CN115838616A

CN115838616A - Lubricating oil processing method and system

Info

Publication number: CN115838616A
Application number: CN202211543902.0A
Authority: CN
Inventors: 崔申申
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-12-03
Filing date: 2022-12-03
Publication date: 2023-03-24

Abstract

The invention relates to the field of lubricating oil, in particular to a lubricating oil processing method and a lubricating oil processing system. The method comprises the following steps: the method comprises the following steps: fully mixing a plurality of basic raw materials; step two: heating and atomizing the mixed raw materials, adding the atomized defoaming agent, and stirring again; step three: and condensing and filtering the defoamed raw materials, adding the raw materials again, and fully mixing to obtain the lubricating oil. The system is including the layering bucket of preparation lubricating oil, and the lower part rigid coupling of layering bucket has a plurality of material pipes I that add, and the upper portion rigid coupling of layering bucket has a plurality of material pipes II that add, and the rigid coupling has outlet pipe and back flow on the layering bucket, and the equal rigid coupling of outlet pipe and back flow is on the defoaming bucket, and the rigid coupling has the material pipe III that adds the atomizing defoaming agent on the defoaming bucket. The mixing barrel is characterized by further comprising an upper cover fixedly connected to the layering barrel, a vertical shaft is rotatably arranged on the upper cover, a bottom plate is slidably arranged on the lower portion of the vertical shaft, and a plurality of mixing plates are fixedly connected to the bottom plate. The lubricating oil can be atomized and fully mixed with the atomized defoaming agent to prepare the lubricating oil without bubbles.

Description

Lubricating oil processing method and system

Technical Field

The invention relates to the field of lubricating oil, in particular to a lubricating oil processing method and a lubricating oil processing system.

Background

Lubricating oils are generally composed of two parts, a base oil and additives. The base oil is the main component of the lubricating oil, which determines the basic properties of the lubricating oil, the lubrication of the lubricating oil is a very complex process, the physicochemical properties of which are greatly affected by frictional surface motion or ambient factors, and the additives have a predominant position in the lubricating oil. In recent years, lubricating oil at home and abroad has advanced, the lubricating oil industry in China has successfully entered the advanced market, the lubricating oil is mainly used for preventing bubbles from being generated in use, and the lubricating oil cannot be fully mixed with a defoaming agent when bubbles in the lubricating oil are eliminated at present.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a lubricating oil processing method and a lubricating oil processing system, which can be used for fully mixing atomized lubricating oil with an atomized defoaming agent to prepare the lubricating oil without bubbles.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a method of processing lubricating oil, the method comprising the steps of:

the method comprises the following steps: fully mixing a plurality of basic raw materials;

step two: heating and atomizing the mixed raw materials, adding the atomized defoaming agent, and stirring again;

step three: and condensing and filtering the defoamed raw materials, adding the raw materials again, and fully mixing to obtain the lubricating oil.

Further, the system is including the layering bucket of preparation lubricating oil, and the lower part rigid coupling of layering bucket has a plurality of material pipes I that add, and the upper portion rigid coupling of layering bucket has a plurality of material pipes II that add, and the rigid coupling has outlet pipe and back flow on the layering bucket, and the equal rigid coupling of outlet pipe and back flow is on the defoaming bucket, and the rigid coupling has the material pipe III that adds atomizing defoaming agent on the defoaming bucket.

Further, the device also comprises an upper cover fixedly connected on the layering barrel, a vertical shaft is rotatably arranged on the upper cover, a bottom plate is slidably arranged at the lower part of the vertical shaft, and a plurality of mixing plates are fixedly connected on the bottom plate.

