CN113579723A - Oil mist separator assembling machine - Google Patents

Abstract

The utility model relates to an oil mist separator kludge, it includes the organism, install locking Assembly, cylinder feeding system and gasket feeding system on the organism, locking Assembly is used for fixing the basal block on the organism, install the cylinder vibration dish of installing mutually with cylinder feeding system on the organism, install the gasket vibration dish of installing mutually with gasket feeding system on the organism, cylinder feeding system is used for installing the cylinder spring embedding of vibration dish feeding system output on the basal block, gasket feeding system is used for installing the gasket embedding of vibration dish feeding system output on cylinder spring. This application has the troublesome characteristics that can reduce artifical equipment when the equipment oil mist separator to improve oil mist separator's packaging efficiency's effect.

Description

Oil mist separator assembling machine

Technical Field

The application relates to oil mist separation equipment technical field especially relates to an oil mist separator kludge.

Background

An oil mist separator, also called an oil mist recovery machine and an oil mist collector, is a device which is installed on various machining devices such as a cleaning machine, a die casting machine and the like and is used for filtering impurities in gasoline or absorbing oil mist in a cavity so as to purify air.

The oil mist separator includes a plurality of spare parts, when producing the oil mist separator, need assemble each part through the manual work, wherein, an important structure includes the base block, the embedding is established at the cylinder spring of base block and the gasket of cover on the cylinder spring, the workman imbeds the cylinder spring earlier in the base block, then get the gasket and overlap and establish on the cylinder spring, the gasket inboard is provided with the internal tooth, can make the gasket card in the cylinder spring outside, set up the recess that supplies the gasket embedding on the base block, can restrict the outside of gasket, then stretch out the length of base block according to measuring the cylinder spring, and adjust, in order to accomplish the equipment of this important structure as required.

In view of the above-mentioned related art, the inventor considers that the manual assembly is troublesome and inefficient, and further improvement is needed.

Disclosure of Invention

In order to reduce the trouble of artifical equipment, improve oil mist separator's packaging efficiency, this application provides an oil mist separator kludge.

The application provides an oil mist separator kludge adopts following technical scheme:

the oil mist separator assembling machine comprises a machine body, wherein a locking assembly, a cylindrical feeding system and a gasket feeding system are installed on the machine body, the locking assembly is used for fixing a base block on the machine body, a cylindrical vibration disc installed with the cylindrical feeding system is installed on the machine body, a gasket vibration disc installed with the gasket feeding system is installed on the machine body, the cylindrical feeding system is used for installing a cylindrical spring at the output end of the vibration disc feeding system in an embedded mode on the base block, and the gasket feeding system is used for installing a gasket at the output end of the vibration disc feeding system in an embedded mode on the cylindrical spring.

Through adopting above-mentioned technical scheme, through installation locking Assembly, cylinder feeding system and gasket feeding system, adopt locking Assembly to fix the base block on the organism earlier, through gasket vibration dish and cylinder vibration dish, can separate the gasket and the orderly range of piling and come out, rethread cylinder feeding system and gasket feeding system, install cylinder spring and gasket respectively on the base block, thereby can realize the automation with cylinder spring, gasket and base block assemble, thereby reduce the trouble of manual assembly, improve the efficiency of equipment, alleviate workman's intensity of labour.

Optionally, the locking subassembly is including installing the workstation on the organism, install the stopper on the workstation, the spacing hole that supplies the base block embedding is seted up at the stopper middle part, the stopper both sides slide and are provided with spacing the clamp, spacing clamp one end penetrates spacing hole and terminal surface and base block surface and laminates mutually, install the centre gripping drive assembly who is used for driving spacing clamp centre gripping base block on the workstation, install on the organism and support the pressure driving piece, so support the output of pressing the driving piece and install and be used for supporting the base block and press the support piece on the workstation.

Through adopting above-mentioned technical scheme, installation workstation, stopper, spacing clamp, support the piece, centre gripping drive assembly and support and press the driving piece, with the base block embedding in the spacing hole of stopper, the spacing clamp of rethread and support the piece and carry out multi-direction injecing to the base block to the installation that makes the base block is firm more and accurate, thereby can be convenient for the embedding installation of gasket and cylinder spring.

Optionally, the clamping driving assembly comprises pneumatic sliding blocks symmetrically slidably mounted on the workbench, and the pneumatic sliding blocks are movably connected with the limiting clamps on the corresponding sides in an embedded manner.

Through adopting above-mentioned technical scheme, the pneumatic slider of installation can drive the spacing clamp and carry out the operation that centre gripping or relax to the base block to be convenient for restrict the base block.

Optionally, two the relative one side of pneumatic slider installs spacing, the both ends of spacing slide respectively and set up on the pneumatic slider of both sides, rotate between the both ends of spacing and the pneumatic slider that corresponds and be connected, the middle part of spacing rotates and installs at the workstation middle part.

Through adopting above-mentioned technical scheme, the installation spacing can make two pneumatic slider's velocity of motion size the same to enable the base block that is by two pneumatic slider centre grippings to fix on the workstation between two parties, with the accurate nature of improvement base block by the clamping position, simultaneously, can also improve the stationarity of pneumatic slider motion.

Optionally, install the jack-up driving piece on the organism, T type piece is installed to the jack-up driving piece output, T type piece is used for jack-up base block one side to install spacing post, spacing post passes the base block and is used for the direction with cylindrical spring embedding base block.

Through adopting above-mentioned technical scheme, the installation jack-up driving piece, T type piece and spacing post, the T type piece can restrict the base block, the position of base block also can be restricted to spacing post, can also restrict cylindrical spring's position, thereby be convenient for to the fixed of base block and cylindrical spring's installation, and simultaneously, start the jack-up driving piece and support and press the driving piece, can jack-up the base block, so that imbed cylindrical spring in base block and the gasket embedding cylindrical spring, thereby improve assembly efficiency and precision, can also be through starting the jack-up driving piece assembled base block jack-up, so that the workman gets and puts.

Optionally, the cylinder feeding system sets up two grip blocks that are used for centre gripping cylinder spring on the organism including the activity, two the centre gripping groove has all been seted up to the relative one side of grip block, two the round hole that the centre gripping groove formed and cylinder spring looks adaptation, the grip block passes through pneumatic finger drive, install on the organism and be used for driving the grip block at the removal driving piece of round trip movement between the position of cylinder vibration dish output position and the fixed base block of organism, the switching-over driving piece is installed to the removal driving piece output, the grip block is installed on the output of switching-over driving piece.

Through adopting above-mentioned technical scheme, installation grip block, removal driving piece and switching-over driving piece can take out and remove the position of the fixed base block of organism with cylindrical spring from the output position of cylinder vibration dish, and rethread switching-over driving piece overlaps the vertical cover of cylindrical spring on the base block, realizes the equipment of cylindrical spring and base block.

Optionally, the fixed block is installed to the output of cylinder vibration dish, set up the V type groove that is linked together with cylinder vibration dish on the fixed block, the extending direction and V type groove looks vertically operation groove have been seted up at the fixed block middle part.

Through adopting above-mentioned technical scheme, the installation fixed block, set up V type groove and operation groove, cylindrical spring when shaking out from cylinder vibration dish falls into V type groove, gets into the operation groove through the grip block in, grasps cylindrical spring's middle part to take out single cylindrical spring.

Optionally, the gasket feeding system is including the activity setting pneumatic chuck that is used for absorbing the gasket on the organism, pneumatic chuck installs on the output of removal driving piece, the distance of cylinder vibration dish output and organism basic block mounted position is the same with the distance of gasket vibration dish and organism basic block mounted position.

Through adopting above-mentioned technical scheme, install pneumatic chuck, and install pneumatic chuck on the output of removal driving piece to can get the gasket when removing the driving piece and get and put cylindrical spring, thereby improve the availability factor of removing the driving piece, improve the efficiency of equipment.

Optionally, a sliding plate is slidably mounted on the output end of the gasket vibration disc, a pick-and-place opening for embedding a single gasket is formed in the sliding plate, the pick-and-place opening corresponds to the output end of the gasket vibration disc, a pushing cylinder for driving the sliding plate to slide in the direction perpendicular to the output direction of the gasket vibration disc is mounted on the machine body, and a lifting cylinder for abutting against the gasket to enable the gasket to be bonded on the pneumatic sucker is mounted on the machine body.

Through adopting above-mentioned technical scheme, installation sliding plate, promotion jar and lift up the jar can separate out the gasket that gasket vibration dish output was exported in order singly to the sucking disc of being convenient for absorbs single gasket.

Optionally, the middle part of the pneumatic sucker is provided with a yielding groove for embedding the cylindrical spring.

Through adopting above-mentioned technical scheme, set up the groove of stepping down, can make the sucking disc can directly support the gasket and press on the base block, with the inboard of gasket and cylindrical spring's outside calliper to directly obtain the assembly body of assembling, improve the packaging efficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through installation locking Assembly, cylinder feeding system and gasket feeding system, can lock the base block on the organism, pass through cylinder feeding system and gasket feeding system equipment with cylindrical spring and gasket again on the base block, take out the base block again to accomplish the equipment of base block, cylindrical spring and gasket, reduce the trouble of artifical equipment, improve packaging efficiency and quality.

Drawings

Fig. 1 is an assembly structure diagram of a base block, a spacer, and a cylindrical spring.

Fig. 2 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 3 is an exploded view of the locking assembly in the embodiment of the present application.

Fig. 4 is an enlarged schematic view of a portion a in fig. 2.

Fig. 5 is a schematic structural diagram of a movable driving member in the embodiment of the present application.

Fig. 6 is a schematic structural diagram of a gasket feeding system in an embodiment of the present application.

Fig. 7 is a partial schematic view of the overall structure in an embodiment of the present application.

Description of reference numerals:

1. a body; 10. a cylindrical vibrating disk; 11. a gasket vibrating disk; 12. a base block; 13. a gasket; 14. a cylindrical spring; 200. a locking assembly; 2. a work table; 20. a limiting block; 201. a limiting hole; 21. a limiting clamp; 22. pressing the driving member; 23. a pressing block; 3. a pneumatic slider; 31. a limiting strip; 32. jacking up the driving piece; 33. a T-shaped block; 34. a limiting column; 400. a cylindrical feeding system; 4. a clamping block; 40. moving the driving member; 41. a reversing drive member; 5. a fixed block; 50. a V-shaped groove; 51. an operation slot; 600. a gasket feeding system; 6. a pneumatic suction cup; 60. a yielding groove; 7. a sliding plate; 70. a taking and placing port; 71. a pushing cylinder; 72. the cylinder is raised.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses oil mist separator kludge.

Referring to fig. 1, an important structure of the oil mist separator includes a base block 12, a gasket 13 and a cylindrical spring 14, a central through hole is formed in the middle of the base block 12, the cylindrical spring 14 needs to be embedded in the base block 12, then the gasket 13 is embedded in the base block 12, teeth are formed on the inner side of the gasket 13, so that the gasket 13 can be clamped on the outer side of the cylindrical spring 14, but the process of manual assembly is troublesome, and a worker easily damages the hand of the worker by touching and pressing the workpiece for a long time, so that further improvement is needed.

Referring to fig. 2, the oil mist separator assembling machine includes a machine body 1, a cylindrical vibration disk 10 and a gasket vibration disk 11 are installed on the top of the machine body 1, the cylindrical vibration disk 10 can arrange the piled cylindrical springs 14 in an orderly row and convey the piled cylindrical springs from an output rail, and the gasket vibration disk 11 can arrange the piled gaskets 13 in an orderly row and convey the piled gaskets from the output rail.

Still install locking Assembly 200 at organism 1 top, cylinder feeding system 400 and gasket feeding system 600, locking Assembly 200 installs the middle part position at organism 1, cylinder feeding system 400 and gasket feeding system 600 install at organism 1 both sides and with cylinder vibration dish 10 and gasket vibration dish 11 corresponding connection, locking Assembly 200 can fix base block 12 on organism 1, the rethread cylinder feeding system 400 imbeds single cylindrical spring 14 of cylinder vibration dish 10 output on base block 12, rethread gasket feeding system 600 overlaps the gasket 13 in the cylindrical spring 14, and imbed on base block 12, thereby accomplish the equipment of base block 12, cylindrical spring 14 and gasket 13, reduce the trouble of manual assembly, improve the packaging efficiency.

Referring to fig. 2 and 3, locking Assembly 200 is including installing workstation 2 on organism 1, mid position at workstation 2 top installs stopper 20, spacing hole 201 has been seted up at stopper 20's middle part, leave certain clearance between the inside wall of spacing hole 201 and the lateral wall of base block 12, so that the work piece inserts base block 12 in spacing hole 201, make stopper 20 restrict base block 12, equal horizontal slip in both sides of stopper 20 is provided with spacing clamp 21, install centre gripping drive assembly on workstation 2, the relative one end of spacing clamp 21 penetrates in spacing hole 201, and laminate with the lateral wall looks adaptation of base block 12, and the middle part of the relative one end of two spacing clamps 21 is seted up jaggedly.

The clamping driving assembly can drive the limiting clamps 21 on the two sides to slide on the two sides of the limiting block 20, so that the base block 12 can be stably fixed in the limiting block 20, and meanwhile, the base block 12 can be centered in position, and the mounting accuracy of the base block 12 is improved.

