassembly includes the roof, the bottom plate, magnetism is inhaled subassembly and third boosting subassembly, the bottom plate passes through the fixed plate and connects the below in the roof, magnetism is inhaled the subassembly and is connected the fixed plate through the third boosting subassembly, be equipped with group battery and controller on the bottom plate, the group battery passes through the wire and connects magnetism and inhale the subassembly, the roof is fixed in on the runner assembly, can control third boosting subassembly horizontal migration through the controller, and then can drive magnetism and inhale subassembly horizontal migration, increase iron fillings absorption subassembly's working range, be convenient for with the whole absorption of iron fillings on the filter screen, the group battery can be controlled to the simultaneous control ware, make the electric current in the magnetism absorption subassembly be in forward flow when adsorbing iron fillings, be in reverse flow when releasing iron fillings.

Further, the below that is located the filter screen in the staving is equipped with the hang plate, is equipped with the discharge port on the hang plate, and the one end that is close to the discharge port on the hang plate is equipped with waterproof motor, is connected with the inducer on the waterproof motor, drives the inducer rotation through waterproof motor, can make the fatlute of gathering in the hang plate bottom pass through the discharge port downflow.

Further, fatlute adsorption apparatus constructs including fatlute adsorption component, fatlute discharge pipe and suction pump, the fatlute discharge pipe is located on the lateral surface of staving, be equipped with the suction pump on the fatlute discharge pipe, the fatlute discharge pipe passes through hose connection fatlute adsorption component, fatlute adsorption component passes through the screw rod and the guide arm is connected in the staving, the one end of screw rod is equipped with servo motor, it is rotatory through servo motor electric screw, and then can drive the bottom horizontal migration of fatlute adsorption component along the staving, improve the adsorption efficiency to fatlute, can be with fatlute through fatlute adsorption component input hose through the suction pump, and discharge through the fatlute discharge pipe, the treatment effeciency of iron fillings and iron powder in the waste liquid is greatly improved.

Further, fatlute adsorption component includes adsorption plate and promotion plate body, promote plate body fixed connection adsorption plate, be equipped with screw hole and guiding hole on the promotion plate body, screw hole and screw rod phase-match, guiding hole and guide arm phase-match, be equipped with soil pick-up hole and brush on the bottom surface of adsorption plate, soil pick-up hole and hose intercommunication, when the screw rod drives adsorption plate horizontal migration through promoting the plate body, can scrape the fatlute that the bottom was gathered through the brush, the absorption hole on the rethread adsorption plate adsorbs, the treatment effeciency to fatlute has been improved greatly.

Furthermore, the backflow assembly comprises a clean water backflow pipe and a clean water backflow valve arranged on the clean water backflow pipe, and the waste liquid treatment device is connected with the liquid supply device through the clean water backflow pipe, so that the cyclic utilization of the distilled water is realized.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. the industrial oil product can be mixed and conveyed to the machine tool in a proportioning manner, the concentration of the waste liquid generated by the machine tool can be detected, the waste liquid flows back to the transfer supply pool after being detected to be qualified, and the required industrial oil product and/or medium is added to meet the use requirement of the machine tool;

2. detect unqualified waste liquid input waste liquid treatment device and carry out centralized processing, form about 90% distilled water and 10% concentrate after handling through vacuum distillation, the distilled water can flow back and recycle, concentrate centralized processing, the sewage volume that significantly reduces, the succinct high efficiency of processing procedure, no secondary pollution, greatly reduced the energy consumption, realize digital mill, green manufacturing plant's full automated control, make the danger useless and obtain omnidirectional supervision.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a control system in an integrated control system for distribution, transportation and treatment of industrial oil products based on green operation and maintenance;

FIG. 2 is a schematic view of the structure of the filtering and concentration detecting mechanism of the present invention;

FIG. 3 is a schematic structural diagram of a driving assembly according to the present invention;

FIG. 4 is a schematic view of the guide bar of the present invention;

FIG. 5 is a schematic view of the internal structure of the barrel body according to the present invention;

FIG. 6 is a schematic view of the structure of the magnet attraction assembly of the present invention;

FIG. 7 is a partial process diagram at I in FIG. 5;

FIG. 8 is a schematic structural view of a sludge adsorption module according to the present invention;

FIG. 9 is a schematic view showing the structure of a waste liquid treatment apparatus according to the present invention;

FIG. 10 is a schematic view showing the structure of a treatment tank of the present invention.

