CN209363455U - A kind of riveting upper die device and the full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice - Google Patents
A kind of riveting upper die device and the full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice Download PDFInfo
- Publication number
- CN209363455U CN209363455U CN201821918814.3U CN201821918814U CN209363455U CN 209363455 U CN209363455 U CN 209363455U CN 201821918814 U CN201821918814 U CN 201821918814U CN 209363455 U CN209363455 U CN 209363455U
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- CN
- China
- Prior art keywords
- upper die
- riveting
- side plate
- drive rod
- driver
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Abstract
The utility model relates to riveting technical field more particularly to a kind of riveting upper die device and the full-automatic riveting kludges of AUTOMOTIVE RELAY elastic slice.Riveting upper die device, comprising: riveting seat, upper die component, driver and transmission mechanism.Riveting seat includes the first side plate and the second side plate that front and back is oppositely arranged;Upper die component includes the upper die head for riveting two metal workpieces, and upper die head is flexibly connected the first side plate;For driver for driving upper die head along the short transverse of the first side plate and moving towards two metal workpieces, driver connects the second side plate;Transmission mechanism is used to the power of driver is transferred to upper die head and including driving wheel and drive rod;The upper end of driving wheel switching upper die head, drive rod is between the first side plate and the second side plate and one end connects driver, and the other end of drive rod passes through the first side plate and forward pushing tow driving wheel.The exception occurred in the operational process of the utility model energy filter driver, to improve the stability and reliability of riveting process.
Description
Technical field
The utility model relates to riveting technical field more particularly to a kind of riveting upper die device and AUTOMOTIVE RELAY elastic slices
Full-automatic riveting kludge.
Background technique
Currently, riveting upper die device used in production equipment, power source (such as cylinder) directly drive upper die head.
But this power source directly drives the mode of upper die head, is easy to influence riveting process by extraneous factor.Than
Such as, it when the air pressure of cylinder is unstable, be easy to cause by the deep mixed cause in riveting position of riveting product, not so as to cause product
It is good.
Utility model content
The purpose of this utility model is to provide a kind of riveting upper die devices, it is intended to solve how to improve riveting upper die device
The problem of riveting process stationarity and reliability.
The utility model is realized in this way a kind of riveting upper die device, for the metal work to two settings stacked on top of one another
Part applies riveting power, comprising:
Riveting seat, the riveting seat include the first side plate and the second side plate that front and back is oppositely arranged;
Upper die component, the upper die component include the upper die head for riveting two metal workpieces, and the upper die head activity connects
Connect the plate face of first side plate being arranged forward;
Driver, the driver is for driving the upper die head along the short transverse of first side plate and towards two metals
Workpiece is mobile, and the driver connects the plate face of second side plate being arranged backwards;
Transmission mechanism, the transmission mechanism be used to for the power of driver to be transferred to the upper die head and including driving wheel and
Drive rod;
Wherein, the driving wheel is transferred the upper end of the upper die head, and the drive rod is located at the first side plate and the second side plate
Between and one end connect the driver, the other end of the drive rod passes through to be driven described in first side plate and forward pushing tow
Wheel, first side plate offer the via hole passed through for the drive rod.
Further, the drive rod includes the linkage section for connecting the driver, is pressed on above the driving wheel
Planar section and side plate bending for driving wheel described in pushing tow, the side plate bending be located at the planar section and the linkage section it
Between.
Further, the core wheel of the center of curvature of the cambered surface of the side plate bending and the driving wheel is located at the drive rod
The same side.
Further, the riveting upper die device further include be located above the drive rod and connection first side plate and
The cover board of second side plate connects the cover board and has the first guide part of the first guide groove and lead positioned at described first
To slot and side connects the first sliding block of the drive rod, the cover board, first guide part, first sliding block and institute
Drive rod is stated to set gradually from top to bottom.
Further, the cross-sectional shape of first guide groove is dove tail shape, and first guide part passes through institute
State via hole.
Further, the upper die component further includes connection first side plate and the second guiding with the second guide groove
Part, in second guide groove and side connects the second sliding block and connection second sliding block and the institute of the upper die head
State the link block of driving wheel.
Further, one end of the link block offers rotation slot, the other end connection described second of the link block
The end face of sliding block one end, the driving wheel switching is in the cell wall of the rotation slot.
Further, the riveting upper die device further includes the first elastic component for driving second sliding block to reset,
First elastic component is arranged at intervals with two and the sliding block between two first elastic components;Two first elasticity
The equal one end of part connects the link block, and the other end connects second guide part.
Further, the cross-sectional shape of second guide groove is dove tail shape.
