CN217464010U - Novel oil-gas lubrication system for high-temperature area - Google Patents
Novel oil-gas lubrication system for high-temperature area Download PDFInfo
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- CN217464010U CN217464010U CN202220214560.7U CN202220214560U CN217464010U CN 217464010 U CN217464010 U CN 217464010U CN 202220214560 U CN202220214560 U CN 202220214560U CN 217464010 U CN217464010 U CN 217464010U
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Abstract
The utility model provides a novel high temperature region oil-gas lubrication system, which comprises an air supply pipeline and an oil supply pipeline, wherein the oil supply pipeline and the air supply pipeline are both connected with an oil-gas mixing block, the outlet of the oil-gas mixing block is connected with the oil-gas pipeline, and the outlet of the oil-gas pipeline corresponds to the arrangement of a lubricating point; the gas supply pipeline comprises a high-pressure gas supply pipeline and a low-pressure gas supply pipeline connected with the high-pressure gas supply pipeline in parallel, and the air pressure of the low-pressure gas supply pipeline is lower than that of the high-pressure gas supply pipeline. A novel high temperature district oil-gas lubrication system, when the satellite station is in idle state, parallelly connected low pressure gas supply line on high pressure gas supply line, and stainless steel ball valve on the low pressure gas supply line is in normally open state, the air current in the low pressure gas supply line constantly blows off, owing to be the low pressure, lubricating oil in the pipeline can not blown away, simultaneously, constantly blowing in of air current, the carbonization of lubricating oil has been avoided, pollution abatement.
Description
Technical Field
The utility model belongs to metallurgical stove district oil-gas lubrication field especially relates to a novel high temperature district oil-gas lubrication system.
Background
Oil-gas lubrication, which is called as a gas-liquid two-phase fluid cooling and lubricating technology in academia, is a novel lubricating technology, and has incomparable superiority compared with the traditional single-phase fluid lubricating technology. The lubricating oil successfully solves the problem that the dry oil lubrication and the oil mist lubrication cannot overcome, and is a blossoming wonderful flower in the lubricating technology. It is suitable for the newly developed requirements of mechanical industrial equipment, especially for the occasions with high temp., heavy load, high speed, very low speed and poor working condition in which cooling water and dirt invade into the lubricating point. The lubricating oil can solve the problem which cannot be solved by the traditional single-phase fluid lubricating technology, has very obvious use effect, greatly prolongs the service life of a friction pair, and improves the field environment, so the lubricating oil is more and more widely applied, particularly in the field of metallurgical industry.
The oil gas in the metallurgical industry is widely used, and is lubricated on a roller way and a rolling mill body by the oil gas. But the roller way in the furnace area is higher than the roller ways in other places, and when the production line is overhauled or otherwise stops producing, oil-gas lubrication also stops, so that the oil liquid which is injected in the early stage for lubrication can be carbonized due to high temperature, and the environment is not facilitated.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model aims at providing a novel high temperature district oil-gas lubrication system to when solving current satellite station out of work, the roll table temperature in stove district is higher, and the fluid of going to be used for the lubrication of earlier stage is probably because high temperature and carbonization, is unfavorable for site environment's clean and tidy, shortens the vice life's of friction problem.
In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:
a novel high-temperature area oil-gas lubrication system comprises an air supply pipeline and an oil supply pipeline, wherein the oil supply pipeline and the air supply pipeline are both connected with an oil-gas mixing block, an outlet of the oil-gas mixing block is connected with an oil-gas pipeline, and an outlet of the oil-gas pipeline corresponds to a lubricating point; the gas supply pipeline comprises a high-pressure gas supply pipeline and a low-pressure gas supply pipeline connected with the high-pressure gas supply pipeline in parallel, and the air pressure of the low-pressure gas supply pipeline is lower than that of the high-pressure gas supply pipeline.