The centre gripping drive assembly includes that horizontal slip sets up two pneumatic slider 3 on 2 both sides of workstation, and pneumatic slider 3 is connected with pneumatic equipment, and the vertical spacing clamp 21 that corresponds the side that inserts of 3 one end of two pneumatic slider on, when the pneumatic slider 3 of both sides is close to each other, can drive the spacing clamp 21 of both sides and be close to each other and press from both sides the base block 12 that is arranged in stopper 20 tightly to firm base block 12.

In order to improve the sliding stability of pneumatic slider 3 and make base block 12 higher by the position after the centre gripping to neutrality, install spacing 31 between two pneumatic slider 3, the both ends of spacing 31 are all rotated and are installed T type sliding block, the one end and the spacing 31 of T type sliding block rotate to be connected, the vertical slip setting of the other end is on the pneumatic slider 3 that corresponds the side, the middle part of spacing 31 is rotated and is installed on workstation 2, thereby can make two pneumatic slider 3's motion be related, under spacing 31's linkage, the centre gripping motion that makes two spacing clamp 21 is more symmetrical, thereby make the mounted position of base block 12 more accurate.

Locking subassembly 200 is still including pressing driving piece 22, press driving piece 22 to install on organism 1, install on the output that presses driving piece 22 and press 23, press 23 keep away from the both sides that press driving piece 22 one end and all be provided with and press the layering, press the strip to be close to stopper 20 one side subsides and be equipped with the foam-rubber cushion, press driving piece 22 and can drive and press 23 lift, thereby make pressing the strip of pressing of both sides support and press the both sides at base block 12, so that base block 12 can be more firm install on stopper 20.

In order to facilitate taking out of the base block 12 and installation of the base block 12, the cylindrical spring 14 and the gasket 13, a jacking driving part 32 is installed on the machine body 1, the jacking driving part 32 is located under the workbench 2, a T-shaped block 33 is installed at the top of the jacking driving part 32, the T-shaped block 33 is matched with a bottom cavity of the base block 12, a limiting column 34 is installed at the top of the T-shaped block 33, the limiting column 34 is matched with an inner side cavity of the cylindrical spring 14, when the base block 12 is embedded into the limiting block 20, the T-shaped block 33 is just embedded into the bottom of the base block 12, and the limiting column 34 penetrates out of a central through hole of the base block 12.

When installing cylindrical spring 14 and gasket 13, can utilize jack-up driving piece 32 to jack up base block 12 to the installation of base block 12 with cylindrical spring 14 and gasket 13, simultaneously, spacing post 34 can be convenient for insert cylindrical spring 14 in the central through-hole of base block 12, thereby improves the efficiency and the quality of equipment, and in addition, jack-up driving piece 32 also can jack up base block 12, so that the workman takes out base block 12.

Referring to fig. 2 and 4, a fixing block 5 is mounted at the output end of the cylindrical vibration disk 10, a V-shaped groove 50 is formed in the fixing block 5, the V-shaped groove 50 is transversely V-shaped, the included angle between the two side faces is 120 degrees, and the V-shaped groove 50 is communicated with the output end of the cylindrical vibration disk 10, so that the cylindrical springs 14 which are orderly arranged and output can fall in the V-shaped groove 50, an operation groove 51 is formed in the middle of the fixing block 5, and the extending direction of the operation groove 51 is perpendicular to the extending direction of the V-shaped groove 50, so that the cylindrical springs 14 which fall in the V-shaped groove 50 can be taken out conveniently.

In addition, in order to reduce the possibility that one end of the cylindrical spring 14 falls into the operation groove 51, the angle between the direction of the V-shaped groove 50 and the horizontal direction is set to be 1 to 3 ° larger than the angle between the extending direction of the output end of the cylindrical vibration disk 10 and the horizontal direction.

Referring to fig. 4 and 5, the cylinder feeding system 400 includes a movable driving member 40 installed on the machine body 1, the movable driving member 40 includes a pneumatic sliding block slidably installed on the machine body 1, the pneumatic sliding block is connected with a pneumatic device and can move between the installation positions of the fixed block 5 and the base block 12, an air cylinder with a vertically downward output end is installed at the bottom of the pneumatic sliding block, a reversing driving member 41 is installed at the output end of the air cylinder, two clamping blocks 4 are symmetrically and slidably arranged at the output end of the reversing driving member 41, and clamping grooves are symmetrically formed in two opposite sides of each clamping block 4.

