CN116873852B

CN116873852B - Nine-in-one quantitative oiling machine

Info

Publication number: CN116873852B
Application number: CN202311142933.XA
Authority: CN
Inventors: 张现浩; 刘海; 李点; 赵彦举
Original assignee: Jinan Ruijun Automation Equipment Co ltd
Current assignee: Jinan Ruijun Automation Equipment Co ltd
Priority date: 2023-09-06
Filing date: 2023-09-06
Publication date: 2023-11-03
Anticipated expiration: 2043-09-06
Also published as: CN116873852A

Abstract

The invention belongs to the technical field of liquid distribution, in particular to a nine-in-one quantitative oiling machine, which comprises a quantitative cabinet and a reel bracket, wherein two groups of cabinet cross beams are fixedly connected in the quantitative cabinet, an oil receiving disc is arranged on the surface of the reel bracket, a gun rack combination is arranged above the oil receiving disc, the gun rack combination is fixedly connected with the reel bracket, and the quantitative oiling machine further comprises nine groups of quantitative mechanisms which are equidistantly arranged on the surface of the quantitative cabinet, wherein each group of quantitative mechanisms comprises a filling assembly, an auxiliary assembly, a liquid supplementing assembly, an oil storage assembly, a hanging assembly, a filling gun assembly, a filtering assembly and a filling block assembly; the invention has nine filling systems, can fill nine positions, and after the base of the filling gun is identified, the filling gun is directly used for filling through a radio frequency identification technology, so that the filling amount of the oiling machine is ensured, and meanwhile, the lubricating oil can be filtered, and the temperature of the lubricating oil to be filled is controlled.

Description

Nine-in-one quantitative oiling machine

Technical Field

The invention belongs to the technical field of liquid distribution, and particularly relates to a nine-in-one quantitative oiling machine.

Background

At present, various oil liquids such as refrigerants, brake liquid, steering liquid, washing liquid, lubricating oil and the like are usually required to be filled in a filling station on a domestic vehicle general assembly line;

at present, in the process of filling lubricating oil into workpieces in a production line, a filling machine is generally directly placed beside the production line, oil is stored on the line, and the process is not consistent with 5s management and is unsafe;

for this purpose, nine-in-one fuel dispensers are designed to solve the above-mentioned problems.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a nine-in-one quantitative oiling machine, which is provided with nine oiling systems, wherein the nine positions can be filled, a workpiece is conveyed to the lower part of an oiling gun assembly, a radio frequency identification tag is attached to the workpiece, a base of the oiling gun is identified, which piece is required, the quantity of oil to be filled is directly reflected by a radio frequency identification technology, a lamp beside the oiling gun is displayed, the oiling gun is directly used for filling, the oiling quantity of the oiling machine is ensured, lubricating oil can be filtered in the lubricating oil filling process, and the temperature of the lubricating oil to be filled is controlled.

In order to achieve the above purpose, the present invention provides the following technical solutions: the nine-in-one quantitative oiling machine comprises a quantitative cabinet and a reel bracket, wherein two groups of cabinet cross beams are fixedly connected in the quantitative cabinet, an oil receiving disc is arranged on the surface of the reel bracket, a gun rack combination is arranged above the oil receiving disc, the gun rack combination is fixedly connected with the reel bracket, an electric appliance box body is fixedly connected to one surface, far away from the gun rack combination, of the reel bracket, and nine groups of quantitative mechanisms are equidistantly arranged on the surface of the quantitative cabinet;

every group quantitative mechanism all includes filling subassembly, auxiliary assembly, fluid infusion subassembly, oil storage subassembly, hanging subassembly, filling rifle subassembly, filtration subassembly and filling piece subassembly, the filling subassembly sets up the inside of quantitative rack, auxiliary assembly sets up the inside of reel ware support, the fluid infusion subassembly sets up the top of filling the subassembly, and with quantitative rack is connected, the oil storage subassembly sets up the below of filling the subassembly, hanging subassembly is installed the surface of reel ware support, the filling rifle subassembly sets up the surface of hanging subassembly, and with the gun rack combination is connected, filtration subassembly sets up the surface of auxiliary assembly, the filling piece subassembly sets up the top of fluid infusion subassembly, and with quantitative rack is connected.

As the nine-in-one quantitative oiling machine is preferable, the filling assembly comprises a filling pump, a first pagoda joint, a first pair of wires and a fourth elbow, wherein the filling pump is equidistantly arranged on the upper surface of a cross beam of the cabinet, a liquid inlet end and a liquid outlet end of the filling pump are connected through the first pair of wires and the fourth elbow, and the first pagoda joint is inserted into the fourth elbow.

As the nine-in-one quantitative oiling machine, the liquid supplementing assembly comprises a first wall passing connector, a fourth pair of wires, a flow switch, a second pagoda connector, a first pneumatic angle seat valve and a liquid supplementing pump, wherein the first wall passing connector is equidistantly arranged in a round groove formed in the surface of the quantitative cabinet, one end of the first wall passing connector is inserted with the fourth pair of wires, the flow switch is sleeved on the surface of the fourth pair of wires, the first pneumatic angle seat valve is arranged on the surface of the flow switch, the two second pagoda connectors are respectively inserted at the ends, far away from each other, of the first wall passing connector and the first pneumatic angle seat valve, the liquid supplementing pump is arranged above the filling pump and fixedly connected with a cross beam of the cabinet, and the liquid outlet end of the liquid supplementing pump is connected with the second pagoda connector positioned in the quantitative cabinet through a hose IV.

As the nine-in-one quantitative oiling machine, the oil storage component comprises an oil tank body, an embedded pipe joint, a transparent pipe of a liquid level meter, a thermocouple, a four-point liquid level switch, a long heater, an air filter, a fifth pair of wires, a third tower joint and a ball valve, wherein the oil tank body is arranged in the quantitative cabinet, cabinet longitudinal beams are inserted in mounting grooves formed in the bottom surface of the oil tank body, the cabinet longitudinal beams are fixedly connected with the quantitative cabinet, the fifth pair of wires communicated with the inner part of the oil tank body are inserted in the front surface of the oil tank body, the ball valve is sleeved on the surface of the fifth pair of wires, the long heater is inserted in the surface of the oil tank body and extends to the inner part of the oil tank body, the transparent pipe of the liquid level meter is inserted in the surface of the oil tank body, the thermocouple and the four-point liquid level switch are arranged on the upper surface of the oil tank body, the upper surface of the oil tank body is inserted with the fifth pair of wires communicated with the inner part of the oil tank body, the ball valve is sleeved on the surface of the long heater, and the third tower joint is connected with the air filter and the third tower joint, and the other hose is connected with the other hose of the air filter and the other tower.

As the nine-in-one quantitative oiling machine is preferable, the hanging assembly comprises a hanging frame, a nylon hanging ring and a hanging ring screw, wherein the hanging frame is fixedly connected to the upper surface of the reel bracket, the hanging ring screw is arranged on one side, far away from the electric appliance box body, of the reel bracket and is fixedly connected with the hanging frame, and the nylon hanging ring is installed on the surface of the hanging ring screw.

As the nine-in-one quantitative oiling machine, the filling gun assembly comprises a drip-proof nozzle, a button fixing plate, a quantitative switch mounting plate, a high-pressure oil pipe, an inner chamfer opposite wire, a universal joint, a handle and a drip-proof elbow pipe, wherein the handle is arranged on the surface of a gun frame combination, the drip-proof elbow pipe is inserted into the handle, the drip-proof nozzle is arranged at one end of the drip-proof elbow pipe, the universal joint is fixedly connected to the other end of the drip-proof elbow pipe, the inner chamfer opposite wire is inserted into the universal joint, the button fixing plate is sleeved on the surface of the inner chamfer opposite wire, the high-pressure oil pipe is inserted into the button fixing plate, the quantitative switch mounting plate is arranged on the surface of the button fixing plate, and a filling gun base is arranged on the surface of the quantitative switch mounting plate.

As the nine-in-one quantitative oiling machine, the auxiliary assembly comprises a quantitative filling block, a filling block mounting plate, a fourth pneumatic angle seat valve, a flowmeter, a round nut, a first chamfer wire pair, a second wire pair, a third wire pair, a double inner wall-passing sleeve and a second elbow, wherein the quantitative filling block is mounted in the reel bracket through the filling block mounting plate, the fourth pneumatic angle seat valve is inserted in the upper surface of the quantitative filling block, the second elbow is inserted in the bottom surface of the quantitative filling block, the third wire pair is inserted in the pipe orifice of the fourth pneumatic angle seat valve, the flowmeter is sleeved on the surface of the third wire pair, the second wire pair is inserted in the flowmeter, the double inner wall-passing sleeve is sleeved on the surface of the second wire pair, the first chamfer wire pair is inserted in the double inner wall-passing sleeve, the round nut is sleeved on the surface of the first chamfer wire pair and is connected with the first chamfer wire pair, and the round nut is sleeved on the outer side of the hose through the fifth chamfer wire pair.

As the nine-in-one quantitative oiling machine, the filtering assembly comprises a filter seat, a filter element, a compensating core, a third chamfer opposite wire, a sixth opposite wire and a third bent pipe, wherein the sixth opposite wire is inserted into the second elbow, the compensating core is arranged on the surface of the sixth opposite wire, the filter seat is arranged on the surface of the compensating core, the filter element is fixedly connected below the filter seat, the third chamfer opposite wire is inserted into the filter seat, the third bent pipe is sleeved on the surface of the third chamfer opposite wire, the third bent pipe is connected with the high-pressure oil pipe through an oil pipe, and the oil pipe connected with the high-pressure oil pipe penetrates through the nylon lifting ring.

As the nine-in-one quantitative oiling machine, the filling block assembly comprises a first filling block, a long wire pair, a seventh wire pair, a second wall-passing joint, a first elbow, a third pneumatic control angle seat valve, a second chamfer wire pair, a pressure sensor, a pipeline purifying valve and a filling valve, wherein the long wire pair is arranged in a positioning groove formed in the upper surface of a quantitative cabinet, the second wall-passing joint and the seventh wire pair are respectively sleeved at two ends of the long wire pair, the surface of the seventh wire pair is sleeved with the first filling block, the bottom surface of the first filling block is inserted with the first elbow, the inside of the first elbow is inserted with the third pneumatic control angle seat valve, the surface of the third pneumatic control angle seat valve is provided with the filling valve, the inside of the third pneumatic control angle seat valve is inserted with the second wire pair, the surface of the first filling block is provided with the pressure sensor, and one surface of the first filling block, which is far away from the pressure sensor, is provided with the pipeline purifying valve and the liquid inlet end of the pipeline is communicated with the pump through the pressure sensor.

As the nine-in-one quantitative oiling machine, the filling block assembly further comprises a fifth elbow, an eighth pair of wires, a second pneumatic angle seat valve, a third elbow and a pressure gauge, wherein the fifth elbow is arranged on the surface of the first filling block, the eighth pair of wires are inserted into the fifth elbow, the second pneumatic angle seat valve is arranged on the surface of the eighth pair of wires, the third elbow is inserted into the second pneumatic angle seat valve, and the pressure gauge is arranged on the surface of the second pneumatic angle seat valve.

Compared with the prior art, the invention has the beneficial effects that: the invention has nine filling systems, can fill nine positions, the work piece is conveyed to the lower part of the filling gun assembly, the work piece is stuck with a radio frequency identification tag, after the base of the filling gun is identified, the work piece is directly reflected by a radio frequency identification technology, what kind of oil is needed, what amount of oil is needed, a lamp beside the filling gun is displayed, the filling gun is directly used for filling, the oil filling amount of the oiling machine is ensured, the lubricating oil can be filtered in the lubricating oil filling process, and the flow and the temperature of the lubricating oil filling are controlled.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the filament pair and the first filling block of the present invention;

FIG. 3 is a schematic diagram of the structure of the pipeline purge valve and the pressure gauge in the present invention;

FIG. 4 is a schematic view of the third elbow and second pneumatically controlled angle seat valve of the present invention;

FIG. 5 is a schematic view of the combination of the reel stand and gun rack of the present invention;

FIG. 6 is a schematic view of the reel stand and electrical box of the present invention;

FIG. 7 is a schematic view of the structure of the filter assembly and the auxiliary assembly of the present invention;

FIG. 8 is a schematic view of the construction of the eye screw and nylon eye of the present invention;

FIG. 9 is a schematic view of the structure of a flowmeter and a fourth pneumatically controlled angle seat valve according to the present invention;

FIG. 10 is a schematic view of the structure of the dosing block and the second elbow of the present invention;

FIG. 11 is a schematic view of the construction of the filling pump and fourth elbow of the present invention;

FIG. 12 is a schematic view of a first wall-through fitting and flow switch according to the present invention;

FIG. 13 is a schematic view showing the structure of the ball valve and the oil tank body according to the present invention

FIG. 14 is a schematic view showing the structure of the third tower joint and the oil tank body according to the present invention

FIG. 15 is a schematic view showing the structure of the handle and the drip-proof elbow according to the present invention

FIG. 16 is a schematic view showing the structure of the button fixing plate and the quantitative switch mounting plate in the present invention

FIG. 17 is a schematic view of a filter cartridge and filter base according to the present invention

In the figure:

1. a dosing cabinet; 2. a dosing mechanism; 3. a reel holder; 4. a cabinet cross beam; 5. a cabinet longitudinal beam; 7. an oil pan; 8. gun rack combination; 9. an electrical appliance box body;

21. a filling assembly; 211. a filling pump; 212. a first pagoda joint; 213. a first pair of filaments; 214. a fourth elbow;

22. an auxiliary component; 221. quantitatively filling blocks; 222. a filling block mounting plate; 223. a fourth pneumatically controlled angle seat valve; 224. a flow meter; 225. a round nut; 226. a first chamfer is used for aligning wires; 227. a second pair of filaments; 228. a third pair of filaments; 229. a double inner wall sleeve; 2210. a second elbow;

23. a fluid replacement assembly; 231. a first wall-passing joint; 232. a fourth pair of filaments; 233. a flow switch; 234. a second pagoda joint; 235. a first pneumatically controlled angle seat valve; 236. a fluid supplementing pump;

24. an oil storage assembly; 241. an oil tank body; 242. an embedded pipe joint; 243. a liquid level gauge transparent tube; 244. a thermocouple; 245. a four-point liquid level switch; 246. a long heater; 247. an air filter; 248. a fifth pair of filaments; 249. a third pagoda joint; 2410. a ball valve;

25. a hanging assembly; 251. hanging rack; 252. nylon hanging ring; 253. a suspension ring screw;

26. a filler gun assembly; 261. anti-drip nozzle; 262. a button fixing plate; 263. a quantitative switch mounting plate; 264. a high pressure oil pipe; 265. the inner chamfer is opposite to the wire; 266. a universal joint; 267. a handle; 268. drip-proof elbow;

27. a filter assembly; 271. a filter base; 272. a filter cartridge; 273. core supplementing; 274. a third chamfering alignment; 275. a sixth pair of filaments; 276. a third elbow;

28. a filler block assembly; 281. a first filler block; 282. a pressure gauge; 283. a filament pair; 284. a seventh pair of filaments; 285. a second wall-passing joint; 286. a first elbow; 287. a second pneumatically controlled angle seat valve; 288. an eighth pair of filaments; 289. a third pneumatically controlled angle seat valve; 2810. a second chamfer is used for aligning wires; 2811. a pressure sensor; 2812. a third elbow; 2813. a pipeline purge valve; 2814. a filling valve; 2815. and a fifth elbow.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 17;

nine unification ration oiling machines, including ration rack 1 and reel support 3, the inside fixedly connected with of ration rack 1 two sets of rack crossbeams 4, the surface mounting of reel support 3 has and connects the food tray 7, connects the top of food tray 7 to be provided with gun rack combination 8, gun rack combination 8 and reel support 3 fixed connection, one side fixedly connected with electrical apparatus box 9 that reel support 3 kept away from gun rack combination 8 still includes nine sets of ration mechanisms 2 of equidistance setting on ration rack 1 surface.

Further, the method comprises the following steps:

in combination with the above: each group of dosing mechanism 2 comprises a filling component 21, an auxiliary component 22, a fluid supplementing component 23, an oil storage component 24, a hanging component 25, a filling gun component 26, a filtering component 27 and a filling block component 28, wherein the filling component 21 is arranged in the dosing cabinet 1, the auxiliary component 22 is arranged in the reel bracket 3, the fluid supplementing component 23 is arranged above the filling component 21 and is connected with the dosing cabinet 1, the oil storage component 24 is arranged below the filling component 21, the hanging component 25 is arranged on the surface of the reel bracket 3, the filling gun component 26 is arranged on the surface of the hanging component 25 and is connected with the gun rack combination 8, the filtering component 27 is arranged on the surface of the auxiliary component 22, and the filling block component 28 is arranged above the fluid supplementing component 23 and is connected with the dosing cabinet 1.

In this embodiment: the fluid infusion bucket is connected with the filling block assembly 28 through a conveying pipeline, oil in the fluid infusion bucket penetrates through the filling block assembly 28 under the action of the filling assembly 21 and flows into the oil storage assembly 24 to be stored, the lubricating oil achieves output of the lubricating oil under the action of the fluid infusion assembly 23 and controls flow, the lubricating oil flows into the auxiliary assembly 22, the quantitative filling effect can be achieved under the action of the auxiliary assembly 22, impurity filtering in the lubricating oil is achieved under the action of the filtering assembly 27, the filtered lubricating oil is connected with the filling gun assembly 26 through an oil pipe, and the workpiece is filled with the lubricating oil through a radio frequency identification technology.

It should be noted that: the invention has nine filling systems, which can fill nine positions, the filling liquid is generator lubricating oil, twelve filling barrels, which are transported to the line side through the conveying pipeline to fill, and the nine positions are filled with oil simultaneously, wherein nine refers to nine oil filling devices, twelve filling barrels are managed uniformly.

Still further, the method comprises:

in an alternative embodiment, the filling assembly 21 includes a filling pump 211, a first pair of wires 213 and a fourth elbow 214, where the filling pump 211 is equidistantly installed on the upper surface of the cabinet beam 4, and the liquid inlet end and the liquid outlet end of the filling pump 211 are connected through the first pair of wires 213 and the fourth elbow 214, and the first pagoda joint 212 is inserted into the interior of each fourth elbow 214.

In this embodiment: the filling pump 211 is arranged so that lubricating oil flows into the oil tank body 241 through the filling pump 211 for storage, and the filling pump 211 is connected with the oil tank body 241 and the second chamfer opposite wire 2810 through the first pagoda joint 212 and the fourth elbow 214 respectively.

Still further, the method comprises:

in an alternative embodiment, the fluid infusion assembly 23 includes a first wall-passing connector 231, a fourth pair of wires 232, a flow switch 233, a second pagoda connector 234, a first pneumatic angle seat valve 235 and a fluid infusion pump 236, where the first wall-passing connector 231 is equidistantly installed in a circular groove formed in the surface of the quantitative cabinet 1, one end of the first wall-passing connector 231 is inserted with the fourth pair of wires 232, the surface of the fourth pair of wires 232 is sleeved with the flow switch 233, the surface of the flow switch 233 is installed with the first pneumatic angle seat valve 235, two second pagoda connectors 234 are respectively inserted at the ends of the first wall-passing connector 231 and the first pneumatic angle seat valve 235 that are far away from each other, the fluid infusion pump 236 is disposed above the fluid infusion pump 211 and fixedly connected with the cabinet beam 4, and the fluid outlet end of the fluid infusion pump 236 is connected with the second pagoda connector 234 located inside the quantitative cabinet 1 through a hose four.

In this embodiment: the connection mode of the fluid make-up pump 236 is the same as that of the filling pump 211, and the flow rate of the lubricating oil is controlled by the flow switch 233 and the first pneumatic angle seat valve 235.

It should be noted that: the flow of lubricating oil is powered by the provision of a make-up pump 236.

Still further, the method comprises:

in an alternative embodiment, the oil storage assembly 24 includes an oil tank body 241, an embedded pipe joint 242, a transparent pipe 243 of a liquid level meter, a thermocouple 244, a four-point liquid level switch 245, a long heater 246, an air filter 247, a fifth pair of wires 248, a third tower joint 249 and a ball valve 2410, the oil tank body 241 is arranged inside the quantitative cabinet 1, a cabinet longitudinal beam 5 is inserted in a mounting groove formed in the bottom surface of the oil tank body 241, the cabinet longitudinal beam 5 is fixedly connected with the quantitative cabinet 1, the fifth pair of wires 248 communicated with the inside of the oil tank body 241 is inserted on the front surface of the oil tank body 241, the ball valve 2410 is sleeved on the surface of the fifth pair of wires 248, the long heater 246 is inserted on the surface of the oil tank body 241 and extends to the inside of the oil tank body 241, the embedded pipe joint 242 communicated with the long heater is inserted on the surface of the long heater 246, the transparent pipe 243 of the liquid level meter is inserted on the surface of the embedded pipe joint 242, the thermocouple 244 and the four-point liquid level switch 245 are mounted on the upper surface of the oil tank body 241, the air filter 247 and the third tower joint 249 are inserted on the upper surface of the oil tank body 241, the third tower joint 249 is connected with the third tower joint 249 and the third tower joint 249 through another liquid inlet end of the third tower joint 211, and the third tower joint is connected with the third liquid pump through another liquid pump end of the third tower joint 249, and the third tower joint is connected with the third liquid pump end of the third tower joint is connected with the liquid pump end of the pump.

In this embodiment: according to the communicating vessel principle, the lubricant amount inside the tank body 241 can be known by observing the transparent tube 243 of the liquid level meter, the thermocouple 244 is a commonly used temperature measuring element in a temperature measuring instrument, and is used for directly measuring the temperature, converting a temperature signal into a thermal electromotive force signal, converting the thermal electromotive force signal into the temperature of a measured medium through a secondary instrument of the electric instrument, and the long heater 246 is an electric appliance which achieves a heating effect by utilizing electric energy, has small volume, high heating power and very wide use, adopts an intelligent control mode, has high temperature control precision, wide application range and long service life, is high in reliability, and is used for heating through the long heater 246 and monitoring the temperature through the thermocouple 244.

It should be noted that: after entering winter, the viscosity of the liquid lubricating oil is increased due to the temperature reduction, the fluidity is poor, the conveying resistance is increased, the filling is slow, meanwhile, the filling equipment and the pipeline are damaged, and the temperature of the lubricating oil can be controlled according to different seasons.

Still further, the method comprises:

in an alternative embodiment, the hanging assembly 25 comprises a hanging frame 251, a nylon hanging ring 252 and a hanging ring screw 253, wherein the hanging frame 251 is fixedly connected to the upper surface of the reel bracket 3, the hanging ring screw 253 is arranged on one side of the reel bracket 3 away from the electrical box 9 and is fixedly connected with the hanging frame 251, and the nylon hanging ring 252 is mounted on the surface of the hanging ring screw 253.

In this embodiment: the hanging assembly 25 can enable the oil pipes to be placed in order, and the problem that the oil pipes are wound together and separated inconveniently is avoided.

Still further, the method comprises:

in an alternative embodiment, the gun assembly 26 includes a drip tip 261, a button mounting plate 262, a quantitative switch mounting plate 263, a high pressure oil tube 264, an inner chamfer pair wire 265, a universal joint 266, a handle 267, and a drip elbow 268, the handle 267 is disposed on a surface of the gun rack assembly 8, the drip elbow 268 is inserted into the handle 267, the drip tip 261 is mounted at one end of the drip elbow 268, the universal joint 266 is fixedly connected to the other end of the drip elbow 268, the inner chamfer pair wire 265 is inserted into the universal joint 266, the button mounting plate 262 is sleeved on the surface of the inner chamfer pair wire 265, the high pressure oil tube 264 is inserted into the button mounting plate 262, the quantitative switch mounting plate 263 is mounted on the surface of the button mounting plate 262, and the surface of the quantitative switch mounting plate 263 is provided with a gun base.

In this embodiment: the setting of antidrip mouth 261 and antidrip return bend 268 avoids the work piece to add and accomplishes the problem that lubricating oil revealed after the lubricating oil appears, the work piece is last to paste radio frequency identification label, after the base of filling gun discerns, through radio frequency identification technique, directly reflect what kind of piece is, what kind of oil is needed, what needs the oil filler amount, the lamp on filling gun side shows, directly annotate with this filling gun, can annotate three equipment simultaneously, can look over the order through radio frequency identification technique, look over this work piece and specifically send where, confirm how much lubricating oil needs to be added, because the lubricating oil mass that needs to annotate in different areas is different, like the oil filler amount that needs in cold place is many, hot place needs few, intelligent mistake proofing annotate, can statistics charge amount, the work piece volume, compare according to the total quantity of production, prevent leaking and add, compare with subsequent oil, advance the pin is stored and checked.

