CN114106924A - Environment-friendly lubricating oil and processing technology thereof - Google Patents

Abstract

The invention discloses an environment-friendly lubricating oil and a processing technology thereof, S1: mixing: inside all injecting into the blending tank body that is located the frame top with base oil and additive, the electrical heating silk heats the raw materials, and inside air compressor among the air current rabbling mechanism discharged compressed air into the mixed solution through the exhaust pipe, utilized the air current to fully stir the mixed solution, S2: and (3) recovering: utilize axial fan among the gaseous state lubricating oil recovery mechanism to take out the waste gas that heating solution produced, gaseous state lubricating oil in the waste gas is at the inside condensation of condensation box, and collect the lubricating oil after the condensation, utilize air compressor to pour into the holding tank inside with compressed air, it is inside to utilize the air pressure control valve to guarantee that the inside air of holding tank reachs the injection gas pipe of connecting after certain atmospheric pressure and pours into the gas injection pipe, utilize inside exhaust pipe and the exhaust hole spouts compressed air to the solution of mixture, utilize the air current to stir mixed solution, guarantee the misce bene between the raw materials.

Description

Environment-friendly lubricating oil and processing technology thereof

Technical Field

The invention relates to the technical field of lubricating oil preparation, in particular to environment-friendly lubricating oil and a processing technology thereof.

Background

The lubricating oil is a liquid or semisolid lubricant which is used on various types of automobiles and mechanical equipment to reduce friction and protect machines and workpieces, and mainly plays roles of lubrication, auxiliary cooling, rust prevention, cleaning, sealing, buffering and the like, and the lubricating oil and the lubricating grease are one kind of lubricant, namely the lubricant is a lubricant which is arranged between two objects which move relatively and has the function of reducing friction caused by contact of the two objects, and the lubricating oil generally consists of base oil and additives, wherein the base oil is a main component of the lubricating oil and determines the basic property of the lubricating oil, and the additives can make up and improve the deficiency in the performance of the base oil, endow certain new performance and are important components of the lubricating oil;

however, in the processing process of the existing lubricating oil, the base oil and the additive are not uniformly mixed, the phenomenon that the base oil or the additive is agglomerated and cannot be mixed easily occurs, the quality of the lubricating oil is reduced, the lubricating effect of the lubricating oil is poor, and the normal use of the lubricating oil is influenced, so the invention provides the environment-friendly lubricating oil and the processing technology thereof to meet the requirements of people.

Disclosure of Invention

The invention provides environment-friendly lubricating oil and a processing technology thereof, which can effectively solve the problems that base oil and additives are not uniformly mixed in the processing process, the base oil or the additives are easy to agglomerate and cannot be mixed, the quality of the lubricating oil is reduced, the lubricating effect of the lubricating oil is poor, and the normal use of the lubricating oil is influenced, which are provided by the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly lubricating oil and a processing technology thereof comprise the following steps:

s1: mixing: injecting base oil and additives into a mixing tank body positioned at the top of the rack, heating the raw materials by an electric heating wire, discharging compressed air into a mixed solution by an air compressor in an airflow stirring mechanism through an exhaust circular tube, and fully stirring the mixed solution by airflow;

s2: and (3) recovering: extracting waste gas generated by heating the solution by using an axial flow fan in the gaseous lubricating oil recovery mechanism, condensing the gaseous lubricating oil in the waste gas in a condensing box body, and collecting the condensed lubricating oil;

s3: sampling: after the solution is mixed for a period of time, sampling the solution at different positions in the mixing tank body by using a sampling cylinder in an equidistant sampling mechanism, and detecting the sample;

s4: and (3) filtering: after the solution is fully mixed, the oil discharge pump body discharges the solution to a fine filter plate in the filtering and dedusting mechanism, and the filtered solution is discharged into the oil storage tank through a discharge channel;

s5: filling: conveyer belt in the high-efficient filling mechanism with place the board and transport empty packing bottle to the bottom of filling injection head, inside the filling pump body pours into the packing bottle with solution.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure, safe and convenient use,

1. the base oil and the additive are mixed initially in the flowing process, so that the base oil and the additive are uniformly scattered into the mixing tank body, the phenomenon that the base oil and the additive are directly injected into the bottom end of the mixing tank body to be agglomerated and cannot be mixed easily is avoided, the subsequent stirring time can be effectively reduced, and the working efficiency is improved;

utilize air compressor to pour into the heat preservation inslot with compressed air inside, utilize the air pressure control valve to guarantee that the inside air of heat preservation inslot rethread connection trachea pours into the gas injection pipe into after reaching certain atmospheric pressure inside, utilize inside exhaust pipe and the exhaust hole spouts compressed air to the solution of mixing, utilize the air current to stir mixed solution, moreover, the steam generator is simple and convenient in structure, guarantee the misce bene between the raw materials, and need not set up other mechanical motion subassemblies, and save the cost, compressed air absorbs the heat that gives out among the electric heating wire heating process when the heat preservation inslot, make the compressed air of stirring use subsidiary certain heat, avoid the raw materials inside uneven and the heat of being heated to scatter and disappear.

2. The oil discharge pump body discharges the mixed and processed lubricating oil to the surface of the fine filter plate through the discharge pipe, the fine filter plate plays a role in filtering the lubricating oil, impurities or caking remained in the lubricating oil are prevented from affecting the quality of the lubricating oil, the connecting rod is driven to move forwards through the electric push rod, the rolling ball slides upwards in the movable groove, the movable block and the rolling plate are overturned, the bottom end of the rolling plate is contacted with the fine filter plate, so that the electric push rod can push the movable block and the sliding block to slide downwards along the guide rod, the rolling plate can push the lubricating oil on the fine filter plate downwards to promote the lubricating oil to be discharged through the fine filter hole, the lubricating oil is prevented from being accumulated on the surface of the fine filter plate due to the fact that the lubricating oil is viscous and can not be automatically discharged, and when the electric push rod rolling ball drives the connecting rod to move upwards, the lubricating oil can slide downwards in the movable groove, the connecting rod can make the movable block rotate, guarantee to roll the clamp plate and can not contact with the fine filtration board when upwards marching, avoid extruding lubricating oil and lead to lubricating oil to drip to ground.

To sum up, mutually support through air current rabbling mechanism and filtration dust removal mechanism, blow partial compressed air to the wind-force drive plate through the branch pipe of blowing, utilize the air current to blow arc coarse filter board and rotate at the internal portion of blending tank, play the effect of stirring to the mixed solution, can be separated into tiny state when the mixed solution passes through arc coarse filter board, more be favorable to fusing each other between the raw materials, can carry out prefilter with the mixed solution simultaneously, get rid of the impurity in the raw materials, combine together with filtration dust removal mechanism, through carrying out twice filtration to lubricating oil, improve the quality of lubricating oil.

3. The efficient filling mechanism is arranged, so that empty packaging bottles on the placing plate can move forwards along the conveying belt, the positioning plate has a positioning effect on the packaging bottles, the packaging bottles are guaranteed to move right below the filling injection head, the solution filling can be guaranteed not to deviate without manually aligning the positions, the baffle is simultaneously located at the other end of the packaging bottles, the packaging bottles are limited from two sides, and the error rate of filling is reduced;

the inside lubricating oil of packing bottle increases gradually, can slowly compress the extrusion spring downwards, after packing bottle inside filling, make the top of placing board and mounting bracket level mutually, hydraulic telescoping rod drives the push pedal and advances forward, promote the packing bottle that the filling was accomplished to the conveyer belt on, the progress of utilizing the weight of packing bottle to control the filling, after weight reaches the certain degree, the filling automatic stop, and the packing bottle that accomplishes the filling is direct transports backward, do not need artifical transport, and promote the in-process, pull rope pulling baffle and advance backward, make empty packing bottle can directly supply to the filling station, guarantee that whole filling process is more high-efficient and continuous.

