CN209318596U - A kind of self-feeding cap locating riveting device - Google Patents
A kind of self-feeding cap locating riveting device Download PDFInfo
- Publication number
- CN209318596U CN209318596U CN201821869216.1U CN201821869216U CN209318596U CN 209318596 U CN209318596 U CN 209318596U CN 201821869216 U CN201821869216 U CN 201821869216U CN 209318596 U CN209318596 U CN 209318596U
- Authority
- CN
- China
- Prior art keywords
- feeding
- power source
- lower die
- plate
- riveted
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Automatic Assembly (AREA)
Abstract
The utility model proposes a kind of self-feeding cap locating riveting devices, including upper part feeding material component, lower part feeding material component, lower part positioning component and blanking riveted component;Upper part feeding material component includes upper runner and guiding feeding plate, lower part feeding material component includes lower flow channel, pusher plate and power source one, lower part positioning component includes ejection assembly, lower die and power source two, the blanking riveted component includes upper mold, riveted motor and transfer bracket, upper mold is located at right above lower die, riveted motor driven upper mold moves down, transfer bracket, which can drive guiding feeding plate to divide right and left, makes part fall before touching upper mold on the product face that arrival needs are processed and accurately be inserted in lower die under the guiding of guiding feeding plate, riveted motor continues that upper mold is driven to make part downwards, lower part and product rivet together.The utility model provides a kind of simple and compact for structure, high reliablity, can high speed accurate stable feeding self-feeding cap locating riveting device.
Description
Technical field
The utility model relates to a kind of riveting mechanism more particularly to a kind of self-feeding cap locating riveting devices.
Background technique
Traditional eyeing machine for mattress, lock seaming machine, dotter, rivet driver feeding mechanism generally use: 1. use cylinder straight line pushers
Or claw feeding clip mechanism, this mechanism is maximum the disadvantage is that speed is slow, the unstable reliability of feeding is low, low efficiency;2. feeding enters
The mode mechanical part of mold is heavy, and energy consumption is high, and major diameter part pan feeding is unstable, and time-consuming influences equipment for each working cycles
Whole efficiency.
Utility model content
Based on the above issues, the utility model aim is to provide a kind of simple and compact for structure, high reliablity, can high speed standard
Really stable feeding can realize that feeding, feeding are higher than traditional feeding efficiency under small space, significantly reduce use cost, warp
The Ji self-feeding cap locating riveting device that benefit is evident.
In view of the above problems, providing following technical solution: a kind of self-feeding cap locating riveting device, it is characterised in that:
Including upper part feeding material component, lower part feeding material component, lower part positioning component and blanking riveted component;
The upper part feeding material component includes upper runner and guiding feeding plate, and upper part slides into guiding blanking from upper runner
Plate is in place;
The lower part feeding material component includes lower flow channel, pusher plate and power source one, the pusher plate fixed setting
Below lower flow channel, lower part slides on pusher plate from lower flow channel, and the power source one drives lower part in pusher plate
Upper movement;
The lower part positioning component includes ejection assembly, lower die and power source two, and the lower die is located at guiding feeding plate
It underface and is mounted on ejection assembly, the power source one drives lower part to be reached in lower die from pusher plate, the top
Component is connect with power source two out, and power source two-way ejection assembly of overdriving moves up and down and then drives lower die in vertical side
It moves up;
The blanking riveted component includes upper mold, riveted motor and transfer bracket, and the upper mold is located at right above lower die, institute
It states riveted motor driven upper mold to move down, the transfer bracket, which can drive guiding feeding plate to divide right and left, is contacting part
It falls to reach before to upper mold and needs accurately to be inserted in lower die on the product face processed and under the guiding of guiding feeding plate, institute
Riveted motor is stated to continue to drive upper mold that part, lower part and product is made to rivet together downwards.
