CN208960669U - Automatic lastics reshaping device - Google Patents
Automatic lastics reshaping device Download PDFInfo
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- CN208960669U CN208960669U CN201821752990.4U CN201821752990U CN208960669U CN 208960669 U CN208960669 U CN 208960669U CN 201821752990 U CN201821752990 U CN 201821752990U CN 208960669 U CN208960669 U CN 208960669U
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Abstract
The utility model discloses a kind of automatic lastics reshaping devices, including workbench, lower mold assemblies, upper die component and support component, lower mold assemblies and support component are separately mounted on workbench, upper die component is movably installed in support component, lower mold assemblies include lastics device and the fixing seat with mounting hole, lastics device is mounted in mounting hole, and the top surface of lastics device is formed with working position, and lastics device includes the ejecting unit for being able to enter working position or removing working position;When upper die component is bonded with top surface, enter working position to shaping workpiece, when upper die component is separated with top surface, ejecting unit to be detached from working position to shaping workpiece.Based on above structure, the automatic lastics in workpiece reforming process can be realized, to improve the efficiency of processing, thereby reduce the cost of manufacture.
Description
Technical field
The utility model relates to technical field of mechanical processing more particularly to a kind of automatic lastics reshaping devices.
Background technique
Metal product in process, since by extraneous factor, (such as temperature, personnel, machine, material, environment add
Work method etc.) influence, metal product can generate different degrees of deformation, and the metal product of deformation not only influences metal product
Overall appearance also increases the difficulty of later period assembling.
To solve the above-mentioned problems, the metal product completed the process needs to carry out shaping operation, the shaping behaviour of metal product
Work is realized by reshaping device, and metal product is placed on the type chamber on reshaping device, the pressure of reshaping device is passed through
Device metal product is entered type is intracavitary, to realize to the shaping operation of metal product.
But existing reshaping device is in use, by metal product indentation type chamber, metal product exists pressure apparatus
Type chamber is full of under the action of pressure, after pressure apparatus separation, it is intracavitary that metal product is easy to be connected to type, and cause feeding difficult,
So that production efficiency reduces, manufacturing cost increases.
Utility model content
Purpose of the utility model is to solve at least one above-mentioned problem, which is by following technology
What scheme was realized.
The utility model provides a kind of automatic lastics reshaping device, including workbench, lower mold assemblies, upper die component and branch
Support component, the lower mold assemblies and the support component are separately mounted on the workbench, and the upper die component is with removable
Mode be mounted in the support component, the lower mold assemblies include lastics device and the fixing seat with mounting hole, described
Lastics device is installed in the mounting hole, and the top surface of the lastics device is formed with working position, and the lastics device includes energy
Enough enter in the working position or remove the ejecting unit of the working position;
When the upper die component is bonded with the top surface, to shaping workpiece enter the working position, the upper die component with
When the top surface separates, the ejecting unit moves so that described to the shaping workpiece disengaging working position.
Preferably, the lastics device includes mounting base, and through-hole, the length side of the through-hole are offered in the mounting base
To consistent with the short transverse of the mounting base, the ejecting unit is movably installed in the through-hole, described
Through-hole forms the working position towards the port of the upper die component and the end face of the ejecting unit towards the upper die component.
Preferably, the ejecting unit includes fixing component, movable link and elastic component, and the movable link is tubular
Structure offers long hole, the mobile side of the length direction of the long hole and the movable link on the side wall of the movable link
To consistent, the movable link is sleeved on the outside of the fixing component, and the fixing component passes through fixed pin and the installation
Seat is fixed, and the fixed pin passes through the long hole, and the elastic component is arranged in the mounting groove of the workbench, described
One end of elastic component is connect with the movable link far from the facing drive of the working position, the other end of the elastic component
It leans with the slot bottom of the mounting groove.
Preferably, the ejecting unit further includes guide member and driving member, the driving member and the movable structure
The one end of part far from the working position vertically connects, and the length of the driving member is greater than the diameter of the through-hole, the guiding
One end of component leans with the elastic component, and the other end of the guide member leans with the driving member.