4. The device is provided with a gaseous lubricating oil recovery mechanism, part of lubricating oil evaporated by high temperature in the lubricating oil processing process enters the interior of the condensation spiral pipe through the waste gas discharge pipe, the interior of the condensation box body is filled with cooling water, the gaseous lubricating oil can be effectively condensed, the condensation spiral pipe can prolong the condensation time of the gaseous lubricating oil, the pollution to the environment caused by the direct discharge of the gaseous lubricating oil is avoided, the lubricating oil condensed into liquid state is pushed into the interior of the lubricating oil collection box body under the action of continuous airflow, the lubricating oil is convenient to recover, the recovered lubricating oil can be processed again, and the unnecessary waste of resources in the processing process is reduced;

inside exhaust waste gas was injected into the condensation box by the waste gas connecting pipe, utilized the harmful substance who dissolves in water in the current water absorption waste gas, and the inside cooling water of condensation box has absorbed the heat in the condensation process for the cooling water is certain heat by the way, and the water after the heating can improve the absorption efficiency to harmful substance, avoids harmful gas to discharge and can cause the pollution to the environment.

5. The equidistant sampling mechanism is arranged, so that the lubricating oil can be conveniently sampled and detected in the processing process, the quality of the processed lubricating oil is ensured to be qualified, the sampling cylinder is sealed by the isolation sleeve, no lubricating oil enters the sampling cylinder in the process of extending the sampling cylinder into the mixing tank body, the isolation sleeve is lifted upwards, the lubricating oil enters the sampling cavity through the oil penetration hole, the lubricating oil with different heights can be ensured to enter the corresponding sampling cavity, the working personnel can conveniently detect the processing mixing degree of different positions through lubricating oil samples at different positions, and the detection accuracy is improved;

through fastening bolt's use, be convenient for fix fixed plate and roof, provide very big facility for adjusting isolated telescopic position, guarantee that isolated sleeve can be intact fix on the surface of sample drum, can upwards mention again simultaneously, can not shelter from the sample to lubricating oil, can once extract a plurality of samples, improved work efficiency.

To sum up, through mutually supporting of gaseous state lubricating oil recovery mechanism and equidistance sampling mechanism, the exhaust waste gas will be handled the back and carry to inside the gas distribution case through the conveying gas pipe, utilize the blow hole to blow gas to isolated telescopic surface, play the effect of dust removal to isolated sleeve, avoid the isolated telescopic surface of idle process to adhere to impurity and dust, and then take the sampling process into inside lubricating oil that leads to of lubricating oil and be polluted, the aviation baffle has played the effect of guide to the air current simultaneously, guarantee that isolated telescopic back also can receive the blowing of air current, make isolated telescopic surface remain clean all the time.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a flow chart of the process of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of the installation structure of the water storage tank of the present invention;

FIG. 4 is a schematic view of the mounting structure of the oil displacement pump body of the present invention;

FIG. 5 is a schematic structural view of the airflow stirring mechanism of the present invention;

FIG. 6 is a schematic structural diagram of the filtering and dust-removing mechanism of the present invention;

FIG. 7 is a schematic view of the construction of the gaseous lubricating oil recovery mechanism of the present invention;

FIG. 8 is a schematic structural view of the efficient filling mechanism of the present invention;

FIG. 9 is a schematic view of the installation structure of the pressing spring of the present invention;

FIG. 10 is a schematic structural view of an isometric sampling mechanism of the present invention;

FIG. 11 is a schematic view of the mounting structure of the air deflection panel of the present invention;

reference numbers in the figures: 1. a frame; 2. a mixing tank body; 3. a base oil feed pipe; 4. an additive feed pipe; 5. an electric heating wire;

6. an airflow stirring mechanism; 601. a uniform feeding plate; 602. a discharge hole; 603. a heat preservation groove; 604. an air pressure control valve; 605. connecting an air pipe; 606. a gas injection round pipe; 607. a gas injection standpipe; 608. an exhaust circular tube; 609. an exhaust hole; 610. an air inlet pipe; 611. an air compressor; 612. an air blowing branch pipe; 613. a rotating shaft; 614. an arc-shaped coarse filter plate; 615. coarse filtering holes; 616. a dust collection tank body; 617. wind power driving plate

7. An oil discharge pump body; 8. a discharge pipe; 9. an oil storage tank;

10. a filtering and dedusting mechanism; 1001. a discharge channel; 1002. a fine filter plate; 1003. fine filtering holes; 1004. a guide bar; 1005. a slider; 1006. a movable block; 1007. a movable groove; 1008. rolling the plate; 1009. an electric push rod; 1010. a connecting rod; 1011. rolling a ball;

11. filling the pump body;

12. a high-efficiency filling mechanism; 1201. a lubricating oil flow distribution box; 1202. filling the injection head; 1203. a mounting frame; 1204. a delivery shaft; 1205. a conveying motor; 1206. a conveyor belt; 1207. a limiting plate; 1208. a support frame; 1209. a rotating shaft; 1210. rotating the motor; 1211. a conveyor belt; 1212. a connecting frame; 1213. a compression spring; 1214. placing the plate; 1215. a fixed mount; 1216. a through hole; 1217. a hydraulic telescopic rod; 1218. pushing the plate; 1219. a fixed seat; 1220. a movable rod; 1221. a baffle plate; 1222. a traction rope; 1223. positioning a plate; 1224. a return spring;

13. a gaseous lubricating oil recovery mechanism; 1301. an exhaust gas discharge pipe; 1302. an axial flow fan; 1303. a condensing box body; 1304. a condensing spiral tube; 1305. a drain pipe; 1306. a dust filter screen; 1307. a water inlet pipe; 1308. a water storage tank; 1309. a gas-liquid separation tank body; 1310. a lubricating oil collection box body; 1311. an exhaust gas connecting pipe; 1312. an air outlet pipe;

14. an equidistant sampling mechanism; 1401. a sampling port; 1402. an upper cover; 1403. a support; 1404. a side plate; 1405. a top plate; 1406. a fixing plate; 1407. a sampling cylinder; 1408. an oil-bleeding hole; 1409. a partition plate; 1410. a sampling cavity; 1411. a fixed block; 1412. an end seat; 1413. an isolation sleeve; 1414. a ring-shaped pull block; 1415. an air deflector; 1416. a gas diversion box; 1417. an air blowing hole; 1418. a gas delivery pipe; 1419. and fastening the bolt.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in figure 1, the invention provides a technical scheme of environment-friendly lubricating oil and a processing technology thereof, and the environment-friendly lubricating oil comprises the following steps:

s1: mixing: injecting base oil and additives into a mixing tank body 2 positioned at the top of a frame 1, heating the raw materials by an electric heating wire 5, discharging compressed air into a mixed solution through an exhaust round pipe 608 by an air compressor 611 in an airflow stirring mechanism 6, and fully stirring the mixed solution by airflow;

s2: and (3) recovering: extracting waste gas generated by heating the solution by using an axial flow fan 1302 in the gaseous lubricating oil recovery mechanism 13, condensing the gaseous lubricating oil in the waste gas in a condensing box 1303, and collecting the condensed lubricating oil;

s3: sampling: after the solution is mixed for a period of time, the sampling cylinder 1407 in the equidistant sampling mechanism 14 is used for sampling the solution at different positions in the mixing tank 2 and detecting the sample;

s4: and (3) filtering: after the solution is fully mixed, the oil discharge pump body 7 discharges the solution to a fine filtering plate 1002 in the filtering and dust removing mechanism 10, and the filtered solution is discharged into the oil storage tank 9 through a discharge channel 1001;

s5: filling: the conveyor 1211 and the placing plate 1214 in the efficient filling mechanism 12 transport the empty packaging bottles to the bottom end of the filling injection head 1202, and the filling pump body 11 injects the solution into the packaging bottles;

as shown in fig. 2-11, a mixing tank 2 is fixedly installed at the top of the frame 1, a base oil feeding pipe 3 is fixedly installed at the top end of the mixing tank 2, an additive feeding pipe 4 is fixedly installed at one end of the top end of the mixing tank 2, which is far away from the base oil feeding pipe 3, an electric heating wire 5 is embedded in the side wall of the mixing tank 2, an air flow stirring mechanism 6 is fixedly installed inside the mixing tank 2, compressed air is delivered to the inside of the mixing tank 2 through an air compressor 611, raw materials are stirred by air flow, the air is heated inside a heat preservation tank 603, and the work efficiency is improved by dissipated heat energy;

the airflow stirring mechanism 6 comprises a uniform feeding plate 601, a discharge hole 602, a heat preservation tank 603, an air pressure control valve 604, a connecting air pipe 605, a circular air injection pipe 606, a vertical air injection pipe 607, a circular air exhaust pipe 608, an air exhaust hole 609, an air inlet pipe 610, an air compressor 611, an air blowing branch pipe 612, a rotating shaft 613, an arc-shaped coarse filter plate 614, a coarse filter hole 615, a dust collection tank body 616 and a wind power driving plate 617;

the top end of the interior of the mixing tank body 2 is fixedly provided with an even feeding plate 601, the even feeding plate 601 is positioned under the base oil feeding pipe 3 and the additive feeding pipe 4, the surface of the even feeding plate 601 is provided with a discharge hole 602, the side wall of the mixing tank body 2 is provided with a heat preservation groove 603 at the position of one side of the electric heating wire 5, the top end of the interior of the heat preservation groove 603 is fixedly provided with an air pressure control valve 604, the top end of the air pressure control valve 604 is fixedly connected with a connecting air pipe 605, one end of the connecting air pipe 605 is connected with an air injection circular pipe 606, the inner wall of the mixing tank body 2 is fixedly provided with an air injection circular pipe 606, the bottom end of the air injection circular pipe 606 is fixedly connected with an air injection vertical pipe 607 at equal distance, the middle part and the bottom end of the air injection vertical pipe 607 are fixedly connected with an air exhaust circular pipe 608, the inner side of the air exhaust circular pipe 608 is provided with exhaust holes 609 at equal distance along the circumferential direction, the bottom of the mixing tank body 2 is fixedly connected with an air inlet pipe 610, one end of the air inlet pipe 610 extends to the inside of the heat preservation tank 603, one end of the air inlet pipe 610 is fixedly connected with an air compressor 611, the air inlet end of the air compressor 611 is connected with an inert gas storage tank, when the base oil and the additive are added into the mixing tank body 2, the base oil and the additive fall on the uniform feeding plate 601, flow along the inclined plane of the uniform feeding plate 601 and fall through the discharge hole 602, the base oil and the additive are preliminarily mixed in the flowing process, so that the base oil and the additive are uniformly scattered into the mixing tank body 2, the phenomenon that the base oil and the additive are directly injected into the bottom end of the mixing tank body 2 to form lumps and cannot be easily mixed is avoided, the subsequent stirring time can be effectively reduced, the working efficiency is improved, the compressed air is injected into the heat preservation tank 603 by the air compressor 611, the air pressure control valve 604 is used for ensuring that the air in the heat preservation tank 603 reaches a certain air pressure and then is injected into the air injection circular pipe 606 through the connecting air pipe 605, compressed air is sprayed into the mixed solution by the aid of the circular exhaust pipes 608 and the exhaust holes 609, the mixed solution is stirred by air flow, the structure is simple and convenient, raw materials are uniformly mixed, other mechanical movement components are not needed, cost is saved, and meanwhile, the compressed air absorbs heat emitted in the heating process of the electric heating wire 5 when passing through the heat insulation groove 603, so that the compressed air used for stirring is accompanied by certain heat, and uneven heating and heat loss in the raw materials are avoided;

the inner side of the gas injection circular pipe 606 is fixedly connected with gas blowing branch pipes 612 at equal intervals along the circumferential direction, the middle part of the mixing tank body 2 is rotatably provided with a rotating shaft 613, the bottom of the rotating shaft 613 is fixedly provided with arc coarse filter plates 614 at equal intervals along the circumferential direction, the surfaces of the arc coarse filter plates 614 are provided with coarse filter holes 615, the bottom ends of the arc coarse filter plates 614 are provided with dust collecting grooves 616, the top ends of the arc coarse filter plates 614 are fixedly provided with wind power driving plates 617, the included angle between the wind power driving plates 617 and the horizontal plane is 70 degrees, the end parts of the gas blowing branch pipes 612 correspond to the inclined planes of the wind power driving plates 617, part of compressed air is blown to the wind power driving plates 617 through the gas blowing branch pipes 612, the arc coarse filter plates 614 are blown by air flow to rotate in the mixing tank body 2, the mixed solution is stirred, the mixed solution can be divided into fine states when passing through the arc coarse filter plates 614, and mutual fusion between raw materials is facilitated, meanwhile, the mixed solution can be preliminarily filtered, so that impurities in the raw materials are removed, and the quality of the lubricating oil is improved;

an oil discharge pump body 7 is fixedly installed at the bottom end of the mixing tank body 2, a discharge pipe 8 is fixed at one end of the oil discharge pump body 7, an oil storage tank 9 is fixedly installed at the position, located at one side of the mixing tank body 2, in the middle of the rack 1, a filtering and dedusting mechanism 10 is fixedly installed at the top of the oil storage tank 9, lubricating oil is filtered through a fine filtering plate 1002, impurities contained in the lubricating oil are removed, and the electric push rod 1009 accelerates the discharge of the lubricating oil when driving the rolling plate 1008 to advance;

the filtering and dedusting mechanism 10 comprises a discharge channel 1001, a fine filtering plate 1002, a fine filtering hole 1003, a guide rod 1004, a sliding block 1005, a movable block 1006, a movable groove 1007, a rolling plate 1008, an electric push rod 1009, a connecting rod 1010 and a rolling ball 1011;

a discharge channel 1001 is fixedly installed at the top end of the oil storage tank 9, a fine filter plate 1002 is fixedly installed at the top of the discharge channel 1001, fine filter holes 1003 are formed in the surface of the fine filter plate 1002, guide rods 1004 are symmetrically and fixedly installed at the top ends of two side portions of the discharge channel 1001, a sliding block 1005 is movably sleeved in the middle of the guide rods 1004, a movable block 1006 is rotatably installed at the bottom end of the sliding block 1005, a movable groove 1007 is formed in one end of the middle of the movable block 1006, a rolling plate 1008 is fixedly connected to one end of the movable block 1006, the bottom end of the rolling plate 1008 is arc-shaped, an electric push rod 1009 is symmetrically and fixedly installed at one end of the top of the discharge channel 1001, a connecting rod 1010 is fixedly connected to one end of the electric push rod 1009, a rolling ball 1011 is fixedly connected to one end of the connecting rod 1010, the rolling ball 1011 is clamped inside the movable groove 1007, and input ends of the electric heating wire 5, the air compressor 611 and the electric push rod 1009 are electrically connected to an output end of an external power supply, the oil discharge pump body 7 discharges the mixed and processed lubricating oil to the surface of the fine filter plate 1002 through the discharge pipe 8, the fine filter plate 1002 plays a role in filtering the lubricating oil, impurities or caking in the lubricating oil are prevented from being left, so that the quality of the lubricating oil is prevented from being influenced, the connecting rod 1010 is driven to move forwards through the electric push rod 1009, the rolling ball 1011 slides upwards in the movable groove 1007, the movable block 1006 and the rolling plate 1008 are overturned, the bottom end of the rolling plate 1008 is in contact with the fine filter plate 1002, so that the electric push rod 1009 can push the movable block 1006 and the sliding block 1005 to slide downwards along the guide rod 1004, the rolling plate 1008 can push the lubricating oil on the fine filter plate 1002 downwards, the lubricating oil is promoted to be discharged through the fine filter hole 1003, the lubricating oil is prevented from being viscous and being incapable of being discharged automatically, so that the lubricating oil is accumulated on the surface of the fine filter plate 1002, and when the electric push rod 1009 drives the connecting rod 1010 to move upwards, the rolling ball 1011 can slide downwards in the movable groove 1007, the connecting rod 1010 can enable the movable block 1006 to rotate, so that the rolling plate 1008 cannot be contacted with the fine filtering plate 1002 when moving upwards, and lubricating oil is prevented from being extruded out to drip on the ground;

