CN113911997A - Automatic oiling device for high-flexibility engine assembly ignition test - Google Patents
Automatic oiling device for high-flexibility engine assembly ignition test Download PDFInfo
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- CN113911997A CN113911997A CN202111298802.1A CN202111298802A CN113911997A CN 113911997 A CN113911997 A CN 113911997A CN 202111298802 A CN202111298802 A CN 202111298802A CN 113911997 A CN113911997 A CN 113911997A
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- oiling
- positioning device
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- 238000009434 installation Methods 0.000 claims abstract description 36
- 238000003825 pressing Methods 0.000 claims description 26
- 210000001503 joint Anatomy 0.000 claims description 16
- 230000001105 regulatory effect Effects 0.000 claims description 11
- 239000000463 material Substances 0.000 claims description 6
- 239000004698 Polyethylene Substances 0.000 claims description 3
- 238000005255 carburizing Methods 0.000 claims description 3
- -1 polyethylene Polymers 0.000 claims description 3
- 229920000573 polyethylene Polymers 0.000 claims description 3
- 229920002635 polyurethane Polymers 0.000 claims description 3
- 239000004814 polyurethane Substances 0.000 claims description 3
- 238000010791 quenching Methods 0.000 claims description 3
- 230000000171 quenching effect Effects 0.000 claims description 3
- 238000000034 method Methods 0.000 abstract description 3
- 230000007246 mechanism Effects 0.000 abstract description 2
- 230000008569 process Effects 0.000 abstract description 2
- 239000003921 oil Substances 0.000 description 20
- 239000000945 filler Substances 0.000 description 18
- 230000009471 action Effects 0.000 description 8
- 239000010705 motor oil Substances 0.000 description 5
- 238000005266 casting Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000003032 molecular docking Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000036541 health Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 229920000642 polymer Polymers 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D7/00—Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes
- B67D7/04—Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes for transferring fuels, lubricants or mixed fuels and lubricants
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D7/00—Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes
- B67D7/06—Details or accessories
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D7/00—Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes
- B67D7/06—Details or accessories
- B67D7/32—Arrangements of safety or warning devices; Means for preventing unauthorised delivery of liquid
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D7/00—Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes
- B67D7/06—Details or accessories
- B67D7/36—Arrangements of flow- or pressure-control valves
Abstract
The invention discloses an automatic oiling device for ignition test of high-flexibility engine assembly, which relates to the field of engine assembly and comprises an installation frame body, a transverse moving device, an engine positioning device, an automatic oiling device and an intelligent photographing device, wherein the installation frame body is used for fixing other mechanisms of the device, the transverse moving device is used for transversely moving the automatic oiling device, the engine positioning device is used for positioning an engine and conveying the engine to a oiling position, the automatic oiling device realizes automatic and efficient oiling, the intelligent photographing device is used for photographing an engine oiling port, and if the oiling port is damaged and photographed in an oiling process, an operator is warned. The device has high degree of automation and strong flexibility, and can be compatible with engines of different types to refuel.
Description
Technical Field
The invention relates to the field of engine assembly, in particular to an automatic oiling device for high-flexibility engine assembly ignition test.
Background
Need ignite the test after the engine assembly is accomplished, need refuel the engine before the ignition test, if the volume of refueling can cause the waste greatly, refuel if can influence the test effect too little, consequently engine refueling equipment belongs to the difficult station of assembly process, and engine test is with oil itself has certain volatility in addition, causes the influence to operator's health. In order to solve the problem, application number CN 201420572251.2 proposes an oiling device, which has low automation degree, and cannot adjust the flow rate of oiling, and cannot realize high-efficiency and high-precision oiling.
Disclosure of Invention
The invention provides an automatic oiling device for high-flexibility engine assembly ignition test, which comprises an installation frame body, wherein an upper plate upper installation surface of the installation frame body and a lower installation surface of a transverse moving device are installed together, the front side edge of the lower installation surface of the transverse moving device is aligned with the front side edge of the upper plate upper installation surface of the installation frame body, the upper plate upper installation surface of the installation frame body and the lower installation surface of an engine positioning device are installed together, the rear side edge of the lower installation surface of the engine positioning device is aligned with the rear side edge of the upper plate upper installation surface of the installation frame body, the front side installation surface of a transverse moving block in the transverse moving device and the rear side installation surface of an oiling device installation plate in the automatic oiling device are installed together, the lower side edge of the transverse moving block is aligned with the lower side edge of the oiling device installation plate, the left side installation surface of the transverse moving block in the transverse moving device and an intelligent camera installation plate in an intelligent photographing device The right side installation face of board is installed together, and the downside border of horizontal sliding block is aligned with the downside border of intelligent camera mounting panel.