Preferably, boss, the elastic component are formed in the end face of the guide member and elastic component cooperation
For spring, when the spring and the guide member cooperate, one end of the spring is sleeved on the outside of the boss, and institute
The one end for stating spring is resisted against on the shoulder outside the boss.
Preferably, the quantity of the guide member and the spring is two, and two springs pass through respectively described in two
Guide member and the driving member cooperate.
Preferably, the lower mold assemblies further include guide rod, and the guide rod and the workbench are affixed, and described are led
The fixing seat is passed through to bar, the length of the guide rod is greater than the height of the fixing seat, the guiding on the upper die component
Hole is sleeved on the outside of the guide rod.
Preferably, the upper die component packet pressure block, the pressure block are driven by cylinder, the cylinder body of the cylinder and institute
State that support component is affixed, the cylinder rod of the cylinder is removably connect with the pressure block, and the pilot hole is provided with
On the pressure block, the side of the pressure block towards the working position is formed with working end compatible with the working position,
When the upper die component is bonded with the top surface, working end pressing it is described to shaping workpiece make it is described to shaping workpiece into
Enter the working position.
Preferably, the support component includes support plate and column, and the support plate is set with the fixing seat parallel interval
It sets, the support plate is connect by the column with the fixing seat.
Preferably, the quantity of the column is multiple, each column interval setting.
Automatic lastics reshaping device provided by the utility model, including workbench, lower mold assemblies, upper die component and support
Component, lower mold assemblies and support component are separately mounted on workbench, and upper die component is movably installed support group
On part, lower mold assemblies include lastics device and the fixing seat with mounting hole, and lastics device is mounted in mounting hole, lastics device
Top surface be formed with working position, lastics device includes the ejecting unit for being able to enter in working position or removing working position;Upper mold group
When part is bonded with top surface, enter working position to shaping workpiece, when upper die component is separated with top surface, ejecting unit move so as to
Shaping workpiece is detached from working position.Specifically, lower mold assemblies and support component are separately mounted on workbench, upper die component and support
Component connection, upper die component are arranged towards lower mold assemblies, and upper die component can be moved to the direction close to or far from lower mold assemblies,
In, the fixing seat in lower mold assemblies is removably connect with workbench, the length direction of mounting hole and the height of fixing seat
It is consistent to spend direction, threaded hole is offered in fixing seat, the threaded hole and mounting hole penetrate through, and the length direction and peace of threaded hole
The length direction for filling hole is vertical, and when lastics device and fixing seat are installed, lastics device is arranged in mounting hole, so that lastics fills
The working position set is located inside working position towards upper die component, ejecting unit, the moving direction of ejecting unit and upper die component
The direction of motion is identical, and lock-screw and threaded hole cooperate, and after lastics device is installed in place, lock-screw is screwed, lock-screw
Free end be resisted against the outer surface of lastics device, to realize the connection of lastics device and fixing seat.
It when carrying out workpiece shaping, will be placed on working position to shaping workpiece, at this point, the working end (place of ejecting unit
In one end in working position), higher than the working face (cavity surface for meeting shaping requirement) that working position is formed, start reshaping device,
Upper die component is mutually moved close to the direction of lower mold assemblies, when upper die component and lower mold assemblies top surface (towards the face of upper die component,
That is face locating for working position) fitting when, upper die component compressing to shaping workpiece enters working position, so that working position is filled, with reality
The shaping of existing workpiece, ejecting unit is moved by external force to the direction far from upper die component at this time, when upper die component completes workpiece
After shaping, upper die component mutually far from lower mold assemblies direction move (i.e. upper die component is separated with lower mold assemblies), ejecting unit into
Row resets, and pushes workpiece, so that workpiece is separated with working position, to complete automatic lastics movement.
Based on above structure, the automatic lastics in workpiece reforming process can be realized, so that the efficiency of processing is improved, into
And reduce the cost of manufacture.