Referring to fig. 4 and 5, when the movable driving member 40 moves the two clamping blocks 4 to the operation slot 51, the pneumatic finger can drive the two clamping blocks 4 to be combined, so that the two clamping slots form round holes matched with the cylindrical springs 14, thereby clamping the single cylindrical spring 14 dropped on the fixed block 5, and after the cylindrical spring 14 is transported to the upper part of the base block 12, the reversing driving member 41 rotates the cylindrical spring 14, so that the cylindrical spring 14 is in a vertical state, so that the cylindrical spring 14 can be inserted into the central through hole of the base block 12, and the assembly of the cylindrical spring 14 is completed.

Referring to fig. 4, the gasket feeding system 600 includes a pneumatic chuck 6 for sucking the gasket 13, the pneumatic chuck 6 is connected to a pneumatic device, a yielding groove 60 is formed in the middle of the working end of the pneumatic chuck 6, for embedding the cylindrical spring 14, the pneumatic suction cup 6 is arranged at the output end of the air cylinder in the movable driving piece 40, the distance between the pneumatic suction cup 6 and the clamping position of the clamping block 4 is the same as the distance between the fixing block 5 and the mounting position of the base block 12, the output end position of the cylindrical vibration disk 10, the mounting position of the base block 12 and the output end position of the gasket vibration disk 11 are positioned on the same vertical plane, so that the clamping block 4 clamps the cylindrical spring 14, the gasket 13 sucked by the pneumatic suction cup 6 is inserted on the base block 12, and the inner side is clamped with the cylindrical spring 14 which is installed in advance, so that the efficiency of moving the driving part 40 can be improved, and the assembly efficiency is improved.

Referring to fig. 6, a mounting plate is fixed on the output end of the gasket vibration disk 11, a sliding plate 7 is slidably mounted on the mounting plate, the sliding direction of the sliding plate 7 is perpendicular to the direction of the output end of the gasket vibration disk 11, the sliding plate 7 slides through a pushing cylinder 71 mounted on the machine body 1, a taking and placing opening 70 is formed in the edge of the sliding plate 7, the taking and placing opening 70 can only accommodate a single gasket 13, and the taking and placing opening 70 corresponds to the output end of the gasket vibration disk 11.

When the gasket vibrating disk 11 works, a single gasket 13 falls on the position of the taking and placing opening 70, and the sliding plate 7 is pushed by the pushing cylinder 71, so that the gasket 13 is far away from the gaskets 13 arranged side by side at the output end of the gasket vibrating disk 11, and the condition that the pneumatic suction cup 6 sucks a plurality of gaskets 13 can be reduced.

In order to facilitate the pneumatic suction cup 6 to suck the gasket 13, the machine body 1 is provided with a lifting cylinder 72, the output end of the lifting cylinder 72 is vertically upward, an operation hole is formed in the mounting plate, when the pushing cylinder 71 pushes the sliding plate 7 until the pick-and-place opening 70 corresponds to the operation hole, the lifting cylinder 72 is started, and the gasket 13 at the position of the pick-and-place opening 70 can be jacked up, so that the pneumatic suction cup 6 can stably suck the gasket 13.

The implementation principle of this application embodiment oil mist separator kludge does: referring to fig. 7, the cylindrical vibration disk 10 and the gasket vibration disk 11 are opened, a worker puts the base block 12 into the limiting hole 201 in the limiting block 20, then the limiting clamps 21 on both sides clamp the base block 12, the pressing block 23 presses the base block 12 firmly against the limiting hole 201, the clamping block 4 clamps the cylindrical spring 14 and moves to above the base block 12, the cylindrical spring 14 is embedded in the central through hole of the base block 12, at the same time, the pneumatic suction cup 6 sucks the single gasket 13, then the single gasket 13 moves to the top of the base block 12 and is assembled on the base block 12, at the same time, the clamping block 4 also takes out the cylindrical spring 14 for the next mounting of the base block 12, then the limiting clamps 21 and the pressing blocks 23 on both sides are loosened, the worker takes out the base block 12 with the gasket 13 and the cylindrical spring 14 assembled, and repeats the above operations to perform the assembly of the next base block 12.