The transverse moving device comprises transverse moving columns, a transverse moving mounting plate, a right side mounting panel, a belt pressing sheet, a belt pressing block, a transverse moving block, a rotating motor, a motor mounting plate, a motor mounting bracket, a driving belt pulley connecting shaft, a belt, a left side mounting panel, a driven wheel mounting bottom plate, a driven wheel mounting vertical plate, a driven belt pulley connecting shaft, a transverse moving guide rod and a guide rod guide sleeve, wherein the lower mounting surface of each transverse moving column is mounted with the upper mounting surface of the upper plate of the mounting frame body, the upper mounting surface of each transverse moving column is mounted with the lower mounting surface of the transverse moving mounting plate, the four transverse moving columns are distributed at four corners of the transverse moving mounting plate, the upper mounting surface of each transverse moving mounting plate is mounted with the lower mounting surface of the right side mounting panel, and the right side edge of the right side mounting panel is aligned with the right side edge of the transverse moving mounting plate, the upper mounting surface of the transverse moving mounting plate is mounted with the lower mounting surface of the left mounting panel, the left side edge of the left mounting panel is aligned with the left side edge of the transverse moving mounting plate, the upper mounting surface of the right mounting panel is mounted with the lower mounting surface of the motor mounting bracket, the right side edge of the motor mounting bracket is aligned with the right side edge of the right mounting panel, the rear mounting surface of the motor mounting bracket is mounted with the front mounting surface of the motor mounting plate, the upper side edge of the motor mounting plate is aligned with the upper side edge of the motor mounting bracket, the rear mounting surface of the motor mounting plate is mounted with the front mounting surface of the rotating motor, the output shaft of the rotating motor is coaxially connected with the driving pulley connecting shaft, the excircle of the driving pulley connecting shaft is matched with the inner hole of the driving pulley, the right side mounting surface of the left side mounting panel and the left side mounting surface of the driven wheel mounting base plate are mounted together, the upper side plane of the driven wheel mounting base plate is aligned with the upper side plane of the left side mounting panel, the upper side mounting surface of the driven wheel mounting base plate is mounted together with the lower side mounting surface of the driven wheel mounting vertical plate, the right side plane of the driven wheel mounting vertical plate is aligned with the right side plane of the driven wheel mounting base plate, a round hole of the driven wheel mounting vertical plate is matched with the excircle of a driven belt pulley connecting shaft, the excircle of the driven belt pulley connecting shaft is matched with a driven belt pulley, the driven belt pulley and a driving belt pulley are bound together through a belt, a transverse moving guide rod is fixedly mounted between the left side mounting panel and the right side mounting panel, the excircle of the transverse moving guide rod is matched with the inner hole of a guide rod guide sleeve, and the excircle of the guide rod guide sleeve is matched with the inner hole of a transverse moving block, the belt pressing block is characterized in that the front side mounting surface of the transverse moving block and the rear side mounting surface of the belt pressing block are mounted together, the upper side plane of the belt pressing block is aligned with the upper side plane of the transverse moving block, the upper mounting surface of the belt pressing block and the lower mounting surface of the belt pressing sheet are mounted together, and the belt pressing sheet presses the belt tightly on the upper mounting surface of the belt pressing block.
The engine positioning device comprises a positioning device bottom plate, a positioning device guide rail, a positioning device sliding block, a positioning device cylinder bracket, a positioning device cylinder, a cylinder connector, a limiting block mounting plate, a limiting block base, a limiting block, a floating guide rail, a floating sliding block, a positioning pin mounting plate and a positioning device moving sliding plate, wherein the lower mounting surface of the positioning device bottom plate is fixedly mounted on the upper mounting surface of the mounting frame body, the upper mounting surface of the positioning device bottom plate is fixedly mounted with the lower mounting surface of the positioning device guide rail, the outer part of the positioning device guide rail is matched with the inner part of the positioning device sliding block, the upper mounting surface of the positioning device sliding block is mounted with the lower mounting surface of the positioning device moving sliding plate, the rear mounting surface of the positioning device bottom plate is mounted with the front mounting surface of the positioning device cylinder bracket, the lower side edge of a positioning device cylinder bracket is aligned with the lower side edge of a positioning device bottom plate, the rear side mounting surface of the positioning device cylinder bracket is mounted with the front side mounting surface of a positioning device cylinder, the end part of an output shaft of the positioning device cylinder bracket is connected with a cylinder connector, the front side mounting surface of the cylinder connector is mounted with the rear side mounting surface of a positioning device movable sliding plate, the rear side edge of a limit block mounting plate is aligned with the rear side edge of the positioning device movable sliding plate, the front side mounting surface of the limit block mounting plate is mounted with the rear side mounting surface of a limit block, the upper side plane of the limit block is aligned with the upper side plane of the limit block mounting plate, the front side mounting surface of the limit block is mounted with the rear side mounting surface of a limit block base, and the upper plane of a positioning device movable sliding plate processing groove is mounted with the lower mounting surface of a floating guide rail, the outer side of the floating guide rail is matched with the inner side of the floating sliding block, the upper side mounting surface of the floating sliding block is mounted with the lower side mounting surface of the positioning pin mounting plate, the upper side mounting surface of the positioning pin mounting plate is mounted with the lower side mounting surface of the positioning pin, and the two positioning pins are distributed on the left side and the right side of the positioning pin mounting plate.