Detailed description of the invention
By reading the following detailed description of the preferred embodiment, various other advantages and benefits are common for this field
Technical staff will become clear.The drawings are only for the purpose of illustrating a preferred embodiment, and is not considered as practical to this
Novel limitation.And throughout the drawings, the same reference numbers will be used to refer to the same parts.In the accompanying drawings:
Fig. 1 is the structural exploded view of automatic lastics reshaping device provided by the utility model;
Fig. 2 is the bottom view of automatic lastics reshaping device schematic diagram provided by the utility model;
Fig. 3 is the cross-sectional view that line A-A intercepts along Fig. 2;
Fig. 4 is the structural exploded view of lastics device in Fig. 1;
Fig. 5 is the structural schematic diagram of guide member shown in Fig. 4;
Fig. 6 is the structural schematic diagram of fixing seat in Fig. 1.
Appended drawing reference
1 is workbench, and 11 be mounting groove;
2 be lower mold assemblies, and 21 be lastics device, and 211 be mounting base, and 2111 be through-hole, and 2112 be via hole, and 2113 be boss
Structure, 212 be ejecting unit, and 2121 be fixing component, and 21211 be fixed pin, and 2122 be movable link, and 21221 be long hole,
2123 be driving member, and 2124 be guide member, and 21241 boss, 2125 be elastic component, and 22 be fixing seat, and 221 be installation
Hole, 222 be lock-screw;
3 be support component, and 31 be support plate, and 32 be column;
4 be upper die component, and 41 be pressure block;
5 be cylinder.
Specific embodiment
The illustrative embodiments of the disclosure are more fully described below with reference to accompanying drawings.Although showing this public affairs in attached drawing
The illustrative embodiments opened, it being understood, however, that may be realized in various forms the disclosure without the reality that should be illustrated here
The mode of applying is limited.It is to be able to thoroughly understand the disclosure on the contrary, providing these embodiments, and can be by this public affairs
The range opened is fully disclosed to those skilled in the art.
Fig. 1 to Fig. 6 is please referred to, Fig. 1 is the structural exploded view of automatic lastics reshaping device provided by the utility model;Figure
2 be the bottom view of automatic lastics reshaping device schematic diagram provided by the utility model;Fig. 3 be along Fig. 2 line A-A intercept cut open
View;Fig. 4 is the structural exploded view of lastics device in Fig. 1;Fig. 5 is the structural schematic diagram of guide member shown in Fig. 4;Fig. 6 is
The structural schematic diagram of fixing seat in Fig. 1.
In a specific embodiment, the utility model provides a kind of automatic lastics reshaping device, including workbench
1, lower mold assemblies 2, upper die component 4 and support component 3, lower mold assemblies 2 and support component 3 are separately mounted on workbench 1, upper mold
Component 4 is movably installed in support component 3, and lower mold assemblies 2 are including lastics device 21 and with mounting hole 221
Fixing seat 22, lastics device 21 are mounted in mounting hole 221, and the top surface of lastics device 21 is formed with working position, lastics device 21
Ejecting unit 212 including being able to enter in working position or removing working position;When upper die component 4 is bonded with top surface, to shaping work
Part enters working position, and when upper die component 4 is separated with top surface, ejecting unit 212, which is moved so that, is detached from working position to shaping workpiece.
Specifically, lower mold assemblies 2 and support component 3 are separately mounted on workbench 1, and upper die component 4 is connect with support component 3, upper mold
Component 4 is arranged towards lower mold assemblies 2, and upper die component 4 can be moved to the direction close to or far from lower mold assemblies 2, wherein lower die group
Fixing seat 22 in part 2 is removably connect with workbench 1, the length direction of mounting hole 221 and the height of fixing seat 22
It is consistent to spend direction, offers threaded hole in fixing seat 22, the threaded hole and mounting hole 221 penetrate through, and the length side of threaded hole
To vertical with the length direction of mounting hole 221, when lastics device 21 and fixing seat 22 are installed, the setting of lastics device 21 is being installed
In hole 221, so that the working position of lastics device 21, towards upper die component 4, ejecting unit 212 is located inside working position, ejection is single
The moving direction of member 212 is identical as the direction of motion of upper die component 4, and lock-screw 222 and threaded hole cooperate, when lastics device 21
After being installed in place, lock-screw 222 is screwed, and the free end of lock-screw 222 is resisted against the outer surface of lastics device 21, thus real
The connection of existing lastics device 21 and fixing seat 22.