In this embodiment, the jacking actuator 32, the pressing actuator 22, the pushing cylinder 71 and the lifting cylinder 72 are selected from air cylinders, and the reversing actuator 41 is preferably a servo motor.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An oil mist separator kludge, includes organism (1), its characterized in that: install locking Assembly (200), cylinder feeding system (400) and gasket feeding system (600) on organism (1), locking Assembly (200) are used for fixing base block (12) on organism (1), install cylinder vibration dish (10) of installing mutually with cylinder feeding system (400) on organism (1), install gasket vibration dish (11) of installing mutually with gasket feeding system (600) on organism (1), cylinder feeding system (400) are used for installing cylinder spring (14) the embedding of vibration dish feeding system output on base block (12), gasket feeding system (600) are used for installing gasket (13) the embedding of vibration dish feeding system output on cylinder spring (14).

2. The oil mist separator assembling machine according to claim 1, wherein: locking Assembly (200) is including installing workstation (2) on organism (1), install stopper (20) on workstation (2), stopper (20) middle part is seted up and is supplied spacing hole (201) of base block (12) embedding, stopper (20) both sides slide and be provided with spacing clamp (21), spacing clamp (21) one end penetrates spacing hole (201) and terminal surface and base block (12) surface and laminates mutually, install the centre gripping drive assembly who is used for driving spacing clamp (21) centre gripping base block (12) on workstation (2), install on organism (1) and support and press driving piece (22), so support the output of pressing driving piece (22) and install and be used for supporting base block (12) briquetting (23) on workstation (2).

3. The oil mist separator assembling machine according to claim 2, wherein: the clamping driving assembly comprises pneumatic sliding blocks (3) symmetrically and slidably mounted on the workbench (2), and the pneumatic sliding blocks (3) are movably embedded and connected with limiting clamps (21) on corresponding sides.

4. An oil mist separator assembling machine according to claim 3, wherein: two spacing (31) are installed to the relative one side of pneumatic slider (3), the both ends of spacing (31) slide respectively and set up on pneumatic slider (3) of both sides, rotate between the both ends of spacing (31) and the pneumatic slider (3) that correspond and be connected, the middle part of spacing (31) is rotated and is installed at workstation (2) middle part.

5. The oil mist separator assembling machine according to claim 2, wherein: install jack-up driving piece (32) on organism (1), T type piece (33) are installed to jack-up driving piece (32) output, T type piece (33) are used for jack-up base block (12) one side to install spacing post (34), spacing post (34) pass base block (12) and are used for the direction with cylindrical spring (14) embedding base block (12).

6. The oil mist separator assembling machine according to claim 1, wherein: cylinder feeding system (400) sets up two grip blocks (4) that are used for centre gripping cylinder spring (14) on organism (1) including the activity, two the centre gripping groove has all been seted up to the relative one side in grip block (4), two round hole and cylinder spring (14) looks adaptation that the centre gripping groove formed, two grip block (4) are through pneumatic finger drive, install on organism (1) and be used for driving grip block (4) round trip movement's removal driving piece (40) between the position of cylinder vibration dish (10) output position and organism (1) fixed base block (12), switching-over driving piece (41) is installed to removal driving piece (40) output, grip block (4) are installed on the output of switching-over driving piece (41).

7. The oil mist separator assembling machine according to claim 1, wherein: fixed block (5) are installed to the output of cylinder vibration dish (10), set up V type groove (50) that are linked together with cylinder vibration dish (10) on fixed block (5), extending direction and V type groove (50) looks vertically operation groove (51) have been seted up at fixed block (5) middle part.

8. The oil mist separator assembling machine according to claim 7, wherein: the gasket feeding system comprises a pneumatic sucker (6) movably arranged on the machine body (1) and used for sucking the gasket (13), the pneumatic sucker (6) is installed at the output end of the movable driving piece (40), and the distance between the output end of the cylindrical vibration disc (10) and the installation position of the machine body (1) base block (12) is the same as that between the gasket vibration disc (11) and the installation position of the machine body (1) base block (12).

9. The oil mist separator assembling machine according to claim 8, wherein: sliding plate (7) are installed on the output end of gasket vibration dish (11) in a sliding mode, offer on sliding plate (7) and supply the mouth (70) of putting of getting of single gasket (13) embedding, it is corresponding with the output of gasket vibration dish (11) to get to put mouth (70), install on organism (1) and be used for driving sliding plate (7) along the gliding promotion jar (71) of the vertical direction of gasket vibration dish (11) output direction, install on organism (1) and be used for supporting and press gasket (13) and make the bonding of gasket (13) lift jar (72) on pneumatic chuck (6).

10. The oil mist separator assembling machine according to claim 8, wherein: the middle part of the pneumatic sucker (6) is provided with a yielding groove (60) for embedding the cylindrical spring (14).

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