The present embodiment additionally provides a kind of full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice comprising riveting as described above
Press upper die device and with the upper die component cooperation lower mold assemblies, the lower mold assemblies include lower die holder, connection it is described under
Die holder and lower die station for fixing two metal workpieces and between the lower die holder and the lower die station and for buffering
Second elastic component of external impacts.
The technical effect of the utility model is: the output shaft of drive rod one end connection driver, the other end top of drive rod
Push away driving wheel.Drive rod is in horizontally disposed.Driver horizontal drive drive rod, the wheel face of drive rod one end pushing tow driving wheel pass
Driving wheel drives upper die head to move downward along the short transverse of the first side plate, to carry out riveting to workpiece.By will be between driver
Die head is connected in succession, and is driven by transmission mechanism, in the operational process for being conducive to transmission mechanism filter driver in this way
The exception occurred, so that stability and reliability during improving riveting, it is bad to avoid the occurrence of product.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of riveting upper die device provided by the utility model embodiment.
Fig. 2 is the structural schematic diagram of the drive rod of Fig. 1.
Fig. 3 is the structural schematic diagram of the first side plate of Fig. 1.
Fig. 4 is the structural schematic diagram of the first guide part of Fig. 1.
Fig. 5 is the structural schematic diagram of the link block of Fig. 1.
Fig. 6 is the structural schematic diagram of lower mold assemblies provided by the utility model embodiment.
Fig. 7 is the explosive view of the lower mold assemblies of Fig. 6.
Numbering in the drawing relationship corresponding with title is as follows:
100, riveting upper die device;10, riveting seat;11, the first side plate;12, the second side plate;13, bottom plate;14, cover board;
20, driver;30, transmission mechanism;31, drive rod;32, driving wheel;41, the first guide part;42, the first sliding block;55, it connects
Block;54, the first elastic component;53, the second sliding block;51, upper die head;52, the second guide part;60, supporting table;311, planar section;
312, side plate bending;313, linkage section;3121, pushing tow cambered surface;3111, guide plane;111, via hole;411, the first guide groove;
471, rotation slot;101, lower mold assemblies;102, lower die holder;50, upper die component;103, lower die station;104, the second elastic component;
Specific embodiment
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model
Limitation.
It please refers to Fig.1 to Fig.3, the utility model embodiment provides a kind of riveting upper die device 100 and automobile relay
The full-automatic riveting kludge of device elastic slice.The full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice include riveting upper die device 100 and
The lower mold assemblies 101 cooperated with riveting upper die device 100.The full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice is used for two layers
The metal works of folded setting carry out riveting, so that two metal workpieces are riveted together.Specifically, two metal workpieces are for automobile
Two metal clips in relay.
Riveting upper die device 100 is used to apply the two metal workpieces being fixed on lower mold assemblies 101 riveting power, packet
It includes: riveting seat 10, upper die component 50, driver 20 and transmission mechanism 30.
Riveting seat 10 includes the first side plate 11, the second side plate 12 and bottom plate 13.Optionally, bottom plate 13, the first side plate 11
It is metal plate with the second side plate 12, is oppositely arranged before and after the first side plate 11 and the second side plate 12 and lower end is all connected with tiling setting
Bottom plate 13.Specifically, the first side plate 11 and the second side plate 12 can be connected by screw to bottom plate 13.
Upper die component 50 includes the upper die head 51 for riveting workpiece, and upper die head 51 is flexibly connected the court of the first side plate 11
The plate face of preceding setting, i.e. upper die head 51 can be moved back and forth along the short transverse of the first side plate 11, to two gold medals being stacked
Metal work-pieces carry out riveting impact, to rivet two metal workpieces.
Driver 20 is used to drive upper die head 51 mobile towards workpiece and connects the plate face of the second side plate 12 being arranged backwards.It can
Selection of land, driver 20 is cylinder in the present embodiment, and cylinder has easy to operate, and installation is simple, output power is big, is applicable to not
Synthermal environment, also with the performance of waterproof and dustproof.
It please refers to Fig.1 to Fig.3, transmission mechanism 30 is used to the power of driver 20 be transferred to upper die head 51 and including passing
Driving wheel 32 and drive rod 31.Transmission mechanism 30 makes the power of cylinder piston rod institute horizontal output, is converted into driving 51 court of upper die head
The power of lower movement.
Specifically, the upper end of 32 activity switching upper die head 51 of driving wheel.Drive rod 31 is located at the first side plate 11 and second side
Between plate 12, the piston rod of one end connection driver 20 of drive rod 31, the other end of drive rod 31 passes through the first side plate 11 simultaneously
Pushing tow facing forward and downward promotion driving wheel 32, driving wheel 32 drive upper die head 51 to move downward.
First side plate 11 offers the via hole 111 passed through for drive rod 31, and via hole 111 can be square hole or round hole.
31 one end of drive rod connects the output shaft of driver 20, the other end pushing tow driving wheel 32 of drive rod 31.Drive rod
31 in horizontally disposed.20 horizontal drive drive rod 31 of driver, the wheel face of 31 one end pushing tow driving wheel 32 of drive rod, driving wheel 32
Upper die head 51 is driven to move downward along the short transverse of the first side plate 11, to carry out riveting to workpiece.By by driver 20
It is indirectly connected with upper die head 51, and is driven by transmission mechanism 30, is conducive to 30 filter driver 20 of transmission mechanism in this way
The exception occurred in operational process, so that stability and reliability during improving riveting, it is bad to avoid the occurrence of product.
It please refers to Fig.1 to Fig.3, drive rod 31 includes the linkage section 313 of connection driver 20, is pressed on 32 top of driving wheel
Planar section 311 and side plate bending 312 for pushing tow driving wheel 32, side plate bending 312 be located at planar section 311 and linkage section 313
Between.Planar section 311 has the guide plane 3111 being pressed together on driving wheel 32, and guide plane 3111 is for guiding drive rod 31
Pushing tow driving wheel 32, so that drive rod 31 is forward-facing moved along the wheel of driving wheel 32.Side plate bending 312 has for pushing tow downward
The pushing tow cambered surface 3121 of driving wheel 32, pushing tow cambered surface 3121 and the wheel face of driving wheel 32 are tangent, thus in drive rod 31 towards Forward
When dynamic, pushing tow driving wheel 32, is finally reached the purpose that driving upper die head 51 moves downward downward.
Specifically, the center of curvature of the cambered surface of side plate bending 312 and the core wheel of driving wheel 32 are located at the same of drive rod 31
Side.That is the cambered surface inscribe of the wheel face of driven wheel and side plate bending 312.
Fig. 4 to Fig. 5 is please referred to, riveting upper die device 100 further includes being located at 31 top of drive rod and the first side plate 11 of connection
With the cover board 14 of the second side plate 12, connecting cover plate 14 and the first guide part 41 with the first guide groove 411 and be located at first
First sliding block 42 of guide groove 411 and side connection drive rod 31.Cover board 14, the first guide part 41, the first sliding block 42 and biography
Lever 31 is set gradually from top to bottom.First sliding block 42 is slidably connected the first guide part 41, and a side surface of the first sliding block 42 connects
It connects drive rod 31 and driven rod is guided to move back and forth, drive rod 31 can be improved in the cooperation of the first sliding block 42 and the first guide part 41
Kinematic accuracy, to improve stationarity during riveting of riveting upper die device 100.
The cross-sectional shape of first guide groove 411 is dove tail shape, and the first guide part 41 passes through via hole 111.First leads
The detachably connected cover board 14 of screw can be passed through to part 41.
Riveting upper die device 100 further include connect the plate face that is arranged forward of the first side plate 11 and with the second guide groove the
Two guide parts 52, in the second guide groove and the second sliding block 53 of side connection upper die head 51 and the second sliding block 53 of connection with
The link block 55 of driving wheel 32.Second sliding block, 53 side is slidably connected the second guide part 52, in the connection of 53 other side of the second sliding block
Die head 51 and guidance upper die head 51 moved along the second guide groove.The cooperation of second sliding block 53 and the second guide part 52, can be improved
The mobile accuracy of lower die head, to improve the stationarity and reliability of riveting process.
One end of link block 55 offers rotation slot 471, the end of other end connection 53 one end of the second sliding block of link block 55
Face, driving wheel 32 are transferred in the cell wall of rotation slot 471.Driving wheel 32 rotates in rotation slot 471 under the action of drive rod 31
And link block 55 is pushed to move downward.
Fig. 6 and Fig. 7 are please referred to, riveting upper die device 100 further includes the first elasticity for driving the second sliding block 53 to reset
Part 54, the first elastic component 54 are arranged at intervals with two and sliding block between two first elastic components 54.Two first elastic components 54 are
One end connects link block 55, and the other end connects the second guide part 52.Optionally, link block 55 connects the end face of the first elastic component 54
Location hole is offered, the first elastic component 54 is pipe spring, and one end of pipe spring is connected to positioning hole, and the end face of the second guide part 52 is convex
Equipped with positioning pin, the other end of pipe spring is socketed positioning pin.The cross-sectional shape of second guide groove is also dove tail shape.In upper mold
First 51 downward after the completion of riveting, and the first elastic component 54 is drivingly connected block 55 and restores to initial position.
