CN103407742B - A kind of nail catcher transfer structure of pearl nailer - Google Patents

Abstract

The present invention discloses a kind of nail catcher transfer structure of pearl nailer, involving vibrations dish, nail catcher guide rail, trapped orbit, delivery chute and cover plate, nail catcher shakes off the first paragraph track to trapped orbit from vibrating disk, and along with the vibration of vibrating disk, nail catcher constantly can vibrate advance, nail catcher can be fastened on nail catcher guide rail under the effect of vibratory force and gravity, and nail catcher can reverse along with the torsional direction of guide rail, the pawl of nail catcher is followed closely from transferring to gradually vertically upward obliquely, the pawl nail of nail catcher is to be originally fastened in nail catcher guide rail then to be fastened on the second nail catcher guide rail, the initial segment distance of nail catcher in delivery chute is promoted to advance by nail catcher below, then nail catcher can move under the wind-force effect of gas hole, be transported to the push-rod hole position of nail catcher cylinder always, by the push rod of nail catcher cylinder, nail catcher and pearl are fixed together again.Compared with prior art, the present invention can make the conveying of nail catcher become smooth and easy, reduces the generation of fault, improves the transport efficiency of nail catcher.

Description

A kind of nail catcher transfer structure of pearl nailer

Technical field

The present invention relates to pearl nailer field, exactly refer to a kind of nail catcher transfer structure of pearl nailer.

Background technology

Now, along with the development of apparel industry, people more and more pursue the attractive in appearance of clothes and variety, except to clothes except the requirement of body style, still can there is requirement to the auxiliary material accessories depended on clothes, thus need on clothes, to bind the auxiliary material accessories such as some diamonds, pearl or plastics five metals clasp, to improve taste and the added value of clothes.In this application, clothes are implications of broad sense, are not limited to clothes and trousers, in addition, also comprise footgear, cap, gloves and hand baggage etc.

Original nail pearl operation is at first completed by manual threading, and efficiency is very low, and slowly development had just had pearl nailer afterwards, instead by mechanization nail pearl.Pearl nailer can be divided into again at present generation pearl nailer and two generation pearl nailer.

Generation pearl nailer is reverse side nail pearl, and nail catcher transmits from above, and nail catcher and pearl by up transmitting below, then are rushed riveting be fixed together by impact by pearl.Due to the technological deficiency of generation pearl nailer, it is reverse side nail pearl, pearl is below cloth, and due to the obstruct of cloth, the operation of nail pearl is not directly perceived, operating personal cannot see pearl, easily cause pearl to locate inaccurate, the easy deviation of pearl and positioning, and then cause the qualification rate of nail pearl product low, substandard products are many, and economic loss is large.

Two generation pearl nailer improve on the basis of original generation pearl nailer, by reverse side follow closely pearl change positive face nailing pearl into.Pearl transmits from above, and nail catcher transmits from beneath, then nail catcher and pearl is fixed together by impacting.Two generation pearl nailer nail catcher transmission need just can complete through two actions: 1, nail catcher is sent on the track that frame specifies, and nail catcher forwards in the draw-in groove of transfer block along track, and the end of track is vertical with transfer block; 2, the cylinder of transfer block again through frame rear drives nail catcher to the red needle hole site of nail catcher cylinder along delivery chute, thus completes action in a week.By the impact of nail catcher cylinder, nail catcher and pearl are fixed together again below.Because nail catcher is advanced by the cylinder-pushed at rear in the draw-in groove of transfer block, for nail catcher, transfer block, draw-in groove, the accuracy requirement of rear cylinder and delivery chute is higher, if have in five one undesirable, capital causes the damage of nail catcher or nail catcher to enter draw-in groove, along with each propelling movement of rear cylinder is clashed into, nail catcher is made to be stuck in delivery chute, follow-up nail catcher operation cannot be carried out, not having nail catcher to enter draw-in groove makes transfer block sky send, nail catcher and pearl can be made cannot to rush riveting be fixed together, or await orders in the red needle hole site that nail catcher cannot arrive nail catcher cylinder, or often cause the pawl of nail catcher to follow closely and can not ensure each pin not defect, indeformable, the pearl of study plot and top coincide and rushes riveting and finish the work, therefore, blocking of nail catcher in nail pearl process can be caused, make troubles to the operation of nail pearl.

And due to two generation pearl nailer nail catcher transmission need just can complete through two actions, when need improve nail pearl speed time, be subject to the limitation of self operating frequency of rear cylinder and stroke, cause the speed of transmission of nail catcher can not meet nail pearl rate request.

Because the many disadvantages of generation pearl nailer and the pearl nailer existence of two generations makes it still can not meet the requirement of production, be directed to this, need to improve pearl nailer.

Summary of the invention

For above-mentioned defect, the technical matters that the present invention solves is the nail catcher transfer structure providing a kind of pearl nailer, and the conveying of nail catcher can be made to become smooth and easy, reduces the generation of fault, improves the transport efficiency of nail catcher.

