CN109848471A - A kind of axis class ring-type locating slot automatic processing device - Google Patents
A kind of axis class ring-type locating slot automatic processing device Download PDFInfo
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- CN109848471A CN109848471A CN201910221461.4A CN201910221461A CN109848471A CN 109848471 A CN109848471 A CN 109848471A CN 201910221461 A CN201910221461 A CN 201910221461A CN 109848471 A CN109848471 A CN 109848471A
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Abstract
The present invention relates to technical fields of mechanical processing, more particularly to a kind of axis class ring-type locating slot automatic processing device, including workbench, feed device, feeding device, Work fixing device and processing unit (plant), the feed device includes transfer assembly and driving assembly, the Work fixing device includes rotary components and limit assembly, the feeding device includes support plate, loading assemblies and Power Component, the present invention is when needing the cyclic annular locating slot to axis class to be processed automatically, feeding is carried out to optical axis to be processed by feed device first, designated position is sent to fix, optical axis is clamped by loading assemblies again, it is transported at limit assembly and is put down by Power Component, optical axis is fixed by limit assembly and is placed on rotary components, rotary components clamp optical axis and are able to drive optical axis rotation, it is cyclic annular fixed that processing assembly can carry out optical axis The processing of position slot.
Description
Technical field
The present invention relates to technical fields of mechanical processing, and in particular to a kind of axis class ring-type locating slot automatic processing device.
Background technique
Axis is the cylindrical object being through among bearing or among wheel or among gear, but also having is partially square
's.Axis is support rotary part and is turned round therewith with the machine components of passing movement, torque or moment of flexure.Generally round metal
Rod-shaped, each section can have different diameters.The part for making rotary motion in machine is just mounted on axis.
In mechanical part processing, in especially some mold pressing process, it is often necessary to annular groove is processed, and it is annular
The processing quality of slot will affect the cooperation precision of subsequent completed knocked down products and the mass property of subsequent product.To process O-ring seal
O-ring seal rubber pattern for, Forming Quality directly affects the size, shape and surface roughness of O-ring seal.Cause
This, the O-ring seal rubber pattern processing method of reliable design is very necessary to O-ring seal quality is improved.In addition, O-shaped sealing
It is all made of cavity plate, punch-pin cooperation in circle production, and mostly uses 45 ° of die joint between cavity plate, punch-pin, therefore cavity plate annular groove
Difficulty of processing is difficult compared to punch-pin annular groove very much.
Existing annular groove processing method is still to be processed using common fine turning lathe, and the specific method is as follows:
Step 01: cutting tool being mounted on lathe saddle, the cutter hub of centering cutting tool makes its guide rail direction with lathe
In parallel, then according to die joint and the angle swivelling tool-holder of mold axis to set angle;
Step 02: with the bus of the point of a knife touching die joint of cutting tool, it is ensured that point of a knife is just contacted with the bus of die joint;
Step 03: according to the size of forming surface, calculating the mobile distance of middle carriage, and be moved to middle carriage according to moving distance
Setting position;
Step 04: mobile upper slide rest, it is ensured that the point of a knife of cutting tool is contacted with the bus of mold parting surface, and starting lathe drives mould
Tool rotates and starts to step up section radius of the depth of cut to the annular groove section radius processed for cutting tool;
Step 05: finishing polish forming surface to roughness is met the requirements, the generally artificial manual feeding of the linking in operating process, than
It is cumbersome, it is therefore desirable to the equipment that feeding processing can be performed fully automatic in one kind.
China's patent publication No.: CN105728750A;Publication date: 2016.07.06 discloses a kind of cutting tool, including
Blade, the blade have blade body, cutter head and the knife neck for connecting the blade body and the cutter head;The cutter head has
The rake face set gradually and main flank;The rake face and the main flank are crossed to form cutting edge;The rake face
Outer rim be at least semicircle;It is parallel to the outer rim that the plane of basal plane intersects with the main flank and is also at least semicircle;In addition, institute
State the axis of rake face and the axis collinear of the main flank;The width of the knife neck everywhere is respectively less than the outer of the rake face
Edge diameter.Annular groove processing method, while blank to be processed rotation, cutting tool is moved back and forth along the bus of die joint,
Therefore using a kind of annular groove of cutting tool processing sizes.In process, cutting tool cutting edge each point is equal
It is even participation cutting process, uniformly worn out, therefore it is severely deformed that cutting tool will not be made to occur, and annular groove cross section can be improved
Circularity and annular groove surface roughness.Meanwhile because cutting tool knife neck breadth degree is less than the external profile diameter of the rake face, cut
Knife neck will not be interfered with annular groove during cutting, and guarantee the processing quality of annular groove and die joint intersection, though the equipment
When can process various sizes of annular groove, but process high-volume part, since the uniform velocity such as artificial loading are slower, efficiency
It is lower.