It when carrying out workpiece shaping, will be placed on working position to shaping workpiece, at this point, the working end of ejecting unit 212
(one end in working position) starts trimmer higher than the working face (cavity surface for meeting shaping requirement) that working position is formed
Structure, 4 phase of upper die component are moved close to the direction of lower mold assemblies 2, when the top surface of upper die component 4 and lower mold assemblies 2 is (towards upper mold group
The face of part 4, i.e. face locating for working position) fitting when, the compressing of upper die component 4 to shaping workpiece enters working position, to fill work
Make position, to realize the shaping of workpiece, ejecting unit 212 is moved by external force to the direction far from upper die component 4 at this time, works as upper mold
After component 4 completes workpiece shaping, direction movement (i.e. upper die component 4 and lower mold assemblies 2 of 4 phase of upper die component far from lower mold assemblies 2
Separation), ejecting unit 212 is resetted, and workpiece is pushed, so that workpiece is separated with working position, to complete automatic lastics movement.
Based on above structure, the automatic lastics in workpiece reforming process can be realized, so that the efficiency of processing is improved, into
And reduce the cost of manufacture.
It should be pointed out that above-mentioned threaded hole quantity be it is multiple, lock-screw is arranged in a one-to-one correspondence by each threaded hole
222, to effectively improve the fixing intensity of lastics device 21, to improve the stability of entire mechanism, reduce mechanism dimension
The cost repaired.Meanwhile the quantity of above-mentioned working position can be one, or it is multiple, it can by the way that multiple working positions are arranged
The effect for realizing the multiple workpiece of single treatment, further improves the efficiency of workpiece shaping, reduces the cost of manufacture.
Further, lastics device 21 includes mounting base 211, offers through-hole 2111 in mounting base 211, through-hole 2111
Length direction is consistent with the short transverse of mounting base 211, and ejecting unit 212 is movably installed in through-hole 2111,
Through-hole 2111 forms working position towards the port of upper die component 4 and ejecting unit 212 towards the end face of upper die component 4.Specifically,
Ejecting unit 212 is located at a part of through-hole 2111 towards the end face of upper die component 4 for working position, that is to say, that when progress work
When part shaping, the compressing of upper die component 4 enters working position to shaping workpiece, at this point, ejecting unit 212 moves down, 212 court of ejecting unit
Working position (i.e. type chamber) is collectively formed in the aperture of end face and through-hole 2111 towards upper die component 4 to upper die component 4, when upper mold group
After part 4 is separated with lastics device 21, ejecting unit 212 is moved up, so that the workpiece after shaping be ejected.By by ejecting unit
212 are set as a part that work is, on the one hand can be realized quick lastics, improve the efficiency of processing, on the other hand can protect
The effect for demonstrate,proving lastics effectively avoids the occurrence of the phenomenon that lastics fails, to guarantee the orderly progress of processing.
It is to be appreciated that above-mentioned mounting base 211 is mounted in mounting hole 221, the free end of lock-screw 222 against
On the outer surface of mounting base 211.
It should be pointed out that above-mentioned ejecting unit 212 is located at the center of installation position, enabled to by this kind of structure
Workpiece has enough ejecting forces during lastics, guarantees going on smoothly for lastics, meanwhile, it is capable to avoid workpiece in lastics mistake
Catching phenomenon caused by being biased in journey due to workpiece, further increases the effect of lastics.In addition, through-hole 2111 is towards upper die component
4 aperture is provided with boss structure 2113, can be improved the service life of working position with this configuration, avoids upper die component 4 right
The direct impact of mounting base 211, to reduce the cost of plant maintenance.