The utility model is further arranged to: the ejection assembly includes ejecting wedge, guide plate, bearing axis and knock-pin,
The bearing axis is placed on ejection wedge, and the guide plate constraint bearing axis only moves in the vertical direction, the ejection wedge
One end is connect with power source two, the power source two-way overdrive eject wedge move horizontally so that drive bearing axis in vertical direction
The lower end of upper movement, the knock-pin is mounted on bearing axis by bearing, and the lower die is mounted on the top of knock-pin and position
In the side of pusher plate.
The utility model is further arranged to: the power source one includes gear, charging ram, upper rack and motor, described
Motor-driven gear rotation, the upper rack engaged with gear and can gear rotate under move horizontally, the upper rack with push away
Expect bar connection, part reaches in lower die the charging ram from pusher plate under promotion under gear rotation.
The utility model is further arranged to: the power source two is lower rack gear, and the lower rack and pinion engages and can
It is moved horizontally under gear rotation with upper rack opposite direction, the lower rack gear is connect with one end of ejection wedge, and the lower rack gear exists
Gear rotation is lower to drive lower die to move up and down by ejection wedge.
The utility model is further arranged to: the power source one and power source two are cylinder.
The utility model is further arranged to: the blanking riveted component further includes transfer set, the upper end of the transfer set
It is connect with riveted motor bar, lower end connects the upper mold, and the lower part of the transfer set is in back taper inclined-plane.
The utility model is further arranged to: the transfer bracket includes bracket and rack-mount is symmetrically positioned in lower die
The transfer component of two sides, the transfer component include spring, bearing rod, roller bearing and baffle, and one end of the bearing rod passes through bullet
Spring is rack-mount, and the other end installs roller bearing, and the bearing rod bottom connects baffle, and the baffle is outer with guiding feeding plate
Wall connection, when the riveted motor driven transfer set moves down, the roller bearing and transfer set lower contacts and in transfer set
Back taper ramp pressure under divide right and left and drive two baffles separate.
The utility model has the beneficial effects that
1, the technical program is simple and compact for structure, high reliablity, can high speed accurate stable feeding, can be under small space
Realize feeding, high speed transfer improves several times than traditional feeding efficiency, and significant for user's reduction use cost, economic benefit is obvious.
2, lower die falls on position at present when entering lower part by the setting of lower part positioning component in the technical program, pushes up
Riveted in place out, transfer set driving left and right transfer is fallen after so that upper part is entered guiding feeding plate by the setting of blanking riveted component
Material, the movement of accurate and reliable blanking and the structure of entire mechanism riveted.
3, the technical program is using two ways as thrust power.Servo motor or stepper motor conduct are used when high speed
Power source one and power source two, using cylinder as power source one and power source two when not high for rate request, save the cost,
It improves efficiency.
Detailed description of the invention
Fig. 1 is the schematic perspective view of self-feeding cap locating riveting device in the utility model embodiment;
Fig. 2 is the side structure schematic diagram of self-feeding cap locating riveting device in the utility model embodiment;
Fig. 3 is the side structure schematic diagram of self-feeding cap locating riveting device in the utility model embodiment;
Illustrate in figure: the upper part feeding material component of 1-;11- upper runner;12- is oriented to feeding plate;The upper part of 13-;Part under 2-
Feeding material component;21- lower flow channel;22- pusher plate;Part under 23-;3- power source one;31- gear, 32- charging ram, the upper tooth of 33-
Item;4- ejection assembly;41- ejects wedge;42- guide plate;43- bearing axis;44- knock-pin;5- lower die;Rack gear under 6-;7- upper mold;
8- transfer bracket;81- bracket;82- transfer component;821- spring;822- bearing rod;823- roller bearing;824- baffle;9- transfer
Set;
Specific embodiment
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.