Summary of the invention
In view of the deficiencies of the prior art, the present invention provides a kind of axis class ring-type locating slot automatic processing device.
A kind of axis class ring-type locating slot automatic processing device disclosed by the invention, including workbench, feed device, feeding dress
Set, Work fixing device and processing unit (plant), the feed device include transfer assembly and driving assembly, the transfer assembly is fixed
The top of workbench is set, and the driving component is arranged on transfer assembly to drive transfer assembly to transmit optical axis, the work
The fixed device of part includes rotary components and limit assembly, and the rotary components are spindle rotationally arranged on workbench, the limit
Component is fixed on the side wall of transfer assembly and is located at the middle top of rotary components to limit optical axis position, the feeding dress
It sets including support plate, loading assemblies and Power Component, the support plate is fixed at the top of workbench and is located at limit group
The side of part and transfer assembly, the loading assemblies are slidably disposed in support plate, and the Power Component is slidably set
It sets to drive Power Component feeding in sub- support plate, the processing unit (plant) includes processing assembly, the processing assembly fixed setting
Top in workbench and the side positioned at rotary components.
Further, the transfer assembly includes fixed station, loading plate and conveyer, and the fixed station is fixed at work
Make the top of platform, the lattice retaining ring of ellipse is fixedly installed at the top of the fixed station, the loading plate is fixed at work
Simultaneously cover above fixed station at the top of platform, the conveyer includes first rotating shaft, the second shaft and transmission chain, the first rotating shaft and
The top of loading plate is arranged in the rotatable grafting of second shaft, and the first rotating shaft and the second shaft bottom are equipped with transmission
Wheel, the transmission chain are respectively sleeved on two driving wheels, and the transmission chain outer circle wall is equipped with several for being clamped light
The clamping groove of axis.
Further, the transfer assembly further includes limited block, and the top that the limited block is fixed at lattice retaining ring is used
Limit axis movement, limited block is equipped with the arc groove for being clamped optical axis close to one end of optical axis, also set in the fixed station
There is the elliptical slot convenient for optical axis sliding.
Further, the limit assembly includes connecting plate and stop collar, and the connecting plate is fixed at lattice retaining ring
On side wall and it is located on the extended line of lattice retaining ring length direction, the stop collar is fixed at one of connecting plate far from lattice retaining ring
End, the interior jack being equipped with for optical axis grafting of stop collar, and the top of jack is equipped with rounded corner.
Further, the loading assemblies include slide unit and hold assembly, the slide unit include sliding axle and
Two groups of sliders, on the supporting plate, two groups of sliders are parallel and fixed to be set in for the slidable grafting setting of sliding axle
On sliding axle, every group of slider includes the first plate and the Second Board, and first plate is L shaped plate shape structure and fixation is arranged
On sliding axle, the Second Board is fixed on the first plate and surrounds a sliding eye, the folder with the first plate
Holding component includes plugboard and two clampers, and the plugboard is slidably set on two the first plates, two clampings
Device is arranged on two the first plates for clamping feeding optical axis.
Further, each clamper includes that the first cylinder, first connecting rod, second connecting rod and several thirds connect
Bar, first cylinder are fixed at the top of the first plate, and the output end of the first cylinder is fixedly connected with plugboard, described
First connecting rod one end is fixed on plugboard, and the other end is slidably disposed in sliding eye, several third connecting rods are flat
Row setting, each described third connecting rod one end are hingedly arranged on first connecting rod, and middle part is slidably arranged on the first plate, another
End is hinged to be arranged on second connecting rod, is equipped with first movement slot in the middle part of the third connecting rod, and first plate is equipped with and the
The locating shaft that one shifting chute is slidably matched.
Further, the Power Component includes pushing plate, the second cylinder and fixinig plate, and the pushing plate is slidably set
It sets on the supporting plate, second cylinder is fixed at the top of support rod, and output end and the fixinig plate of the second cylinder are fixed
Connection, the fixinig plate are fixed on the side wall of pushing plate, the level that the pushing plate is equipped with convenient for sliding axle sliding
Sliding slot is additionally provided with the U-shaped sliding slot convenient for sliding axle sliding in the support plate.
