CN216202384U - Intelligent quantitative lubricating system control device - Google Patents

Abstract

The utility model discloses intelligent quantitative lubricating system control equipment which comprises a first quantitative regulating pump and a second quantitative regulating pump, wherein the first quantitative regulating pump is positioned on one side of the second quantitative regulating pump, one end of the first quantitative regulating pump is connected with a liquid outlet main pipe through a first liquid outlet branch pipe, one end of the second quantitative regulating pump is connected with the liquid outlet main pipe through a second liquid outlet branch pipe, the other end of the first quantitative regulating pump is connected with a flow distribution main pipe through a first flow distribution branch pipe, the other end of the second quantitative regulating pump is connected with a flow distribution main pipe through a second flow distribution branch pipe, a first flow meter and a first electromagnetic valve are respectively installed on the first flow distribution branch pipe, and a second flow meter and a second electromagnetic valve are respectively installed on the second flow distribution branch pipe. The utility model utilizes the flowmeter to match with the water pressure meter and the valve component, and is provided with a plurality of groups of shunt pipelines and pressure relief pipelines, thereby facilitating quantitative conveying and control of lubricating liquid in the pipeline.

Description

Intelligent quantitative lubricating system control device

Technical Field

The utility model relates to the technical field of lubricating liquid conveying, in particular to intelligent quantitative lubricating system control equipment.

Background

The term "lubrication system" refers to a series of supply grease, discharge grease, and accessories for supplying lubricant to a lubrication site. The lubricating system can be divided into five types, namely a circulating lubricating system, a centralized lubricating system, a spray lubricating system, an oil immersion and splash lubricating system and an oil and grease full-loss lubricating system. The design of the lubrication system depends on the characteristics and conditions of use of the various mechanical devices, and it is always composed of several main elements such as hydraulic pumps, oil tanks, filters, cooling devices, heating devices, sealing devices, damping devices, safety devices, alarms, etc. The lubricating system is used for conveying a certain amount of clean lubricating oil to the surfaces of parts which move relatively, so as to realize liquid friction, reduce frictional resistance and reduce the abrasion of parts. And cleaning and cooling the surface of the part. The lubrication system generally comprises a lubricating oil channel, an oil pump, an oil filter, valves and the like.

Current lubricating system controlgear can't carry out real-time quantitative regulation and control to pipeline inside lubricating fluid flow and water pressure, leads to lubricating fluid extravagant, therefore the market needs to develop a novel quantitative lubricating system controlgear of intelligence.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide intelligent quantitative lubricating system control equipment to solve the problem that the lubricating liquid is wasted because the current lubricating system control equipment in the background technology cannot quantitatively regulate and control the flow and the water pressure of the lubricating liquid in a pipeline in real time.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a quantitative lubricating system controlgear of intelligence, includes first ration governing pump and second ration governing pump, first ration governing pump is located one side of second ration governing pump, and the one end of first ration governing pump is connected with out the liquid house steward through first play liquid branch pipe, and the one end of second ration governing pump is connected with out the liquid house steward through second play liquid branch pipe, the other end of first ration governing pump is connected with the reposition of redundant personnel house steward through first reposition of redundant personnel branch pipe, and the other end of second ration governing pump is connected with the reposition of redundant personnel house steward through second reposition of redundant personnel branch pipe, install first flowmeter and first solenoid valve on the first reposition of redundant personnel branch pipe respectively, install second flowmeter and second solenoid valve on the second reposition of redundant personnel branch pipe respectively.

Preferably, the upper end of the main flow dividing pipe is connected with a water pressure gauge through a pressure measuring coil pipe.

Preferably, the rear end of the shunt main pipe is provided with a pressure relief pipe.

Preferably, a pressure relief control valve is mounted on the pressure relief pipe.

Preferably, the first liquid outlet branch pipe and the second liquid outlet branch pipe are both provided with a switch valve.

Preferably, a shunt pipeline is installed at the front end of the liquid outlet main pipe.

Compared with the prior art, the utility model has the beneficial effects that:

the device is provided with two groups of branch flow pipes, a flowmeter and an electromagnetic valve are matched for use, so that the flow of lubricating liquid in the pipeline can be conveniently regulated and controlled in real time, the upper end of a main flow pipe is connected with a water pressure gauge through a pressure measuring coil, the rear end of the main flow pipe is provided with a pressure relief pipe, a pressure relief control valve is arranged on the pressure relief pipe, the liquid pressure in the main flow pipe can be conveniently monitored in real time through the arrangement of the water pressure gauge, meanwhile, a pressure relief pipeline is arranged, the pressure relief control valve is matched for real-time regulation and control of the water pressure in the pipeline, and the device is provided with a plurality of groups of branch flow pipes and pressure relief pipes through the cooperation of the flowmeter and the water pressure gauge and the valve component, so that the quantitative conveying and control of the lubricating liquid in the pipeline are facilitated.

Drawings

FIG. 1 is a schematic structural view of the present invention;

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

fig. 3 is a schematic diagram of the rear end structure of the present invention.