Further, the air inlet end of the low-pressure air supply pipeline is connected with the air inlet end of the high-pressure air supply pipeline through a first three-way valve, and the inlet end of the first three-way valve is connected with a first main air pipe;
the low pressure gas supply pipeline gives vent to anger the end and gives vent to anger the end with high pressure gas supply pipeline and is connected through two three-way valves, two exit ends of three-way valve are connected total trachea two, two other ends of total trachea are connected with the inlet end of oil-gas mixture piece.
Further, the low-pressure air supply pipeline is sequentially provided with a stainless steel ball valve I, an air filter I, an air pressure regulating valve I and a pressure gauge I along the air flow direction;
the high-pressure air supply pipeline is sequentially provided with a stainless steel ball valve II, an air filter II, a two-position two-way electromagnetic valve, an air pressure regulating valve II and a pressure gauge II along the air flow direction;
and the numerical value of the second pressure gauge is greater than that of the first pressure gauge.
Furthermore, the first stainless steel ball valve is a normally open switch.
Furthermore, a pressure switch for detecting the pressure in the high-pressure gas supply pipeline is arranged between the second pressure gauge and the second three-way valve in the high-pressure gas supply pipeline.
Furthermore, the oil supply pipeline is sequentially provided with a ferrule type high-pressure ball valve, a shock-resistant pressure gauge, an oil-gas filter, a one-way throttle valve, a plug-in type non-leakage seat valve, a progressive distributor and a proximity switch along the moving direction of oil;
the progressive distributor is provided with a plurality of oil outlets, and the oil outlets are correspondingly connected with oil inlets of the oil-gas mixing block.
Compared with the prior art, a novel high temperature district oil-gas lubrication system have following beneficial effect:
a novel high temperature district oil-gas lubrication system, when the satellite station is in inoperative state, parallelly connected low pressure gas supply line on high pressure gas supply line, and stainless steel ball valve on the low pressure gas supply line is in normally open state, the air current in the low pressure gas supply line constantly blows off, because be the low pressure, lubricating oil in the pipeline can not blown away, simultaneously, constantly blowing in of air current, the carbonization of lubricating oil has been avoided to the reduce temperature, pollution abatement.
Drawings
The accompanying drawings, which form a part hereof, 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 invention without undue limitation. In the drawings:
fig. 1 is a schematic view of a novel high-temperature zone oil-gas lubrication system according to an embodiment of the present invention.
Description of reference numerals:
1-a low pressure gas supply line; 11-a stainless steel ball valve I; 12-air filter one; 13-air pressure regulating valve one; 14-pressure gauge one; 2-high pressure gas supply pipeline; 21-stainless steel ball valve II; 22-air filter two; 23-a two-position two-way solenoid valve; 24-air pressure regulating valve two; 25-pressure gauge two; 26-a pressure switch; 3-an oil supply conduit; 31-a ferrule type high-pressure ball; 32-shock-proof pressure gauge; 33-oil and gas filter; 34-one-way throttle valve; 35-cartridge no-leakage seat valve; 36-progressive dispensers; 37-a proximity switch; 4-oil-gas mixing block; 5, a first main air pipe; 6-the second main air pipe.
Detailed Description
It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.
The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.
As shown in fig. 1, a novel high-temperature area oil-gas lubrication system comprises an air supply pipeline and an oil supply pipeline 3, wherein the oil supply pipeline 3 and the air supply pipeline are both connected with an oil-gas mixing block 4, an outlet of the oil-gas mixing block 4 is connected with an oil-gas pipeline, and the outlet of the oil-gas pipeline corresponds to a lubrication point; the gas supply pipeline comprises a high-pressure gas supply pipeline 2 and a low-pressure gas supply pipeline 1 connected with the high-pressure gas supply pipeline 2 in parallel, and the air pressure of the low-pressure gas supply pipeline 1 is lower than that of the high-pressure gas supply pipeline 2.
As shown in fig. 1, the air inlet end of the low-pressure air supply pipeline 1 is connected with the air inlet end of the high-pressure air supply pipeline 2 through a three-way valve I, and the inlet end of the three-way valve I is connected with a main air pipe I5;
the end of giving vent to anger of low pressure gas supply line 1 is given vent to anger with high pressure gas supply line 2 and is held and be connected through two three-way valves, two exit ends of two three-way valves are connected two 6 of total trachea, two 6 other ends of total trachea are connected with the inlet end of oil gas mixing block 4.