The lower mold assemblies 101 of the full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice include lower die holder 102, connection lower die holder
102 and the lower die station 103 for fixing two metal workpieces and between lower die holder 102 and lower die station 103 and for buffering
Second elastic component 104 of external impacts.In the present embodiment the second elastic component 104 also be pipe spring, external force to lower die station 103 into
When row impact, the second elastic component 104 can be with cushion impact forces, to improve the service life of lower mold assemblies 101.
The full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice further includes the supporting table for being used to support riveting upper die device 100
60, supporting table 60 can be connect with other structures part, riveting upper die device 100 to be fixed.
The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle
Within the scope of shield.
Claims (10)
1. a kind of riveting upper die device, for applying riveting power to the metal works of two settings stacked on top of one another, which is characterized in that packet
It includes:
Riveting seat, the riveting seat include the first side plate and the second side plate that front and back is oppositely arranged;
Upper die component, the upper die component include the upper die head for riveting two metal workpieces, and the upper die head is flexibly connected institute
State the plate face of the first side plate being arranged forward;
Driver, the driver is for driving the upper die head along the short transverse of first side plate and towards two metal workpieces
Mobile, the driver connects the plate face of second side plate being arranged backwards;
Transmission mechanism, the transmission mechanism are used to the power of driver is transferred to the upper die head and including driving wheel and transmission
Bar;
Wherein, the driving wheel is transferred the upper end of the upper die head, and the drive rod is between the first side plate and the second side plate
And one end connects the driver, the other end of the drive rod passes through driving wheel described in first side plate and forward pushing tow,
First side plate offers the via hole passed through for the drive rod.
2. riveting upper die device as described in claim 1, it is characterised in that: the drive rod includes connecting the driver
Linkage section, the planar section being pressed on above the driving wheel and the side plate bending for driving wheel described in pushing tow, the side plate bending
Between the planar section and the linkage section.
3. riveting upper die device as claimed in claim 2, it is characterised in that: the center of curvature of the cambered surface of the side plate bending and institute
The core wheel for stating driving wheel is located at the same side of the drive rod.
4. riveting upper die device as described in claim 1, it is characterised in that: the riveting upper die device further includes positioned at described
Above drive rod and connects the cover board of first side plate and second side plate, the connection cover board and there is the first guide groove
The first guide part and positioned at first guide groove and side connects the first sliding block of the drive rod, the cover board, institute
The first guide part, first sliding block and the drive rod is stated to set gradually from top to bottom.
5. riveting upper die device as claimed in claim 4, it is characterised in that: the cross-sectional shape of first guide groove is swallow
Stern notch shape, first guide part pass through the via hole.
6. riveting upper die device as described in claim 1, it is characterised in that: the upper die component further includes connection described first
Side plate and the second guide part with the second guide groove, in second guide groove and side connects the of the upper die head
The link block of two sliding blocks and connection second sliding block and the driving wheel.
7. riveting upper die device as claimed in claim 6, it is characterised in that: one end of the link block offers rotation slot,
The other end of the link block connects the end face of second sliding block one end, and the driving wheel switching is in the slot of the rotation slot
Wall.
8. riveting upper die device as claimed in claim 6, it is characterised in that: the riveting upper die device further includes for driving
The first elastic component that second sliding block resets, first elastic component is arranged at intervals with two and the sliding block is located at described in two
Between first elastic component;Two described equal one end of first elastic component connect the link block, and the other end connects second guide part.
9. riveting upper die device as claimed in claim 6, it is characterised in that: the cross-sectional shape of second guide groove is swallow
Stern notch shape.
10. a kind of full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice characterized by comprising as claim 1-9 is any one
Described in riveting upper die device and with the upper die component cooperation lower mold assemblies, the lower mold assemblies include lower die holder,
Connect the lower die holder and for fixing the lower die station of two metal workpieces and between the lower die holder and the lower die station
And the second elastic component for buffering external impacts.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821918814.3U CN209363455U (en) | 2018-11-20 | 2018-11-20 | A kind of riveting upper die device and the full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821918814.3U CN209363455U (en) | 2018-11-20 | 2018-11-20 | A kind of riveting upper die device and the full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209363455U true CN209363455U (en) | 2019-09-10 |
Family
ID=67837277
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821918814.3U Expired - Fee Related CN209363455U (en) | 2018-11-20 | 2018-11-20 | A kind of riveting upper die device and the full-automatic riveting kludge of AUTOMOTIVE RELAY elastic slice |
Country Status (1)
Country | Link |
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CN (1) | CN209363455U (en) |
-
2018
- 2018-11-20 CN CN201821918814.3U patent/CN209363455U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190910 Termination date: 20211120 |