In the figure: 1. a pressure relief pipe; 2. a pressure relief control valve; 3. a water pressure gauge; 4. a pressure measuring coil pipe; 5. a shunt main pipe; 6. a second branch pipe; 7. a second flow meter; 8. a second solenoid valve; 9. a second constant-volume regulating pump; 10. a second liquid outlet branch pipe; 11. a liquid outlet main pipe; 12. a shunt line; 13. a first liquid outlet branch pipe; 14. a first flow meter; 15. a first solenoid valve; 16. a first branch pipe; 17. the first quantity regulating pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, an embodiment of the present invention is shown: the utility model provides a quantitative lubricating system controlgear of intelligence, including first ration adjusting pump 17 and second ration adjusting pump 9, first ration adjusting pump 17 is located one side of second ration adjusting pump 9, the one end of first ration adjusting pump 17 is connected with liquid outlet manifold 11 through first liquid outlet branch pipe 13, the one end of second ration adjusting pump 9 is connected with liquid outlet manifold 11 through second liquid outlet branch pipe 10, the other end of first ration adjusting pump 17 is connected with reposition of redundant personnel house steward 5 through first reposition of redundant personnel branch pipe 16, the other end of second ration adjusting pump 9 is connected with reposition of redundant personnel house steward 5 through second reposition of redundant personnel branch pipe 6, install first flowmeter 14 and first solenoid valve 15 on the first reposition of redundant personnel branch pipe 16 respectively, install second flowmeter 7 and second solenoid valve 8 on the second reposition of redundant personnel branch pipe 6 respectively.

Further, the upper end of the main diversion pipe 5 is connected with a water pressure gauge 3 through a pressure measuring coil pipe 4.

Further, the rear end of the shunt main pipe 5 is provided with a pressure relief pipe 1.

Further, a pressure relief control valve 2 is mounted on the pressure relief pipe 1.

Further, the first liquid outlet branch pipe 13 and the second liquid outlet branch pipe 10 are both provided with a switch valve.

Further, a shunt pipeline 12 is installed at the front end of the liquid outlet main pipe 11.

The working principle is as follows: when the device is used, one end of a first quantitative adjusting pump 17 is connected with a liquid outlet header pipe 11 through a first liquid outlet branch pipe 13, one end of a second quantitative adjusting pump 9 is connected with the liquid outlet header pipe 11 through a second liquid outlet branch pipe 10, the other end of the first quantitative adjusting pump 17 is connected with a shunt header pipe 5 through a first shunt branch pipe 16, the other end of the second quantitative adjusting pump 9 is connected with the shunt header pipe 5 through a second shunt branch pipe 6, a first flow meter 14 and a first electromagnetic valve 15 are respectively installed on the first shunt branch pipe 16, a second flow meter 7 and a second electromagnetic valve 8 are respectively installed on the second shunt branch pipe 6, the flow of lubricating liquid in the pipeline can be conveniently regulated and controlled in real time by matching with the flow meters and the electromagnetic valves through installing two groups of shunt branch pipes, the upper end of the shunt header pipe 5 is connected with a water pressure meter 3 through a pressure measuring coil pipe 4, and the rear end of the shunt header pipe 5 is provided with a pressure relief pipe 1, install pressure relief control valve 2 on the pressure release pipe 1, conveniently carry out real-time supervision to the inside fluid pressure of reposition of redundant personnel house steward 5 through installing water pressure gauge 3, install the pressure release pipeline simultaneously, cooperation pressure relief control valve 2 can carry out real-time regulation and control to the inside water pressure of pipeline, and this equipment is provided with multiunit reposition of redundant personnel pipeline and pressure release pipeline through utilizing flowmeter cooperation water pressure gauge 3 and valve member, conveniently carries out quantitative transport and control to pipeline inside lubricated liquid.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. An intelligent quantitative lubricating system control device comprises a first quantitative adjusting pump (17) and a second quantitative adjusting pump (9), it is characterized in that the first quantitative adjusting pump (17) is positioned at one side of the second quantitative adjusting pump (9), one end of the first quantitative adjusting pump (17) is connected with a liquid outlet main pipe (11) through a first liquid outlet branch pipe (13), one end of the second quantitative adjusting pump (9) is connected with the liquid outlet main pipe (11) through a second liquid outlet branch pipe (10), the other end of the first quantitative adjusting pump (17) is connected with a main shunt pipe (5) through a first shunt branch pipe (16), the other end of the second quantitative adjusting pump (9) is connected with the main shunt pipe (5) through a second shunt branch pipe (6), the first branch pipe (16) is provided with a first flowmeter (14) and a first electromagnetic valve (15) respectively, and the second branch pipe (6) is provided with a second flowmeter (7) and a second electromagnetic valve (8) respectively.

2. The intelligent metered lubrication system control apparatus of claim 1, wherein: the upper end of the main shunt pipe (5) is connected with a water pressure gauge (3) through a pressure measuring coil (4).

3. The intelligent metered lubrication system control apparatus of claim 1, wherein: and the rear end of the shunt main pipe (5) is provided with a pressure relief pipe (1).

4. The intelligent dosing lubrication system control device of claim 3, wherein: and the pressure relief pipe (1) is provided with a pressure relief control valve (2).

5. The intelligent metered lubrication system control apparatus of claim 1, wherein: and the first liquid outlet branch pipe (13) and the second liquid outlet branch pipe (10) are both provided with a switch valve.

6. The intelligent metered lubrication system control apparatus of claim 1, wherein: and a shunt pipeline (12) is arranged at the front end of the liquid outlet main pipe (11).

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