the bottom end of the oil storage tank 9 is fixedly connected with a filling pump body 11, one end of the filling pump body 11 is fixedly connected with a high-efficiency filling mechanism 12, the filling degree is judged by using the pressure applied to an extrusion spring 1213, the filling can be stopped in time, and the filled packaging bottle is directly pushed backwards;

a gaseous lubricating oil recovery mechanism 13 is fixedly arranged at one end of the middle part of the frame 1, which is far away from the oil storage tank 9, and the evaporated gaseous lubricating oil is condensed and recovered by utilizing a condensation spiral pipe 1304 immersed in cooling water;

the high-efficiency filling mechanism 12 comprises a lubricating oil diversion box 1201, a filling injection head 1202, a mounting frame 1203, a conveying shaft 1204, a conveying motor 1205, a conveying belt 1206, a limiting plate 1207, a supporting frame 1208, a rotating shaft 1209, a rotating motor 1210, a conveying belt 1211, a connecting frame 1212, a squeezing spring 1213, a placing plate 1214, a fixed frame 1215, a through hole 1216, a hydraulic telescopic rod 1217, a push plate 1218, a fixed seat 1219, a movable rod 1220, a baffle 1221, a traction rope 1222, a positioning plate 1223 and a return spring 1224;

the bottom end of the filling pump body 11 is fixedly connected with a lubricating oil diversion box 1201, the bottom end of the lubricating oil diversion box 1201 is fixedly provided with filling injection heads 1202 at equal intervals, one end of the bottom of the frame 1 is fixedly provided with a mounting frame 1203, the top of the mounting frame 1203 is symmetrically and movably provided with a conveying shaft 1204, one end of one conveying shaft 1204 is fixedly connected with a conveying motor 1205, the surface of the conveying shaft 1204 is sleeved with a conveying belt 1206, one end of the top of the mounting frame 1203 is fixedly provided with a limiting plate 1207, one end of the middle part of the mounting frame 1203 is fixedly provided with a supporting frame 1208, the top ends of the mounting frame 1203, the conveying belt 1206 and the supporting frame 1208 are positioned at the same horizontal plane height, two ends of the top of the supporting frame 1208 are symmetrically and movably provided with rotating shafts 1209, one end of one rotating shaft 1209 is fixedly connected with a rotating motor 1210, two ends of the surface of the rotating shafts 1209 are symmetrically sleeved with conveying belts 1211, and the top end of the conveying belts 1211 is fixedly provided with a connecting frame 1212, an extrusion spring 1213 is fixedly installed at the top end of the connecting frame 1212, a placing plate 1214 is fixedly connected to the top end of the extrusion spring 1213, the placing plate 1214 is located under the filling injection head 1202, the horizontal height of the top end of the placing plate 1214 is higher than the horizontal heights of the top ends of the supporting frame 1208 and the mounting frame 1203, lubricating oil in the packaging bottle is gradually increased, the extrusion spring 1213 can be slowly compressed downwards, after filling in the packaging bottle is finished, the placing plate 1214 and the top end of the mounting frame 1203 are aligned, the hydraulic telescopic rod 1217 drives the push plate 1218 to move forwards, the filled packaging bottle is pushed onto the conveying belt 1206, the filling progress is controlled by using the weight of the packaging bottle, after the weight reaches a certain degree, filling is automatically stopped, the filled packaging bottle is directly transported backwards without manual transportation, and in the pushing process, the traction rope 1222 pulls the baffle 1221 to move backwards, so that the empty packaging bottle can be directly supplemented to the filling station, the whole filling process is more efficient and continuous;

a fixed frame 1215 is fixedly arranged at one end of the top of the supporting frame 1208, a through hole 1216 is formed in the middle of the fixed frame 1215, a hydraulic telescopic rod 1217 is symmetrically and fixedly arranged at one end of the middle of the fixed frame 1215, a push plate 1218 is fixedly connected with one end of the hydraulic telescopic rod 1217, a fixed seat 1219 is fixedly arranged at the position, located at one side of the fixed frame 1215, of the top of the supporting frame 1208, a movable rod 1220 is slidably arranged in the middle of the fixed seat 1219, a baffle 1221 is fixedly connected with one end of the movable rod 1220, a traction rope 1222 is fixedly connected with one end, far away from the baffle 1221, of the middle of the movable rod 1220, a positioning plate 1223 is fixedly arranged at one end, far away from the fixed seat 1219, a return spring 1224 is fixedly arranged at one end of the movable rod 1220, one end of the traction rope 1222 penetrates through the through hole 1216 and is connected with the push plate 1218, and input ends of the conveying motor 1205 and the rotating motor 1210 are electrically connected with an output end of an external power supply, the empty packaging bottles on the placing plate 1214 can move forwards along the conveying belt 1211, the positioning plate 1223 plays a positioning role for the packaging bottles, the packaging bottles are guaranteed to move right below the filling injection head 1202, manual alignment is not needed, deviation can be avoided during solution filling, the baffle 1221 is located at the other end of the packaging bottles at the same time, the packaging bottles are limited from two sides, and the error rate of filling is reduced;

the gaseous lubricating oil recovery mechanism 13 comprises an exhaust gas discharge pipe 1301, an axial flow fan 1302, a condensation box 1303, a condensation spiral pipe 1304, a drain pipe 1305, a dust filter net 1306, a water inlet pipe 1307, a water storage tank 1308, a gas-liquid separation box 1309, a lubricating oil collection box 1310, an exhaust gas connecting pipe 1311 and an air outlet pipe 1312;

the top end of the mixing tank body 2 is fixedly connected with an exhaust gas discharge pipe 1301, the bottom end of the exhaust gas discharge pipe 1301 is connected with one end of a condensation spiral pipe 1304, the bottom end of the exhaust gas discharge pipe 1301 is fixedly provided with an axial flow fan 1302, the bottom end of the axial flow fan 1302 is fixedly provided with a condensation box body 1303, the inside of the condensation box body 1303 is filled with cooling water, the condensation spiral pipe 1304 is completely immersed into the cooling water, one end of an exhaust gas connecting pipe 1311 extends to be below the liquid level of the cooling water, the middle part of the condensation box body 1303 is fixedly provided with the condensation spiral pipe 1304, the bottom end of the condensation box body 1303 is fixedly connected with a drain pipe 1305, the bottom end of the condensation box body 1303 is provided with a dust filtering net 1306, the dust filtering net 1306 covers the top end of the drain pipe 1305, the top end of the condensation box body 1303 is fixedly connected with a water inlet pipe 1307, the bottom end of the drain pipe 1305 is fixedly provided with a water storage tank 1308, the inside of the water storage tank 1308 is fixedly provided with a water pump, and the bottom end of the water inlet pipe 1307 is connected with a water pump, part of lubricating oil evaporated by high temperature in the lubricating oil processing process enters the interior of the condensation spiral pipe 1304 through the waste gas discharge pipe 1301, the interior of the condensation box 1303 is filled with cooling water, the gaseous lubricating oil can be effectively condensed, the condensation spiral pipe 1304 can prolong the condensation time of the gaseous lubricating oil, the pollution to the environment caused by the direct discharge of the gaseous lubricating oil is avoided, the lubricating oil condensed into liquid is pushed into the interior of the lubricating oil collecting box 1310 under the action of continuous airflow, the lubricating oil is convenient to recover, the recovered lubricating oil can be processed again, and the unnecessary waste of resources in the processing process is reduced;