As shown in fig. 1, the low-pressure air supply pipeline 1 is sequentially provided with a stainless steel ball valve I11, an air filter I12, an air pressure regulating valve I13 and a pressure gauge I14 along the air flow direction;
the high-pressure air supply pipeline 2 is sequentially provided with a stainless steel ball valve II 21, an air filter II 22, a two-position two-way electromagnetic valve 23, an air pressure regulating valve II 24 and a pressure gauge II 25 along the air flow direction;
the value of the second pressure gauge 25 is greater than that of the first pressure gauge 14.
The models of the first air filter 12 and the second air filter 22 are both F68G-8GN-AR31, and the models of the first air pressure regulating valve 13 and the second air pressure regulating valve 24 are both R68G-8GK-RLN 1.
As shown in figure 1, the first stainless steel ball valve 11 is a normally open switch.
As shown in fig. 1, the high-pressure gas supply pipeline is provided with a pressure switch 26 for detecting the pressure in the high-pressure gas supply pipeline 2 between a second pressure gauge 25 and a second three-way valve.
The pressure switch 26 is 08803000.5-8 bar.
As shown in fig. 1, the oil supply pipeline 3 is sequentially provided with a cutting sleeve type high-pressure ball 31, a shock-proof pressure gauge 32, an oil-gas filter 33, a one-way throttle valve 34, a plug-in type non-leakage seat valve 35, a progressive distributor 36 and a proximity switch 37 along the oil moving direction;
the progressive distributor 36 is provided with a plurality of oil outlets, and the oil outlets are correspondingly connected with oil inlets of the oil-gas mixing block 4.
The oil-gas mixing block is a module for mixing lubricating oil and gas flow to form oil gas, and is a module in the prior art of oil-gas lubrication in the metallurgical industry.
The working mode is as follows:
as shown in fig. 1, when lubricating oil is injected to a lubricating point in normal operation, oil in an oil supply pipeline sequentially passes through a ferrule type high-pressure ball valve 31, a shock-resistant pressure gauge 32, an oil-gas filter 33, a one-way throttle valve 34, a plug-in leakage-free seat valve 35 and a progressive distributor 36 and enters an oil-gas mixing block 4; high-pressure airflow enters a high-pressure air supply pipeline 2 through a first main air pipe 5, sequentially passes through a second stainless steel ball valve 21, a second air filter 22, a two-position two-way electromagnetic valve 23, a second air pressure regulating valve 24, a second pressure gauge 25 and a pressure switch 26 of the high-pressure air supply pipeline 2 and then enters a second main air pipe 6, the high-pressure airflow is a conveying carrier of lubricating oil, the lubricating oil is adhered to the periphery of the pipe wall in an oil film mode and moves forwards in a spiral shape, when the row will reach the oil and gas outlet, the oil film becomes thinner and thinner, and is connected into one piece, and finally is sprayed to the lubrication point in an extremely fine continuous stream of oil drops, and when the oil and gas mixture enters the oil and gas pipeline, due to the action of the compressed air, the lubricating oil initially adheres to the periphery of the inner wall of the pipeline in larger particles, when the high-pressure airflow moves forwards rapidly, oil drops move forwards along with the high-pressure airflow and are gradually blown away by compressed air, become smaller and become flatter. When the line reaches the end of the pipeline, the oil drops which are originally discontinuously adhered to the periphery of the pipeline wall are connected into a piece to form a continuous oil film, and the compressed air is sprayed into the lubricating points as fine oil drops. And lubricating the lubricating points.