Further, the rotary components include four paws cylinder and first motor, and the first motor is fixed at work
Make the bottom of platform, on the table, how is the four paws cylinder fixed setting for the rotatable grafting setting of the output end of first motor
For clamping optical axis on the output end of first motor, four paws cylinder is located at the underface of stop collar.
Further, the processing assembly includes screw rod slide unit, sliding shoe and milling head, and the screw rod slide unit is fixed at
The top of workbench, the sliding shoe are slidably disposed on screw rod slide unit, and mounting blocks are equipped at the top of the sliding shoe, described
Milling head is fixed on mounting blocks for processing cyclic annular locating slot.
Further, the driving component includes the second motor, first gear, second gear and chain, second electricity
Machine is fixed on loading plate, and the first gear fixation is set on the output end of first motor, and the second gear is solid
Surely it is set in first rotating shaft, the chain is respectively sleeved in first gear and second gear.
The utility model has the advantages that a kind of axis class ring-type locating slot automatic processing device of the invention, when needing the ring-type to axis class fixed
When position slot is processed automatically, feeding is carried out to optical axis to be processed by feed device first, designated position is sent to and fixes, then lead to
It crosses loading assemblies and clamps optical axis, be transported at limit assembly and put down by Power Component, optical axis is fixed simultaneously by limit assembly
It is placed on rotary components, rotary components clamp optical axis and are able to drive optical axis rotation, and processing assembly can carry out optical axis
The processing of cyclic annular locating slot.
Detailed description of the invention
The drawings described herein are used to provide a further understanding of the present application, constitutes part of this application, this Shen
Illustrative embodiments and their description please are not constituted an undue limitation on the present application for explaining the application.In the accompanying drawings:
Fig. 1 is schematic perspective view one of the invention;
Fig. 2 is schematic perspective view two of the invention;
Fig. 3 is main view of the invention;
Fig. 4 is top view of the invention;
Fig. 5 is sectional perspective structural schematic diagram of the invention;
Fig. 6 is the enlarged diagram in Fig. 5 at A;
Fig. 7 is the schematic perspective view of feed device of the present invention;
Fig. 8 is the schematic perspective view of feeding device of the present invention;
Fig. 9 is the enlarged diagram in Fig. 8 at B;
Figure 10 is the schematic perspective view of processing unit (plant) of the present invention;
Description of symbols: workbench 1, feed device 2, transfer assembly 2a, driving assembly 2b, fixed station 2c, loading plate 2d are passed
Send device 2e, first rotating shaft 2f, the second shaft 2g, transmission chain 2h, lattice retaining ring 2i, clamping groove 2j, limited block 2k, elliptical slot 2m,
Second motor 2n, first gear 2p, second gear 2q, chain 2r, feeding device 3, support plate 3a, loading assemblies 3b, power packages
Part 3c, slide unit 3d, sliding axle 3e, slider 3f, the first plate 3g, the Second Board 3h, hold assembly 3i, the first cylinder
3j, first connecting rod 3k, second connecting rod 3m, third connecting rod 3n, pushing plate 3p, the second cylinder 3q, fixinig plate 3r, plugboard 3s, folder
Holder 3t, first movement slot 3u, horizontal concrete chute 3v, U-shaped sliding slot 3w, Work fixing device 4, rotary components 4a, limit assembly 4b,
Connecting plate 4c, stop collar 4d, four paws cylinder 4e, first motor 4f, processing unit (plant) 5, processing assembly 5a, screw rod slide unit 5b are slided
Block 5c, milling head 5d, mounting blocks 5e.
Specific embodiment
Multiple embodiments of the invention will be disclosed with schema below, as clearly stated, the details in many practices
It will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the present invention.Also
It is to say, in some embodiments of the invention, the details in these practices is non-essential.In addition, for the sake of simplifying schema,
Some known usual structures and component will be painted it in the drawings in simply illustrative mode.
In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, not especially censure
The meaning of order or cis-position, also non-to limit the present invention, the component described just for the sake of difference with same technique term
Or operation, it is not understood to indicate or imply its relative importance or implicitly indicates the number of indicated technical characteristic
Amount." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one of the features.In addition, each
Technical solution between a embodiment can be combined with each other, but must can be implemented as base with those of ordinary skill in the art
Plinth will be understood that the combination of this technical solution is not present when conflicting or cannot achieve when occurs in the combination of technical solution,
Also not the present invention claims protection scope within.