Further, ejecting unit 212 includes fixing component 2121, movable link 2122 and elastic component 2125, movably
Component 2122 is tubular structure, offers long hole 21221 on the side wall of movable link 2122, the length direction of long hole 21221 with
The moving direction of movable link 2122 is consistent, and movable link 2122 is sleeved on the outside of fixing component 2121, fixing component 2121
It is fixed by fixed pin 21211 and mounting base 211, and fixed pin 21211 passes through long hole 21221, and elastic component 2125 is arranged
In the mounting groove 11 of workbench 1, one end of elastic component 2125 and movable link 2122 connect far from the facing drive of working position
It connects, the slot bottom of the other end and mounting groove 11 of elastic component 2125 leans.Specifically, via hole is offered in mounting base 211
2112, via hole 2112 and through-hole 2111 are vertically through movable link 2122 is rod piece, and is tubular structure, fixing component 2121
For rod piece, pin hole is offered in fixation, the length direction of pin hole is vertical with the length direction of fixing component 2121, when installation,
Movable link 2122 is sleeved on to the outside of fixing component 2121, movable link 2122 and fixing component 2121 are arranged in through-hole
In 2111, fixed pin 21211 sequentially passes through via hole 2112, long hole 21221 and pin hole, to realize fixing component 2121 and installation
Seat 211 it is affixed, at this point, movable link 2122 can fix the sliding of component 2121 relatively, the length of long hole 21221 is movable link
2122 stroke.Mounting groove 11 is provided with workbench 1 towards on the side of upper die component 4, and the peace with elastic component 2125
Holding position is correspondingly arranged, and elastic component 2125 is mounted in mounting groove 11, and one end of elastic component 2125 is resisted against mounting groove 11
Slot bottom, the other end and movable link 2122 are sequentially connected far from one end of working position, when not carrying out workpiece shaping, elastic structure
Part 2125 is in free state, at this point, elastic component 2125 make movable link 2122 towards upper die component 4 end face protrusion with
The working face of working position, when 4 compression band shaping workpiece of upper die component carries out shaping, movable link 2122 is moved down, elastic component
2125 are compressed, and after upper die component 4 is released to shaping when the compressing of workpiece, elastic component 2125 restores elastic deformation, are driven
Movable link 2122 moves up, to realize the lastics to workpiece after shaping.
Above structure is simple, can effectively realize the automatic lastics of workpiece after shaping, to improve the efficiency of processing, in turn
Reduce the cost of manufacture.
It should be pointed out that above-mentioned fixing component 2121 is also a part of working position towards the end face of upper die component 4,
Shape is adapted with type chamber needed for shaping workpiece, after fixing component 2121 and fixed mounting base 211, fixing component 2121
Position is fixed, and is only carried out lastics to workpiece by movable link 2122 and is operated.
Further, ejecting unit 212 further includes guide member 2124 and driving member 2123, driving member 2123 with can
The dynamic one end of component 2122 far from working position vertically connects, and the length of driving member 2123 is greater than the diameter of through-hole 2111, guiding
One end of component 2124 leans with elastic component 2125, and the other end and the driving member 2123 of guide member 2124 lean.
It can be realized the guiding of elastic component 2125 during the work time by the way that guide member 2124 is arranged, use for a long time avoided to cause
The biasing phenomenon of elastic component 2125 reduces the replacement cost of elastic component 2125 to guarantee the effect of lastics, meanwhile, lead to
Crossing setting 2123 one side of driving member can be realized the transmission of power during lastics of elastic component 2125, to guarantee lastics
Process is gone on smoothly, and on the other hand since the length of driving member 2123 is greater than the diameter of through-hole 2111, can further be controlled
Movable link 2122 processed stroke (when driving member 2123 is resisted against port of the through-hole 2111 far from upper die component 4, movable member
Range when positioned at lastics), so as to effectively improve the control precision of lastics, and then guarantee workpiece shaping and lastics
Effect.
Further, boss 21241, elastic structure are formed in the end face that guide member 2124 and elastic component 2125 cooperate
Part 2125 is spring, and when spring and guide member 2124 cooperate, one end of spring is sleeved on the outside of boss 21241, and bullet
One end of spring is resisted against on the shoulder outside boss 21241.Can be realized spring during the work time by above structure has
Good directionality so that spring use for a long time be avoided the case where unbalance loading, deformation occur, and then guarantees the effect of lastics, drop
The cost of low-maintenance.