The automatic oiling device comprises an oiling device mounting plate, an oiling cylinder connector, an oiling device guide rail, an oiling device slider, an oiling device sliding plate, a connector mounting plate, an oil pipe supporting plate, an upper end oiling guide pipe, an oil filter, a middle connecting pipe, a flow regulating valve knob, an oiling pipe supporting bracket and an engine butt joint nozzle, wherein the upper side mounting surface of the oiling device mounting plate is mounted with the lower side mounting surface of the oiling cylinder mounting plate, the lower side mounting surface of the oiling cylinder mounting plate is mounted with the upper side mounting surface of the oiling cylinder, the output shaft end part of the oiling cylinder is mounted with the oiling cylinder connector, the lower mounting surface of the oiling cylinder connector is mounted with the upper mounting surface of the connector mounting plate, the upper mounting surface of the connector mounting plate is mounted with the lower mounting surface of the oiling device sliding plate, and the front side plane of the oiling device sliding plate is aligned with the front side plane of the connector mounting plate, the front side mounting surface of the oiling device mounting plate is mounted with the rear side mounting surface of the oiling device guide rail, the outer side of the oiling device guide rail is matched with the inner side of the oiling device sliding block, the front side mounting surface of the oiling device sliding block is mounted with the rear side mounting surface of the oiling device sliding plate, the front side mounting surface of the oiling device sliding plate is mounted with the rear side mounting surface of the oil pipe supporting plate, the lower side edge of the oil pipe supporting plate is aligned with the lower side edge of the connector mounting plate, the front side mounting surface of the oil pipe supporting plate is mounted with the rear side mounting surface of the oil filling pipe supporting bracket, the oil filling pipe supporting bracket is close to the lower part of the oil pipe supporting plate, the inner hole of the oil filling pipe supporting bracket is matched with the excircle of the lower part of the intermediate connecting pipe, the lower end face of the middle connecting pipe is connected with the upper end face of an engine butt joint nozzle, the excircle of the upper portion of the middle connecting pipe is matched with an inner hole of a flow regulating valve, a threaded hole in a front side mounting face of the flow regulating valve is matched with a cylindrical surface thread of a knob of the flow regulating valve, the upper end face of the middle connecting pipe is connected with the lower end face of an oil filter, and a round hole in the upper portion of the oil filter is matched with the excircle of an upper end oiling guide pipe.
The intelligent photographing device comprises an intelligent camera mounting plate, an intelligent camera, a camera lens mounting support, a camera lens and a camera lens filter, wherein the front side mounting surface of the intelligent camera mounting plate is mounted with the rear side mounting surface of the camera lens mounting support, the camera lens mounting support is located at the middle position of the intelligent camera mounting plate, an inner hole of the camera lens mounting support is matched with the outer circle of the lower portion of the intelligent camera, the lower end surface of the intelligent camera is connected with the upper end surface of the camera lens, and the lower end surface of the camera lens is connected with the upper end surface of the camera lens filter.
Furthermore, the belt is made of high-wear-resistant material high-molecular polyethylene.
Further, the belt binds the driving pulley and the driven pulley together with an angular velocity ratio of 1: 0.8.
Further, the hard material of the surface of the positioning pin is selected from 2Cr13 for carburizing and quenching.
Furthermore, the engine butt joint mouth material chooses polyurethane for use, and the surface is smooth no burr.
Furthermore, a thread pair structure between the camera lens and the camera lens filter adopts a fine thread pair structure.
Compared with the prior art, the invention has the beneficial effects that:
(1) the oiling speed of the device can be controlled by a speed regulating valve, and the oiling amount can be effectively controlled;
(2) the device is provided with an intelligent camera device, and the collision damage of an engine oil filling port immediately alarms;
(3) the device has high flexibility, and engines of different types can be oiled by the device;
(4) the floating guide rail is matched with the floating sliding block, so that the floating function in the front-back direction is realized, and the error generated by casting the engine cylinder body is compensated.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of a lateral shifting apparatus according to the present invention;
FIG. 3 is a schematic view of an engine positioning device of the present invention;
FIG. 4 is a cross-sectional view of the engine positioning device of the present invention;
FIG. 5 is a schematic view of the automatic oiling device of the present invention;
fig. 6 is a schematic diagram of the intelligent photographing device of the invention.
Reference numerals: 1, mounting a frame body; 2-a lateral movement device; 3-engine positioning means; 4-automatic oiling device; 5-an intelligent photographing device; 201-transversely moving the upright post; 202-traversing the mounting plate; 203-right side mounting panel; 204-belt pressing; 205-belt briquetting; 206-lateral movement block; 207-rotating electrical machines; 208-a motor mounting plate; 209-motor mounting bracket; 210-a drive pulley; 211-driving pulley connecting shaft; 212-a belt; 213-left side mounting panel; 214-driven wheel mounting base plate; 215-mounting a vertical plate on a driven wheel; 216-a driven pulley; 217-driven pulley connecting shaft; 218-a traversing guide; 219-guide rod guide sleeve; 301-positioning device base plate; 302-a positioner rail; 303-positioning means slide; 304-positioning device cylinder holder; 305-a positioning device cylinder; 306-a cylinder connection head; 307-a stop block mounting plate; 308-a stopper base; 309-a limiting block; 310-a floating guide rail; 311-a floating slider; 312-a locating pin; 313-locating pin mounting plate; 314-positioning device moving slide; 401-a refueling unit mounting plate; 402-refuel cylinder mounting plate; 403-refuel cylinder; 404-refuel cylinder connection head; 405-a refueling apparatus rail; 406-a refuelling device slide; 407-oiling device slide plate; 408-connector mounting plate; 409-oil pipe supporting plate; 410-an upper end oiling guide pipe; 411-an oil filter; 412-intermediate connection pipe; 413-flow regulating valve; 414-flow control valve knob; 415-filler pipe support bracket; 416-an engine docking nozzle; 501-an intelligent camera mounting plate; 502-smart camera; 503-camera lens mounting bracket; 504-camera lens; 505-camera lens filter.