In the figure: 1-a liquid supply device;

2-a machine tool;

3-a mixed liquid conveying pipeline; 301-a first shunt tube; 302-a third metering component;

4-a first recycle conduit; 401-a second shunt tube; 402-a second circulation conduit; 403-a waste liquid power module; 404-a recycle valve;

5-a filtration and concentration detection mechanism;

51-barrel body; 5103-a filter screen; 5104-a liquid level detection mechanism; 5105-a concentration detection mechanism; 5106-a display screen; 5107-connecting with a liquid outlet pipe; 5108-a servo motor; 5109-screw; 5110-oil sludge discharge pipe; 5111-suction pump; 5112-a hose; 5113-waterproof motor; 5114-inducer; 5115-a drain; 5116-inclined plate;

52-scrap iron collecting tank;

53-a drive assembly; 5301-a first support plate; 5302-a second support plate; 5303-a first cylinder; 5304-a first pusher; 5305-a lifter plate; 5306-a first push-aid rod; 5307-a first sleeve; 5308-a second cylinder; 5309-a support column; 5310-swing arm; 5311-a guide bar; 5312-a second pusher; 5313-a roller; 5314-a second push-aid rod; 5315-a balancing stand; 5316-a first travel switch; 5317-a guide groove; 5318-a baffle; 5319-a second travel switch;

54-a rotating assembly; 5401-lower turntable; 5402-air pump; 5403-upper turntable; 5404-column; 5405-electric machine;

55-iron scrap adsorption components; 5501-a top plate; 5502-a bottom plate; 5503-fixing plate; 5504-a third cylinder; 5505-a second sleeve; 5506-third push-aid rod; 5508-cantilever; 5509-an armature; 5510-a shield; 5511-a battery pack; 5512-a wire; 5513-a controller;

56-sludge adsorption component; 5601-an adsorption plate; 5602-push plate body; 5603-soil pick-up hole; 5604-brush; 5605-threaded hole; 5606-pilot hole;

6-a waste liquid treatment device; 61-a three-phase separator; 6101-waste residue discharge port; 6102-oil slick discharge port 5115; 6103-waste liquid conveying pipe; 62-a slop pail; 6201-a bag filter; 6202-wastewater inlet; 63-washing the barrel; 6301 — a first nanobubble generator; 6302-cleaning agent inlet; 64-a treatment tank; 6401-distilled water outlet; 6402-outlet of concentrated liquid; 6403-an evaporator; 6404-cyclone separator; 6405-a compressor; 6406-preheater; 6407-sewage inlet; 6408-distillate drain; 6409-centralized exhaust; 65-a defoamer storage barrel; 6501-inlet of defoaming agent; 66-a concentration barrel; 67-distilled water bucket; 6701-second nanobubble generator; 6702-ultraviolet sterilizing device; 6703-clear water transfer pump;

7-clear water return pipe; 701-clear water reflux valve;

8-a waste liquid treatment pipe; 801-waste liquor delivery valve;

9-transit supply pool.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

In order to make those skilled in the art better understand the technical solutions of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

As shown in fig. 1, the green operation and maintenance-based industrial oil distribution, transportation and treatment integrated control system of the present invention comprises a liquid supply device 1, a transfer supply pool 9, a waste liquid circulation mechanism and a waste liquid treatment device 6.

The liquid supply device 1 is used for storing industrial oil and/or media, the liquid supply device 1 is connected with a transfer supply pool 9 through an oil medium conveying assembly, the liquid supply device 1 comprises a control system, a first liquid storage device and a second liquid storage device, the oil medium conveying assembly comprises a first conveying mechanism used for conveying industrial oil and a second conveying mechanism used for conveying media, the first liquid storage device is connected with the first conveying mechanism, the second liquid storage device is connected with the second conveying mechanism, the first conveying mechanism and the second conveying mechanism are connected with the transfer supply pool 9, the control system controls the first conveying mechanism and the second conveying mechanism to work, the industrial oil and the media are input into the transfer supply pool 9, the threshold value can be a ratio value of the industrial oil and the media, the conveying value of the industrial oil and the conveying media and the conveying value of the media, and further controls the first conveying mechanism and the second conveying mechanism to convey the industrial oil and the media, and meets the mixing requirement of mixed liquid. The industrial oil product is metal working fluid which comprises cutting fluid, cutting oil, emulsion, hydraulic oil, quenching fluid, rolling fluid, guide rail oil, grinding fluid, rust removing oil, cleaning agent, stretching oil, lubricating oil, cooling fluid, release agent and the like. The medium is mainly water, but is not limited to water, and can be other liquids. The industrial oil product in the present application takes the cutting fluid as an example.