It should be pointed out that above-mentioned guide member 2124 is cylindrical structure, the diameter of spring, boss are had a diameter larger than
21241 are coaxially disposed with cylindrical structure, can be improved the guiding role to spring with this configuration, so that the bullet of spring
Power is effectively transferred to the position of movable link 2122, and then guarantees the effect of lastics.
Further, the quantity of guide member 2124 and spring is two, and two springs pass through two guide members respectively
2124 cooperate with driving member 2123.Specifically, two springs cooperate with two guide members 2124 respectively, two guide members
2124 bear against on driving member 2123, and the rest position of the two is led to respect to the central symmetry of movable link 2122
The structure is crossed, on the one hand can be improved the screen resilience of movable link 2122, to guarantee effective implementation of lastics, another aspect energy
It enough avoids movable link 2122 from unbalance loading occur, avoids the occurrence of catching phenomenon, to guarantee going on smoothly for lastics.
Specifically understand, lower mold assemblies 2 further include guide rod, and guide rod and workbench 1 are affixed, and guide rod passes through
Fixing seat 22, the length of guide rod are greater than the height of fixing seat 22, and the pilot hole on upper die component 4 is sleeved on the outer of guide rod
Side.When upper die component 4 works, since pilot hole is sleeved on the outside of guide rod, to realize to 4 motion process of upper die component
Guiding, and then improve workpiece shaping precision.
Specifically, upper die component 4 includes pressure block 4, and pressure block 4 is driven by cylinder, the cylinder body and support component of cylinder 5
3 is affixed, and the cylinder rod of cylinder 5 is removably connect with pressure block 4, and pilot hole is provided on pressure block 4,4 court of pressure block
Be formed with working end compatible with working position to the side of working position, when upper die component 4 is bonded with top surface, working end pressing to
Shaping workpiece to enter working position to shaping workpiece.When work, cylinder 5 starts, and the cylinder rod of cylinder 5 drives pressure block 4 downward
The direction of membrane module 2 moves, through work end in contact after shaping workpiece, with the continuous stretching of cylinder rod, so as to whole
Shape workpiece enters working position, and then realizes the shaping to workpiece.This kind of structure is simple, by the cooperation of working end and working position from
And realize the shaping to workpiece, and then guarantee the shaping quality of workpiece.
Specifically, support component 3 includes support plate 31 and column 32, and support plate 31 and 22 parallel interval of fixing seat are arranged,
Support plate 31 is connect by column 32 with fixing seat 22.Above structure is simple, and intensity with higher and stability, to protect
The smooth implementation for demonstrate,proving workpiece shaping, reduces the cost of plant maintenance.
Specifically, the quantity of column 32 is multiple, and each interval of column 32 setting, above-mentioned each column 32 forms frame after installing
Structure to further increase the intensity of equipment, and then improves the service life of equipment.
It should be understood that although multiple element, portion can be described using term first, second, third, etc. in the text
Part, region, layer and/or section still these component, assembly units, region, layer and/or are limited by these terms than Duan Buying.
These terms can only be used to a component, assembly unit, region, layer or section and another component, assembly unit, region, layer or section
It distinguishes.Unless context is it is manifestly intended that otherwise the term and other numerical terms of such as " first ", " second " etc exist
Sequence or order is not implied that when using in text.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in
Change or replacement, should be covered within the scope of the utility model.Therefore, the protection scope of the utility model answers institute
It states and is subject to the protection scope in claims.
Claims (10)
1. a kind of automatic lastics reshaping device, including workbench, lower mold assemblies, upper die component and support component, the lower die group
Part and the support component are separately mounted on the workbench, and the upper die component is movably installed the branch
On support component, which is characterized in that the lower mold assemblies include lastics device and the fixing seat with mounting hole, the lastics device
In the mounting hole, the top surface of the lastics device is formed with working position for installation, and the lastics device includes being able to enter institute
State in working position or remove the ejecting unit of the working position;
When the upper die component is bonded with the top surface, to shaping workpiece enter the working position, the upper die component with it is described
When top surface separates, the ejecting unit moves so that described to the shaping workpiece disengaging working position.