Detailed Description
The present invention is described in detail below with reference to figures 1-6.
As shown in fig. 1, 2, 3, 4, 5 and 6, the automatic oiling device for the high-flexibility engine assembly ignition test comprises a mounting frame body 1, wherein an upper plate mounting surface of the mounting frame body 1 and a lower mounting surface of a transverse moving device 2 are mounted together, the front side edge of the lower mounting surface of the transverse moving device 2 is aligned with the front side edge of the upper plate mounting surface of the mounting frame body 1, the upper plate mounting surface of the mounting frame body 1 and the lower mounting surface of an engine positioning device 3 are mounted together, the rear side edge of the lower mounting surface of the engine positioning device 3 is aligned with the rear side edge of the upper plate mounting surface of the mounting frame body 1, the front side mounting surface of a transverse moving block 206 in the transverse moving device 2 and the rear side mounting surface of an oiling device mounting plate 401 in the automatic oiling device 4 are mounted together, and the lower side edge of the transverse moving block 206 is aligned with the lower side edge of the oiling device mounting plate 401, the left side installation surface of the transverse moving block 206 in the transverse moving device 2 is installed together with the right side installation surface of the intelligent camera installation plate 501 in the intelligent photographing device 5, and the lower side edge of the transverse sliding block 206 is aligned with the lower side edge of the intelligent camera installation plate 501. The installation support body 1 is used for fixing other mechanisms of this device, and lateral shifting device 2 is used for lateral shifting automatic oiling device, and engine positioner 3 is used for fixing a position the engine to transport the refueling position with the engine, automatic oiling device 4 realizes automatic high-efficient refueling, and intelligent photographing device 5 is used for shooing the engine oil filler hole, if the oiling in-process, reports to the police to the operator after the oil filler hole is damaged and is shot.
As shown in FIG. 2, the transverse moving device 2 comprises a transverse moving upright 201, a transverse moving mounting plate 202, a right mounting panel 203, a belt pressing sheet 204, a belt pressing block 205, a transverse moving block 206, a rotating motor 207, a motor mounting plate 208, a motor mounting bracket 209, a driving pulley 210, a driving pulley connecting shaft 211, a belt 212, a left mounting panel 213, a driven pulley mounting base plate 214, a driven pulley mounting upright plate 215, a driven pulley 216, a driven pulley connecting shaft 217, a transverse moving guide rod 218 and a guide rod guide sleeve 219, wherein the lower mounting surface of the transverse moving upright 201 is mounted with the upper mounting surface of the mounting frame body 1, the upper mounting surface of the transverse moving upright 201 is mounted with the lower mounting surface of the transverse moving mounting plate 202, four transverse moving uprights 201 are distributed at four corners of the transverse moving mounting plate 202, the upper mounting surface of the transverse moving mounting plate 202 is mounted with the lower mounting surface of the right mounting panel 203, and the right side edge of the right side mounting panel 203 is aligned with the right side edge of the traverse mounting panel 202, the upper mounting surface of the traverse mounting panel 202 is mounted with the lower mounting surface of the left side mounting panel 213, and the left side edge of the left side mounting panel 213 is aligned with the left side edge of the traverse mounting panel 202, the upper mounting surface of the right side mounting panel 203 is mounted with the lower mounting surface of the motor mounting bracket 209, and the right side edge of the motor mounting bracket 209 is aligned with the right side edge of the right side mounting panel 203, the rear mounting surface of the motor mounting bracket 209 is mounted with the front mounting surface of the motor mounting plate 208, and the upper side edge of the motor mounting plate 208 is aligned with the upper side edge of the motor mounting bracket 209, the rear mounting surface of the motor mounting plate 208 is mounted with the front mounting surface of the rotating motor 207, and the output shaft of the rotating motor 207 is coaxially connected with the driving pulley connecting shaft 211, the rotating motor 207 can control the rotating speed through servo control and PLC programming, the excircle of the driving pulley connecting shaft 211 is matched with the inner hole of the driving pulley 210, the right side mounting surface of the left side mounting panel 213 is mounted with the left side mounting surface of the driven wheel mounting base plate 214, the upper side plane of the driven wheel mounting base plate 214 is aligned with the upper side plane of the left side mounting panel 213, the upper side mounting surface of the driven wheel mounting base plate 214 is mounted with the lower side mounting surface of the driven wheel mounting vertical plate 215, the right side plane of the driven wheel mounting vertical plate 215 is aligned with the right side plane of the driven wheel mounting base plate 214, the round hole of the driven wheel mounting vertical plate 215 is matched with the excircle of the driven pulley connecting shaft 217, the excircle of the driven pulley connecting shaft 217 is matched with the driven pulley 216, the driven pulley 216 is bound with the driving pulley 210 through a belt 212, the belt 212 binds the driving pulley 210 and the driven pulley 216 together, and rotates at the same linear velocity under the drive of the rotating motor 207, the traversing guide rod 218 is installed and fixed between the left side installation panel 213 and the right side installation panel 203, the outer circle of the traversing guide rod 218 is matched with the inner hole of the guide rod guide sleeve 219, the outer circle of the guide rod guide sleeve 219 is matched with the inner hole of the traversing block 206, the front side installation surface of the traversing block 206 is installed with the rear side installation surface of the belt pressing block 205, the upper side plane of the belt pressing block 205 is aligned with the upper side plane of the traversing block 206, the upper installation surface of the belt pressing block 205 is installed with the lower installation surface of the belt pressing sheet 204, and the belt pressing sheet 204 presses the belt 212 on the installation surface of the belt pressing block 205. Under the rotation action of the rotating motor 207, the driving pulley 210 cooperates with the driven pulley 216 to drive the belt 212 to move, and the belt 212 drives the transverse moving block 206 to move linearly.