The control system specifically comprises a touch screen, a control module, a signal transceiver and a power supply, the touch screen, the control module, the signal transceiver and the power supply are all installed on a control cabinet, an emergency stop button is installed on the control cabinet, the touch screen, the signal transceiver, the power supply and the emergency stop button are all electrically connected with a controller, the signal transceiver is used for interacting data transmitted by mixed proportioning with a receiving terminal, the control module can be selected as a CPU or an integrated circuit and used for controlling the operation of the whole liquid supply device 1, the touch screen can be used for a manager to set the mixed proportioning of cutting liquid and also can be used for an operator to inquire filling information, and the emergency stop button is used for forcibly stopping the liquid supply device 1.

Be equipped with first stock solution bucket in the first stock solution device, can set up the level gauge on the first stock solution bucket, a liquid level height for detecting in the first stock solution bucket, first conveying mechanism specifically includes first conveyer pipe, first measurement subassembly, first power component and first control valve, first stock solution bucket of first duct connection, first control valve, first measurement subassembly and first power component all locate on the first conveyer pipe, the degree of opening and shutting can be adjusted to first control valve, satisfy the transport requirement of cutting fluid, first control valve is preferred stop valve, solenoid valve or flow control valve, first measurement subassembly is used for measuring the delivery capacity of cutting fluid, first measurement subassembly is preferred the flowmeter, first power component is used for the transport of cutting fluid to provide power, first power component is preferred measuring pump or ordinary pump, ordinary pump is one of electromagnetic pump, axial-flow pump, the jet pump, mixed flow pump, water hammer pump or volumetric pump.

Be equipped with the second stock solution bucket in the second stock solution device, can set up the level gauge on the second stock solution bucket, a liquid level height for detecting in the second stock solution bucket, second conveying mechanism specifically includes the second conveyer pipe, the second measures the subassembly, second power component and second control valve, second delivery connection second stock solution bucket, the second control valve, second measure subassembly and second power component all locate on the second conveyer pipe, the degree of opening and shutting can be adjusted to the second control valve, satisfy the transport requirement of water, the second control valve is preferred stop valve, solenoid valve or flow control valve, the second measures the delivery capacity that the subassembly is used for the gauged water, the second measures the subassembly and is preferred the flowmeter, the second power component is used for the transport of water to provide power, the second power component is preferred measuring pump or ordinary pump, ordinary pump is one of electromagnetic pump, axial-flow pump, the jet pump, the mixed flow pump, the hydraulic hammer or the displacement pump.

The transfer supply tank 9 is connected with the machine tool 2 through a mixed liquid conveying assembly, the mixed liquid conveying assembly comprises a mixed liquid conveying pipeline 3, a booster pump can be installed on the mixed liquid conveying pipeline 3, the pressure maintaining can be carried out on the mixed liquid conveying pipeline 3, and the stability of mixed liquid conveying is improved. A first shunt pipe 301 is connected between the machine tool 2 and the mixed liquid conveying pipeline 3, a third metering component 302 is mounted on the first shunt pipe 301, and the third metering component 302 is preferably a flowmeter, so that the input amount of the mixed liquid of the machine tool 2 can be conveniently metered.

And a monitoring device is also arranged in the transfer supply pool 9 and is used for monitoring the capacity of the mixed liquid in the transfer supply pool 9. The monitoring device can adopt a liquid level sensor, a weighing sensor, a flowmeter or a visual sensor, the liquid level sensor is used for monitoring the residual amount of the liquid level of the mixed liquid in the transfer supply pool 9 and really mixing the liquid, the liquid level sensor is convenient to add in time according to the residual amount, the use requirement of the machine tool 2 is met, the weighing sensor is used for weighing the weight of the residual mixed liquid and comparing the weight with an initial value, the difference is calculated to supplement industrial oil and media, the visual sensor is used for shooting the height difference between the liquid level and the initial value to calculate the difference, the industrial oil and media are supplemented, the flowmeter is used for measuring the output quantity of the mixed liquid and comparing the output quantity with the initial value, and the difference is calculated to supplement the industrial oil and the media.

Can also be equipped with rabbling mechanism in the transfer supply pond 9, defoaming mechanism and the mechanism that sprays, the rabbling mechanism is used for improving the degree of consistency of mixed liquid, defoaming mechanism with spray the mechanism and be used for carrying out the defoaming to the mixed liquid in the transfer supply pond 9 and handle, the rabbling mechanism can be the combination that adopts motor and stirring rake, the realization is mixed can to the continuous stirring of mixed liquid, defoaming mechanism can be to adopt the bubble board to strike off the bubble on the liquid surface, improve the precision of monitoring, spray the mechanism and can adopt the structure of shower cooperation infusion pump to realize spraying of defoaming agent, detach the bubble on the liquid surface.