Referring to figs. 1 to a kind of axis class ring-type locating slot automatic processing device shown in Fig. 10, including workbench 1, feeding dress
2, feeding device 3, Work fixing device 4 and processing unit (plant) 5 are set, the feed device 2 includes transfer assembly 2a and driving assembly
2b, the transfer assembly 2a are fixed at the top of workbench 1, and the driving component 2b is arranged on transfer assembly 2a to drive
Dynamic transfer assembly 2a transmits optical axis, and the Work fixing device 4 includes rotary components 4a and limit assembly 4b, the rotary components
4a is spindle rotationally arranged on workbench 1, and the limit assembly 4b is fixed on the side wall of transfer assembly 2a and is located at rotation
Turn the middle top of component 4a to limit optical axis position, the feeding device 3 includes support plate 3a, loading assemblies 3b and Power Component
3c, the support plate 3a are fixed at the top of workbench 1 and are located at the side of limit assembly 4b and transfer assembly 2a, described
Loading assemblies 3b is slidably disposed on support plate 3a, and the Power Component 3c is slidably arranged on sub- support plate 3a to drive
Dynamic Power Component 3c feeding, the processing unit (plant) 5 include processing assembly 5a, and the processing assembly 5a is fixed at workbench 1
Top and pass through first positioned at the side of rotary components 4a when needing the cyclic annular locating slot to axis class to be processed automatically
Feed device 2 carries out feeding to optical axis to be processed, is sent to designated position and fixes, then clamps optical axis by loading assemblies 3b, leads to
It crosses Power Component 3c and is transported at limit assembly 4b and put down, optical axis is fixed by limit assembly 4b and is placed into rotary components 4a
On, rotary components 4a clamps optical axis and is able to drive optical axis rotation, and processing assembly 5a can carry out cyclic annular locating slot to optical axis
Processing.
The transfer assembly 2a includes fixed station 2c, loading plate 2d and conveyer 2e, and the fixed station 2c is fixed at
The top of workbench 1, the lattice retaining ring 2i of ellipse is fixedly installed at the top of the fixed station 2c, and the loading plate 2d fixation is set
It sets at 1 top of workbench and covers above fixed station 2c, the conveyer 2e includes first rotating shaft 2f, the second shaft 2g and transmission
The top of loading plate 2d, the first rotating shaft is arranged in chain 2h, the first rotating shaft 2f and the second rotatable grafting of shaft 2g
2f and the second bottom shaft 2g are equipped with driving wheel, and the transmission chain 2h is respectively sleeved on two driving wheels, the transmission chain
2h outer circle wall is equipped with several clamping groove 2j for being used to be clamped optical axis, and the lattice retaining ring 2i on fixed station 2c and fixed station 2c is used
Place optical axis, loading plate 2d can support first rotating shaft 2f and the second shaft 2g to rotate, when first rotating shaft 2f rotation will drive
Transmission chain 2h and the second shaft 2g rotation, because transmission chain 2h outer circle wall is equipped with several clamping grooves 2j, therefore can be successively
It is clamped optical axis, and specifies region to convey optical axis direction, lattice retaining ring 2i can cooperate transmission chain 2h to be firmly clamped optical axis.
The transfer assembly 2a further includes limited block 2k, and the top that the limited block 2k is fixed at lattice retaining ring 2i is used to
Axis movement is limited, limited block 2k is equipped with the arc groove for being clamped optical axis close to one end of optical axis, goes back in the fixed station 2c
Equipped with the elliptical slot 2m convenient for optical axis sliding, the setting of limited block 2k is used to limit the optical axis sent, optical axis contact arc
The stopping of shape slot travels forward, and the elliptical slot 2m in fixed station 2c is slided in fixed station 2c convenient for optical axis, further protects
Card optical axis will not skid off.
The limit assembly 4b includes that connecting plate 4c and stop collar 4d, the connecting plate 4c are fixed at lattice retaining ring 2i's
On side wall and it is located on the extended line of lattice retaining ring 2i length direction, the stop collar 4d is fixed at connecting plate 4c and keeps off far from lattice
One end of 2i is enclosed, the jack for optical axis grafting is equipped in stop collar 4d, and the top of jack is equipped with rounded corner, connecting plate 4c and lattice
Retaining ring 2i is located on the same line, and stop collar 4d setting is also located on same direction with lattice retaining ring 2i on connecting plate 4c,
Therefore optical axis can expect in stop collar 4d that the jack inside stop collar 4d is equipped with rounding again on lattice retaining ring 2i length direction
Angle easily facilitates optical axis grafting.