Further, still include the ring frame of rigid coupling in layering bucket lower part, the rigid coupling has a plurality of cylinders I that promote the bottom plate and go up and down on the ring frame.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow diagram of a method of processing lubricating oil;

FIG. 2 is a process diagram for processing lubricating oil;

FIG. 3 is a block diagram of a base lubricant blend preparation;

FIG. 4 is a view showing the structure of pushing the base plate to rise;

FIG. 5 is a block diagram of a hybrid lubricating oil;

FIG. 6 is a block diagram of a filtered lubricant;

FIG. 7 is a structural view of a heated lubricating oil;

FIG. 8 is a view showing defoaming of lubricating oil;

FIG. 9 is a block diagram of a mixed lubricating oil and defoamer;

FIG. 10 is a system diagram for processing lubricating oil.

A layering barrel 11; a feeding pipe I12; a feeding pipe II 13; an outflow tube 14; a defoaming tub 15; a feeding pipe III 16; a return pipe 17; an upper cover 21; a vertical shaft 22; a bottom plate 23; a mixing plate 24; a ring frame 31; a cylinder I32; a mixing arc plate 41; the filter plate 42; a heating pipe 51; a heat-insulating pipe 52; a screw rod 61; a stirring frame 62; pushing the plate 63.

Detailed Description

Referring to FIG. 1, a process flow for processing lubricating oil is illustrated in detail:

a method of processing lubricating oil, the method comprising the steps of:

the method comprises the following steps: fully mixing a plurality of basic raw materials to realize the basic preparation of the lubricating oil;

step two: the mixed raw materials are heated and atomized, and then the atomized defoaming agent is added for stirring again, so that bubbles generated by stirring in the basic lubricating oil are eliminated, the phenomenon that the bubbles at the lubricated position are broken due to the existence of the bubbles in the use process of the lubricating oil, so that the lubricated parts are in direct contact with each other to generate intense friction, so that the parts are damaged and the service lives of the parts are influenced is prevented, and meanwhile, the friction of the metal parts can generate a large amount of heat, so that the heat treatment on the surfaces of the metal parts is failed due to tempering, and the service performance and the service lives of the parts are influenced;

step three: the defoamed raw materials are condensed and filtered, then the raw materials are added again to be fully mixed to obtain lubricating oil, and specific additives can be added into the lubricating oil when the lubricating oil is prepared by mixing again, so that the lubricating oil can meet the use requirements under specific environments.

With the above embodiments, the following functions can also be realized;

referring to fig. 2, the process of carrying out the process for preparing the lubricating oil is described in detail:

the system is including the layering bucket 11 of preparation lubricating oil, the layering about the middle part fixedly connected with baffle of layering bucket 11 carries out, the lower floor mainly used multiple basic lubricating oil raw materials mixes, a plurality of material pipes I12 that add of the lower part fixedly connected with of layering bucket 11, add the raw materials and carry out preliminary hybrid processing in layering bucket 11 to the lower part through a plurality of material pipes I12 that add, the lower part fixedly connected with outlet pipe 14 of layering bucket 11, outlet pipe 14 fixed connection is on defoaming bucket 15, mixed basic lubricating oil flows to defoaming bucket 15 in through outlet pipe 14, be provided with the atomizing pump in the outlet pipe 14, can atomize into the liquid pearl with the liquid that flows after the pressurization, the liquid pearl after the atomizing flows to and adds atomizing defoaming agent in defoaming bucket 15 and carries out the defoaming, fixedly connected with material pipe III on defoaming bucket 15 adds material pipe 16, add atomizing defoaming agent in adding bucket 15 mainly, realize the defoaming to basic lubricating oil, can make the lubricating oil's more good through atomizing raw materials, defoaming agent and basic lubricating oil mix more even return flow, can reduce the existence back flow of bubble in the lubricating oil in the layering bucket 11, fixedly connected with lubricating oil other end fixedly connected with the lubricating oil through a plurality of material pipes II, it can make the defoaming bucket 11 that the additive that the defoaming agent added through a plurality of defoaming bucket 13 that add the defoaming layer, it can change the special additive in the circumstances through a plurality of defoaming bucket 11, it is connected with the defoaming bucket, it is through a plurality of the special lubricating oil.