one end of the condensation spiral pipe 1304 is fixedly connected with a gas-liquid separation box 1309, the bottom end of the gas-liquid separation box 1309 is fixedly provided with a lubricating oil collection box 1310, the top end of the gas-liquid separation box 1309 is fixedly connected with a waste gas connecting pipe 1311, the top of the condensation box 1303 is fixedly provided with an air outlet pipe 1312 at one side of the waste gas discharge pipe 1301, the input ends of the axial flow fan 1302 and the water pump are electrically connected with the output end of an external power supply, the discharged waste gas is injected into the condensation box 1303 through the waste gas connecting pipe 1311, the existing water is used for absorbing harmful substances dissolved in the waste gas, and the cooling water in the condensation box 1303 absorbs heat in the condensation process, so that the cooling water is accompanied by certain heat, the heated water can improve the absorption efficiency of the harmful substances, and the pollution to the environment caused by the discharge of the harmful gases is avoided;

the top end of the mixing tank body 2 is fixedly provided with an equidistant sampling mechanism 14, and the sampling cylinder 1407 is sealed and isolated through an isolation sleeve 1413, so that the data detected by taking out a sample is more accurate;

the equidistant sampling mechanism 14 comprises a sampling port 1401, an upper cover 1402, a support 1403, a side plate 1404, a top plate 1405, a fixing plate 1406, a sampling cylinder 1407, an oil seepage hole 1408, a partition plate 1409, a sampling cavity 1410, a fixing block 1411, an end seat 1412, an isolation sleeve 1413, a ring-shaped pull block 1414, an air deflector 1415, an air diversion box 1416, a blowhole 1417, a conveying air pipe 1418 and a fastening bolt 1419;

a sampling port 1401 is arranged at the top end of the mixing tank body 2, an upper cover 1402 is fixedly arranged at the top end of the sampling port 1401, a support 1403 is fixedly arranged at one side position of the upper cover 1402 at the top end of the mixing tank body 2, side plates 1404 are symmetrically and fixedly arranged at two sides of the support 1403, a top plate 1405 is slidably arranged at the top of the side plates 1404, a fixing plate 1406 is fixedly connected to the bottom end of the top plate 1405, a fastening bolt 1419 is fixedly arranged at the top end of the top plate 1405, the fastening bolt 1419, the top plate 1405 and the fixing plate 1406 are in threaded connection, a sampling cylinder 1407 is fixedly arranged at the bottom end of the fixing plate 1406, oil penetration holes 1408 are equidistantly arranged on the surface wall of the sampling cylinder 1407, partition plates 1409 are equidistantly and fixedly arranged in the interior of the sampling cylinder 1407, a sampling cavity 1410 is formed between adjacent partition plates 1409, a fixing block 1411 is fixedly connected to the bottom of the sampling cylinder 1407, an end seat 1412 is fixedly connected to the bottom end of the fixing block 1411, an isolation sleeve 1413 is sleeved on the surface of the sampling cylinder 1407, the bottom end of the isolation sleeve 1413 is connected with the fixed block 1411 through threads, the top end of the isolation sleeve 1413 is fixedly connected with an annular pull block 1414, lubricating oil can be conveniently sampled and detected in the machining process, the quality of the machined lubricating oil is ensured to be qualified, the isolation sleeve 1413 is utilized to seal the sampling cylinder 1407, no lubricating oil can enter the sampling cylinder 1407 in the process of extending into the mixing tank body 2, the isolation sleeve 1413 is lifted upwards, the lubricating oil enters the sampling cavity 1410 through an oil seepage hole 1408, the lubricating oil with different heights can be ensured to enter the corresponding sampling cavity 1410, a worker can conveniently detect the machining mixing degree of different positions through lubricating oil samples of different positions, the detection accuracy is improved, the fixing plate 1406 and the top plate 1405 can be conveniently fixed through the use of a fastening bolt 1419, and great convenience is provided for adjusting the position of the isolation sleeve 1413, the isolation sleeve 1413 can be ensured to be perfectly fixed on the surface of the sampling cylinder 1407 and can be lifted upwards at the same time, so that the sampling of lubricating oil is not blocked, a plurality of samples can be extracted at one time, and the working efficiency is improved;

one end of a support 1403 is symmetrically and movably provided with air deflectors 1415, one end of the middle of the support 1403, far away from the air deflectors 1415, is fixedly provided with an air distribution box 1416, one end of the air distribution box 1416 is provided with air blowing holes 1417 at equal intervals corresponding to one side of an isolation sleeve 1413, the middle of the air distribution box 1416 is fixedly connected with an air conveying pipe 1418, one end of the air conveying pipe 1418 is connected with an air outlet pipe 1312, the treated exhaust gas is conveyed into the air distribution box 1416 through the air conveying pipe 1418, the air is blown to the surface of the isolation sleeve 1413 through the air blowing holes 1417, the isolation sleeve 1413 is dedusted, impurities and dust are prevented from adhering to the surface of the isolation sleeve 1413 in an idle process, the lubricating oil is polluted due to the fact that the lubricating oil is brought into the lubricating oil in a sampling process, meanwhile, the air deflectors 1415 play a role in guiding air flow, and the back of the isolation sleeve 1413 can be blown by the air flow, so that the surface of the insulating sleeve 1413 remains clean at all times.

The lubricating oil is obtained by using a processing technology.

The working principle and the using process of the invention are as follows: in the process of using the environment-friendly lubricating oil and the processing technology thereof, firstly, a base oil feeding pipe 3 and an additive feeding pipe 4 are opened, the base oil and the additive are respectively injected into a mixing tank body 2, the base oil and the additive can directly fall on the surface of a uniform feeding plate 601, the base oil and the additive are both in liquid state and can flow downwards along the inclined surface of the uniform feeding plate 601, the base oil and the additive drop downwards from a discharge hole 602 in the flowing process, the base oil and the additive are primarily mixed in the flowing process, so that the base oil and the additive are uniformly scattered into the mixing tank body 2, the subsequent stirring time can be effectively reduced, and then an electric heating wire 5 is started to heat the interior of the mixing tank body 2;

the air compressor 611 is started, inert air is compressed and then injected into the heat preservation tank 603 through the air inlet pipe 610, the air in the heat preservation tank 603 is heated by the heat emitted in the heating process of the electric heating wire 5, so that the compressed air has certain heat, after the air pressure in the heat preservation tank 603 reaches a certain degree, the air pressure control valve 604 is loosened, so that the air enters the inside of the air injection circular tube 606 through the connecting air pipe 605, flows to the exhaust circular tube 608 through the air injection vertical tube 607, is blown to the inside of the mixed raw materials through the exhaust hole 609, the mixed solution is stirred by the air flow, the uniform mixing among the raw materials is ensured, part of the air is discharged through the air blowing branch pipe 612, the discharged air is blown to the wind power driving plate 617, the arc-shaped coarse filter plate 614 is driven to rotate around the rotating shaft 613 in the mixing tank 2, the mixing solution is stirred, and the mutual fusion between the raw materials is facilitated, meanwhile, the mixed solution can be preliminarily filtered to remove impurities in the raw materials, so that the impurities are attached to the surface of the arc-shaped coarse filter plate 614 and fall into the dust collection tank 616 along the surface of the arc-shaped coarse filter plate 614 to be collected;

in the processing process, the axial flow fan 1302 is started, the generated waste gas is injected into the interior of the condensation spiral pipe 1304 through the waste gas discharge pipe 1301, the cooling water is injected into the condensation box 1303 through the water inlet pipe 1307 by the water pump in the water storage tank 1308, the evaporated gaseous lubricating oil and harmful gas are contained in the processed waste gas, the gaseous lubricating oil is fully condensed in the interior of the condensation spiral pipe 1304, the gaseous lubricating oil is condensed into liquid state again, the condensed lubricating oil is pushed into the gas-liquid separation box 1309 by continuous airflow, the liquid lubricating oil directly falls into the lubricating oil collection box 1310 downwards, the waste gas is discharged into the cooling water in the condensation box 1303 through the waste gas connecting pipe 1311, the existing water is used for absorbing the harmful substances dissolved in the water in the waste gas, and the cooling water in the condensation box 1303 absorbs certain heat in the condensation process, the heated water can improve the absorption efficiency of harmful substances and avoid the pollution to the environment caused by the discharge of harmful gases;