The specific structure of the engine positioning device 3 is shown in fig. 3 and 4, the engine positioning device 3 comprises a positioning device base plate 301, a positioning device guide rail 302, a positioning device sliding block 303, a positioning device cylinder bracket 304, a positioning device cylinder 305, a cylinder connector 306, a positioning block mounting plate 307, a positioning block base 308, a positioning block 309, a floating guide rail 310, a floating sliding block 311, a positioning pin 312, a positioning pin mounting plate 313 and a positioning device moving sliding plate 314, wherein the lower mounting surface of the positioning device base plate 301 is fixedly mounted on the upper mounting surface of the mounting frame body 1, the upper mounting surface of the positioning device base plate 301 is fixedly mounted with the lower mounting surface of the positioning device guide rail 302, the outer part of the positioning device guide rail 302 is matched with the inner part of the positioning device sliding block 303, the upper mounting surface of the positioning device sliding block 303 is mounted with the lower mounting surface of the positioning device moving sliding plate 314, the rear side mounting surface of the positioning device bottom plate 301 is mounted with the front side mounting surface of the positioning device cylinder bracket 304, the lower side edge of the positioning device cylinder bracket 304 is aligned with the lower side edge of the positioning device bottom plate 301, the rear side mounting surface of the positioning device cylinder bracket 304 is mounted with the front side mounting surface of the positioning device cylinder 305, the end part of the output shaft of the positioning device cylinder bracket 304 is connected with the cylinder connector 306, the front side mounting surface of the cylinder connector 306 is mounted with the rear side mounting surface of the positioning device movable sliding plate 314, the rear side edge of the stopper mounting plate 307 is aligned with the rear side edge of the positioning device movable sliding plate 314, the front side mounting surface of the stopper mounting plate 307 is mounted with the rear side mounting surface of the stopper 309, the upper side plane of the stopper 309 is aligned with the upper side plane of the stopper mounting plate 307, the front side mounting surface of the stopper 309 is mounted with the rear side mounting surface of the stopper base 308, the upper plane of the positioning device movable sliding plate 314 with the groove is mounted with the lower mounting surface of the floating guide rail 310, the outer side of the floating guide rail 310 is matched with the inner side of the floating slide block 311, the floating guide rail 310 is matched with the floating slide block 311 to realize the floating function in the front-back direction and compensate errors generated by casting of an engine cylinder body, the upper mounting surface of the floating slide block 311 is mounted with the lower mounting surface of a positioning pin mounting plate 313, the upper mounting surface of the positioning pin mounting plate 313 is mounted with the lower mounting surface of a positioning pin 312, and the two positioning pins 312 are distributed on the left side and the right side of the positioning pin mounting plate 313. The locating pin 312 locates the engine and the engine is transported to the fueling position by the pulling action of the locating device cylinder 305. The floating guide rail 310 and the floating slider 311 are mutually matched to realize the floating adjustment of the engine in the front and back directions.
The structure of the automatic oiling device 4 is shown in fig. 5, the automatic oiling device 4 comprises an oiling device mounting plate 401, an oiling cylinder mounting plate 402, an oiling cylinder 403, an oiling cylinder connector 404, an oiling device guide rail 405, an oiling device slider 406, an oiling device sliding plate 407, a connector mounting plate 408, an oil pipe support plate 409, an upper end oiling guide pipe 410, an oil filter 411, a middle connecting pipe 412, a flow control valve 413, a flow control valve knob 414, an oiling pipe support bracket 415 and an engine butt joint 416, wherein the upper mounting surface of the oiling device mounting plate 401 is mounted with the lower mounting surface 403 of the oiling cylinder mounting plate 402, the lower mounting surface of the oiling cylinder mounting plate 402 is mounted with the upper mounting surface of the oiling cylinder 403, the output shaft end of the oiling cylinder is mounted with the oiling cylinder connector 404, the lower mounting surface of the oiling cylinder connector 404 is mounted with the upper mounting surface of the connector mounting plate 408, the upper mounting surface of the connector mounting plate 408 is mounted with the lower mounting surface of the filler slide plate 407, and the front side plane of the filler slide plate 407 is aligned with the front side plane of the connector mounting plate 408, the front side mounting surface of the filler mounting plate 401 is mounted with the rear side mounting surface of the filler guide rail 405, the outer side of the filler guide rail 405 is mated with the inner side of the filler slide block 406, the front side mounting surface of the filler slide block 406 is mounted with the rear side mounting surface of the filler slide plate 407, the front side mounting surface of the filler slide plate 407 is mounted with the rear side mounting surface of the filler support plate 409, and the lower side edge of the filler support plate 409 is aligned with the lower side edge of the connector mounting plate 408, the front side mounting surface of the filler support plate 409 is mounted with the rear side mounting surface of the filler support bracket 415, and the filler support bracket 415 is adjacent to the lower portion of the filler support plate 409, the hole of oiling pipe support bracket 415 cooperatees with the lower part excircle of intermediate junction pipe 412, the lower terminal surface of intermediate junction pipe 412 links together with the up end of engine butt joint mouth 416, the upper portion excircle of intermediate junction pipe 412 cooperatees with the hole of flow control valve 413, the screw hole of the front side installation face of flow control valve 413 matches with the face of cylinder screw thread of flow control valve knob 414, flow control valve 413 adjusts the oiling flow through the adjustment of flow control valve knob 414, the up end of intermediate junction pipe 412 is connected with the lower terminal surface of oil filter 411, the upper portion round hole of oil filter 411 cooperatees with upper end oiling pipe 410 excircle. Under the pushing action of the refueling cylinder 403 and the guiding action of the refueling device guide rail 405 and the refueling device slider 406, the engine butt joint nozzle 416 is in butt joint with an engine refueling port, refueling is started after the butt joint is completed, and the refueling cylinder 403 pulls the engine butt joint nozzle 416 back to the original point after refueling is completed.
The specific structure of the intelligent photographing device 5 is shown in fig. 6, the intelligent photographing device 5 comprises an intelligent camera mounting plate 501, an intelligent camera 502, a camera lens mounting bracket 503, a camera lens 504 and a camera lens filter 505, wherein a front side mounting surface of the intelligent camera mounting plate 501 is mounted with a rear side mounting surface of the camera lens mounting bracket 503, the camera lens mounting bracket 503 is located in the middle of the intelligent camera mounting plate 501, an inner hole of the camera lens mounting bracket 503 is matched with an outer circle of a lower portion of the intelligent camera 502, a lower end surface of the intelligent camera 502 is connected with an upper end surface of the camera lens 504, and a lower end surface of the camera lens 504 is connected with an upper end surface of the camera lens filter 505. The intelligent camera 502 takes a picture of the oil receiving port of the engine, and the camera lens filter 505 filters out natural light to avoid the influence of external light on the picture taking effect.
The belt 212 is made of high-wear-resistant polymer polyethylene. The belt 212 binds the drive pulley 210 and the driven pulley 216 together with an angular velocity ratio of 1: 0.8. The hard material of the surface of the positioning pin 312 is selected from 2Cr13 for carburizing and quenching. The engine docking nozzle 416 is made of polyurethane, and the surface is smooth and burr-free. The thread pair structure between the camera lens 504 and the camera lens filter 505 adopts a fine thread pair structure.
An operator places the engine on the engine positioning device 3, positions the engine through the positioning pin 312, and under the pulling action of the positioning device cylinder 305, the engine is conveyed to the oiling position, and under the rotating action of the rotating electric machine 207, the driving pulley 210 is matched with the driven pulley 216 to drive the belt 212 to move, and the belt 212 drives the transverse moving block 206 to do linear motion. The transverse moving block 206 conveys the automatic oiling device 4 to the upper part of an engine oil filling port, under the pushing action of the oiling cylinder 403 and the guiding action of the oiling device guide rail 405 and the oiling device sliding block 406, the engine butt joint nozzle 416 is in butt joint with the engine oil filling port, oiling is started after the butt joint is completed, the oiling cylinder 403 pulls the engine butt joint nozzle 416 back to the original point after oiling is completed, the intelligent photographing device 5 photographs the engine oil filling port, devices with no problem photograph return to the original point, and an operator takes the engine off to start the next cycle.
The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any modification, equivalent replacement, or improvement made within the scope of the present invention shall fall within the protection scope of the present invention.