2. automatic lastics reshaping device according to claim 1, which is characterized in that the lastics device includes mounting base,
Through-hole is offered in the mounting base, the length direction of the through-hole is consistent with the short transverse of the mounting base, the ejection
Unit is movably installed in the through-hole, and the through-hole is single towards the port of the upper die component and the ejection
The end face of member towards the upper die component forms the working position.
3. automatic lastics reshaping device according to claim 2, which is characterized in that the ejecting unit includes fixed structure
Part, movable link and elastic component, the movable link are tubular structure, offer long hole on the side wall of the movable link,
The length direction of the long hole is consistent with the moving direction of the movable link, and the movable link is sleeved on the fixing component
Outside, the fixing component fixed by fixed pin and the mounting base, and the fixed pin passes through the long hole, described
Elastic component is arranged in the mounting groove of the workbench, and one end of the elastic component and the movable link are far from the work
Make the facing drive connection of position, the other end of the elastic component and the slot bottom of the mounting groove lean.
4. automatic lastics reshaping device according to claim 3, which is characterized in that the ejecting unit further includes guiding structure
Part and driving member, the one end of the driving member with the movable link far from the working position is vertical to be connect, the transmission
The length of component is greater than the diameter of the through-hole, and one end of the guide member leans with the elastic component, the guiding
The other end of component leans with the driving member.
5. automatic lastics reshaping device according to claim 4, which is characterized in that the guide member and the elastic structure
Boss is formed in the end face of part cooperation, the elastic component is spring, described when the spring and the guide member cooperate
One end of spring is sleeved on the outside of the boss, and one end of the spring is resisted against on the shoulder outside the boss.
6. automatic lastics reshaping device according to claim 5, which is characterized in that the guide member and the spring
Quantity is two, and two springs pass through two guide members respectively and the driving member cooperates.
7. automatic lastics reshaping device according to claim 2, which is characterized in that the lower mold assemblies further include guiding
Bar, the guide rod and the workbench are affixed, and the guide rod passes through the fixing seat, leading on the upper die component
The outside of the guide rod is sleeved on to hole.
8. automatic lastics reshaping device according to claim 7, which is characterized in that the upper die component includes pressure block,
The pressure block by cylinder drive, the cylinder body of the cylinder and the support component are affixed, the cylinder rod of the cylinder with it is described
Pressure block removably connects, and the pilot hole is provided on the pressure block, and the pressure block is towards the work
The side of position is formed with working end compatible with the working position, when the upper die component is bonded with the top surface, the work
Make that end pressing is described to be made described to enter the working position to shaping workpiece to shaping workpiece.
9. automatic lastics reshaping device according to claim 8, which is characterized in that the support component include support plate and
Column, the support plate and the fixing seat parallel interval are arranged, and the support plate is connected by the column and the fixing seat
It connects.
10. automatic lastics reshaping device according to claim 9, which is characterized in that the quantity of the column be it is multiple, respectively
The column interval setting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821752990.4U CN208960669U (en) | 2018-10-26 | 2018-10-26 | Automatic lastics reshaping device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821752990.4U CN208960669U (en) | 2018-10-26 | 2018-10-26 | Automatic lastics reshaping device |
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CN208960669U true CN208960669U (en) | 2019-06-11 |
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CN201821752990.4U Active CN208960669U (en) | 2018-10-26 | 2018-10-26 | Automatic lastics reshaping device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114210839A (en) * | 2021-12-20 | 2022-03-22 | 湖南创研智能装备有限公司 | Bevel edge volute automatic forming special machine |
-
2018
- 2018-10-26 CN CN201821752990.4U patent/CN208960669U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114210839A (en) * | 2021-12-20 | 2022-03-22 | 湖南创研智能装备有限公司 | Bevel edge volute automatic forming special machine |
CN114210839B (en) * | 2021-12-20 | 2023-12-22 | 湖南创研智能装备有限公司 | Special automatic forming machine for bevel edge volute |
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