As shown in Figure 1-Figure 3, a kind of self-feeding cap locating riveting device, including upper part feeding material component 1, lower part feeding
Component 2, lower part positioning component and blanking riveted component;The upper part feeding material component 1 includes upper runner 11 and guiding blanking
Plate 12, upper part 13 slide into guiding feeding plate 12 in place from upper runner 11;The lower part feeding material component 2 includes lower flow channel
21, pusher plate 22 and power source 1, the pusher plate 22 are fixed at the lower section of lower flow channel 21, and lower part 23 is from flowing down
Road 21 slides on pusher plate 22, and the power source 1 drives lower part 23 to move on pusher plate 22;
As shown in Figure 1, the lower part positioning component includes ejection assembly 4, lower die 5 and power source two, the lower die 5
It immediately below guiding feeding plate 12 and is mounted on ejection assembly 4, the power source 1 drives lower part 23 from pusher plate 22
In upper arrival lower die 5, the ejection assembly 4 is connect with power source two, and the power source two-way is overdrived and moved down on ejection assembly 4
Dynamic and then driving lower die 5 moves in the vertical direction.
As shown in Figure 1-3, the blanking riveted component includes upper mold 7, riveted motor and transfer bracket 8, the upper mold 7
Right above lower die 5, the riveted motor driven upper mold 7 is moved down, and the transfer bracket 8 can drive guiding feeding plate 12 left
The right side falls part 13 before touching upper mold 7 on the product face for reaching and needing to process and in guiding feeding plate 12
Guiding under be accurately inserted in lower die 5, the riveted motor continue drive upper mold 7 make downwards part 13, lower part 23 and produce
Product rivet together.
As depicted in figs. 1 and 2, the ejection assembly 4 includes ejecting wedge 41, guide plate 42, bearing axis 43 and knock-pin 44,
The bearing axis 43 is placed on ejection wedge 41, and the guide plate 42 fetters bearing axis 43 and only moves in the vertical direction, described
Ejection wedge 41 one end connect with power source two, the power source two-way overdrive eject wedge 41 move horizontally in turn driving bearing
Axis 43 moves in the vertical direction, and the lower end of the knock-pin 44 is mounted on bearing axis 43 by bearing, and the lower die 5 is installed
Top in knock-pin 44 and the side positioned at pusher plate 22.
As shown in Fig. 2, using servo motor or stepper motor as power source 1 and power source two when high speed.At this point, institute
Stating power source 1 includes gear 31, charging ram 32, upper rack 33 and motor, and the motor-driven gear 31 rotates, the upper tooth
Item 33 is engaged with gear 31 and can be moved horizontally under the rotation of gear 31, and the upper rack 33 is connect with charging ram 32, described to push away
Part 23 reaches in lower die 5 from pusher plate 22 under material bar 32 pushes under the rotation of gear 31.The power source two is lower tooth
Item 6, the lower rack gear 6 is engaged with gear 31 and can be moved horizontally under the rotation of gear 31 with 33 opposite direction of upper rack, under described
Rack gear 6 is connect with one end of ejection wedge 41, and the lower rack gear 6 is under the rotation of gear 31 by pushing ejection wedge 41 to drive lower die 5
It moves up and down.
When not high for rate request, the power source 1 and power source two are cylinder.
As shown in figures 1 and 3, the blanking riveted component further includes transfer set 9, the upper end of the transfer set 9 and riveted
The connection of motor bar, lower end connect the upper mold 7, and the lower part of the transfer set 9 is in back taper inclined-plane.The transfer bracket 8 includes
Bracket 81 and be mounted on the transfer component 82 that lower die two sides are symmetrically positioned on bracket 81, the transfer component 82 include spring 821,
One end of bearing rod 822, roller bearing 823 and baffle 824, the bearing rod 822 is mounted on bracket 81 by spring 821, another
End installation roller bearing 823,822 bottom of bearing rod connect baffle 824, and the outer wall of the baffle 824 and guiding feeding plate 12 connects
It connects, when the riveted motor driven transfer set 9 moves down, the roller bearing 823 and transfer cover 9 lower contacts and in transfer set
It divides right and left under 9 back taper ramp pressure and two baffles 824 is driven to separate.