gas after harmful gas is absorbed flows to the inside of the gas distribution box 1416 through the gas outlet pipe 1312 and the conveying gas pipe 1418 and is blown to the surface of the isolation sleeve 1413 through the blowing holes 1417, so that the dust removal effect on the isolation sleeve 1413 is achieved, impurities and dust are prevented from being attached to the surface of the isolation sleeve 1413 in an idle process, the surface of the isolation sleeve 1413 is brought into lubricating oil in a sampling process to cause the lubricating oil to be polluted, the gas flow can only blow to one side of the isolation sleeve 1413, the air deflector 1415 has a guiding effect on the gas flow, the back surface of the isolation sleeve 1413 can also be blown by the gas flow, and the surface of the isolation sleeve 1413 is guaranteed to be clean all the time;

after a period of processing, the upper cover 1402 is opened, the isolation sleeve 1413 is pulled downwards, the top plate 1405 slides downwards along the side plate 1404, the isolation sleeve 1413 and the sampling cylinder 1407 enter the mixing tank 2 from the sampling port 1401, the bottom end of the end seat 1412 contacts the bottom end of the mixing tank 2, the isolation sleeve 1413 is fixed on the surface of the sampling cylinder 1407 all the time, the lubricating oil is prevented from directly entering the sampling cylinder 1407 in the descending process, the position of the sample which can not be detected in the mixing tank 2 is ensured, the fastening bolt 1419 is screwed, the fixing of the top plate 1405 and the fixing plate 1406 is loosened, the top plate 1405 is pulled upwards, the isolation sleeve 1413 is rotated, the bottom end of the isolation sleeve 1413 is not fixed with the fixing block 1411, the isolation sleeve 1413 is lifted upwards by the annular pull block 1414, the lubricating oil in the mixing tank 2 enters the sampling cavity 1410 through the oil seepage hole 1408, the sample taken out by the method can accurately determine the position of the sample, so that a worker can conveniently detect the processing mixing degree of different positions through lubricating oil samples at different positions, the detection accuracy is improved, then the isolation sleeve 1413 is pulled downwards until the isolation sleeve 1413 is contacted with the fixed block 1411, the isolation sleeve 1413 is rotated, the bottom end of the isolation sleeve 1413 is attached to the end seat 1412, the isolation sleeve 1413 is ensured to be completely fixed on the surface of the sampling cylinder 1407, the fastening bolt 1419 is screwed, the top plate 1405 and the fixed plate 1406 are fixed, and then the isolation sleeve 1413 and the sampling cylinder 1407 are lifted upwards out of the interior of the mixing tank body 2;

the taken samples are detected, if all the samples are qualified, the oil discharge pump body 7 is started, the processed lubricating oil is discharged to the surface of the fine filter plate 1002 through the discharge pipe 8, the lubricating oil is accumulated on the surface of the fine filter plate 1002 and gradually flows downwards to the discharge channel 1001 along the fine filter hole 1003, the fine filter plate 1002 has a filtering effect on the lubricating oil, the phenomenon that impurities or caking are left in the lubricating oil to influence the quality of the lubricating oil is avoided, the lubricating oil is viscous and flows downwards slowly, the electric push rod 1009 is started to drive the connecting rod 1010 and the rolling ball 1011 to move downwards in an inclined mode, the rolling ball 1011 slides inside the movable groove 1007 until the rolling ball 1011 supports the top of the movable groove 1007, the electric push rod 1009 continues to push, the movable block 1006 rotates downwards, the bottom end of the rolling plate 1008 can be in contact with the fine filter plate 1002, then the electric push rod 1009 drives the rolling plate 1008 and the sliding block 1005 to move downwards along the guide rod 1004, the lubricating oil accumulated on the fine filtering plate 1002 is pushed downwards, the lubricating oil is promoted to be discharged through the fine filtering hole 1003 at an accelerated speed, the lubricating oil is prevented from being accumulated on the surface of the fine filtering plate 1002 due to the fact that the lubricating oil is sticky and cannot be discharged automatically, then the electric push rod 1009 drives the connecting rod 1010 and the rolling ball 1011 to move upwards in an inclined mode, the rolling ball 1011 slides inside the movable groove 1007, the rolling ball 1011 props against the bottom of the movable groove 1007, the electric push rod 1009 continues to be pulled, the movable block 1006 rotates upwards, the bottom end of the rolling plate 1008 can not be in contact with the fine filtering plate 1002, the lubricating oil is guaranteed not to be pushed continuously when the electric push rod 1009 drives the rolling plate 1008 to move upwards, the lubricating oil is prevented from dropping to the ground, and the filtered lubricating oil is all discharged into the oil storage tank 9 through the discharging channel 1001;

empty packaging bottles are sequentially placed at one end of the surface of a placing plate 1214, a rotating motor 1210 is started to drive a rotating shaft 1209 and a conveying belt 1211 to rotate, the empty packaging bottles are conveyed forwards, one side of each packaging bottle is in contact with a baffle 1221, a hydraulic telescopic rod 1217 is started to drive a push plate 1218 to move forwards, a traction rope 1222 can be pulled in the moving process of the push plate 1218, a return spring 1224 is compressed, the baffle 1221 moves backwards and does not obstruct the packaging bottles any more, then the hydraulic telescopic rod 1217 drives the push plate 1218 to move backwards, the return spring 1224 extends and resets, so that the baffle 1221 is positioned at one end of each packaging bottle, the other end of each packaging bottle moves to one end of a positioning plate 1223 along with the conveying belt 1211 and the placing plate 1214, the packaging bottles are limited from two sides, the packaging bottles are ensured to be positioned at preset positions, the packaging bottles are in one-to-one correspondence with filling injection heads 1202, and the baffle 1221 can obstruct the follow-up empty packaging bottles from moving forwards, the normal filling process is prevented from being influenced;

the filling pump body 11 is started, the lubricating oil in the oil storage tank 9 is conveyed to the inside of the lubricating oil distribution box 1201, the lubricating oil is injected into the packaging bottle through the filling injection head 1202, along with the gradual increase of the lubricating oil in the packaging bottle, the weight of the packaging bottle is increased, the extrusion spring 1213 is gradually compressed, the bearing pressure of the extrusion spring 1213 is just full of the lubricating oil in the packaging bottle, the lubricating oil is filled, the top end of the placing plate 1214 is flush with the top of the mounting frame 1203, the filling is stopped, the hydraulic telescopic rod 1217 drives the push plate 1218 to move forwards, the push plate 1218 pushes the filled packaging bottle to the surface of the conveying belt 1206, the conveying motor 1205 is started to drive the conveying shaft 1204 and the conveying belt 1206 to rotate, the packaging bottle on the surface of the conveying belt 1206 is transmitted backwards, when the push plate 1218 moves forwards, the movable rod 1220 and the baffle 1221 are pulled backwards through the traction rope 1222, so that the empty packaging bottles can be directly conveyed backwards, and the hydraulic telescopic rod 1217 drives the push plate 1218 to move backwards, and simultaneously, the empty packaging bottles move to the lower part of the filling injection head 1202 along with the conveyor 1211 and the placing plate 1214.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The processing technology of the environment-friendly lubricating oil is characterized by comprising the following steps: the method comprises the following steps:

s1: mixing: base oil and additives are injected into a mixing tank body (2) positioned at the top of a rack (1), an electric heating wire (5) heats raw materials, an air compressor (611) in an airflow stirring mechanism (6) discharges compressed air into a mixed solution through an exhaust circular tube (608), and the mixed solution is fully stirred by airflow;

s2: and (3) recovering: extracting waste gas generated by heating the solution by using an axial flow fan (1302) in the gaseous lubricating oil recovery mechanism (13), condensing the gaseous lubricating oil in the waste gas in a condensing box body (1303), and collecting the condensed lubricating oil;

s3: sampling: after the solution is mixed for a period of time, sampling the solution at different positions in the mixing tank body (2) by using a sampling cylinder (1407) in an equidistant sampling mechanism (14), and detecting the sample;

s4: and (3) filtering: after the solution is fully mixed, the oil discharging pump body (7) discharges the solution to a fine filtering plate (1002) in the filtering and dedusting mechanism (10), and the filtered solution is discharged into the oil storage tank (9) through a discharging channel (1001);

s5: filling: a conveyor belt (1211) and a placing plate (1214) in the efficient filling mechanism (12) transport empty packaging bottles to the bottom end of a filling injection head (1202), and a filling pump body (11) injects solution into the packaging bottles.