The loading assemblies 3b include slide unit 3d and hold assembly 3i, the slide unit 3d include sliding axle 3e and
Two groups of slider 3f, the slidable grafting of sliding axle 3e are arranged on support plate 3a, and two groups of slider 3f are parallel and fixed
Be set on sliding axle 3e, every group of slider 3f includes the first plate 3g and the Second Board 3h, the first plate 3g are L shape
Plate structure and fixation be set on sliding axle 3e, the Second Board 3h be fixed on the first plate 3g and with the first plate
Block 3g surrounds a sliding eye, and the hold assembly 3i includes plugboard 3s and two clamper 3t, and the plugboard 3s can be slided
Dynamic is set on two the first plate 3g, and two clamper 3t are arranged on two the first plate 3g for clamping feeding light
Axis, sliding axle 3e can be slided on support plate 3a and are able to drive slide unit 3d and be slided together, the first plate 3g and
Two plate 3h be it is horizontally disposed, the Second Board 3h is fixed on the first plate 3g and reserves a sliding eye, two clampers
3t, which is separately positioned on, to be used to clamp optical axis on the first plate 3g and the Second Board 3h.
Each clamper 3t includes the first cylinder 3j, first connecting rod 3k, second connecting rod 3m and several third connecting rods
3n, the first cylinder 3j are fixed at the top of the first plate 3g, and output end and the plugboard 3s of the first cylinder 3j is fixed
Connection, the one end the first connecting rod 3k are fixed on plugboard 3s, and the other end is slidably disposed in sliding eye, several
A third connecting rod 3n is arranged in parallel, and each one end the third connecting rod 3n is hingedly arranged on first connecting rod 3k, and middle part sliding is set
It sets on the first plate 3g, the other end is hingedly arranged on second connecting rod 3m, and first movement is equipped in the middle part of the third connecting rod 3n
Slot 3u, the first plate 3g are equipped with the locating shaft being slidably matched with first movement slot 3u, open the first cylinder 3j, the first gas
Cylinder 3j output end can push plugboard 3s to move and then drive first connecting rod 3k movement, and first connecting rod 3k can be in sliding eye
Sliding, and third connecting rod 3n is driven to move, it slides and rotates on the first plate 3g in the middle part of third connecting rod 3n, drive second connecting rod
3m movement, second connecting rod 3m is mobile into the first plate 3g and then optical axis is clamped.
The Power Component 3c includes pushing plate 3p, the second cylinder 3q and fixinig plate 3r, the pushing plate 3p slidable
Be arranged on support plate 3a, the second cylinder 3q is fixed at the top of support plate 3a, the output end of the second cylinder 3q with
Fixinig plate 3r is fixedly connected, and the fixinig plate 3r is fixed on the side wall of pushing plate 3p, and the pushing plate 3p is equipped with just
In being additionally provided with the U-shaped sliding slot 3w convenient for sliding axle 3e sliding on the horizontal concrete chute 3v, the support plate 3a of sliding axle 3e sliding, push away
Movable plate 3p can be slided on support plate 3a, opened the second cylinder 3q, the second cylinder 3q output end motion and be able to drive fixinig plate
3r moves up and down and then pushing plate 3p is driven to move up and down, and pushing plate 3p drives sliding axle 3e to move along U-shaped sliding slot 3w, by light
Axle clamp is held and is transported on stop collar 4d.
The rotary components 4a includes that four paws cylinder 4e and first motor 4f, the first motor 4f are fixed at work
The bottom of platform 1, the rotatable grafting of the output end of first motor 4f are arranged on workbench 1, and the four paws cylinder 4e fixation is set
It sets and how to be used to clamp optical axis on the output end of first motor 4f, four paws cylinder 4e is located at the underface of stop collar 4d, opens first
Motor 4f, the rotation of first motor 4f output end are able to drive four paws cylinder 4e rotation, and four paws cylinder 4e can clamp optical axis
Bottom simultaneously drives optical axis to rotate together with.