But there are certain problems with regard to the lubrication of the furnace zone. For example, the satellite station or the main station is in a shutdown state due to a certain fault, so that lubricating oil entering a lubricating point at the early stage and lubricating oil temporarily stored in a pipeline are carbonized under a high-temperature environment, the carbonization lubricating oil inevitably blocks the pipeline in a reciprocating manner for a long time, so that oil-gas lubrication is disabled, and finally a bearing is damaged due to the fact that the bearing cannot be lubricated.
Therefore, when the satellite station is in the idle state, parallelly connected low pressure gas supply line 1 on high pressure gas supply line 2, and stainless steel ball valve 11 on the low pressure gas supply line 1 is in normally open state, and the air current in the low pressure gas supply line 1 constantly blows off, because be the low pressure, lubricating oil in the pipeline can not blown away, simultaneously, constantly blowing in of air current, and the cooling has avoided the carbonization of lubricating oil, and the pollution abatement.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (6)
1. The utility model provides a novel high temperature district oil gas lubricating system which characterized in that: the lubricating device comprises a gas supply pipeline and a gas supply pipeline (3), wherein the gas supply pipeline (3) and the gas supply pipeline are both connected with a gas-oil mixing block (4), the outlet of the gas-oil mixing block (4) is connected with the gas-oil pipeline, and the outlet of the gas-oil pipeline is arranged corresponding to a lubricating point; the gas supply pipeline comprises a high-pressure gas supply pipeline (2) and a low-pressure gas supply pipeline (1) connected with the high-pressure gas supply pipeline (2) in parallel, and the air pressure of the low-pressure gas supply pipeline (1) is lower than that of the high-pressure gas supply pipeline (2).
2. The novel high-temperature zone oil-gas lubrication system as claimed in claim 1, wherein: the air inlet end of the low-pressure air supply pipeline (1) is connected with the air inlet end of the high-pressure air supply pipeline (2) through a first three-way valve, and the inlet end of the first three-way valve is connected with a first main air pipe (5);
the end of giving vent to anger of low pressure gas supply line (1) is given vent to anger with high pressure gas supply line (2) and is held to be connected through two three-way valves, two exit ends of three-way valve are connected total trachea two (6), two (6) other ends of total trachea are connected with the inlet end of oil gas mixing piece (4).
3. The novel high-temperature zone oil-gas lubrication system as claimed in claim 2, wherein: the low-pressure air supply pipeline (1) is sequentially provided with a stainless steel ball valve I (11), an air filter I (12), an air pressure regulating valve I (13) and a pressure gauge I (14) along the air flow direction;
the high-pressure air supply pipeline (2) is sequentially provided with a stainless steel ball valve II (21), an air filter II (22), a two-position two-way electromagnetic valve (23), an air pressure regulating valve II (24) and a pressure gauge II (25) along the air flow direction;
and the numerical value of the second pressure gauge (25) is greater than that of the first pressure gauge (14).
4. The novel high-temperature zone oil-gas lubrication system as claimed in claim 3, wherein: the stainless steel ball valve I (11) is a normally open switch.
5. The novel high-temperature area oil-gas lubrication system as claimed in claim 3, wherein: and a pressure switch (26) for detecting the pressure in the high-pressure gas supply pipeline (2) is arranged between the second pressure gauge (25) and the second three-way valve in the high-pressure gas supply pipeline.
6. The novel high-temperature zone oil-gas lubrication system as claimed in claim 1, wherein: the oil supply pipeline (3) is sequentially provided with a cutting sleeve type high-pressure ball (31), a shock-resistant pressure gauge (32), an oil-gas filter (33), a one-way throttle valve (34), a plug-in type non-leakage seat valve (35), a progressive distributor (36) and a proximity switch (37) along the moving direction of oil;
the progressive distributor (36) is provided with a plurality of oil outlets, and the oil outlets are correspondingly connected with oil inlets of the oil-gas mixing block (4).
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CN202220214560.7U CN217464010U (en) | 2022-01-26 | 2022-01-26 | Novel oil-gas lubrication system for high-temperature area |
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CN202220214560.7U CN217464010U (en) | 2022-01-26 | 2022-01-26 | Novel oil-gas lubrication system for high-temperature area |
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