Above-mentioned technical proposal concrete operating principle are as follows: firstly, falling into lower 23 He of part by lower flow channel 21 and upper runner 11
Upper part 13, upper part 13 slide into guiding feeding plate 12 in place.Then, after lower part 23 falls into pusher plate 22, motor is driven
Gear 31 rotates clockwise, and upper rack 33, which advances, drives charging ram 32 to advance, and lower rack gear 6 drives ejection wedge 41 to retreat;This process
When using cylinder, then charging ram 32 and lower rack gear 6 are replaced using cylinder.Then, bearing axis 43 is under the guiding of guide plate 42 with top
Rod 44 and lower die 5 fall in place, and lower part 23 enters lower die 5 under the promotion of charging ram 32, and the then drive of upper rack 33 pushes away
Material bar 32 retreats again, and lower rack gear 6 drives ejection wedge 41 to advance, and ejection wedge 41 heads on bearing axis 43 and drives knock-pin 44 and lower die
5 eject in place upwards.
Upper mold 7 and transfer set 9 move down under the drive of riveted motor bar after completing lower members in place, touch in upper mold 7
Roller bearing 823 before to upper part 13 on 9 two transfer brackets 8 of contact left and right of transfer set, left and right two bearings bar 822 cover 9 in transfer
It divides right and left under back taper inclined-plane downward pressure and left and right catch 824 is driven to separate, upper part 13 is before upper mold 7 touches
Fall, under fall on the protrusion for needing that lower die 5 is accurately inserted on the product face that processes and under the guiding of guiding feeding plate 12, with
The continuation of riveted motor bar upper part 13, lower part 23 and product riveted are completed in the case where the downward pressure of upper mold 7 drives downwards
To together, a working cycles are completed.
The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art
For art personnel, without deviating from the technical principle of the utility model, several improvements and modifications, above-mentioned vacation can also be made
If these improvements and modifications also should be regarded as the protection scope of the utility model.
Claims (7)
1. a kind of self-feeding cap locating riveting device, it is characterised in that: including upper part feeding material component, lower part feeding material component,
Lower part positioning component and blanking riveted component;
The upper part feeding material component include upper runner and guiding feeding plate, upper part from upper runner slide into guiding feeding plate to
Position;
The lower part feeding material component includes lower flow channel, pusher plate and power source one, and the pusher plate is fixed at down
Below runner, lower part slides on pusher plate from lower flow channel, and the power source one drives lower part to move up in pusher plate
It is dynamic;
The lower part positioning component includes ejection assembly, lower die and power source two, under the lower die is located at guiding feeding plate just
It side and is mounted on ejection assembly, the power source one drives lower part to be reached in lower die from pusher plate, the ejection group
Part is connect with power source two, the power source two-way overdrive ejection assembly move up and down so that drive lower die in the vertical direction
It is mobile;
The blanking riveted component includes upper mold, riveted motor and transfer bracket, and the upper mold is located at right above lower die, the riveting
It closes motor driven upper mold to move down, the transfer bracket, which can drive guiding feeding plate to divide right and left, makes part on touching
It falls to reach before mould and needs accurately to be inserted in lower die on the product face processed and under the guiding of guiding feeding plate, the riveting
Motor is closed to continue to drive upper mold that part, lower part and product is made to rivet together downwards.
2. a kind of self-feeding cap locating riveting device according to claim 1, it is characterised in that: the ejection assembly includes
Wedge, guide plate, bearing axis and knock-pin are ejected, the bearing axis is placed on ejection wedge, and the guide plate constraint bearing axis is only
It moves in the vertical direction, one end of the ejection wedge is connect with power source two, and the power source two-way, which is overdrived, ejects wedge water
Translation is dynamic and then bearing axis is driven to move in the vertical direction, and the lower end of the knock-pin is mounted on bearing axis by bearing,
The lower die is mounted on the top of knock-pin and is located at the side of pusher plate.
3. a kind of self-feeding cap locating riveting device according to claim 2, it is characterised in that: the power source one includes
Gear, charging ram, upper rack and motor, the motor-driven gear rotation, the upper rack engage with gear and can be in gears
It is moved horizontally under rotation, the upper rack is connect with charging ram, and part is from pusher under the charging ram pushes under gear rotation
It is reached in lower die on plate.