The processing assembly 5a includes screw rod slide unit 5b, sliding shoe 5c and milling head 5d, the screw rod slide unit 5b fixed setting
At the top of workbench 1, the sliding shoe 5c is slidably disposed on screw rod slide unit 5b, and peace is equipped at the top of the sliding shoe 5c
Block 5e is filled, the milling head 5d is fixed on mounting blocks 5e for processing cyclic annular locating slot, and sliding shoe 5c can be sliding in screw rod
It is slided on platform 5b, milling head 5d is fixedly installed on mounting blocks 5e and can be with sliding shoe 5c moving contact optical axis, because of optical axis
Milling head 5d can be contacted when rotation, therefore milling head 5d outputs a cyclic annular locating slot on optical axis.
The driving component 2b includes the second motor 2n, first gear 2p, second gear 2q and chain 2r, second electricity
Machine 2n is fixed on loading plate 2d, and first gear 2p fixation is set on the output end of first motor 4f, and described the
Two gear 2q fixation is set on first rotating shaft 2f, and the chain 2r is respectively sleeved on first gear 2p and second gear 2q,
Open the second motor 2n, the rotation of the second motor 2n output end is able to drive first gear 2p and is rotated, first gear 2p again into
One step drives chain 2r and second gear 2q to be rotated, final that first rotating shaft 2f is driven to be rotated, and carries out feeding.
Working principle: it when needing the cyclic annular locating slot to axis class to be processed automatically, is treated first by feed device 2
It processes optical axis and carries out feeding, open the second motor 2n, the rotation of the second motor 2n output end is able to drive first gear 2p and is turned
Dynamic, first gear 2p further drives chain 2r and second gear 2q to be rotated, final that first rotating shaft 2f is driven to be turned
Dynamic, the lattice retaining ring 2i on fixed station 2c and fixed station 2c is used to place optical axis, and loading plate 2d can support first rotating shaft 2f and the
Two shaft 2g rotation, when first rotating shaft 2f rotation will drive transmission chain 2h and the second shaft 2g rotation, because of transmission chain 2h excircle
Wall is equipped with several clamping grooves 2j, therefore can successively be clamped optical axis, and specify region to convey optical axis direction, lattice retaining ring 2i
Transmission chain 2h can be cooperated firmly to be clamped optical axis, the setting of limited block 2k is used to limit the optical axis sent, and optical axis connects
Touching arc groove stopping travels forward, and the elliptical slot 2m in fixed station 2c is slided in fixed station 2c convenient for optical axis, into one
Step guarantees that optical axis will not skid off, and connecting plate 4c and lattice retaining ring 2i are located on the same line, and stop collar 4d is arranged in connecting plate 4c
On be also located on same direction with lattice retaining ring 2i, therefore optical axis can expect stop collar 4d on lattice retaining ring 2i length direction
Interior, the jack inside stop collar 4d is equipped with rounded corner again, easily facilitates optical axis grafting, and sliding axle 3e can be carried out on support plate 3a
It slides and is able to drive slide unit 3d and slide together, the first plate 3g and the Second Board 3h are horizontally disposed, the Second Board
3h is fixed on the first plate 3g and reserves a sliding eye, and two clamper 3t are separately positioned on the first plate 3g and the second plate
It is used to clamp optical axis on block 3h, opens the first cylinder 3j, the first cylinder 3j output end can pushes plugboard 3s movement and then band
Dynamic first connecting rod 3k movement, first connecting rod 3k can be slided in sliding eye, and third connecting rod 3n is driven to move, third connecting rod 3n
Middle part is slided and is rotated on the first plate 3g, and second connecting rod 3m movement is driven, and second connecting rod 3m is moved into the first plate 3g
And then optical axis is clamped, it opens the second cylinder 3q, the second cylinder 3q output end motion and is able to drive fixinig plate 3r or more
It moves and then pushing plate 3p is driven to move up and down, pushing plate 3p drives sliding axle 3e to move along U-shaped sliding slot 3w, and optical axis is clamped
And be transported on stop collar 4d, four paws cylinder 4e is located at the underface of stop collar 4d, opens first motor 4f, and first motor 4f is defeated
Outlet rotation is able to drive four paws cylinder 4e rotation, and four paws cylinder 4e can clamp the bottom of optical axis and optical axis is driven to revolve together
Turn, sliding shoe 5c can be slided on screw rod slide unit 5b, and milling head 5d is fixedly installed on mounting blocks 5e and can be with sliding
Block 5c moving contact optical axis can contact milling head 5d when because of optical axis rotation, therefore milling head 5d outputs a ring-type on optical axis and determines
Position slot, recycles and automatically processes to the cyclic annular locating slot on optical axis.