Still further, the method comprises:

in an alternative embodiment, the auxiliary assembly 22 comprises a dosing block 221, a dosing block mounting plate 222, a fourth pneumatic angle seat valve 223, a flow meter 224, a round nut 225, a first chamfer pair wire 226, a second pair wire 227, a third pair wire 228, a double inner wall sleeve 229 and a second elbow 2210, wherein the dosing block 221 is mounted inside the reel bracket 3 through the dosing block mounting plate 222, the fourth pneumatic angle seat valve 223 is inserted on the upper surface of the dosing block 221, the second elbow 2210 is inserted on the bottom surface of the dosing block 221, the third pair wire 228 is inserted inside the orifice of the fourth pneumatic angle seat valve 223, the flow meter 224 is sleeved on the surface of the third pair wire 228, the second pair wire 227 is inserted inside the flow meter 224, the double inner wall sleeve 229 is sleeved on the surface of the second pair wire 227, the first chamfer pair wire 226 is inserted inside the double inner wall sleeve 229, the round nut 225 is sleeved on the surface of the first chamfer wire 226 and is in threaded connection with the first chamfer wire 226, the second pagoda joint 234 positioned outside the quantitative cabinet 1 is connected with the first chamfer wire 226 through a hose five, the filtering component 27 comprises a filter seat 271, a filter element 272, a compensating core 273, a third chamfer wire 274, a sixth wire 275 and a third elbow 276, the sixth wire 275 is inserted in the second elbow 2210, the compensating core 273 is arranged on the surface of the sixth wire 275, the filter seat 271 is arranged on the surface of the compensating core 273, the filter element 272 is fixedly connected below the filter seat 271, the third chamfer wire 274 is inserted in the filter seat 271, the third elbow 276 is sleeved on the surface of the third chamfer wire 274, the third elbow 276 is connected with the high-pressure oil pipe 264 through an oil pipe, and the oil pipe connected with the high-pressure oil pipe 264 penetrates through the nylon 252.

In this embodiment: the setting of ration filling piece 221, flowmeter 224 and fourth pneumatic control angle seat valve 223 can be to the accurate control of the flow of liquid, and filter assembly 27's setting can be further filtered the impurity in the lubricating oil, further improves the quality of lubricating oil.

Still further, the method comprises:

in an alternative embodiment, the filling block assembly 28 comprises a first filling block 281, a long pair of wires 283, a seventh pair of wires 284, a second wall-passing joint 285, a first elbow 286, a third pneumatic control angle seat valve 289, a second chamfer pair of wires 2810, a pressure sensor 2811, a pipeline purification valve 2813 and a filling valve 2814, the long pair of wires 283 are arranged in positioning grooves formed in the upper surface of the quantitative cabinet 1, the second wall-passing joint 285 and the seventh pair of wires 284 are respectively sleeved at two ends of the long pair of wires 283, the surface of the seventh pair of wires 284 is sleeved with the first filling block 281, the bottom surface of the first filling block 287 is provided with a first elbow 286 in an inserted manner, the inside of the first elbow 286 is provided with a third pneumatic control angle seat valve 289, the surface of the third pneumatic control angle seat valve 289 is provided with a filling valve 2814, the inside of the third pneumatic control angle seat valve 289 is provided with a second chamfer pair of wires 0, the surface of the first filling block 281 is provided with a pressure sensor 2811, the surface of the first filling block 281 is provided with a third pneumatic control angle seat valve 2811, the surface of the fifth pneumatic control angle seat valve 2812 is provided with a fifth pipeline expansion valve 2812, the surface of the fifth filling block is provided with a fifth pneumatic control angle seat valve 288, the surface of the fifth elbow is provided with a fifth pneumatic control angle seat valve 288, the fifth pipeline is provided with a fifth pneumatic control angle seat valve 288, and the fourth elbow is provided with a fifth pneumatic control angle seat valve 288, and the fourth pneumatic control angle seat valve 2 is provided with a third pneumatic control angle seat valve 2812.

In this embodiment: the pressure in the flowing process of the lubricating oil can be controlled, the stable flowing of the lubricating oil is ensured, and meanwhile, the flow of the lubricating oil can be adjusted.

Working principle: the invention has nine filling systems, can fill nine positions, the filling liquid is generator lubricating oil, twelve fluid-filling barrels are arranged, the nine positions are filled simultaneously by conveying the nine positions to the line side through a conveying pipeline, nine of the nine positions are nine oil filling devices, twelve fluid-filling barrels are uniformly managed, the fluid-filling barrels are connected with a second wall-passing joint 285 through the conveying pipeline, the interior of the oil tank body 241 can be filled when the filling pump 211 is started, the filling gun assembly 26 is a part connected with nine filling devices, the part of a production line belongs to the part of the production line, when the workpiece is produced to the filling step, the filling is carried out, the workpiece is conveyed to the position below the filling gun assembly 26, a radio frequency identification tag is attached to the workpiece, after the filling gun base is identified, the radio frequency identification technology is used for directly reflecting which piece of oil is needed, the quantity of the oil is needed, a lamp beside the filling gun is displayed, the filling gun is directly used for filling, three pieces of equipment can be simultaneously fed, an order can be checked through the radio frequency identification technology, the filling gun can be particularly sent to the place, the workpiece is required to the place, the quantity of the oil is different, the quantity of the oil is needed to be filled when the quantity is different, the quantity is required to be compared with the quantity of the oil is different, and the place is different, and the quantity is different, and the place is different is required to be compared, and the quantity is different, and the place is different, and is compared with the quantity is required and is compared, and is different.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Nine unification ration oiling machines, including ration rack (1) and reel ware support (3), the inside fixedly connected with of ration rack (1) two sets of rack crossbeam (4), the surface mounting of reel ware support (3) has and connects food tray (7), the top that connects food tray (7) is provided with gun rack combination (8), gun rack combination (8) with reel ware support (3) fixed connection, reel ware support (3) are kept away from one side fixedly connected with electrical apparatus box (9) of gun rack combination (8), its characterized in that: the quantitative machine further comprises nine groups of quantitative mechanisms (2) which are equidistantly arranged on the surface of the quantitative cabinet (1);

each group of quantitative mechanism (2) comprises a filling component (21), an auxiliary component (22), a fluid supplementing component (23), an oil storage component (24), a hanging component (25), a filling gun component (26), a filtering component (27) and a filling block component (28), wherein the filling component (21) is arranged in the quantitative cabinet (1), the auxiliary component (22) is arranged in the quantitative cabinet (3), the fluid supplementing component (23) is arranged above the filling component (21) and is connected with the quantitative cabinet (1), the oil storage component (24) is arranged below the filling component (21), the hanging component (25) is arranged on the surface of the reel cabinet (3), the filling gun component (26) is arranged on the surface of the hanging component (25) and is connected with the gun rack combination (8), the filtering component (27) is arranged on the surface of the auxiliary component (22), the filling block component (28) is arranged above the fluid supplementing component (23) and is connected with a fourth joint (212), the quantitative cabinet (21) comprises a first joint (212) and a second joint (213), the filling pump (211) is equidistantly arranged on the upper surface of the cabinet cross beam (4), the liquid inlet end and the liquid outlet end of the filling pump (211) are connected through the first pair of wires (213) and the fourth elbow (214), the first pagoda joint (212) is inserted in each fourth elbow (214), the liquid supplementing component (23) comprises a first wall passing joint (231), a fourth pair of wires (232), a flow switch (233), a second pagoda joint (234), a first gas control angle seat valve (235) and a liquid supplementing pump (236), the first wall passing joint (231) is equidistantly arranged in a circular groove formed in the surface of the quantitative cabinet (1), one end of the first wall passing joint (231) is inserted with the fourth pair of wires (232), the surface of the fourth pair of wires (232) is sleeved with the flow switch (233), the first gas control angle seat valve (235) is arranged on the surface of the flow switch (233), the two first gas control angle seat valves (234) are respectively arranged on the first wall passing joint (234) and the first wall passing joint (236) and are far away from the first gas control angle seat valve (235) and the liquid supplementing pump (236) and are respectively arranged on the cabinet cross beam (4), the liquid outlet end of the liquid supplementing pump (236) is connected with the second pagoda joint (234) positioned in the quantitative cabinet (1) through a hose IV, the oil storage component (24) comprises an oil tank body (241), an embedded pipe joint (242), a liquid level meter transparent pipe (243), a thermocouple (244), a four-point liquid level switch (245), a long heater (246), an air filter (247), a fifth pair of wires (248), a third pagoda joint (249) and a ball valve (2410), the oil tank body (241) is arranged in the quantitative cabinet (1), cabinet longitudinal beams (5) are inserted in mounting grooves formed in the bottom surface of the oil tank body (241), the cabinet longitudinal beams (5) are fixedly connected with the quantitative cabinet (1), the fifth pair of wires (248) communicated with the interior of the oil tank body (241) are inserted on the front surface of the oil tank body (241), the ball valve (2410) is sleeved on the surface of the fifth pair of wires (248), the long heater (246) is inserted on the surface of the oil tank body (241) and extends to the surface of the embedded pipe joint (242) which is fixedly connected with the surface of the oil tank body (241), the upper surface mounting of the oil tank body (241) has thermocouple (244) with four-point liquid level switch (245), the upper surface of the oil tank body (241) is inserted and is equipped with empty filter (247) with third treasured tower connects (249), empty filter (247) with third treasured tower connects (249) all extend to the inside of the oil tank body (241), the liquid outlet end of filling pump (211) is through hose two with one of them third treasured tower connects (249) connection, the feed liquor end of fluid infusion pump (236) is through hose three with another third treasured tower connects (249) connection.

2. The nine-in-one fuel dispenser of claim 1, wherein: the hanging assembly (25) comprises a hanging frame (251), a nylon hanging ring (252) and a hanging ring screw (253), the hanging frame (251) is fixedly connected to the upper surface of the reel bracket (3), the hanging ring screw (253) is arranged on one side, far away from the electrical box body (9), of the reel bracket (3) and is fixedly connected with the hanging frame (251), and the nylon hanging ring (252) is installed on the surface of the hanging ring screw (253).