Lathe 2 passes through waste liquid circulation mechanism and connects transfer supply tank 9 and waste liquid treatment device 6 respectively, waste liquid circulation mechanism includes first circulating line 4, second circulating line 402 and second shunt tubes 401, lathe 2 connects first circulating line 4 through second shunt tubes 401, first circulating line 4 passes through second circulating line 402 and connects transfer supply tank 9, realize the cyclic utilization of waste liquid, the waste liquid that produces after lathe 2 uses inputs first circulating line 4 through second shunt tubes 401 and assembles the transport. The second circulation pipe 402 is provided with a circulation valve 404, and when the concentration detection data is lower than the set value, the circulation valve 404 is opened, and the waste liquid flows back to the transit supply tank 9. Meanwhile, the liquid supply device 1 compares and judges the concentration set value of the waste liquid with the actual concentration detection data, calculates the conveying capacity of the industrial oil and/or medium, and conveys the industrial oil and/or medium to the transit supply pool 9 according to the calculated conveying capacity, so that the concentration of the mixed liquid in the transit supply pool 9 reaches the set requirement.

First circulating line 4 is equipped with waste liquid power component 403 and filters and concentration detection mechanism 5, and waste liquid power component 403 is used for the transport of waste liquid to provide power, guarantees that the waste liquid after filtering and concentration detection carries out stable transport, and waste liquid power component 403 is used for the transport of waste liquid to provide power, and waste liquid power component 403 is preferred metering pump or ordinary pump, and ordinary pump is one of electromagnetic pump, axial-flow pump, jet pump, mixed flow pump, hydraulic ram pump or positive displacement pump.

As shown in fig. 2, the filtering and concentration detecting mechanism 5 includes a barrel 51, an iron scrap collecting tank 52, a driving assembly 53, a rotating assembly 54, an iron scrap adsorbing assembly 55 and an oil sludge adsorbing mechanism, a filter screen 5103 is arranged in the barrel 51, a liquid level detecting mechanism 5104 and a concentration detecting mechanism 5105 are arranged in the barrel 51, the liquid level detecting mechanism 5104 can adopt a liquid level sensor, the concentration detecting mechanism 5105 is an online concentration meter, a concentration control system, one or more than one combination of an oil analyzer and an online turbidity analyzer, and the concentration detecting device is used for efficiently detecting the waste liquid generated by the machine tool 2, so as to judge whether the waste liquid can be continuously used, thereby not only being beneficial to saving industrial oil, but also realizing the recycling of the waste liquid and meeting the use requirements of green plants.

Iron fillings collecting vat 52 is fixed in one side of staving 51, and the surface of staving 51 is equipped with display screen 5106, can show the concentration index of cutting fluid in real time through display screen 5106, and the manual work of being convenient for judges according to the concentration index, whether need carry out concentrated treatment to the waste liquid.

As shown in fig. 3, the driving component 53 is arranged on the top surface of the barrel body 51, the iron scrap adsorption component 55 is connected with the driving component 53 through the rotating component 54, the driving component 53 and the rotating component 54 realize the vertical horizontal movement and rotation of the iron scrap adsorption component 55, the waste liquid can be filtered through the filter screen 5103 after being input into the barrel body 51, the iron scrap in the waste liquid is intercepted in the barrel body 51, the liquid level detection mechanism 5104 is used for detecting the liquid level height in the barrel body 51, after the waste liquid in the barrel body 51 is discharged, the driving component 53 is started, the rotating component 54 is driven by the driving component 53 to vertically and horizontally move, the iron scrap adsorption component 55 can move along with the waste liquid, the requirements on adsorption and release of the iron scrap in the waste liquid are met, the rotating component 54 can drive the iron scrap adsorption component 55 to rotate, and the iron scrap on the filter screen 5103 can be conveniently collected in a centralized manner.

The driving assembly 53 includes a first cylinder 5303, a lifting plate 5305, a second cylinder 5308, a swing arm 5310, a guide rod 5311 and a balance table 5315, the first cylinder 5303 is fixedly connected to the barrel 51 through a first support plate 5301, the first cylinder 5303 is connected to the lifting plate 5305 through a first boosting assembly, the first boosting assembly includes a first push plate 5304, a first boosting rod 5306 and a first sleeve 5307, the two first sleeves 5307 are fixed to the first support plate 5301 in parallel, the first cylinder 5303 is connected to the first push plate 5304 through a first piston rod, the two first boosting rods 5306 are fixed to the first push plate 5304 in parallel, and the first push plate 5304 is connected to the lifting plate 5305 through the first sleeve 5307. The first stroke switch 5316 is disposed on the top surface of the first support plate 5301, and when the lifting plate descends and touches the first stroke switch 5316, the first cylinder 5303 stops working, so that the iron chip adsorption mechanism descends to a set height position.

The second cylinder 5308 is connected with the barrel 51 through a support column 5309, the second cylinder 5308 is connected with a guide rod 5311 through a swing arm 5310, the swing arm 5310 is rotatably connected with the second support plate 5302, the second support plate 5302 is fixed on the barrel 51, the guide rod 5311 penetrates through the lifting plate through a second boosting assembly to be connected with the balance table 5315, the second boosting assembly comprises a second push plate 5312 and a second boosting rod 5314, the second push plate 5312 is horizontally fixed on the guide rod 5311, the two second boosting rods 5314 are arranged on the second push plate 5312 in parallel, the second boosting rod 5314 penetrates through the lifting plate and is connected with the balance table 5315, the length of the second boosting rod 5314 is larger than the horizontal distance between the iron scrap adsorption mechanism and the iron scrap collecting tank 52, and the iron scrap adsorption mechanism can be smoothly moved above the iron scrap collecting tank 52.

As shown in fig. 4, a guide groove 5317 is formed in the guide rod 5311, a horizontal cross section of the guide groove 5317 is T-shaped, a roller 5313 is formed on the swing arm 5310, the roller 5313 is movably connected in the guide groove 5317, a baffle 5318 is formed at the bottom of the guide rod 5311, and a second travel switch 5319 is formed on the baffle 5318, when the iron scrap adsorbing assembly 55 and the lifting plate are lifted to a set height position, the roller 5313 contacts the second travel switch 5319, so that the first cylinder 5303 stops working, and at this time, the iron scrap adsorbing assembly 55 is exactly located above the barrel 51, so as to prevent the iron scrap adsorbing assembly 55 from colliding with the barrel 51 during horizontal movement.

First cylinder 5303 can drive lifter plate 5305 through first boosting subassembly and reciprocate, and then can drive iron fillings absorption subassembly 55 through rotating assembly 54 and reciprocate, and second cylinder 5308 can drive guide arm 5311 and second boosting subassembly horizontal migration through swing arm 5310, and then can drive balancing stand 5315 horizontal migration, realizes that iron fillings absorption subassembly 55 and rotating assembly 54 follow horizontal migration together.

The rotating assembly 54 comprises a lower rotating disc 5401, an upper rotating disc 5403 and a motor 5405, the motor 5405 is fixed on the balance table 5315, the upper rotating disc 5403 is connected with an output shaft of the motor 5405 and located below the balance table 5315, the lower rotating disc 5401 is fixed below the upper rotating disc 5403 through the stand columns 5404, 3 stand columns 5404 are preferentially adopted in the application, and stability and reliability of the rotating assembly 54 during rotation are improved.

As shown in fig. 5 and fig. 6, the iron scrap adsorption component 55 includes a top plate 5501, a bottom plate 5502, the magnetic absorption component and a third boosting component, the bottom plate 5502 is connected below the top plate 5501 through a fixing plate 5503, the magnetic absorption component is connected with the fixing plate 5503 through the third boosting component, a battery pack 5511 and a controller 5513 are arranged on the bottom plate 5502, the battery pack 5511 is connected with the magnetic absorption component through a conducting wire 5512, the top plate 5501 is fixed on a rotating component 54, the third boosting component can be controlled to move horizontally through the controller 5513, and then the magnetic absorption component can be driven to move horizontally, the working range of the iron scrap adsorption component 55 is enlarged, iron scrap on the filter screen 5103 can be adsorbed completely, and meanwhile the controller 5513 can control the battery pack 5511, so that the current in the magnetic absorption component flows in the forward direction when adsorbing iron scrap, and flows in the reverse direction when releasing the iron scrap.

Preferentially adopt three third boosting subassemblies of group in this application, every third boosting subassembly of group all includes third cylinder 5504, second sleeve 5505 and third boosting pole 5506, third cylinder 5504 and second sleeve 5505 fixed connection are on fixed plate 5503, third cylinder 5504 is connected magnetism through the third piston rod and is inhaled the subassembly, magnetism is inhaled the subassembly and is connected second sleeve 5505 through third boosting pole 5506, stability and reliability when improving magnetism and inhale subassembly horizontal migration, still be equipped with air pump 5402 on lower carousel 5401's the top surface, air pump 5402 communicates through gas-supply pipe and third cylinder 5504. When iron chips are adsorbed, the air pump 5402 controls the third air cylinder 5504 to work, so that the magnetic suction assembly extends out or retracts under the action of the third piston rod, the working range of the magnetic suction assembly is adjusted, and the efficiency of iron chips cleaning is improved.

Preferentially adopt three groups of magnetism subassembly of inhaling in this application, every group magnetism subassembly of inhaling all includes cantilever 5508, armature 5509, metal coil and protection casing 5510, cantilever 5508 fixed connection third boosting pole 5506 and third piston rod, the linking is fixed in on cantilever 5508, metal coil twines on cantilever 5508 and armature 5509, metal coil's the outside is located to protection casing 5510, metal coil connecting wire 5512, when the liquid level height in staving 51 is less than filter screen 5103, or when there is not the waste liquid in the staving 51, give the metal coil power supply through controller 5513 control group battery 5511, increase magnetic force, make the iron fillings on filter screen 5103 surface inhaled on protection casing 5510, protection casing 5510 can play the effect of protection metal coil and armature 5509, avoid metal coil contact waste liquid to cause the short circuit simultaneously, when magnetism subassembly moves to iron fillings 5552 top, controller 13 control group battery 5511 produces reverse current, make the iron fillings on protection casing 10 surface drop to iron fillings in iron fillings 5552.

As shown in fig. 6, an inclined plate 5116 is arranged below the filter screen 5103 in the barrel 51, a discharge port 5115 is arranged on the inclined plate 5116, a waterproof motor 5113 is arranged at one end of the inclined plate 5116 close to the discharge port 5115, an inducer 5114 is connected to the waterproof motor 5113, and the inducer 5114 is driven by the waterproof motor 5113 to rotate, so that oil sludge accumulated at the bottom of the inclined plate 5116 can flow downwards through the discharge port 5115, and the discharge port 5115 is prevented from being blocked to influence the flow of waste liquid. The outer side surface of the barrel body is provided with a liquid outlet pipe interface 5107, so that treated waste liquid can be conveniently output.

As shown in fig. 5 and 8, the oil sludge adsorption mechanism is movably connected in the barrel body 51, the oil sludge adsorption mechanism comprises an oil sludge adsorption component 56, an oil sludge discharge pipe 5110 and a suction pump 5111, the oil sludge discharge pipe 5110 is arranged on the outer side surface of the barrel body, the suction pump 5111 is arranged on the oil sludge discharge pipe 5110, the oil sludge discharge pipe 5110 is connected with the oil sludge adsorption component 56 through a hose 5112, the oil sludge adsorption component 56 is connected in the barrel body through a screw 5109 and a guide rod, one end of the screw 5109 is provided with a servo motor 5108, the servo motor 5108 is used for rotating the electric screw 5109, and then the oil sludge adsorption component 56 can be driven to horizontally move along the bottom of the barrel body, the oil sludge adsorption efficiency of oil sludge is improved, the oil sludge can be input into the hose 5112 through the oil sludge adsorption component 56 through the suction pump 5111, and the oil sludge is discharged through the oil sludge discharge pipe 5110, and the treatment efficiency of iron chips and iron powder in waste liquid is greatly improved.

The oil sludge adsorption component 56 comprises an adsorption plate 5601 and a pushing plate body 5602, the pushing plate body 5602 is fixedly connected with the adsorption plate 5601, a threaded hole 5605 and a guide hole 5606 are formed in the pushing plate body 5602, the threaded hole 5605 is matched with a screw 5109, the guide hole 5606 is matched with a guide rod, a dirt absorbing hole 5603 and a brush 5604 are formed in the bottom surface of the adsorption plate 5601, the dirt absorbing hole 5603 is communicated with a hose 5112, when the screw 5109 drives the adsorption plate 5601 to move horizontally through the pushing plate body 5602, oil sludge accumulated at the bottom can be scraped through the brush 5604, and then adsorption is performed through an adsorption hole in the adsorption plate 5601, so that the oil sludge treatment efficiency is greatly improved.

As shown in fig. 9, the waste liquid treatment device 6 is connected to the liquid supply device 1 through a backflow component to realize recycling and treatment of industrial oil products, the backflow component includes a clean water backflow pipe 7 and a clean water backflow valve 701 arranged on the clean water backflow pipe 7, and the waste liquid treatment device 6 is connected to the liquid supply device 1 through the clean water backflow pipe 7 to realize recycling of distilled water. Not only can carry out the ratio with the industrial oil and mix and carry to lathe 2, and can carry out concentration detection with the waste liquid that lathe 2 produced, it flows back to transfer supply tank 9 to detect qualified back flow, add required industrial oil and/or medium, satisfy the operation requirement of lathe 2, detect unqualified waste liquid input waste liquid processing apparatus 6 and carry out centralized processing, form about 90% distilled water and 10% concentrate after handling through vacuum distillation, the distilled water can flow back and circulate the use, concentrate centralized processing, the sewage volume that significantly reduces, the treatment process is succinct high-efficient, no secondary pollution, greatly reduced the energy consumption, realize digital factory, the full automatic control of green manufacturing plant, make the danger useless obtain omnidirectional supervision.

The waste liquid treatment apparatus 6 comprises a separator, a waste water tank 62, a treatment tank 64, a concentration tank 66 and a distilled water tank 67, the separator is connected with the waste water tank 62 through a waste liquid delivery pipe 6103, the waste water tank 62 is connected with the treatment tank 64 through a waste water inlet 6202, the treatment tank 64 is connected with a cleaning tank 63 and an antifoaming agent storage tank 65 through a cleaning agent inlet 6302 and an antifoaming agent inlet 6501 respectively, and the treatment tank 64 is connected with the concentration tank 66 and the distilled water tank 67 through a concentrated liquid outlet 6402 and a distilled water outlet 6401 respectively. The separator is preferably a three-phase separator 61, waste liquid can be separated and filtered to form waste residue, floating oil and sewage, the waste residue and floating oil are discharged, and the floating oil and solid impurities are simply and efficiently separated through the design of the three-phase separator 61. The slag is discharged through a slag discharge port 6101, the floating oil is discharged through a floating oil discharge port 6102, and the sewage is input into the sewage tank 62 through a waste liquid delivery pipe 6103 for storage. Be provided with bag filter 6201 on bilge tank 62, when sewage carried, carry out filtration treatment to sewage through bag filter 6201, remove the particulate impurity in the sewage, realize carrying out secondary filter to sewage.

The separator is communicated with the first circulating pipeline 4 through a waste liquid treatment pipe 8, and a waste liquid conveying valve 801 is arranged on the waste liquid treatment pipe 8 and used for controlling the opening and closing of the waste liquid treatment pipe 8.

Wash bucket 63 and be equipped with first nanobubble generator 6301 for carry out aeration treatment to the cleaner in washing bucket 63, first nanobubble generator 6301's design not only can produce the nanobubble, is used for the aeration, has the effect that the suppression bacterium produced moreover, can avoid putting into chemical simultaneously, makes the difficult scale deposit of equipment, and is more durable, improves the lubricating property of cleaner.

The distilled water bucket 67 is provided with a second nano bubble generator 6701 for carrying out aeration treatment on the distilled water in the distilled water bucket 67, the design of the second nano bubble generator 6701 can not only generate nano bubbles for aeration, but also has the effect of inhibiting bacteria, and simultaneously can avoid putting chemical agents, so that the equipment is not easy to scale and is more durable. The distilled water bucket 67 is provided with an ultraviolet sterilizing device 6702 for sterilizing the distilled water in the distilled water bucket 67. The distilled water bucket 67 is provided with a clean water delivery pump 6703 for providing power for the delivery of distilled water.

As shown in fig. 10, an evaporator 6403, a cyclone 6404, a compressor 6405 and a preheater 6406 are provided in the treatment tank 64, the evaporator 6403 is connected to both the cyclone 6404 and the compressor 6405, the compressor 6405 is connected to the cyclone 6404, the preheater 6406 is connected to the evaporator 6403 through a sewage inlet 6407 and a distillate outlet 6408, and the evaporator 6403 is provided with a concentrated outlet 6409. The compressor 6405 is a compressor 6405 combining vapor compression and a rotary piston, sewage enters an evaporator 6403 through a preheater 6406, enters a cyclone separator 6404 after heat exchange, foreign matters are removed from the vapor, the sewage flows back to the evaporator 6403 to be subjected to circulating evaporation treatment, the vapor filtered in the cyclone separator 6404 enters the evaporator 6403 through the compressor 6405 to form distilled water and concentrated solution, the distilled water and the concentrated solution are respectively output, the concentrated solution is output through a concentrated discharge port 6409, and the distilled water is output through a distillate discharge port 6408 after heat exchange through the preheater 6406. The treatment box 64 can evaporate the wastewater under negative pressure, the steam generated by evaporation is used for heating and evaporating the wastewater, thermal circulation is formed, energy consumption is low, zero emission is realized, no consumption is caused on equipment, the pressure of the treatment box 64 is in a range of 0.5-1.4 atmospheric pressure, the highest temperature is 130 ℃, the equipment can run for 25 hours under constant temperature, the running is full-automatic, manual operation is not required in the whole process, and the automatic cleaning and maintenance reminding functions are realized. Evaporator 6403 adopts vertical tube heat exchanger, realize high-purity fraction, cyclone 6404 produces high centrifugal force and can high-efficiently get rid of the foreign matter from steam, install the fine filter in cyclone 6404, realize multistage distillation purification, it is effectual to get rid of the granule, under the negative pressure condition, water begins the evaporation at 85 ℃, after steam compression, become 120 ℃ high temperature steam, make the stoste constantly evaporate through evaporator 6403, through separation technology after the steam condenses, obtain limpid distilled water, realize the high-efficient separation of concentrate and distilled water.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple variations, equivalent substitutions or modifications based on the present invention to achieve substantially the same technical effects are within the scope of the present invention.