The upper only embodiments of the present invention, are not intended to restrict the invention.For those skilled in the art
For, the invention may be variously modified and varied.All any modifications made in spirit and principles of the present invention are equal
Replacement, improvement etc., should all be included within scope of the presently claimed invention.
Claims (10)
1. a kind of axis class ring-type locating slot automatic processing device, it is characterised in that: including workbench (1), feed device (2), on
Expect device (3), Work fixing device (4) and processing unit (plant) (5), the feed device (2) includes transfer assembly (2a) and driving
Component (2b), the transfer assembly (2a) are fixed at the top of workbench (1), and the driving component (2b) setting is transmitting
To drive transfer assembly (2a) to transmit optical axis on component (2a), the Work fixing device (4) includes rotary components (4a) and limit
Hyte part (4b), the rotary components (4a) are spindle rotationally arranged on workbench (1), limit assembly (4b) fixed setting
Middle top on the side wall of transfer assembly (2a) and positioned at rotary components (4a) is to limit optical axis position, the feeding device
It (3) include support plate (3a), loading assemblies (3b) and Power Component (3c), the support plate (3a) is fixed at workbench
(1) top and the side positioned at limit assembly (4b) and transfer assembly (2a), the loading assemblies (3b) are slidably arranged
On support plate (3a), the Power Component (3c) is slidably arranged on sub- support plate (3a) to drive on Power Component (3c)
Material, the processing unit (plant) (5) includes processing assembly (5a), and the processing assembly (5a) is fixed at the top of workbench (1)
And it is located at the side of rotary components (4a).
2. a kind of axis class ring-type locating slot automatic processing device according to claim 1, it is characterised in that: the transmission group
Part (2a) includes fixed station (2c), loading plate (2d) and conveyer (2e), and the fixed station (2c) is fixed at workbench (1)
Top, the lattice retaining ring (2i) of ellipse is fixedly installed at the top of the fixed station (2c), loading plate (2d) fixation is set
It sets at the top of workbench (1) and covers above fixed station (2c), the conveyer (2e) includes first rotating shaft (2f), the second shaft
The rotatable grafting of (2g) and transmission chain (2h), the first rotating shaft (2f) and the second shaft (2g) is arranged in loading plate (2d)
Top, the first rotating shaft (2f) and the bottom the second shaft (2g) are equipped with driving wheel, and the transmission chain (2h) is respectively sleeved at
On two driving wheels, transmission chain (2h) outer circle wall is equipped with several clamping grooves (2j) for being used to be clamped optical axis.
3. a kind of axis class ring-type locating slot automatic processing device according to claim 2, it is characterised in that: the transmission group
Part (2a) further includes limited block (2k), and the top that the limited block (2k) is fixed at lattice retaining ring (2i) is used to limit optical axis fortune
Dynamic, limited block (2k) is equipped with the arc groove for being clamped optical axis close to one end of optical axis, is additionally provided with just in the fixed station (2c)
In the elliptical slot (2m) of optical axis sliding.
4. a kind of axis class ring-type locating slot automatic processing device according to claim 3, it is characterised in that: the limit group
Part (4b) includes connecting plate (4c) and stop collar (4d), and the connecting plate (4c) is fixed on the side wall of lattice retaining ring (2i) simultaneously
On the extended line of lattice retaining ring (2i) length direction, the stop collar (4d) is fixed at connecting plate (4c) far from lattice retaining ring
The one end of (2i), the interior jack being equipped with for optical axis grafting of stop collar (4d), and the top of jack is equipped with rounded corner.
5. a kind of axis class ring-type locating slot automatic processing device according to claim 4, it is characterised in that: the feeding group
Part (3b) includes slide unit (3d) and hold assembly (3i), and the slide unit (3d) includes sliding axle (3e) and two groups of slidings
Device (3f), the slidable grafting of the sliding axle (3e) are arranged on support plate (3a), and two groups of sliders (3f) are parallel and fixed
Be set on sliding axle (3e), every group of slider (3f) includes the first plate (3g) and the Second Board (3h), first plate
Block (3g) is L shaped plate shape structure and fixation is set on sliding axle (3e), and the Second Board (3h) is fixed at the first plate
A sliding eye is surrounded on block (3g) and with the first plate (3g), the hold assembly (3i) includes plugboard (3s) and two folders
Holder (3t), the plugboard (3s) are slidably set on two the first plates (3g), and two clamper (3t) settings exist
For clamping feeding optical axis on two the first plates (3g).