3. The nine-in-one fuel dispenser of claim 1, wherein: the filling gun assembly (26) comprises a drip nozzle (261), a button fixing plate (262), a quantitative switch mounting plate (263), a high-pressure oil pipe (264), an inner chamfer opposite wire (265), a universal joint (266), a handle (267) and a drip-proof elbow pipe (268), the handle (267) is arranged on the surface of a gun frame combination (8), the drip-proof elbow pipe (268) is inserted into the handle (267), the drip nozzle (261) is mounted at one end of the drip-proof elbow pipe (268), the universal joint (266) is fixedly connected with the other end of the drip-proof elbow pipe (268), the inner chamfer opposite wire (265) is inserted into the inner portion of the universal joint (266), the button fixing plate (262) is sleeved on the surface of the inner chamfer opposite wire (265), the high-pressure oil pipe (264) is inserted into the inner portion of the button fixing plate (262), the quantitative switch mounting plate (263) is mounted on the surface of the button fixing plate (262), and the base of the quantitative switch mounting plate (263) is mounted on the surface of the filling gun.

4. A nine-in-one fuel dispenser according to claim 3, wherein: the auxiliary assembly (22) comprises a quantitative filling block (221), a filling block mounting plate (222), a fourth pneumatic control angle seat valve (223), a flowmeter (224), a round nut (225), a first chamfer angle pair wire (226), a second pair wire (227), a third pair wire (228), a double inner wall sleeve (229) and a second elbow (2210), wherein the quantitative filling block (221) is mounted in the reel bracket (3) through the filling block mounting plate (222), the fourth pneumatic control angle seat valve (223) is inserted on the upper surface of the quantitative filling block (221), the second elbow (2210) is inserted on the bottom surface of the quantitative filling block (221), the third pair wire (228) is inserted in the inside of the mouth of the fourth pneumatic control angle seat valve (223), the flowmeter (224) is sleeved on the surface of the third pair wire (228), the second pair wire (227) is inserted in the inside the flowmeter (224), the double inner wall sleeve (229) is sleeved on the inner wall of the second pair wire (226) and is connected with the round nut (226) through the first chamfer angle pair wire (226), the second pagoda connector (234) located outside the dosing cabinet (1) is connected with the first chamfer butt wire (226) through a hose five.

5. The nine-in-one fuel dispenser of claim 4, wherein: the filter component (27) comprises a filter seat (271), a filter element (272), a compensating core (273), a third chamfer opposite wire (274), a sixth opposite wire (275) and a third elbow (276), wherein the sixth opposite wire (275) is inserted into the second elbow (2210), the compensating core (273) is arranged on the surface of the sixth opposite wire (275), the filter seat (271) is arranged on the surface of the compensating core (273), the filter element (272) is fixedly connected to the lower part of the filter seat (271), the third chamfer opposite wire (274) is inserted into the filter seat (271), the third elbow (276) is sleeved on the surface of the third chamfer opposite wire (274), and the third elbow (276) is connected with the high-pressure oil pipe (264) through an oil pipe.

6. The nine-in-one fuel dispenser of claim 1, wherein: the filling block component (28) comprises a first filling block (281), a long pair of wires (283), a seventh pair of wires (284), a second wall-passing joint (285), a first elbow (286), a third pneumatic control angle seat valve (289), a second chamfer pair of wires (2810), a pressure sensor (2811), a pipeline purifying valve (2813) and a filling valve (2814), wherein the long pair of wires (283) are installed in a positioning groove formed in the upper surface of the quantitative cabinet (1), the second wall-passing joint (285) and the seventh pair of wires (284) are respectively sleeved at two ends of the long pair of wires (283), the surface of the seventh pair of wires (284) is sleeved with the first filling block (281), the bottom surface of the first filling block (281) is inserted with the first elbow (286), the third pneumatic control angle seat valve (289) is inserted in the interior of the first elbow (286), the surface of the third pneumatic control angle seat valve (283) is provided with the positioning groove formed in the upper surface of the quantitative cabinet (1), the seventh pair of wires (284) is sleeved with the pressure sensor (2814), the surface of the first filling block (2813) is provided with the pressure sensor (2810), the pressure sensor (2811) is communicated with the liquid inlet end of the filling pump (211) through a hose I.

7. The nine-in-one fuel dispenser of claim 6, wherein: the filling block assembly (28) further comprises a fifth elbow (2815), an eighth pair of wires (288), a second pneumatic control angle seat valve (287), a third elbow (2812) and a pressure gauge (282), wherein the fifth elbow (2815) is arranged on the surface of the first filling block (281), the eighth pair of wires (288) are inserted into the fifth elbow (2815), the second pneumatic control angle seat valve (287) is arranged on the surface of the eighth pair of wires (288), the third elbow (2812) is inserted into the second pneumatic control angle seat valve (287), and the pressure gauge (282) is arranged on the surface of the second pneumatic control angle seat valve (287).