CN105945205A - Continuous riveting device for electric chain saw chain - Google Patents

Abstract

The invention discloses a continuous riveting device for an electric chain saw chain. The continuous riveting device comprises an upper disc, a middle disc, a lower disc, first reset springs, second reset springs, a drive structure, a feeding mechanism and a riveting mechanism, wherein the upper disc, the middle disc and the lower disc are sequentially arranged in an up-down manner. The middle disc is provided with first through grooves. First supporting pieces are arranged at the positions of lower groove openings of the first through grooves. The first supporting pieces are hinged to the lower groove openings of the first through grooves. The first reset springs are located below the first supporting pieces and used for supporting the first supporting pieces. The upper disc is provided with second through grooves. Second supporting pieces are arranged at the positions of lower groove openings of the second through grooves. One sides of the second supporting pieces are all hinged to the lower groove openings of the second through grooves. The second reset springs are located below the second supporting pieces and used for supporting the second supporting pieces. The lower disc is provided with third grooves. The drive mechanism is used for driving the upper disc, the middle disc and the lower disc to synchronously rotate. The feeding mechanism is used for conducting feeding. The riveting mechanism is used for conducting riveting. The continuous riveting device is high in machining efficiency.

Description

A kind of Electric chain saw chain seriality riveting set

Technical field

The present invention relates to graden machine technical field, particularly relate to a kind of Electric chain saw chain seriality riveting set.

Background technology

Electric chain saw is that the chain saw blade of a kind of revolution carries out the woodwork power tool that saw cuts.Its saw blade mainly has Multiple blades and the cutter that multiple connection sheet interval is arranged and order riveting is formed.In order to realize cutter riveting Flowing water is worked continuously, and cutter riveting set enters next riveting action after completing a riveting operation, This just requires that riveting set can be spaced continuous action.In prior art, in riveting process, blade and company The riveting of contact pin makes two bites at a cherry, and first completes blade or connects the riveting of sheet and rivet, carrying out Connecting the riveting of sheet or blade and rivet, in actual application, its riveting work efficiency is the lowest, riveting Poor effect.Therefore, cutter riveting set and the riveting method of prior art urgently improves.

Summary of the invention

The technical problem existed based on above-mentioned background technology, the present invention proposes a kind of Electric chain saw chain seriality riveting Connection device, to improve its working (machining) efficiency.

The present invention proposes a kind of Electric chain saw chain seriality riveting set, and described Electric chain saw chain includes some Individual blade and several connect sheet, described riveting set completes each blade and each connection sheet for seriality Riveting action each blade after making riveting and each connection sheet interval are arranged, described riveting set includes: upper circle Dish, intermediate disc, lower disc, the first back-moving spring, the second back-moving spring, driving structure, feed mechanism And riveting mechanism, wherein:

Intermediate disc is horizontally disposed, intermediate disc be provided with multiple around its axial line annular be evenly arranged first lead to Groove, the first groove run through intermediate disc upper and lower end face and with described blade fits；First groove is near middle The side of disk lower surface is provided with multiple first support chip, and each first support edge is along the vallecular cavity annular of the first groove Arrange, and the side of each first support chip is all hinged with intermediate disc；

First back-moving spring is positioned at the lower section of the first support chip for being supported the first support chip, and first In a free state, the upper surface of the first support chip is in same water with the lower notch of the first groove to back-moving spring In plane；

Upper disk and lower disc lay respectively at above and below intermediate disc, and upper disk, intermediate disc and Lower disc is coaxially arranged, is all reserved with and carries out feeding for feed mechanism between upper disk and lower disc and telophragma The free gap of action；

Upper disk be provided with consistent with the first groove quantity and around upper disc axis wire loop be evenly arranged second lead to Groove, the second groove runs through the upper and lower end face of disk and is connected sheet adaptation with described, and in each second groove, Any one the second groove orthographic projection on intermediate disc is respectively positioned between adjacent two the first grooves, and, There is overlay region at the two ends of this second groove orthographic projection between the end being adjacent to two the first grooves；

Second groove is provided with multiple second support chip, each second edge, support edge near the side of upper disk lower surface The vallecular cavity of the second groove is circular layout, and the side of each second support chip is all hinged with upper disk；

Second back-moving spring is positioned at the lower section of the second support chip for being supported the second support chip, and second In a free state, the upper surface of the second support chip is in same water with the lower notch of the second groove to back-moving spring In plane；

On lower disc and be positioned at the lower section of any one the second groove and be equipped with the 3rd groove, the 3rd groove by under The upper end of disk extends towards its lower surface, and the orthographic projection on upper disk of the 3rd groove overlaps with the first groove； The bottom land of the 3rd groove and be located close to its end positions and be respectively equipped with the slot to make way downwardly extended；

Drive mechanism is used for driving disk, intermediate disc and lower disc by feed mechanism direction to riveting mechanism Direction carries out synchronous axial system；

Feed mechanism connects sheet for placing in the second groove and the 3rd groove, places cutter in the first groove Sheet；

Riveting mechanism for connecting the blade in sheet and the first groove and the connection in the 3rd groove by the second groove Sheet rivets.

Preferably, intermediate disc lower surface is provided with the first deep gouge extended to its direction, upper surface, and first sinks Groove and the first groove is coaxially arranged and with the first groove conducting, and the footpath area of section of the first deep gouge is more than first The footpath area of section of groove.

Preferably, the first support chip 10 is positioned at the first deep gouge and the connectivity part of the first groove 401, and first Blade 10 is provided with the first connection post near the side of the first deep gouge.

Preferably, in first back-moving spring displacement the first deep gouge, and the two ends of the first back-moving spring are respectively with The first connection post and the sidewall of the first deep gouge on one support chip connect.

Preferably, upper disk lower surface is provided with the second deep gouge extended to its direction, upper surface, the second deep gouge Coaxially arranged with the second groove and with second groove conducting, and the footpath area of section of the second deep gouge more than second lead to The footpath area of section of groove.

Preferably, the second support chip is positioned at the second deep gouge and the connectivity part of the second groove, and the second support chip leans on The side of nearly second deep gouge is provided with the second connection post.

Preferably, in second back-moving spring displacement the second deep gouge, and the two ends of the second back-moving spring are respectively with The second connection post and the sidewall of the second deep gouge on two support chips connect.

Preferably, upper disk, telophragma and lower disc are fixing each other connects.

Preferably, riveting mechanism includes riveting nose and the power moved up and down for driving riveting nose to carry out Unit.

Preferably, the lower section of lower disc and be positioned at the direction of motion of riveting nose and be provided with support platform.

In the present invention, the location arrangements of upper disk, intermediate disc and lower disc, form upper, middle and lower layering Supporting construction, and be respectively provided with on upper disk, intermediate disc and lower disc and be connected sheet or blade coupling The second groove, the first groove and the 3rd groove；Second groove and the second back-moving spring and the second support chip phase Interworking is share in placing connection sheet；First groove and the first back-moving spring and the first support chip cooperate for Place blade；3rd groove is used for placing connection sheet, in making the connection sheet in the 3rd groove and the second groove Connect sheet to coordinate the blade in the first groove carries out two sides clamping, and in each second groove and the 3rd groove Connect between the orthographic projection in the horizontal plane of the blade in sheet and each first groove in every arrangement；Drive mechanism is used for Disk, intermediate disc and lower disc synchronous axial system in driving, when it goes to feeding station, feed mechanism divides Do not place in the second groove and the 3rd groove and connect sheet, in the first groove, place blade；When it goes to riveting When connecing station, riveting mechanism action, by the blade and the 3rd connected in sheet, the first groove in the second groove One end riveting connecting sheet in groove, and along with the seriality of upper disk, intermediate disc and lower disc rotates, Realize the seriality of feeding, sequence, riveting action, thus effectively raise its working (machining) efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of Electric chain saw chain seriality riveting set that the present invention proposes；

Fig. 2 is upper disk, centre described in a kind of Electric chain saw chain seriality riveting set that the present invention proposes Disk and the top view of lower disc；

Fig. 3 is the knot of the first groove described in a kind of Electric chain saw chain seriality riveting set that the present invention proposes Structure schematic diagram；

Fig. 4 is the knot of the second groove described in a kind of Electric chain saw chain seriality riveting set that the present invention proposes Structure schematic diagram；

Fig. 5 is a kind of Electric chain saw chain seriality riveting set riveting result map that the present invention proposes.

Detailed description of the invention

Below, by specific embodiment, technical scheme is described in detail.

As Figure 1-5, Fig. 1 is the knot of a kind of Electric chain saw chain seriality riveting set that the present invention proposes Structure schematic diagram；Fig. 2 be upper disk described in a kind of Electric chain saw chain seriality riveting set that the present invention proposes, Intermediate disc and the top view of lower disc；Fig. 3 is a kind of Electric chain saw chain seriality riveting that the present invention proposes The structural representation of the first groove described in device；Fig. 4 is that a kind of Electric chain saw chain that the present invention proposes is continuous The structural representation of the second groove described in property riveting set；Fig. 5 is a kind of current source saw chain that the present invention proposes Bar seriality riveting set riveting result map.

With reference to Fig. 1-5, a kind of Electric chain saw chain seriality riveting set that the embodiment of the present invention proposes, described electricity Chain saw chain includes several blades 1 and several connection sheets 2, and it is right that described riveting set completes for seriality Each blade 1 and the riveting action of each connection sheet 2 each blade 1 after making riveting and each connection sheet 2 are spaced cloth Putting, described riveting set includes: upper disk 3, intermediate disc 4, lower disc the 5, first back-moving spring 6, Second back-moving spring 7, driving structure, feed mechanism 8 and riveting mechanism 9, wherein:

Intermediate disc 4 is horizontally disposed, and intermediate disc 4 is provided with and multiple is evenly arranged around its axial line annular One groove 401, the first groove 401 runs through the upper and lower end face of intermediate disc 4 adaptive with described blade 1；In Between disk 4 lower surface be provided with to its direction, upper surface extend the first deep gouge, the first deep gouge and the first groove 401 is coaxially arranged and turn on the first groove 401, and the footpath area of section of the first deep gouge is more than the first groove The footpath area of section of 401；First groove 401 is provided with multiple first support chip 10 near the side of the first deep gouge, Each first support edge is circular layout along the vallecular cavity of the first groove 401, and the side of each first support chip 10 all with Intermediate disc 4 is hinged, and the first support chip 10 is provided with the first connection post near the side of the first deep gouge；First is multiple Position spring 6 displacement the first deep gouge in, and the two ends of the first back-moving spring 6 respectively with on the first support chip 10 First sidewall connecting post and the first deep gouge connects, and the first back-moving spring 6 is in a free state, first The upper surface of blade 10 is in same level with the lower notch of the first groove 401；In action, when When one support chip 10 is by downward pressure, the first support chip 10 can be opened downwards so that is supported by first Sheet 10 supporting role card is put the blade 1 to the first groove 401 and can be moved downward in the first groove 401, And when distress resolves, the first support chip 10 can set back.

Upper disk 3 and lower disc 5 lay respectively at above and below intermediate disc 4, and upper disk 3, centre Disk 4 and lower disc 5 are coaxially arranged, are all reserved with for upper between upper disk 3 and lower disc 5 and telophragma Material mechanism 8 carries out the free gap of feeding action；Upper disk 3, telophragma and lower disc 5 are fixed each other Connect and form entirety, to improve second groove the 301, first groove 401 and the 3rd groove 501 position relationship Stability.

Upper disk 3 is provided with consistent with the first groove 401 quantity and around upper disk 3 axial line annular uniformly cloth Putting the second groove 301, the second groove 301 runs through the upper and lower end face of disk 3 and is connected sheet 2 adaptation with described, And in each second groove 301, any one the second groove 301 orthographic projection on intermediate disc 4 is respectively positioned on Between adjacent two the first grooves 401, and, the two ends of this second groove 301 orthographic projection are being adjacent to Overlay region is had between the end of two the first grooves 401；Upper disk 3 lower surface is provided with to its upper surface side To the second deep gouge extended, the second deep gouge and the second groove 301 is coaxially arranged and turns on the second groove 301, And second the footpath area of section of deep gouge more than the footpath area of section of the second groove 301；Second groove 301 is close The side of the second deep gouge is provided with multiple second support chip 11, and each second support edge is along the vallecular cavity of the second groove 301 Being circular layout, and the side of each second support chip 11 is all hinged with upper disk 3, the second support chip 11 is close The side of the second deep gouge is provided with the second connection post；In second back-moving spring 7 displacement the second deep gouge, and second is multiple The two ends of position spring 7 are connected the sidewall of post and the second deep gouge respectively and connect with second on the second support chip 11, And second back-moving spring 7 in a free state, the upper surface of the second support chip 11 and the second groove 301 times Notch is in same level；At work, when the second support chip 11 is by downward pressure, second Blade 11 can be opened downwards so that is put to the second groove 301 by the second support chip 11 supporting role card Connection sheet 2 can move downward in the second groove 301, and when distress resolves, the second support chip 11 Can set back.

On lower disc 5 and be positioned at the lower section of any one the second groove 301 and be equipped with the 3rd groove 501, the 3rd Groove 501 is extended towards its lower surface by the upper end of lower disc 5, and the 3rd groove 501 is on upper disk 3 Orthographic projection overlaps with the first groove 401；The bottom land of the 3rd groove 501 and be located close to its end positions respectively It is provided with the slot to make way 502 downwardly extended；Drive mechanism is used for driving disk 3, intermediate disc 4 and lower disc 5 are carried out synchronous axial system by feed mechanism 8 direction to riveting mechanism 9 direction；Feed mechanism 8 is for leading to second Place in groove 301 and the 3rd groove 501 and connect sheet 2, in the first groove 401, place blade 1；Riveting machine Structure 9 for connecting the blade 1 in sheet 2 and the first groove 401 and the 3rd groove 501 by the second groove 301 Interior connection sheet 2 rivets；Riveting mechanism 9 includes riveting nose and for driving riveting nose to carry out The power unit of lower motion；In riveting process, the riveting nose in riveting mechanism is in the promotion of power unit Under move down, in moving process, riveting nose successively will in the second groove 301 connect sheet 2 and second Connection 2 direction in the 3rd groove 501 pushed to by blade 1 in groove 401 makes three's weight on lower disc 5 Folded, and in moving process, the rivet entrained by riveting nose will connect sheet 2, second in the second groove 301 Blade 1 in groove 401 and the one end connecting sheet 2 in the 3rd groove 501 connect, and pass through slot to make way The rivet effect of stepping down is riveted by 502.

In the present embodiment, the lower section of lower disc 5 and be positioned at the direction of motion of riveting nose and be provided with support platform 12, Support arranging of platform 12 in riveting process, lower disc 5 to be supported.

In the present invention, upper disk 3, intermediate disc 4 and the location arrangements of lower disc 5, form upper, middle and lower The supporting construction of layering, and be respectively provided with on upper disk 3, intermediate disc 4 and lower disc 5 and be connected sheet 2 Or the second groove the 301, first groove 401 and the 3rd groove 501 of blade 1 coupling；Second groove 301 with Second back-moving spring 7 cooperates with the second support chip 11 and is connected sheet 2 for placing；First groove 401 with First back-moving spring 6 and the first support chip 10 cooperate for placing blade 1；3rd groove 501 is used for Place and connect sheet 2, make the sheet 2 that connects in the 3rd groove 501 coordinate with the connection sheet 2 in the second groove 301 Blade 1 in first groove 401 is carried out two sides clamping, and each second groove 301 and the 3rd groove 501 In every arrangement between the orthographic projection in the horizontal plane of the interior blade 1 connected in sheet 2 and each first groove 401； Drive mechanism is used for driving disk 3, intermediate disc 4 and lower disc 5 synchronous axial system, when it goes to feeding work During position, feed mechanism 8 is placed in the second groove 301 and the 3rd groove 501 respectively and is connected sheet 2, to first Blade 1 is placed in groove 401；When it goes to rivet station, riveting mechanism 9 action, by the second groove The blade 1 connected in sheet the 2, first groove 401 in 301 and one of the connection sheet 2 in the 3rd groove 501 End riveting, and along with the seriality of upper disk 3, intermediate disc 4 and lower disc 5 rotates, it is achieved feeding, row Sequence, the seriality of riveting action, thus effectively raise its working (machining) efficiency.

The above, the only present invention preferably detailed description of the invention, but protection scope of the present invention not office Being limited to this, any those familiar with the art is in the technical scope that the invention discloses, according to this The technical scheme of invention and inventive concept thereof in addition equivalent or change, all should contain the protection in the present invention Within the scope of.

Claims (10)

1. an Electric chain saw chain seriality riveting set, described Electric chain saw chain includes several blades (1) Connecting sheet (2) with several, described riveting set completes each blade (1) and each connection sheet for seriality (2) riveting action each blade (1) after making riveting and each connection sheet (2) interval are arranged, its feature Being, described riveting set includes: upper disk (3), intermediate disc (4), lower disc (5), first multiple Position spring (6), the second back-moving spring (7), driving structure, feed mechanism (8) and riveting mechanism (9), Wherein:

Intermediate disc (4) is horizontally disposed, and intermediate disc (4) is provided with multiple uniform around its axial line annular Arrange the first groove (401), the first groove (401) run through intermediate disc (4) upper and lower end face and with institute State blade (1) adaptive；First groove (401) is provided with multiple near the side of intermediate disc (4) lower surface First support chip (10), each first support edge is circular layout along the vallecular cavity of the first groove (401), and each The side of one support chip (10) is all hinged with intermediate disc (4)；

First back-moving spring (6) is positioned at the lower section of the first support chip (10) for the first support chip (10) Be supported, and the first back-moving spring (6) be in a free state, the upper surface of the first support chip (10) with The lower notch of the first groove (401) is in same level；

Upper disk (3) and lower disc (5) lay respectively at above and below intermediate disc (4), and upper circle Dish (3), intermediate disc (4) and lower disc (5) are coaxially arranged, upper disk (3) and lower disc (5) And all it is reserved with the free gap carrying out feeding action for feed mechanism (8) between telophragma；

Upper disk (3) is provided with consistent with the first groove (401) quantity and around upper disk (3) axle center wire loop Shape is evenly arranged the second groove (301), and the second groove (301) runs through the upper and lower end face of disk (3) also It is connected sheet (2) adaptation with described, and in each second groove (301), any one second groove (301) Orthographic projection on intermediate disc (4) is respectively positioned between adjacent two the first grooves (401), and, should The two ends of the second groove (301) orthographic projection have between the end being adjacent to two the first grooves (401) Overlay region；

Second groove (301) is provided with multiple second support chip (11) near the side of upper disk (3) lower surface, Each second support edge is circular layout along the vallecular cavity of the second groove (301), and the one of each second support chip (11) Side is all hinged with upper disk (3)；

Second back-moving spring (7) is positioned at the lower section of the second support chip (11) for the second support chip (11) Be supported, and the second back-moving spring (7) be in a free state, the upper surface of the second support chip (11) with The lower notch of the second groove (301) is in same level；

Lower disc (5) is upper and is positioned at the lower section of any one the second groove (301) and is equipped with the 3rd groove (501), 3rd groove (501) is extended towards its lower surface by the upper end of lower disc (5), and the 3rd groove (501) exists Orthographic projection on upper disk (3) overlaps with the first groove (401)；The bottom land of the 3rd groove (501) and position In being respectively equipped with, near its end positions, the slot to make way (502) downwardly extended；

Drive mechanism is used for driving disk (3), intermediate disc (4) and lower disc (5) by feed mechanism (8) direction carries out synchronous axial system to riveting mechanism (9) direction；

Feed mechanism (8) connects sheet (2) for placing in the second groove (301) and the 3rd groove (501), Blade (1) is placed in the first groove (401)；

Riveting mechanism (9) is interior with the first groove (401) for the second groove (301) connects sheet (2) Blade (1) and the 3rd groove (501) in connection sheet (2) rivet.

Electric chain saw chain seriality riveting set the most according to claim 1, it is characterised in that middle Disk (4) lower surface is provided with the first deep gouge extended to its direction, upper surface, the first deep gouge and the first groove (401) coaxially arranged and turn on the first groove (401), and the footpath area of section of the first deep gouge is more than the The footpath area of section of one groove (401).

Electric chain saw chain seriality riveting set the most according to claim 2, it is characterised in that first Support chip (10) is positioned at the first deep gouge and the connectivity part of the first groove (401), and the first support chip (10) It is provided with the first connection post near the side of the first deep gouge.

Electric chain saw chain seriality riveting set the most according to claim 3, it is characterised in that first In back-moving spring (6) displacement the first deep gouge, and the two ends of the first back-moving spring (6) support with first respectively The first connection post and the sidewall of the first deep gouge on sheet (10) connect.

Electric chain saw chain seriality riveting set the most according to claim 1, it is characterised in that upper circle Dish (3) lower surface is provided with the second deep gouge extended to its direction, upper surface, the second deep gouge and the second groove (301) coaxially arranged and turn on the second groove (301), and the footpath area of section of the second deep gouge is more than the The footpath area of section of two grooves (301).

Electric chain saw chain seriality riveting set the most according to claim 5, it is characterised in that second Support chip (11) is positioned at the second deep gouge and the connectivity part of the second groove (301), and the second support chip (11) It is provided with the second connection post near the side of the second deep gouge.

Electric chain saw chain seriality riveting set the most according to claim 6, it is characterised in that second In back-moving spring (7) displacement the second deep gouge, and the two ends of the second back-moving spring (7) support with second respectively The second connection post and the sidewall of the second deep gouge on sheet (11) connect.

Electric chain saw chain seriality riveting set the most according to claim 1, it is characterised in that upper circle Dish (3), telophragma and lower disc (5) are fixing each other to be connected.

9. according to the Electric chain saw chain seriality riveting set according to any one of claim 1-8, its feature Being, riveting mechanism (9) includes riveting nose and the power list moved up and down for driving riveting nose to carry out Unit.

10., according to the Electric chain saw chain seriality riveting set according to any one of claim 1-8, it is special Levy and be, the lower section of lower disc (5) and be positioned at the direction of motion of riveting nose and be provided with support platform (12).