6. a kind of axis class ring-type locating slot automatic processing device according to claim 5, it is characterised in that: each folder
Holder (3t) includes the first cylinder (3j), first connecting rod (3k), second connecting rod (3m) and several third connecting rods (3n), and described the
One cylinder (3j) is fixed at the top of the first plate (3g), and the output end and plugboard (3s) of the first cylinder (3j) are fixed to be connected
It connecing, described first connecting rod (3k) one end is fixed on plugboard (3s), and the other end is slidably disposed in sliding eye, if
A dry third connecting rod (3n) is arranged in parallel, and each described third connecting rod (3n) one end is hingedly arranged on first connecting rod (3k), in
Portion is slidably arranged on the first plate (3g), and the other end is hingedly arranged on second connecting rod (3m), in the third connecting rod (3n)
Portion is equipped with first movement slot (3u), and first plate (3g) is equipped with the locating shaft being slidably matched with first movement slot (3u).
7. a kind of axis class ring-type locating slot automatic processing device according to claim 6, it is characterised in that: the power packages
Part (3c) includes pushing plate (3p), the second cylinder (3q) and fixinig plate (3r), and the pushing plate (3p) is slidably disposed in branch
On fagging (3a), second cylinder (3q) is fixed at the top of support plate (3a), the output end of the second cylinder (3q) with
Fixinig plate (3r) is fixedly connected, and the fixinig plate (3r) is fixed on the side wall of pushing plate (3p), the pushing plate (3p)
It is equipped with the horizontal concrete chute (3v) convenient for sliding axle (3e) sliding, is additionally provided on the support plate (3a) sliding convenient for sliding axle (3e)
Dynamic U-shaped sliding slot (3w).
8. a kind of axis class ring-type locating slot automatic processing device according to claim 7, it is characterised in that: the rotation group
Part (4a) includes four paws cylinder (4e) and first motor (4f), and the first motor (4f) is fixed at the bottom of workbench (1)
Portion, the rotatable grafting of the output end of first motor (4f) are arranged on workbench (1), four paws cylinder (4e) fixed setting
How to be used to clamp optical axis on the output end of first motor (4f), four paws cylinder (4e) is located at the underface of stop collar (4d).
9. a kind of axis class ring-type locating slot automatic processing device according to claim 8, it is characterised in that: the processing group
Part (5a) includes screw rod slide unit (5b), sliding shoe (5c) and milling head (5d), and the screw rod slide unit (5b) is fixed at workbench
(1) top, the sliding shoe (5c) are slidably disposed on screw rod slide unit (5b), and peace is equipped at the top of the sliding shoe (5c)
It fills block (5e), the milling head (5d) is fixed on mounting blocks (5e) for processing cyclic annular locating slot.
10. a kind of axis class ring-type locating slot automatic processing device according to claim 2, it is characterised in that: the driving
Component (2b) includes the second motor (2n), first gear (2p), second gear (2q) and chain (2r), second motor (2n)
It is fixed on loading plate (2d), first gear (2p) fixation is set on the output end of first motor (4f), described
Second gear (2q) fixation is set on first rotating shaft (2f), and the chain (2r) is respectively sleeved at first gear (2p) and second
On gear (2q).
Priority Applications (1)
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CN201910221461.4A CN109848471A (en) | 2019-03-22 | 2019-03-22 | A kind of axis class ring-type locating slot automatic processing device |
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CN201910221461.4A CN109848471A (en) | 2019-03-22 | 2019-03-22 | A kind of axis class ring-type locating slot automatic processing device |
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CN201910221461.4A Withdrawn CN109848471A (en) | 2019-03-22 | 2019-03-22 | A kind of axis class ring-type locating slot automatic processing device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110977583A (en) * | 2019-12-11 | 2020-04-10 | 丽水市翔隆自动化设备制造有限公司 | Automatic processing device for shaft annular positioning groove |
-
2019
- 2019-03-22 CN CN201910221461.4A patent/CN109848471A/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110977583A (en) * | 2019-12-11 | 2020-04-10 | 丽水市翔隆自动化设备制造有限公司 | Automatic processing device for shaft annular positioning groove |
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Application publication date: 20190607 |