Claims (1)
1. The utility model provides a high flexibility engine assembly is automatic oiling device for ignition test, includes installation support body (1), its characterized in that: the intelligent photographing device is characterized in that an upper plate upper mounting surface of the mounting frame body (1) is mounted with a lower mounting surface of the transverse moving device (2), the front side edge of the lower mounting surface of the transverse moving device (2) is aligned with the front side edge of the upper plate upper mounting surface of the mounting frame body (1), the upper plate upper mounting surface of the mounting frame body (1) is mounted with a lower mounting surface of the engine positioning device (3), the rear side edge of the lower mounting surface of the engine positioning device (3) is aligned with the rear side edge of the upper plate upper mounting surface of the mounting frame body (1), the front side mounting surface of the transverse moving block (206) in the transverse moving device (2) is mounted with the rear side mounting surface of the oiling device mounting plate (401) in the automatic oiling device (4), the lower side edge of the transverse moving block (206) is aligned with the lower side edge of the oiling device mounting plate (401), and the left side mounting surface of the transverse moving block (206) in the transverse moving device (2) is mounted with the intelligent photographing device (401) 5) The right side mounting surfaces of the middle intelligent camera mounting plate (501) are mounted together, and the lower side edge of the transverse sliding block (206) is aligned with the lower side edge of the intelligent camera mounting plate (501);
the transverse moving device (2) comprises a transverse moving upright post (201), a transverse moving mounting plate (202), a right side mounting panel (203), a belt pressing sheet (204), a belt pressing block (205), a transverse moving block (206), a rotating motor (207), a motor mounting plate (208), a motor mounting bracket (209), a driving belt pulley (210), a driving belt pulley connecting shaft (211), a belt (212), a left side mounting panel (213), a driven wheel mounting base plate (214), a driven wheel mounting upright plate (215), a driven belt pulley (216), a driven belt pulley connecting shaft (217), a transverse moving guide rod (218) and a guide rod guide sleeve (219), wherein the lower mounting surface of the transverse moving upright post (201) is mounted together with the upper mounting surface of the mounting frame body (1), the upper mounting surface of the transverse moving upright post (201) is mounted together with the lower mounting surface of the transverse moving mounting plate (202), and four traverse posts (201) are distributed at four corners of the traverse mounting plate (202), an upper mounting surface of the traverse mounting plate (202) is mounted with a lower mounting surface of a right mounting panel (203), a right side edge of the right mounting panel (203) is aligned with a right side edge of the traverse mounting plate (202), an upper mounting surface of the traverse mounting plate (202) is mounted with a lower mounting surface of a left mounting panel (213), a left side edge of the left mounting panel (213) is aligned with a left side edge of the traverse mounting plate (202), an upper mounting surface of the right mounting panel (203) is mounted with a lower mounting surface of a motor mounting bracket (209), a right side edge of the motor mounting bracket (209) is aligned with a right side edge of the right mounting panel (203), a rear mounting surface of the motor mounting bracket (209) is mounted with a front mounting surface of a motor mounting plate (208), the upper side edge of the motor mounting plate (208) is aligned with the upper side edge of the motor mounting bracket (209), the rear side mounting surface of the motor mounting plate (208) is mounted with the front side mounting surface of the rotating motor (207), the output shaft of the rotating motor (207) is coaxially connected with the driving pulley connecting shaft (211), the excircle of the driving pulley connecting shaft (211) is matched with the inner hole of the driving pulley (210), the right side mounting surface of the left side mounting panel (213) is mounted with the left side mounting surface of the driven wheel mounting base plate (214), the upper side plane of the driven wheel mounting base plate (214) is aligned with the upper side plane of the left side mounting panel (213), the upper side mounting surface of the driven wheel mounting base plate (214) is mounted with the lower side mounting surface of the driven wheel mounting vertical plate (215), and the right side plane of the driven wheel mounting vertical plate (215) is aligned with the right side plane of the driven wheel mounting base plate (214), the circular hole of the driven wheel mounting vertical plate (215) is matched with the excircle of a driven pulley connecting shaft (217), the excircle of the driven pulley connecting shaft (217) is matched with a driven pulley (216), the driven pulley (216) and a driving pulley (210) are bound together through a belt (212), a transverse moving guide rod (218) is fixedly mounted between a left side mounting panel (213) and a right side mounting panel (203), the excircle of the transverse moving guide rod (218) is matched with the inner hole of a guide rod guide sleeve (219), the excircle of the guide rod guide sleeve (219) is matched with the inner hole of a transverse moving block (206), the front side mounting surface of the transverse moving block (206) is mounted together with the rear side mounting surface of a belt pressing block (205), the upper side plane of the belt pressing block (205) is aligned with the upper side plane of the transverse moving block (206), the upper mounting surface of the belt pressing block (205) is mounted together with the lower mounting surface of a belt pressing block (204), the belt pressing sheet (204) presses the belt (212) on the mounting surface of the belt pressing block (205);
the engine positioning device (3) comprises a positioning device bottom plate (301), a positioning device guide rail (302), a positioning device sliding block (303), a positioning device cylinder support (304), a positioning device cylinder (305), a cylinder connector (306), a limiting block mounting plate (307), a limiting block base (308), a limiting block (309), a floating guide rail (310), a floating sliding block (311), a positioning pin (312), a positioning pin mounting plate (313) and a positioning device moving sliding plate (314), wherein a lower mounting surface of the positioning device bottom plate (301) is fixedly mounted on a mounting surface of an upper plate of a mounting frame body (1), an upper mounting surface of the positioning device bottom plate (301) is fixedly mounted with a lower mounting surface of the positioning device guide rail (302), the outer part of the positioning device guide rail (302) is matched with the inner part of the positioning device sliding block (303), an upper mounting surface of the positioning device sliding block (303) and a lower mounting surface of the positioning device moving sliding plate (314) Together, the rear side mounting surface of the positioning device bottom plate (301) is mounted with the front side mounting surface of the positioning device cylinder bracket (304), the lower side edge of the positioning device cylinder bracket (304) is aligned with the lower side edge of the positioning device bottom plate (301), the rear side mounting surface of the positioning device cylinder bracket (304) is mounted with the front side mounting surface of the positioning device cylinder (305), the output shaft end of the positioning device cylinder bracket (304) is connected with the cylinder connecting head (306), the front side mounting surface of the cylinder connecting head (306) is mounted with the rear side mounting surface of the positioning device movable sliding plate (314), the rear side edge of the limit block mounting plate (307) is aligned with the rear side edge of the positioning device movable sliding plate (314), the front side mounting surface of the limit block mounting plate (307) is mounted with the rear side mounting surface of the limit block (309), the upper side plane of the limit block (309) is aligned with the upper side plane of the limit block mounting plate (307), the front side mounting surface of the limit block (309) is mounted with the rear side mounting surface of the limit block base (308), the upper plane of the positioning device movable sliding plate (314) processing groove is mounted with the lower mounting surface of the floating guide rail (310), the outer side of the floating guide rail (310) is matched with the inner side of the floating slide block (311), the upper side mounting surface of the floating slide block (311) is mounted with the lower side mounting surface of the positioning pin mounting plate (313), the upper side mounting surface of the positioning pin mounting plate (313) is mounted with the lower side mounting surface of the positioning pin (312), and the two positioning pins (312) are distributed on the left side and the right side of the positioning pin mounting plate (313);
the automatic oiling device (4) comprises an oiling device mounting plate (401), an oiling cylinder mounting plate (402), an oiling cylinder (403), an oiling cylinder connector (404), an oiling device guide rail (405), an oiling device slider (406), an oiling device sliding plate (407), a connector mounting plate (408), an oil pipe support plate (409), an upper end oiling guide pipe (410), an oil filter (411), a middle connecting pipe (412), a flow regulating valve (413), a flow regulating valve knob (414), an oiling pipe support bracket (415) and an engine butt joint nozzle (416), wherein the upper side mounting surface of the oiling device mounting plate (401) is mounted with the lower side mounting surface of the oiling cylinder mounting plate (402), the lower side mounting surface of the oiling cylinder mounting plate (402) is mounted with the upper side mounting surface of the oiling cylinder (403), the end part of an output shaft of the oiling cylinder (403) is mounted with the oiling cylinder connector (404), the lower mounting surface of the refueling cylinder connector (404) is mounted together with the upper mounting surface of the connector mounting plate (408), the upper mounting surface of the connector mounting plate (408) is mounted together with the lower mounting surface of the refueling device sliding plate (407), the front side plane of the refueling device sliding plate (407) is aligned with the front side plane of the connector mounting plate (408), the front side mounting surface of the refueling device mounting plate (401) is mounted together with the rear side mounting surface of the refueling device guide rail (405), the outer side of the refueling device guide rail (405) is matched with the inner side of the refueling device sliding block (406), the front side mounting surface of the refueling device sliding block (406) is mounted together with the rear side mounting surface of the refueling device sliding plate (407), and the front side mounting surface of the refueling device sliding plate (407) is mounted together with the rear side mounting surface of the oil pipe support plate (409), and the lower side edge of the oil pipe supporting plate (409) is aligned with the lower side edge of the connector mounting plate (408), the front side mounting surface of the oil pipe supporting plate (409) is mounted with the rear side mounting surface of the oil filling pipe supporting bracket (415), the oil filling pipe supporting bracket (415) is close to the lower part of the oil pipe supporting plate (409), the inner hole of the oil filling pipe supporting bracket (415) is matched with the outer circle of the lower part of the middle connecting pipe (412), the lower end surface of the middle connecting pipe (412) is connected with the upper end surface of the engine butt joint nozzle (416), the outer circle of the upper part of the middle connecting pipe (412) is matched with the inner hole of the flow regulating valve (413), the threaded hole of the front side mounting surface of the flow regulating valve (413) is matched with the cylindrical surface thread of the flow regulating valve knob (414), the upper end surface of the middle connecting pipe (412) is connected with the lower end surface of the oil filter (411), the upper part round hole of the oil filter (411) is matched with the excircle of the upper end oiling guide pipe (410);
the intelligent photographing device (5) comprises an intelligent camera mounting plate (501), an intelligent camera (502), a camera lens mounting bracket (503), a camera lens (504) and a camera lens filter (505), wherein the front side mounting surface of the intelligent camera mounting plate (501) is mounted with the rear side mounting surface of the camera lens mounting bracket (503), the camera lens mounting bracket (503) is located in the middle of the intelligent camera mounting plate (501), the inner hole of the camera lens mounting bracket (503) is matched with the outer circle of the lower part of the intelligent camera (502), the lower end surface of the intelligent camera (502) is connected with the upper end surface of the camera lens (504), and the lower end surface of the camera lens (504) is connected with the upper end surface of the camera lens filter (505);
the belt (212) is made of high-wear-resistant material high-molecular polyethylene;
the belt (212) binds the driving pulley (210) and the driven pulley (216) together with an angular velocity ratio of 1: 0.8;
2Cr13 is selected as a hard material on the surface of the positioning pin (312) for carburizing and quenching;
the engine butt joint nozzle (416) is made of polyurethane, and the surface is smooth and burr-free.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202111298802.1A CN113911997A (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for high-flexibility engine assembly ignition test |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN202111298802.1A CN113911997A (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for high-flexibility engine assembly ignition test |
CN202011300476.9A CN112503375B (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for engine assembly test |
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CN202011300476.9A Division CN112503375B (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for engine assembly test |
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CN113911997A true CN113911997A (en) | 2022-01-11 |
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CN202111298802.1A Pending CN113911997A (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for high-flexibility engine assembly ignition test |
CN202011300476.9A Expired - Fee Related CN112503375B (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for engine assembly test |
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CN202011300476.9A Expired - Fee Related CN112503375B (en) | 2020-11-18 | 2020-11-18 | Automatic oiling device for engine assembly test |
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CN112503375A (en) | 2021-03-16 |
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