4. a kind of self-feeding cap locating riveting device according to claim 3, it is characterised in that: under the power source two is
Rack gear, the lower rack and pinion engagement and can move horizontally under gear rotation with upper rack opposite direction, the lower rack gear with
One end connection of wedge is ejected, the lower rack gear drives lower die to move up and down under gear rotation by ejection wedge.
5. a kind of self-feeding cap locating riveting device according to claim 1 or 2, it is characterised in that: the power source one
It is cylinder with power source two.
6. a kind of self-feeding cap locating riveting device according to claim 1, it is characterised in that: the blanking riveted component
It further include transfer set, the upper end of the transfer set is connect with riveted motor bar, and lower end connects the upper mold, under the transfer covers
Portion is in back taper inclined-plane.
7. a kind of self-feeding cap locating riveting device according to claim 6, it is characterised in that: the transfer bracket includes
Bracket and the rack-mount transfer component for being symmetrically positioned in lower die two sides, the transfer component include spring, bearing rod, roller bearing
And baffle, one end of the bearing rod is rack-mount by spring, and the other end installs roller bearing, the bearing rod bottom connection
Baffle, the baffle is connect with the outer wall of guiding feeding plate, when the riveted motor driven transfer set moves down, the roller bearing
With the lower contacts of transfer set and divide right and left under the back taper ramp pressure of transfer set and two baffles driven to separate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821869216.1U CN209318596U (en) | 2018-11-13 | 2018-11-13 | A kind of self-feeding cap locating riveting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821869216.1U CN209318596U (en) | 2018-11-13 | 2018-11-13 | A kind of self-feeding cap locating riveting device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209318596U true CN209318596U (en) | 2019-08-30 |
Family
ID=67710151
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821869216.1U Active CN209318596U (en) | 2018-11-13 | 2018-11-13 | A kind of self-feeding cap locating riveting device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209318596U (en) |
-
2018
- 2018-11-13 CN CN201821869216.1U patent/CN209318596U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106239146B (en) | Torsion spring presss subgroup is installed | |
CN107127542B (en) | Automatic assembling machine for buffer and sliding rail | |
CN103786010B (en) | A kind of step-feeding fingertip-spring automatic assembling apparatus | |
CN203831045U (en) | Automatic marble pressing machine of universal wheel marble clip | |
CN103752827B (en) | Powder metallurgy rack bar for diesel engine automatic charging trimmer | |
CN209318596U (en) | A kind of self-feeding cap locating riveting device | |
CN108127069A (en) | Squeeze riveter | |
CN102189196A (en) | Parts conveying and positioning device and puller assembly machine using same | |
CN107971726B (en) | A kind of press-in device applied on turning machine bushing press | |
CN202785017U (en) | Quantitative pushing device for gaskets | |
CN205844759U (en) | The automatic iron core of quartz watch movement inserts retaining device | |
CN112474966A (en) | Stamping jig for stamping ceiling fan accessories | |
CN208584855U (en) | A kind of paper plate forming machine | |
CN112293281B (en) | Pet feeder | |
CN210126933U (en) | Heparin tube push pedal conveying mechanism | |
CN203358075U (en) | Pipe cutting device of hot riveting binding machine | |
CN109367841B (en) | Full-automatic beverage subpackage assembly line | |
CN104535757B (en) | A kind of motion | |
CN202037653U (en) | Automatic punching and conveying mechanism for glue dark box threading hole | |
CN204365893U (en) | Progressive die automatic waste discharge material mechanism | |
CN111167958A (en) | Automatic pay-off location riveting device | |
CN106583530B (en) | Steel pipe automatic punching machine | |
CN219169329U (en) | Guide vane separation blade stamping equipment | |
CN204565552U (en) | Blade go-on-go mechanism on blade lock pin blade assernbling machine | |
CN219009058U (en) | Sheet metal piece direction feed mechanism |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |