CN209139662U - A kind of fast precise automatic riveter - Google Patents
A kind of fast precise automatic riveter Download PDFInfo
- Publication number
- CN209139662U CN209139662U CN201822057384.7U CN201822057384U CN209139662U CN 209139662 U CN209139662 U CN 209139662U CN 201822057384 U CN201822057384 U CN 201822057384U CN 209139662 U CN209139662 U CN 209139662U
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- riveting
- mounting rack
- cam
- die
- movable block
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Abstract
The utility model relates to a kind of fast precise automatic riveters, including riveting component, rivet main part, linear guiding mechanism, table top, transmission mechanism, rivet formed punch, riveting die, product orientation bar, mounting rack, it is characterized by: the mounting rack is mounted on table top, the lower die is mounted on table top, the riveting formed punch is mounted in lower die, the riveting component is on riveting formed punch, linear guiding mechanism there are two being set on the inside of the mounting rack, the linear guiding mechanism includes guided way, movable block, mounting blocks, the guided way is mounted on the inside of mounting rack, the movable block is mounted on guided way, the mounting blocks side is connect with movable block, upper mold is installed below the mounting blocks.The utility model passes through the setting of fast precise automatic riveter, drives cam to make quickly to move up and down by deceleration mechanism using servo motor, improves the qualification rate of product while improving production efficiency again.
Description
Technical field
The utility model relates to a kind of fast precise automatic riveters.
Background technique
Riveting technology the advantage is that light-weight as a kind of brief and practical technological means.With social development, skill is riveted
Art faces very big challenge, in order to allow it preferably to service our life, and high-precision riveting, riveting equipment is mentioned
High higher requirement.
Utility model content
A kind of in order to overcome the deficiencies of the prior art, the utility model provides fast precise automatic riveter.
To solve the above problems, the technical scheme adopted by the utility model is
A kind of fast precise automatic riveter, including riveting component, rivet main part, linear guiding mechanism, table top, transmission
Mechanism rivets formed punch, riveting die, product orientation bar, mounting rack, it is characterised in that: the mounting rack is mounted on table top, institute
The riveting die stated includes upper die and lower die, and the lower die is mounted on table top, and the riveting formed punch is mounted in lower die, institute
The riveting component stated is set on the inside of the mounting rack there are two linear guiding mechanism, the straight line is led on riveting formed punch
It include guided way to mechanism, movable block, mounting blocks, the guided way is mounted on the inside of mounting rack, the movable block peace
On guided way, the mounting blocks side is connect with movable block, is equipped with upper mold, the biography below the mounting blocks
Motivation structure includes cam link component, servo deceleration component, and the cam link component includes connection frame one, connection frame two,
Connecting shaft, transmission shaft, cam one, cam two, bearing shaft one, bearing shaft two, rocker arm, attachment base one, attachment base two, the company
Frame one is connect, connection frame two is fixed on the top on the inside of mounting rack, and the one end of the connecting shaft is mounted on mounting rack, the company
The other end is equipped with cam one after spindle passes through connection frame one, and described transmission shaft one end is connect with servo deceleration component, described
Transmission shaft pass through connection frame two after the other end cam two is installed, bearing shaft is installed on the cam one and cam two
One, the one end is mounted on bearing shaft one, and the rocker arm other end is mounted on bearing shaft two, the undertaking
Axis two is mounted on attachment base one, and on attachment base two, the attachment base one is connect with upper mold, and the attachment base two and upper mold connect
It connects, the lower die is equipped with product orientation bar.
As a preference, the lower part of upper die is equipped with high-precision fixed level sensor.
As a preference, the lower part of upper die is equipped with photoelectric sensor and fibre optical sensor.
As a preference, the mounting rack side is vibrating disk, the vibrating disk passes through blanking slideway and riveting
Mould connection.
As a preference, the servo deceleration component is mounted on the outside of mounting rack.
As a preference, the guided way is equipped with mounting groove, the movable block is mounted on mounting groove.
By adopting the above-described technical solution, compared with prior art, the utility model passes through the full-automatic riveting of fast precise
The setting to pick drives cam to make quickly to move up and down, thus to having put in place using servo motor by deceleration mechanism
Part quickly accurate riveting is carried out by riveting die, when cam movement in place while carried out by photosensitive sophisticated sensor
Quickly in place whether detection rivet, while riveting parent part and component and entering to convey by automated manner, both reduces be processed into this way
This, improves the qualification rate of product again while improving production efficiency.
The utility model is described in further detail with reference to the accompanying drawings and detailed description simultaneously.
Detailed description of the invention
Fig. 1 is a kind of front view of fast precise automatic riveter of the utility model.
Fig. 2 is a kind of right sectional view of fast precise automatic riveter of the utility model.
Fig. 3 is a kind of partial view of the linear guiding mechanism of fast precise automatic riveter of the utility model.
Fig. 4 is a kind of partial view of the guided way of fast precise automatic riveter of the utility model.
In figure: 1, riveting component, 2, riveting main part, 3, linear guiding mechanism, 31, guided way, 31a, mounting groove, 32, work
Motion block, 33, mounting blocks, 4, mounting rack, 5, transmission mechanism, 51, cam link component, 51a, connection frame one, 51b, connection frame two,
51i, 51c, connecting shaft, 51d, transmission shaft, 51e, cam one, 51f, cam two, 51g, bearing shaft one, 51h, bearing shaft two shake
Arm, 51j, attachment base one, 51k, attachment base two, 52, servo deceleration component, 7, riveting formed punch, 8, riveting die, 81, upper mold, 82,
Lower die, 9, table top, 10, photoelectric sensor, 11, fibre optical sensor, 12, high-precision fixed level sensor, 13, product orientation bar, 14,
Vibrating disk, 15, blanking slideway.
Specific embodiment
Embodiment:
As shown in Figure 1-3, a kind of fast precise automatic riveter, including riveting component 1, rivet main part 2, straight-line guidance
Mechanism 3, mounting rack 4, transmission mechanism 5 rivet formed punch 7, riveting die 8, table top 9, it is characterised in that: the mounting rack 4 is installed
On table top 9, the riveting die 8 includes upper mold 81 and lower die 82, and the lower die 82 is mounted on table top 9, the riveting
It connects formed punch 7 to be mounted in lower die 82, for the riveting component 1 on riveting formed punch 7, the inside of the mounting rack 4 is equipped with two
A linear guiding mechanism 3, the linear guiding mechanism 3 include guided way 31, movable block 32, mounting blocks 33, the guiding
Rail 31 is mounted on the inside of mounting rack 33, and the movable block 32 is mounted on guided way 31,33 side of mounting blocks with
Movable block 32 connects, and upper mold 81 is equipped with below the mounting blocks 33, and the transmission mechanism 5 includes cam link component
51, servo deceleration component 52, the cam link component 51 includes one 51a of connection frame, connection frame two 51b, connecting shaft 51c,
Transmission shaft 51d, one 51e of cam, two 51f of cam, one 51g of bearing shaft, bearing shaft two 51h, Rocker arm 5 1i, one 51j of attachment base, even
Joint chair two 51k, one 51a of connection frame, two 51b of connection frame are fixed on the top of 4 inside of mounting rack, the connecting shaft
The one end 51c is mounted on mounting rack 4, and the other end is equipped with one 51e of cam after the connecting shaft 51c passes through one 51a of connection frame,
Described one end transmission shaft 51d is connect with servo deceleration component 52, and the transmission shaft 51d is another after two 51b of connection frame
End is equipped with two 51f of cam, is equipped with one 51g of bearing shaft, the Rocker arm 5 1i on two 51f of one 51e of cam and cam
One end is mounted on one 51g of bearing shaft, and the Rocker arm 5 1i other end is mounted on two 51g of bearing shaft, the bearing shaft two
51h is mounted on one 51j of attachment base, and on two 51k of attachment base, one 51j of attachment base is connect with upper mold 81, the attachment base
Two 51k are connect with upper mold 81, and the lower die 82 is equipped with product orientation bar 13.
Further, high-precision fixed level sensor 12 is equipped with below the upper mold 81, by examining to riveting depth
It surveys, improves riveting precision.
Further, it is equipped with photoelectric sensor 10 and fibre optical sensor 11 below the upper mold 81, passes through photoelectric sensing
Device 10 and fibre optical sensor 11 enter to detect, and when detecting without material, continue conveying riveting component 1, rivet main part 2.
Further, 4 side of mounting rack is vibrating disk 14, and the vibrating disk 14 passes through blanking slideway 15 and riveting
The connection of mould 8 is connect, by the setting of vibrating disk 14 and blanking slideway 15, realizes the Automatic Conveying of riveting component 1.
Further, the servo deceleration component 52 is mounted on the outside of mounting rack 4.
Further, the guided way 31 is equipped with mounting groove 31a, and the movable block 32 is mounted on mounting groove 31a
On.
In the utility model, vibrating disk 14 is transported to the product component 1 to have sorted in lower die by blanking slideway 15, then
In place whether by 11 testing product component 1 of fibre optical sensor, product main part 2 is put under riveting die 8 by finger feed
On mould 82, product orientation bar 13 is accurately positioned product, and 10 testing product main part 2 of photoelectric sensor is with 1 position of product component
It is no consistent.
Servo deceleration component 6 drives transmission shaft 51d rotation, to realize one 51e of cam, the rotation of two 51f of cam is led to
One 51e of cam is crossed, the rotation of two 51f of cam drives swinging up and down for Rocker arm 5 1i, so that moving up and down for upper mold 81 is realized,
Riveting machine is set to move up and down, up and down motion of the movable block 32 of linear guiding mechanism 3 along 31 activity of guided way, to upper mold 81
Guiding is carried out as one 51e of cam, when two 51f of cam turns to lower-limit point, the upper mold 81 and lower die 82 of riveting die 8 are at closed form
State, riveting formed punch 7 makees riveting action to product, while high-precision fixed level sensor 12 starts working, and carries out to riveting depth
Detection.Since servo motor revolving speed is controllable, when speed Control can be made in the progress riveting process of riveting die 8, both improve in this way
Efficiency and riveting intensity are riveted, and improves the stability and degree of controllability of riveting.One 51e of cam after the completion of riveting, two 51f of cam
Upper change point is turned to, at open state, finished goods is transported to next the upper mold 81 and lower die 82 of riveting die 8 by conveying machine people
Process, while 10 fibre optical sensor 11 of photoelectric sensor enters to detect returns to movement when detecting without material and enters next movement
Rivet operation.
By adopting the above-described technical solution, compared with prior art, the utility model passes through the full-automatic riveting of fast precise
The setting to pick drives cam to make quickly to move up and down, thus to having put in place using servo motor by deceleration mechanism
Part quickly accurate riveting is carried out by riveting die, when cam movement in place while carried out by photosensitive sophisticated sensor
Quickly in place whether detection rivet, while riveting parent part and component and entering to convey by automated manner, both reduces be processed into this way
This, improves the qualification rate of product again while improving production efficiency.
The utility model is not limited to above-mentioned preferred forms, and anyone should learn that under the enlightenment of the utility model
The structure change made, it is all that there is same or similar technical solution with the utility model, belong to the utility model
Protection scope.
Claims (6)
1. a kind of fast precise automatic riveter, including riveting component, rivet main part, linear guiding mechanism, table top, driver
Structure rivets formed punch, riveting die, product orientation bar, mounting rack, it is characterised in that: the mounting rack is mounted on table top, described
Riveting die include upper die and lower die, the lower die is mounted on table top, and the riveting formed punch is mounted in lower die, described
Riveting component on riveting formed punch, set on the inside of the mounting rack there are two linear guiding mechanism, the straight-line guidance
Mechanism includes guided way, movable block, mounting blocks, and the guided way is mounted on the inside of mounting rack, the movable block installation
On guided way, the mounting blocks side is connect with movable block, is equipped with upper mold, the transmission below the mounting blocks
Mechanism includes cam link component, and servo deceleration component, the cam link component includes connection frame one, and connection frame two connects
Spindle, transmission shaft, cam one, cam two, bearing shaft one, bearing shaft two, rocker arm, attachment base one, attachment base two, the connection
Frame one, connection frame two are fixed on the top on the inside of mounting rack, and the one end of the connecting shaft is mounted on mounting rack, the connection
The other end is equipped with cam one after axis passes through connection frame one, and described transmission shaft one end is connect with servo deceleration component, described
The other end is equipped with cam two after transmission shaft passes through connection frame two, is equipped with bearing shaft one on the cam one and cam two,
The one end is mounted on bearing shaft one, and the rocker arm other end is mounted on bearing shaft two, the bearing shaft
Two are mounted on attachment base one, and on attachment base two, the attachment base one is connect with upper mold, and the attachment base two and upper mold connect
It connects, the lower die is equipped with product orientation bar.
2. fast precise automatic riveter as described in claim 1, it is characterised in that: the lower part of upper die is equipped with high-precision
Spend alignment sensor.
3. fast precise automatic riveter as described in claim 1, it is characterised in that: the lower part of upper die is equipped with photoelectricity
Sensor and fibre optical sensor.
4. fast precise automatic riveter as described in claim 1, it is characterised in that: the mounting rack side is vibration
Disk, the vibrating disk are connect by blanking slideway with riveting die.
5. fast precise automatic riveter as described in claim 1, it is characterised in that: the servo deceleration component installation
In the outside of mounting rack.
6. fast precise automatic riveter as described in claim 1, it is characterised in that: the guided way is equipped with installation
Slot, the movable block are mounted on mounting groove.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822057384.7U CN209139662U (en) | 2018-12-07 | 2018-12-07 | A kind of fast precise automatic riveter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822057384.7U CN209139662U (en) | 2018-12-07 | 2018-12-07 | A kind of fast precise automatic riveter |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209139662U true CN209139662U (en) | 2019-07-23 |
Family
ID=67289535
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201822057384.7U Active CN209139662U (en) | 2018-12-07 | 2018-12-07 | A kind of fast precise automatic riveter |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209139662U (en) |
-
2018
- 2018-12-07 CN CN201822057384.7U patent/CN209139662U/en active Active
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