CN202701714U - Long-tail clamp assembling device - Google Patents

Abstract

The utility model relates to mechanical assembling equipment, in particular to a long-tail clamp assembling device. The long-tail clamp assembling device comprises a guide rail which is used for conveying a clamp body, a rotary table which is arranged at one side of the guide rail, and a stop block which is used for stopping the advancing of the clamp body on the guide rail, wherein at least one positioning mechanism, which is used for driving a tail shank to rotate and inserting a front chuck of the tail shank into a front hemming bayonet of the clamp body, is arranged on the rotary table; the rear part of the positioning mechanism is provided with a pressing part which is used for pressing the tail shank from the rear after the tail shank is inserted into the front hemming bayonet of the clamp body; and the long-tail clamp assembling device also comprises a stop block actuating mechanism which is used for driving the stop block to retract when the positioning mechanism presses the tail shank to the limit. Compared with the prior art, the whole structure of the long-tail clamp assembling device is simple and reasonable, the service life is long, the assembling precision is high, the efficiency is high, the action is reliable, the production cost and the maintenance cost are low, and the problem of neglected assembling can be solved.

Description

A kind of binder clip assembling device

Technical field

The utility model relates to mechanical assembly equipment, relates in particular to a kind of binder clip assembling device.

Background technology

Binder clip has another name called dovetail clip, phoenix tail folder, long-tail ticket holder etc., is used for a repeated file set one, and be a kind of common folder class articles for use.It generally is made of metal, and is made of a clamp and two long caudal peduncles, and clamp is one-time formed bending steel disc, and the principle of recovering by metal form provides clip required elastic force; Caudal peduncle is that steel wire is made, and an end that is connected with clamp is movable, clips rotatable setting level behind the file, is convenient to file and stacks.Binder clip is widely used in the industry of the data such as all kinds of needs arrange the document, bill, such as enterprise, school, government bodies, library etc.

The binder clip of industry assembling mode generally adopts manual assembly at present, this kind assembling mode needs a large amount of workmans' the simple duplication of labour, not only efficiency of assembling is low, labour intensity is large, and because binder clip itself is cheap, cause assembly cost to occupy the quite high ratio of totle drilling cost, even along with the continuous growth of recruitment cost, its accounting is more and more higher, and then cause enterprise profit to reduce even loss, so this kind production model has been on the verge of to eliminate.

Except the manual assembly mode, industry part producer adopts the machinery assembling.The common method of machinery assembling has two kinds: a kind of is horizontal assembling method, such as disclosed technical scheme in the Chinese patent " Automatic Binder Clip Assembly Machine " of patent No. ZL03116826.4, its principle roughly is to pinch caudal peduncle by a clamp structure, move horizontally afterwards caudal peduncle to clamp rigging position (such as the inclined-plane along the clamp both sides), unclamp at last caudal peduncle and make it to pack in the clamp; Another kind is the rotation assembling method, the disclosed technical scheme of Chinese patent " automatic assembling mechanism for long tail clamp " such as patent No. ZL200410066537.4, this kind method is same to adopt a clamp structure to pinch caudal peduncle, difference is to control this clamp structure rigging position that rotates to an angle, in the clamp of afterwards caudal peduncle being packed into.But because the binder clip build is less, the compensation surplus is little during assembling, therefore for above-mentioned two kinds of caudal peduncle assembly structures, all have following shortcoming: 1, all need clamping device (such as the left and right sides gripper in the above-mentioned patent documentation, left and right sides pressure strips etc.) at first clamping caudal peduncle both sides make it compression, move to afterwards rigging position, because caudal peduncle adopts steel wire to make, has higher elasticity, location difficulty during clamping, in clamping and moving process, be very easy to the situation that relative clamping device skew occurs even flicks, and then cause caudal peduncle can't be accurately and clamp corresponding, cause and assemble unsuccessfully; 2, for two assemblies realizing clamping and locomotive function very high cooperation requirement is arranged, in case mismate occurs, can cause equally assembling unsuccessfully.Owing to above reason, these two kinds mechanical assembling modes have higher neglected loading ratio when reality is used, and especially after assembly equipment used a period of time wearing and tearing to occur, its neglected loading ratio more significantly improved.So adopt the producer of machinery assembling binder clip need to carry out the desk checking second time for the binder clip that the machinery assembling is finished toward contact, mend dress for the binder clip of neglected loading.