2. The processing technology of the environment-friendly lubricating oil according to claim 1, characterized in that a mixing tank (2) is fixedly installed at the top of the machine frame (1), a base oil feeding pipe (3) is fixedly installed at the top end of the mixing tank (2), an additive feeding pipe (4) is fixedly installed at one end, far away from the base oil feeding pipe (3), of the top end of the mixing tank (2), an electric heating wire (5) is embedded into the side wall of the mixing tank (2), an air flow stirring mechanism (6) is fixedly installed inside the mixing tank (2), compressed air is conveyed to the inside of the mixing tank (2) through an air compressor (611), the raw materials are stirred through air flow, the air is heated inside the heat preservation tank (603), and the work efficiency is improved through dissipated heat energy;

an oil discharge pump body (7) is fixedly installed at the bottom end of the mixing tank body (2), a discharge pipe (8) is fixed at one end of the oil discharge pump body (7), an oil storage tank (9) is fixedly installed at the position, located on one side of the mixing tank body (2), in the middle of the rack (1), a filtering and dedusting mechanism (10) is fixedly installed at the top of the oil storage tank (9), lubricating oil is filtered through a fine filtering plate (1002), impurities contained in the lubricating oil are removed, and the electric push rod (1009) can accelerate the discharge of the lubricating oil when driving the rolling plate (1008) to advance;

the bottom end of the oil storage tank (9) is fixedly connected with a filling pump body (11), one end of the filling pump body (11) is fixedly connected with a high-efficiency filling mechanism (12), the filling degree is judged by using the pressure applied to an extrusion spring (1213), the filling can be stopped in time, and the filled packaging bottles are directly pushed backwards;

a gaseous lubricating oil recovery mechanism (13) is fixedly mounted at one end of the middle part of the frame (1) far away from the oil storage tank (9), and evaporated gaseous lubricating oil is condensed and recovered again by using a condensation spiral pipe (1304) immersed in cooling water;

the top end of the mixing tank body (2) is fixedly provided with an equidistant sampling mechanism (14), and the sampling cylinder (1407) is sealed and isolated through an isolation sleeve (1413), so that the data of taking out a sample for detection is more accurate;

the air flow stirring mechanism (6) comprises a uniform feeding plate (601), a discharging hole (602), a heat preservation tank (603), an air pressure control valve (604), a connecting air pipe (605), a gas injection round pipe (606), a gas injection vertical pipe (607), a gas exhaust round pipe (608), a gas exhaust hole (609), a gas inlet pipe (610), an air compressor (611), a gas blowing branch pipe (612), a rotating shaft (613), an arc-shaped coarse filter plate (614), a coarse filter hole (615), a dust collection tank body (616) and a wind power drive plate (617);

the top end of the interior of the mixing tank body (2) is fixedly provided with an even feeding plate (601), the surface of the even feeding plate (601) is provided with a discharge hole (602), the side wall of the mixing tank body (2) is positioned at one side of an electric heating wire (5) and is provided with a heat preservation groove (603), the top end of the interior of the heat preservation groove (603) is fixedly provided with an air pressure control valve (604), the top end of the air pressure control valve (604) is fixedly connected with a connecting air pipe (605), the inner wall of the mixing tank body (2) is fixedly provided with an air injection circular pipe (606), the bottom equal distance of the air injection circular pipe (606) is fixedly connected with an air injection vertical pipe (607), the middle part and the bottom of the air injection vertical pipe (607) are fixedly connected with an exhaust circular pipe (608), the inner side of the exhaust circular pipe (608) is provided with exhaust holes (609) along the equal distance of the circumferential direction, the bottom of the mixing tank body (2) is fixedly connected with an air inlet pipe (610), one end of the air inlet pipe (610) is fixedly connected with an air compressor (611);

the inboard of gas injection pipe (606) is along circumferencial direction equidistance fixedly connected with branch pipe (612) of blowing, the rotation in the middle part of the blending tank body (2) installs pivot (613), the bottom of pivot (613) has arc coarse filter board (614) along circumferencial direction equidistance fixed mounting, coarse filter hole (615) have been seted up on the surface of arc coarse filter board (614), the bottom of arc coarse filter board (614) is provided with dust collection tank body (616), the top fixed mounting of arc coarse filter board (614) has wind-force drive plate (617).

3. The processing technology of the environment-friendly lubricating oil as claimed in claim 2, wherein the uniform feeding plate (601) is located right below the base oil feeding pipe (3) and the additive feeding pipe (4), one end of the air inlet pipe (610) extends into the heat preservation tank (603), one end of the connecting air pipe (605) is connected with the air injection circular pipe (606), the included angle between the wind power driving plate (617) and the horizontal plane is 70 degrees, the end of the air blowing branch pipe (612) corresponds to the inclined plane of the wind power driving plate (617), and the air inlet end of the air compressor (611) is connected with the inert gas storage tank.

4. The processing technology of the environment-friendly lubricating oil according to claim 2, wherein the filtering and dedusting mechanism (10) comprises a discharge channel (1001), a fine filtering plate (1002), a fine filtering hole (1003), a guide rod (1004), a sliding block (1005), a movable block (1006), a movable groove (1007), a rolling plate (1008), an electric push rod (1009), a connecting rod (1010) and a rolling ball (1011);

the oil storage tank is characterized in that a discharge channel (1001) is fixedly mounted at the top end of the oil storage tank (9), a fine filtering plate (1002) is fixedly mounted at the top of the discharge channel (1001), fine filtering holes (1003) are formed in the surface of the fine filtering plate (1002), guide rods (1004) are symmetrically and fixedly mounted at the top ends of two side portions of the discharge channel (1001), a sliding block (1005) is movably sleeved at the middle of each guide rod (1004), a movable block (1006) is rotatably mounted at the bottom end of each sliding block (1005), a movable groove (1007) is formed in one end of the middle of each movable block (1006), a rolling plate (1008) is fixedly connected to one end of each movable block (1006), and the bottom end of each rolling plate (1008) is arc-shaped;

the electric heating wire discharging device is characterized in that an electric push rod (1009) is symmetrically and fixedly mounted at one end of the top of the discharging channel (1001), a connecting rod (1010) is fixedly connected to one end of the electric push rod (1009), a rolling ball (1011) is fixedly connected to one end of the connecting rod (1010), the rolling ball (1011) is connected to the inside of the movable groove (1007) in a clamped mode, and input ends of the electric heating wire (5), the air compressor (611) and the electric push rod (1009) are electrically connected with an output end of an external power supply.