With the above embodiments, the following functions can also be realized;

with reference to fig. 2 and 3, the implementation of thorough mixing of the base stocks is detailed:

layering bucket 11's upper end fixedly connected with upper cover 21, it has vertical scroll 22 to rotate through the bearing on the upper cover 21, vertical scroll 22 fixed connection is on gear motor I's output shaft, gear motor I passes through bolt fixed connection on upper cover 21, vertical scroll 22's lower part sliding connection has bottom plate 23, a plurality of hybrid plates of fixedly connected with 24 on the bottom plate 23, start gear motor I, gear motor I drives vertical scroll 22 and rotates, vertical scroll 22 drives bottom plate 23 and rotates, bottom plate 23 drives a plurality of hybrid plates 24 and rotates, the abundant drive raw materials of a plurality of pivoted hybrid plates 24 rotate, realize that the mixed preparation of raw materials obtains basic lubricating oil, a plurality of hybrid plates 24 are the arc, curved hybrid plate 24 rotates and to promote the raw materials and do centrifugal motion down, promote the raw materials and carry out quick flow.

With the above embodiments, the following functions can also be realized;

referring to fig. 4, the implementation process of pushing the mixed base lubricant to defoam is described in detail:

fixedly connected with ring frame 31 on the lower part outer wall of layering bucket 11, I32 of a plurality of cylinders of fixedly connected with on the ring frame 31, the cylinder pole and the 23 face bases of bottom plate of a plurality of cylinders I32, start a plurality of cylinders I32 after the preparation of mixing obtains basic lubricating oil, the cylinder pole of a plurality of cylinders I32 promotes the bottom plate 23 and rises, bottom plate 23 promotes the basic lubricating oil after mixing and rises to the position of outlet pipe 14 and carry out the ejection of compact, it carries out the defoaming to transport next process, when mixing raw materials, the raw materials deposits in the lower extreme easily, and the raw materials of upper end realize abundant mixture more easily, consequently, mix basic lubricating oil along with the raw materials, promote bottom plate 23 to rise in time to realize that lubricating oil carries out the defoaming.

With the above embodiments, the following functions can also be realized;

referring to fig. 7, the implementation of heating the base lubricant and its atomization is described in detail:

the outside cover of outlet pipe 14 is equipped with heating pipe 51, and heating pipe 51 and the heating device of peripheral hardware connect and communicate, provide high-temperature gas in to heating pipe 51 through the heating device of peripheral hardware, realize the heating of liquid in the outlet pipe 14, be provided with the atomizing pump in the outlet pipe 14, can become the liquid pearl with the liquid that flows through pressurization back atomizing, be convenient for carry out subsequent defoaming.

With the above embodiments, the following functions can also be realized;

referring to fig. 10, the implementation process of fully utilizing the heat in the heating pipe is detailed:

fixedly connected with insulating tube 52 on layering bucket 11 and the defoaming bucket 15, insulating tube 52 overlaps in the outside of heating pipe 51, prevents that the loss from appearing in the heat in heating pipe 51, causes thermal waste.

With the above embodiments, the following functions can also be realized;

referring to fig. 8, 9 and 10, the implementation of the defoaming elevation for pushing the defoamed lubricating oil atomized droplets and atomization is detailed:

rotate on the defoaming bucket 15 and be connected with hob 61, hob 61 fixed connection is on gear motor II's output shaft, and gear motor II fixed connection is in defoaming bucket 15's bottom, starts gear motor II, and gear motor II drives hob 61 and rotates, and hob 61 rotates and to drive the air current and rise down to the atomizing lubricating oil that realizes after the defoaming carries out the water conservancy diversion ejection of compact, transports lubricating oil and carries out the processing of process on next step.