The utility model content

The purpose of the utility model embodiment is for the higher problem of existing neglected loading rate in the assembling of existing binder clip machinery, proposes a kind of binder clip assembling device, have advantages of rational in infrastructure, efficiency of assembling is high, reliable and stable, long service life.

In order to reach above-mentioned utility model purpose, a kind of binder clip assembling device that the utility model embodiment proposes is achieved through the following technical solutions:

A kind of binder clip assembling device is used for the binder clip that assembling is assembled by caudal peduncle and clamp, and it is characterized in that: described assembling device comprises the block that the guide rail of carrying described clamp, the rotating disk of being located at guide rail one side, backstop clamp advance at described guide rail;

At least be provided with a detent mechanism that drives described caudal peduncle rotation and the front dop of described caudal peduncle is inserted the front crimping bayonet socket of described clamp on the described rotating disk, described detent mechanism rear portion has the oppression department of oppressing described caudal peduncle after caudal peduncle inserts the front crimping bayonet socket of described clamp from the rear;

In addition, also include and oppress described caudal peduncle at described detent mechanism and drive the block executing agency that described block is retracted extremely in limited time.

Further preferred, described block executing agency comprises a cam that rotates with described dial rotation and joins with described cam and carry out reciprocating driven member, and described block is fixed on the described driven member directly or indirectly.

Further preferred, described detent mechanism is made of the some lug bosses that are formed on described disk upper surface, and described lug boss encloses the zone that cooperates with the caudal peduncle profile, and the part lug boss that is positioned at described rear turret portion consists of described oppression department; Perhaps described detent mechanism is the recess that is arranged with at described disk upper surface, and the female section shape cooperates with the caudal peduncle profile; Its forward and backward dop protruded from described rotating disk outer rim when described caudal peduncle correspondence was arranged on described detent mechanism.

Further preferred, described cam is coaxial fixing with described rotating disk, and peak is corresponding with described detent mechanism position on the described cam.

Further preferred, at least two described detent mechanisms are set on the described rotating disk, described detent mechanism is circumferentially uniform along described rotating disk, forms the peak corresponding with described detent mechanism quantity on the described cam.

Further preferred, have between described rotating disk and the described guide rail and make described front dop when the described front crimping bayonet socket of insertion, just be positioned at the inclination angle of its circumference running orbit peak.

Further preferred, described guide rail comprises upper rail and lower guideway, form the gathering sill cooperate with the clamp bottom shape on the described lower guideway, one of described upper rail lower end formation is parallel and over against seamed edge, described seamed edge and the described clamp jaws form fit of gathering sill.

Further preferred, described upper rail is provided with a limit channels that forms opening at described seamed edge, and described block is located in the described limit channels.

Further preferred, described assembling device also comprises the parallel cover plate of being located at the rotating disk top, described cover plate and rotating disk are formed with the little gap with caudal peduncle thickness of width, and described cover plate bottom offers the perforate with the caudal peduncle form fit, and described perforate is corresponding with described detent mechanism position.

Further preferred, described assembling device also comprises the caudal peduncle feed mechanism, and described caudal peduncle feed mechanism comprises a slide rail of carrying described caudal peduncle, and the position of perforate is corresponding on described slide rail outlet and the described cover plate.

Compared with prior art, the utlity model has following advantage: realize the synchronous of reciprocating motion and rotation by co-axially fixed cam and rotating disk, thereby the step that will pinch the assembling of caudal peduncle and caudal peduncle is carried out synchronously, simplify the structure, be convenient to control, the total advantages of simple, long service life, assembly precision is high, efficient is high, reliable in action, the problem of neglected loading can not occur, production cost and maintenance cost are cheap, can substitute existing binder clip assembly equipment comprehensively and are widely used in the production process of binder clip.

Description of drawings

By the description of its exemplary embodiment being carried out below in conjunction with accompanying drawing, the above-mentioned feature and advantage of the utility model will become apparent and easily understand.

Fig. 1 is the structural representation of the utility model embodiment binder clip assembling device one side;

Fig. 2 is the local enlarged diagram of Fig. 1;

Fig. 3 is the utility model embodiment binder clip assembling device opposite side structural representation (cover plate is removed);

Fig. 4 is the structural representation (cover plate is removed) behind the removal caudal peduncle feed mechanism;

Fig. 5 is the local enlarged diagram of Fig. 4;

Fig. 6 is the structural representation (assembling cover plate) behind the removal caudal peduncle feed mechanism;

Fig. 7 is the structural representation that is applicable to a kind of binder clip of the utility model embodiment.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in further detail, so that technical staff's of the same trade understanding:

Shown in Fig. 1-7, label represents respectively: clamp 100, crimping bayonet socket 110, caudal peduncle 200, handle bar 210, dop 211, frame 300, base 310, installation position 311, cover plate 320, guide rail 400, upper rail 410, breach 411, lower guideway 420, gathering sill 421, rotating disk 500, locating slot 510, oppression department 511, rotating shaft 520, executing agency 600, cam 610, swing arm 611, driven member 620, the first plane 621, the second plane 622, block 700, driving mechanism 800, caudal peduncle feed mechanism 900, slide rail 901.

A kind of binder clip assembling device of the utility model embodiment is used for the assembling of binder clip.Referring to Fig. 7, it is a kind of typical binder clip structure, is combined by two caudal peduncles 200 and clamp 100.Wherein the jaws both sides of clamp 100 form crimping bayonet socket 110, have two integrally formed handle bars 210 on the caudal peduncle 200, and the end outward of handle bar 210 forms dop 211, and dop 211 correspondences are inserted in the crimping bayonet socket 110 of clamp 100, and form and articulate.

Shown in Fig. 1-6, this assembling device comprises frame 300, as the installation main body of the member that is used for assembling.Frame 300 lower ends form a base 310 that is used for being placed on the horizontal plane (ground, workbench etc.).Mainly be provided with guide rail 400 on this frame 300, rotating disk 500, executing agency 600 and block 700.Wherein:

Guide rail 400:

Guide rail 400 is constituted by two line slideway upper rails 410 and lower guideway 420 as the conveying mechanism of clamp 100.Wherein: lower guideway 420 upper surfaces are formed with one and the adaptive gathering sill 421 in clamp 100 bottoms, and the bottom surface of this gathering sill 421 consists of the spigot surface of clamp 100 bottoms; Upper rail 410 parallel lower guideway 420 tops of being located at, upper rail 410 lower ends form one parallel and over against the seamed edge of gathering sill, the jaws form fit of this seamed edge and clamp 100, and corresponding with the position of clamp 100 jaws on lower guideway 420.Be provided with the pushing mechanism that moves for promoting clamp 100 on the guide rail 400, perhaps be used in combination with delivery device, more in the mobile technical scheme of guide rail for promoting the workpiece with solid shape in the prior art, therefore do not repeat them here.

Rotating disk 500:

Rotating disk 500 is arranged on a side of guide rail 400, and its axes of rotation skew is in the spigot surface setting of guide rail 400, makes any point of rotating disk 500 rotate to distance guide rail 400 the most nearby the time, also is simultaneously the peak on this rotational trajectory.The rotating shaft 520 of rotating disk 500 is fixed on the output of a driving mechanism 800, and uniform rotation under the driving of driving mechanism 800.Driving mechanism 800 can adopt motor or other can realize the device of uniform rotation.

The upper surface of rotating disk 500 is symmetrically arranged with two suitable detent mechanisms of described caudal peduncle 200 shapes.In the present embodiment, detent mechanism is two locating slots that are arranged with 510.Locating slot 510 shapes and described caudal peduncle 200 profiles are suitable, and caudal peduncle 200 setting-ins are entered in it.Locating slot 510 is formed with opening in the outer rim of rotating disk 500, and when described caudal peduncle 200 is inlaid in described locating slot 510 when interior, two dops 211 of caudal peduncle 200 protrude from described rotating disk 500 outer rims by this opening, and rotate with the rotation of rotating disk 500.The movement locus of the crimping bayonet socket 110 of the clamp 100 on the track of the circular motion of these two dops 211 and the described guide rail 400 is tangent, specifically, when a locating slot 510 turned to the nearest position of distance guide rail 400, dop 211 of the caudal peduncle 200 of setting-in just and crimping bayonet socket 110 correspondences of the clamp 100 on the guide rail 400 in it.

A sidewall of locating slot 510 consists of oppression department 511, and this oppression department 511 is roughly fitted with the handle bar 210 of caudal peduncle 200 rear sides.With dial rotation, when being blocked, the dop 211 of described caudal peduncle 200 front sides (namely is inserted into the crimping bayonet socket 110 of clamp 100, and when clamp 100 is blocked, specifically can be referring to the description for block 700 parts), the handle bar 210 that described oppression department 511 promotes to join with it makes caudal peduncle 200 compressions.

Block 700 and executing agency 600:

In above description for rotating disk 500, clamp 100 need to stop in above-mentioned tangent position in assembling, so that the dop 211 of caudal peduncle 200 front sides is inserted in the crimping bayonet socket 110 of clamp 100.So block 700 and and its corresponding executing agency 600 are set.It is flexible that block 700 is subjected to executing agency 600 to drive into capable intermittence, and when it is flexible, be blocked on the movement locus of described guide rail 400 upper clamps 100, so that described clamp 100 rests on described tangent position/break away from the movement locus of described clamp 100, so that described clamp 100 continues mobile at described guide rail 400.In a preferred embodiment, executing agency 600 is constituted by cam 610 and driven member 620.Cam 610 is fixed on the rotating disk 500 by coaxial, and rotates with rotating disk 500.Cam 610 is disc cam, and swing arm 611 its rotating shaft setting parallel by two consists of, and the outer rim of swing arm 611 has formed the curve outer margin contour of cam 610.And swing arm 611 corresponding locating slots 510 settings, that is to say the one by one corresponding setting of peak (apart from the outer rim farthest of cam 610 rotating shafts) of locating slot 510 and cam 610.Driven member 620 and cam 610 join, the described block 700 of fixed installation on it.Cam 610 consists of driving link, and block 700 and driven member 620 move back and forth under the driving of cam 610.Referring to Fig. 5, driven member 620 is step shape with the abutted surface of cam 610, is made of the first parallel plane 621 and the second plane 622, and passes through the arc surface transition between the first plane 621 and the second plane 622.On the rotation direction of cam 610, the first plane 621 is located at before the second plane 622, and its distance apart from cam 610 rotating shafts is nearer than the distance of the second plan range cam 610 rotating shafts.When a swing arm 611 of cam 610 rotates, at first contact the first plane 621, driven member 620 begins to be lifted, afterwards along with swing arm 611 rotates to peak, when the junction contacted between this swing arm 611 and the first plane 621 and the arc surface, driven member 620 reached range and begins and falls.And in driven member 620 was raised to time between falling, block 700 was driven and is blocked on clamp 100 movement locus by driven member 620; Driven member 620 drop to again lift between in, 700 of blocks and clamp 100 movement locus break away from.

In said structure, block 700 is arranged on the upper rail 410, specifically, is equipped with a limit channels on the upper rail 410, and this limit channels forms a breach 411 at the seamed edge of upper rail 410.Block 700 is sleeved in this limit channels, and forms matched in clearance with this limit channels, and block 700 passes breach 411 and stretches out to play the effect that stops clamp 100 motions.

Except said modules, assembling device also relates to caudal peduncle feed mechanism 900 and clamp feed mechanism (not shown), caudal peduncle feed mechanism 900 and clamp feed mechanism can adopt electric and magnetic oscillation material loading scheme or mechanical orientation feed scheme, wherein because the electric and magnetic oscillation loader has the advantages such as feeding is steady, the workpiece degree of injury is little, feeding speed is fast, be particularly useful for having the directed feed of elastic workpiece, be the preferred auxiliary facility of the present embodiment.The corresponding guide rail 400 of the directed port of export of carrying of clamp feed mechanism, caudal peduncle feed mechanism 900 involving vibrations biscuit buckets and curve slide rail 901, curve slide rail 901 1 ends (arrival end) are corresponding with the spiral discharging mouth of vibrating disk hopper, distance guide rail 400 farthest on corresponding locating slot 510 movement locus of the other end (port of export) (namely when a locating slot 510 is positioned at tangent position, the position of another locating slot 510).The shape of curve slide rail 901 and caudal peduncle 200 correspondences, and be fixedly mounted on the installation position 311 on the base 310.The some screws of installation position 311 for offering at base 310.

Referring to Fig. 6, owing to being obliquely installed of rotating disk 500, when it rotated, caudal peduncle 200 may come off from locating slot 510, so also be fixedly installed cover plate 320 on the frame 300, cover plate 320 parallel rotating disk 500 tops of being located at, and and turntable clearance cooperation.The little thickness (namely consisting of the gauge of wire of caudal peduncle 200) with caudal peduncle 200 in gap between cover plate 320 and the rotating disk 500.Offer a perforate 321 on the cover plate 320, the shape of perforate 321 and caudal peduncle 200 cooperate, and the port of export of perforate 321 corresponding curve slide rails 901.Caudal peduncle 200 passes from the perforate 321 of cover plate 320 and is loaded in the rotating disk 500, afterwards rotating disk 500 rotations, and cover plate 320 hinders this caudal peduncle 200 and drops from locating slot 510, and this caudal peduncle 200 breaks away from locating slot 510 from cover plate 320 tops afterwards.

In conjunction with the said apparatus structure, below be described in detail for the assembling principle of assembling device in the present embodiment:

In initial state, two locating slots 510 are vacant on the rotating disk 500.Guide rail 400 upper clamps 100 are directed carrying out linear running.

Along with the rotation of rotating disk 500, a locating slot 510 turns to the position of corresponding caudal peduncle feed mechanism 900, and is loaded into a caudal peduncle 200.

Afterwards, the rotation of adjoint turn-table 500, cam 610 rotates and lifts driven member 620, and block 700 stops the clamp 100 on the guide rail 400, makes this clamp 100 rest on the fixed position of guide rail 400.

Locating slot 510 drives caudal peduncle 200 and rotates, and protrudes from the front dop 211 of the caudal peduncle 200 outside this locating slot 510 over against the position of the crimping bayonet socket 110 of the clamp 100 that should be blocked, and inserts in this crimping bayonet socket 110 under rotating disk 500 drives.

Rotating disk 500 is rotated further afterwards, because caudal peduncle 200 front side dops 211 are fixed by clamp 1, the handle bar 210 that the oppression department 511 promotion caudal peduncles 200 of locating slot 510 join with it is rotated further, this caudal peduncle 200 is compressed, makes the dop 211 of rear side turn to another crimping bayonet socket 110 of corresponding clamp 100.

When muffler 200 was forced into extreme position, the rotation of cam 610 was lifted block 700, no longer hinders the movement of clamp 100.This moment, compressed caudal peduncle 200 was released, the dop 211 promotion clamps 100 that caudal peduncle 200 is inserted in the clamp 100 crimping bayonet sockets 110 move forward, another dop 211 of caudal peduncle 200 then falls in another crimping bayonet socket 110 of clamp 100, thus, assemble between clamp 100 and the caudal peduncle 200 and finish.This moment, locating slot 510 also reached the peak on the rotational trajectory, and began to fall.Clamp 100 is mobile at guide rail 400, and drives caudal peduncle 200 and together move forward, and because the whereabouts of locating slot 510 makes caudal peduncle 2 can break away from locating slot 510.

Join when step carries out 510 positions that turn to corresponding caudal peduncle feed mechanism 900 of another locating slot on the rotating disk 500, and the next caudal peduncle 200 of packing into, beginning next assembly period above-mentioned turning.

By the circulation above-mentioned steps, assemble successively for the even interval clamp 100 on the guide rail 400.

By said apparatus structure and assembling principle as can be known, previously assemble mechanism substantially all is to realize by the mode of simulating artificial installation caudal peduncle, namely mediate first caudal peduncle 200 more mobile compressed caudal peduncle 200 assemble.The assembling device that the utility model proposes has then been broken away from existing stereotype, adopt the dop 211 that caudal peduncle 200 at first is installed, recompress afterwards the step that caudal peduncle 200 is installed second dop 211, whole assemble mechanism drives by a driving mechanism 800, simple and reasonable, long service life, assembly precision is high, the problem that neglected loading can not occur is a kind of reliable and stable binder clip assembling device.

The utility model one of ordinary skill in the art be appreciated that; the above embodiment of the utility model only is one of preferred embodiment of the present utility model; be the length restriction; here can not all embodiments of particularize; any enforcement that can embody the utility model claim technical scheme is all in protection domain of the present utility model.

It should be noted that, above content is in conjunction with concrete embodiment further detailed description of the utility model, can not assert that the specific embodiment of the present utility model only limits to this, under the guidance of above-described embodiment, those skilled in the art can carry out various improvement and distortion on the basis of above-described embodiment, as:

Selection for above-mentioned cam and driven member appearance curve, those skilled in the art can carry out random variation to it based on the existing cam design of spiritual combination of the present utility model, the block that links with driven member is played stop that the purpose that clamp moves gets final product;

For the selection of detent mechanism concrete structure, also can not adopt the locating slot 510 of flute profile, but the backstay of some projections for example, backstay is crowded around into the shape of a caudal peduncle 200, and a part of backstay consists of above-mentioned oppression department 511;

Selection for detent mechanism on the above-mentioned rotating disk (locating slot 510) quantity, also can be according to concrete Production requirement, its quantity is increased and decreased arbitrarily, when only needing to guarantee rotating disk 500 uniform rotation, the gap periods that detent mechanism arrives tangent position unanimously gets final product, in other words, detent mechanism need to satisfy along described rotating disk 500 circumferentially uniform, and forms the peak corresponding with described detent mechanism quantity on the cam 610;

More than enumerated the scheme that partly can substitute preferred embodiment; obviously those skilled in the art can make other improvement or distortion in conjunction with the technology of exploitation after prior art or the utility model applying date for the concrete structure of assembling device based on the utility model spirit, and these improvement or distortion drop in the protection domain of the present utility model.

Claims (10)

1. a binder clip assembling device is used for the binder clip that assembling is assembled by caudal peduncle and clamp, and it is characterized in that: described assembling device comprises the block that the guide rail of carrying described clamp, the rotating disk of being located at guide rail one side, backstop clamp advance at described guide rail;

At least be provided with a detent mechanism that drives described caudal peduncle rotation and the front dop of described caudal peduncle is inserted the front crimping bayonet socket of described clamp on the described rotating disk, described detent mechanism rear portion has the oppression department of oppressing described caudal peduncle after caudal peduncle inserts the front crimping bayonet socket of described clamp from the rear;

In addition, also include and oppress described caudal peduncle at described detent mechanism and drive the block executing agency that described block is retracted extremely in limited time.

2. a kind of binder clip assembling device as claimed in claim 1, it is characterized in that: described block executing agency comprises a cam that rotates with described dial rotation and joins with described cam and carry out reciprocating driven member, and described block is fixed on the described driven member directly or indirectly.

3. a kind of binder clip assembling device as claimed in claim 2, it is characterized in that: described detent mechanism is made of the some lug bosses that are formed on described disk upper surface, described lug boss encloses the zone that cooperates with the caudal peduncle profile, and the part lug boss that is positioned at described rear turret portion consists of described oppression department; Perhaps described detent mechanism is the recess that is arranged with at described disk upper surface, and the female section shape cooperates with the caudal peduncle profile; Its forward and backward dop protruded from described rotating disk outer rim when described caudal peduncle correspondence was arranged on described detent mechanism.

4. a kind of binder clip assembling device as claimed in claim 2 or claim 3, it is characterized in that: described cam is coaxial fixing with described rotating disk, and peak is corresponding with described detent mechanism position on the described cam.

5. a kind of binder clip assembling device as claimed in claim 2 or claim 3, it is characterized in that: at least two described detent mechanisms are set on the described rotating disk, described detent mechanism is circumferentially uniform along described rotating disk, forms the peak corresponding with described detent mechanism quantity on the described cam.

6. a kind of binder clip assembling device as claimed in claim 2 or claim 3 is characterized in that: have between described rotating disk and the described guide rail and make described front dop just be positioned at the inclination angle of its circumference running orbit peak when inserting described front crimping bayonet socket.

7. a kind of binder clip assembling device as claimed in claim 3, it is characterized in that: described guide rail comprises upper rail and lower guideway, form the gathering sill that cooperates with the clamp bottom shape on the described lower guideway, described upper rail lower end form one parallel and over against seamed edge, described seamed edge and the described clamp jaws form fit of gathering sill.

8. a kind of binder clip assembling device as claimed in claim 7 is characterized in that: described upper rail is provided with a limit channels that forms opening at described seamed edge, and described block is located in the described limit channels.

9. a kind of binder clip assembling device as claimed in claim 3, it is characterized in that: described assembling device also comprises the parallel cover plate of being located at the rotating disk top, described cover plate and rotating disk are formed with the little gap with caudal peduncle thickness of width, described cover plate bottom offers the perforate with the caudal peduncle form fit, and described perforate is corresponding with described detent mechanism position.

10. a kind of binder clip assembling device as claimed in claim 9, it is characterized in that: described assembling device also comprises the caudal peduncle feed mechanism, described caudal peduncle feed mechanism comprises a slide rail of carrying described caudal peduncle, and the position of perforate is corresponding on described slide rail outlet and the described cover plate.

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