5. The processing technology of the environment-friendly lubricating oil according to claim 2, wherein the high-efficiency filling mechanism (12) comprises a lubricating oil shunting box (1201), a filling injection head (1202), a mounting frame (1203), a conveying shaft (1204), a conveying motor (1205), a conveying belt (1206), a limiting plate (1207), a supporting frame (1208), a rotating shaft (1209), a rotating motor (1210), a conveying belt (1211), a connecting frame (1212), an extrusion spring (1213), a placing plate (1214), a fixing frame (1215), a through hole (1216), a hydraulic telescopic rod (1217), a push plate (1218), a fixing seat (1219), a movable rod (1220), a baffle (1221), a traction rope (1222), a positioning plate (1223) and a return spring (1224);

the bottom fixedly connected with lubricating oil reposition of redundant personnel case (1201) of the filling pump body (11), the bottom equidistance fixedly mounted of lubricating oil reposition of redundant personnel case (1201) has filling injection head (1202), the one end fixed mounting of frame (1) bottom has mounting bracket (1203), the top symmetry movable mounting of mounting bracket (1203) has delivery shaft (1204), one the one end fixedly connected with conveying motor (1205) of delivery shaft (1204), the surface of delivery shaft (1204) has cup jointed conveyer belt (1206), the one end fixed mounting at mounting bracket (1203) top has limiting plate (1207), the one end fixed mounting at the middle part of mounting bracket (1203) has support frame (1208), the both ends symmetry movable mounting at support frame (1208) top has axis of rotation (1209), one the one end fixedly connected with rotation motor (1210) of axis of rotation (1209), the conveying belts (1211) are symmetrically sleeved at two ends of the surface of the rotating shaft (1209), the connecting frame (1212) is fixedly installed at the top end of each conveying belt (1211), the extrusion springs (1213) are fixedly installed at the top ends of the connecting frames (1212), and the placing plates (1214) are fixedly connected to the top ends of the extrusion springs (1213);

a fixing frame (1215) is fixedly arranged at one end of the top of the supporting frame (1208), a through hole (1216) is arranged in the middle of the fixing frame (1215), one end of the middle part of the fixing frame (1215) is symmetrically and fixedly provided with hydraulic telescopic rods (1217), one end of the hydraulic telescopic rod (1217) is fixedly connected with a push plate (1218), the top of the supporting frame (1208) is fixedly provided with a fixed seat (1219) at one side of the fixed frame (1215), a movable rod (1220) is slidably arranged in the middle of the fixed seat (1219), one end of the movable rod (1220) is fixedly connected with a baffle (1221), one end of the middle part of the movable rod (1220) far away from the baffle (1221) is fixedly connected with a traction rope (1222), a positioning plate (1223) is fixedly arranged at one end of the top of the supporting frame (1208) far away from the fixed seat (1219), one end of the movable rod (1220) is fixedly provided with a return spring (1224).

6. The processing technology of claim 5, wherein the placing plate (1214) is located right below the filling injection head (1202), the top ends of the mounting frame (1203), the conveying belt (1206) and the supporting frame (1208) are located at the same horizontal level, the horizontal level of the top end of the placing plate (1214) is higher than the horizontal levels of the top ends of the supporting frame (1208) and the mounting frame (1203), one end of the pulling rope (1222) penetrates through the through hole (1216) and is connected with the pushing plate (1218), and the input ends of the conveying motor (1205) and the rotating motor (1210) are electrically connected with the output end of an external power supply.

7. The processing technology of the environment-friendly lubricating oil according to claim 2, wherein the gaseous lubricating oil recovery mechanism (13) comprises an exhaust gas discharge pipe (1301), an axial flow fan (1302), a condensation box body (1303), a condensation spiral pipe (1304), a drain pipe (1305), a dust filter screen (1306), a water inlet pipe (1307), a water storage tank (1308), a gas-liquid separation box body (1309), a lubricating oil collection box body (1310), an exhaust gas connecting pipe (1311) and an air outlet pipe (1312);

the waste gas exhaust device is characterized in that a waste gas exhaust pipe (1301) is fixedly connected to the top end of the mixing tank body (2), an axial flow fan (1302) is fixedly mounted at the bottom of the waste gas exhaust pipe (1301), a condensation box body (1303) is fixedly mounted at the bottom end of the axial flow fan (1302), a condensation spiral pipe (1304) is fixedly mounted in the middle of the condensation box body (1303), a drain pipe (1305) is fixedly connected to the bottom end of the condensation box body (1303), a dust filtering net (1306) is arranged at the bottom end inside the condensation box body (1303), the dust filtering net (1306) covers the top end of the drain pipe (1305), a water inlet pipe (1307) is fixedly connected to the top end of the condensation box body (1303), a water storage tank (1308) is fixedly mounted at the bottom end of the drain pipe (1305), a gas-liquid separation box body (1309) is fixedly connected to one end of the condensation spiral pipe (1304), and a lubricating oil collection box body (1310) is fixedly mounted at the bottom end of the gas-liquid separation box body (1309), the top end of the gas-liquid separation box body (1309) is fixedly connected with a waste gas connecting pipe (1311), and the top of the condensation box body (1303) is fixedly provided with an air outlet pipe (1312) at the position of one side of the waste gas discharge pipe (1301).

8. The processing technology of the environment-friendly lubricating oil according to claim 7, wherein the bottom end of the waste gas discharge pipe (1301) is connected with one end of a condensation spiral pipe (1304), a water pump is fixedly installed inside the water storage tank (1308), the bottom end of the water inlet pipe (1307) is connected with the water pump, cooling water is filled inside the condensation tank body (1303), the condensation spiral pipe (1304) is completely immersed inside the cooling water, one end of the waste gas connecting pipe (1311) extends to a position below the liquid level of the cooling water, and the input ends of the axial flow fan (1302) and the water pump are electrically connected with the output end of an external power supply.

9. The processing technology of the environment-friendly lubricating oil according to claim 1, wherein the equidistant sampling mechanism (14) comprises a sampling port (1401), an upper cover (1402), a support (1403), a side plate (1404), a top plate (1405), a fixing plate (1406), a sampling cylinder (1407), an oil leakage hole (1408), a partition plate (1409), a sampling cavity (1410), a fixing block (1411), an end seat (1412), an isolation sleeve (1413), a ring-shaped pull block (1414), an air deflector (1415), a gas diversion box (1416), a blowing hole (1417), a conveying air pipe (1418) and a fastening bolt (1419);

sampling opening (1401) has been seted up on the top of the hybrid tank body (2), the top fixed mounting of sampling opening (1401) has upper cover (1402), the top of the hybrid tank body (2) is located upper cover (1402) one side position fixed mounting has support (1403), the both sides symmetry fixed mounting of support (1403) has curb plate (1404), the top slidable mounting of curb plate (1404) has roof (1405), the bottom fixedly connected with fixed plate (1406) of roof (1405), the top fixed mounting of roof (1405) has fastening bolt (1419), the bottom fixed mounting of fixed plate (1406) has sample cylinder (1407), oil permeability hole (1408) have been seted up to the table wall equidistance of sample cylinder (1407), the inside equidistance fixed mounting of sample cylinder (1407) has baffle (1409), adjacent form sample cavity (1410) between baffle (1409), the bottom of the sampling cylinder (1407) is fixedly connected with a fixed block (1411), the bottom end of the fixed block (1411) is fixedly connected with an end seat (1412), an isolation sleeve (1413) is sleeved on the surface of the sampling cylinder (1407), the top end of the isolation sleeve (1413) is fixedly connected with an annular pull block (1414), one end of the support (1403) is symmetrically and movably provided with an air deflector (1415), one end of the middle of the support (1403), which is far away from the air deflector (1415), is fixedly provided with a gas distribution box (1416), one end of the gas distribution box (1416) corresponds to one side of the isolation sleeve (1413) and is equidistantly provided with air blowing holes (1417), and the middle of the gas distribution box (1416) is fixedly connected with an air conveying pipe (1418);

the fastening bolt (1419) is in threaded connection with the top plate (1405) and the fixing plate (1406), the bottom end of the isolation sleeve (1413) is in threaded connection with the fixing block (1411), and one end of the gas conveying pipe (1418) is connected with the gas outlet pipe (1312).

10. A lubricating oil, characterized in that it is obtained using the process according to any one of claims 1 to 9.

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