With the above embodiments, the following functions can also be realized;

referring to fig. 9 and 10, an implementation of mixing the atomized lubricating oil and the defoamer is detailed:

fixedly connected with stirring frame 62 on hob 61 drives stirring frame 62 when hob 61 rotates and rotates, and pivoted stirring frame 62 drives the atomizing lubricating oil that outflow pipe 14 flows out and adds the atomizing defoaming agent that flows out in the material pipe III 16 and carries out abundant mixture, carries out the defoaming of lubricating oil.

With the above embodiments, the following functions can also be realized;

referring to fig. 9, the implementation of the defoaming prevention of the lubricant oil sinking is described in detail:

a plurality of pushing plates 63 are fixedly connected to the bottom of the screw rod 61, and the screw rod 61 drives the plurality of pushing plates 63 to rotate so as to prevent lubricating oil from being deposited at the bottom.

With the above embodiments, the following functions can also be realized;

referring to fig. 5, 6 and 7, the implementation of the complete lubricating oil preparation is detailed:

the upper portion fixedly connected with filter 42 of vertical scroll 22, filter 42 are located the lower extreme of outlet pipe 14, ensure to filter the lubricating oil of backward flow, and the bubble that the filtering did not disappear, and the fixedly connected with a plurality of mixed arc boards 41 on the vertical scroll 22, the vertical scroll 22 rotates and drives a plurality of mixed arc boards 41 and rotates down to realize the mixture of additive and basic lubricating oil, realize the preparation of lubricating oil.

Claims

1. A method of processing lubricating oil, the method comprising the steps of:

2. The method of processing lubricating oil of claim 1, wherein: still relate to a lubricating oil processing system, the system is including layering bucket (11) of preparation lubricating oil, and the lower part rigid coupling of layering bucket (11) has a plurality of material pipes I (12) that add, and the upper portion rigid coupling of layering bucket (11) has a plurality of material pipes II (13) that add, and the rigid coupling has outlet pipe (14) and back flow (17) on layering bucket (11), and the equal rigid coupling of outlet pipe (14) and back flow (17) is on defoaming bucket (15), and the rigid coupling has the material pipe III (16) that adds of adding atomizing defoaming agent on defoaming bucket (15).

3. The oil processing system of claim 2, wherein: the device also comprises an upper cover (21) fixedly connected on the layering barrel (11), a vertical shaft (22) is rotated on the upper cover (21), a bottom plate (23) is slid on the lower part of the vertical shaft (22), and a plurality of mixing plates (24) are fixedly connected on the bottom plate (23).

4. The oil processing system of claim 3, wherein: the barrel lifting mechanism further comprises a ring frame (31) fixedly connected to the lower portion of the layered barrel (11), and a plurality of cylinders I (32) for pushing the bottom plate (23) to lift are fixedly connected to the ring frame (31).

5. The oil processing system of claim 3, wherein: also comprises a heating pipe (51) which is sleeved outside the outflow pipe (14) for heating.

6. The oil processing system of claim 5, wherein: the device also comprises a heat preservation pipe (52) fixedly connected on the layering barrel (11) and the defoaming barrel (15) and used for preserving the heat of the heating pipe (51).

7. The oil processing system of claim 5, wherein: also comprises a screw rod (61) which rotates on the defoaming barrel (15) to drive the atomized liquid beads to rise.

8. The oil processing system of claim 7, wherein: also comprises a stirring frame (62) which is fixedly connected on the screw rod (61) and used for mixing the atomized liquid beads.

9. The oil processing system of claim 8, wherein: and the air flow lifting device also comprises a plurality of pushing plates (63) which are fixedly connected at the bottom of the screw rod (61) and push the air flow to rise.

10. The oil processing system of claim 9, wherein: the device also comprises a filter plate (42) which is fixedly connected to the upper part of the vertical shaft (22) and is positioned at the lower end of the return pipe (17), and a plurality of mixing arc plates (41) are fixedly connected to the vertical shaft (22).