Claims (4)

1. Industry oil distribution and transportation integrated control system of handling based on green fortune dimension, its characterized in that: comprises that

The liquid supply device is used for storing industrial oil products and/or media;

the transfer supply pool is used for mixing the industrial oil product and the medium and conveying the mixed liquid to a machine tool through the mixed liquid conveying assembly;

the waste liquid circulating mechanism is provided with a filtering and concentration detecting mechanism and is used for filtering the waste liquid generated by the machine tool, removing scrap iron and detecting the concentration of the waste liquid; the waste liquid circulating mechanism comprises a first circulating pipeline, a second circulating pipeline and a second shunt pipe, the machine tool is connected with the first circulating pipeline through the second shunt pipe, and the first circulating pipeline is connected with the transfer supply pool through the second circulating pipeline, so that the waste liquid is recycled; the first circulating pipeline is provided with a waste liquid power assembly and the filtering and concentration detecting mechanism, and the waste liquid power assembly is used for conveying waste liquid to provide power; the filtering and concentration detecting mechanism comprises a barrel body, an iron scrap collecting tank, a driving assembly, a rotating assembly, an iron scrap adsorption assembly and an oil sludge adsorption mechanism, a filter screen, a liquid level detecting mechanism and a concentration detecting mechanism are arranged in the barrel body, the iron scrap collecting tank is fixed on one side of the barrel body, the driving assembly is arranged on the top surface of the barrel body, the iron scrap adsorption assembly is connected with the driving assembly through the rotating assembly, the driving assembly and the rotating assembly are used for realizing the vertical horizontal movement and rotation of the iron scrap adsorption assembly, and the oil sludge adsorption mechanism is movably connected in the barrel body; the iron scrap adsorption component comprises a top plate, a bottom plate, a magnetic adsorption component and a third boosting component, the bottom plate is connected below the top plate through a fixing plate, the magnetic adsorption component is connected with the fixing plate through the third boosting component, a battery pack and a controller are arranged on the bottom plate, and the battery pack is connected with the magnetic adsorption component through a conducting wire; the oil sludge adsorption mechanism comprises an oil sludge adsorption component, an oil sludge discharge pipe and a suction pump, the oil sludge discharge pipe is arranged on the outer side surface of the barrel body, the suction pump is arranged on the oil sludge discharge pipe, the oil sludge discharge pipe is connected with the oil sludge adsorption component through a hose, the oil sludge adsorption component is connected in the barrel body through a screw and a guide rod, and one end of the screw is provided with a servo motor; the oil sludge adsorption assembly comprises an adsorption plate and a pushing plate body, the pushing plate body is fixedly connected with the adsorption plate, a threaded hole and a guide hole are formed in the pushing plate body, the threaded hole is matched with the screw rod, the guide hole is matched with the guide rod, a sewage suction hole and a brush are formed in the bottom surface of the adsorption plate, and the sewage suction hole is communicated with the hose;

and the waste liquid circulating mechanism is connected with the waste liquid treatment device through a waste liquid treatment pipe, and the waste liquid treatment device is connected with the liquid supply device through a backflow assembly, so that the industrial oil is recycled and treated.

2. The green operation and maintenance-based industrial oil distribution, transportation and treatment integrated control system according to claim 1, which is characterized in that: the driving assembly comprises a first air cylinder, a lifting plate, a second air cylinder, a swing arm, a guide rod and a balance table, the first air cylinder is connected with the lifting plate through a first boosting assembly, the second air cylinder passes through the swing arm and is connected with the guide rod, and the guide rod runs through the second boosting assembly and is connected with the lifting plate and the balance table.

3. The green operation and maintenance-based industrial oil distribution, transportation and treatment integrated control system as claimed in claim 1, wherein: the barrel body is internally provided with an inclined plate below the filter screen, the inclined plate is provided with a discharge port, one end of the inclined plate close to the discharge port is provided with a waterproof motor, and the waterproof motor is connected with an inducer.

4. The green operation and maintenance-based industrial oil distribution, transportation and treatment integrated control system according to claim 1, which is characterized in that: the backflow assembly comprises a clean water backflow pipe and a clean water backflow valve arranged on the clean water backflow pipe, and the waste liquid treatment device is connected with the liquid supply device through the clean water backflow pipe, so that the distilled water can be recycled.

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