In order to solve above technical matters, the nail catcher transfer structure of pearl nailer provided by the invention, involving vibrations dish, nail catcher guide rail, trapped orbit, delivery chute and cover plate, wherein:

Together with described vibrating disk is welded and fixed with described trapped orbit;

Described trapped orbit comprises first paragraph track and second segment track, and described first paragraph track is connected with described second segment track, wherein:

The described oblique upper left side of first paragraph track tilts 30 °-75 °, and the front segment length of described first paragraph track is 15mm-23mm, and the back segment of described first paragraph track is provided with the breach of nail catcher, and the length of described breach is 5mm-10mm;

Described second segment track anticlockwise direction reverses, and the oblique upper left side, starting point place of described second segment track tilts, and angle of inclination is identical with the angle of inclination of described first paragraph track, the destination county of described second segment track and horizontal plane; The sidewall of described second segment track is provided with the positioning plate holding nail catcher, and described positioning plate is along with the together anticlockwise direction torsion of described second segment track; The end of described second segment track is provided with buffering delivery chute;

Described nail catcher guide rail is attached on described trapped orbit, and described nail catcher guide rail is sharpened thin relative to the side of described positioning plate, and described nail catcher guide rail comprises first paragraph guide rail and second segment guide rail, and described first paragraph guide rail is connected with described second segment guide rail, wherein:

The described oblique upper left side of first paragraph guide rail tilts 30 °-75 °, its angle of inclination is identical with the angle of inclination of described first paragraph track, described first paragraph guide rail one side pastes described first paragraph track, the another side of described first paragraph guide rail is provided with the padded baffle plate for keeping out nail catcher;

Described second segment guide rail pastes described second segment track, described second segment guide rail anticlockwise direction reverses, the oblique upper left side, starting point place of described second segment guide rail tilts, and angle of inclination is identical with the angle of inclination of described first paragraph guide rail, the destination county of described second segment guide rail and horizontal plane;

Described delivery chute is arranged in transfer block, and the notch of described delivery chute, just to the notch of described buffering delivery chute, has the gap of 0.1mm-0.8mm between described delivery chute and described buffering delivery chute, described delivery chute comprises major trough and secondary groove, wherein:

Described secondary groove is close to described major trough side by side and communicates with described major trough, and described major trough extends to the position just right with described buffering delivery chute from the push-rod hole of the cylinder of ejection nail catcher always;

Described secondary groove is communicated with gas hole, tilts to have certain angle between described gas hole and described secondary groove; Described secondary groove extends, until have notch to the other end from described gas hole always;

Described cover plate covers in described transfer block, and described cover plate is provided with the second nail catcher guide rail in the face of covering, and is positioned at the centre of the major trough of delivery chute when described second nail catcher guide rail covers; Described second nail catcher guide rail, just to the destination county of described second segment guide rail, has gap between described second nail catcher guide rail and the destination county of described second segment guide rail, and the size in this gap is identical with the gap between described delivery chute and described buffering delivery chute.

Preferably, described nail catcher guide rail is sharpened thin relative to the side of described positioning plate, makes the gap between described nail catcher guide rail and described trapped orbit with 0.3mm-0.7mm.

Preferably, the described oblique upper left side of first paragraph track tilts 45 °, and the described oblique upper left side of first paragraph guide rail tilts 45 °.

Preferably, together with described trapped orbit to be welded and fixed along the tangential direction at described vibrating disk edge with vibrating disk.

Preferably, the degree of depth of the major trough of described delivery chute is 3.8mm-4.5mm; The major trough width of described delivery chute is 1.8mm-2.5mm.

Preferably, the degree of depth of the secondary groove of described delivery chute is 1.5m-2.0mm, and the width of the secondary groove of described delivery chute is 0.8mm-1.2mm.

Preferably, the angle tilted between described gas hole and described secondary groove is 15 °-30 °.

Preferably, the major trough of described delivery chute also has a bit of open slot after the push-rod hole of the cylinder of described ejection nail catcher.

Preferably, the both sides of the second nail catcher guide rail of described cover plate are provided with surplus groove.

Preferably, the degree of depth of described surplus groove diminishes from outside to inside gradually along described second nail catcher guide rail direction.

The nail catcher transfer structure of pearl nailer provided by the invention, under the effect of vibration of vibrating disk, nail catcher shakes off the first paragraph track to trapped orbit from vibrating disk, and along with the vibration of vibrating disk, nail catcher constantly can vibrate advance, because the first paragraph track of trapped orbit tilts obliquely, and the side of the first paragraph guide rail of nail catcher guide rail is sharpened thin, nail catcher can be fastened on nail catcher guide rail under the effect of vibratory force and gravity, and nail catcher can reverse along with the torsional direction of guide rail, the pawl of nail catcher is followed closely from transferring to gradually vertically upward obliquely, on the second segment track of trapped orbit, limited location plate holds, nail catcher can't drop, but be transferred in the delivery chute of transfer block via buffering delivery chute under the effect of vibration, owing to there being the second nail catcher guide rail in delivery chute, the pawl nail of nail catcher is to be originally fastened in nail catcher guide rail then to be fastened on the second nail catcher guide rail, the initial segment distance of nail catcher in delivery chute is promoted to advance by nail catcher below, then nail catcher can move under the wind-force effect of gas hole, be transported to the push-rod hole position of nail catcher cylinder always, then by the push rod of nail catcher cylinder, nail catcher and pearl be fixed together.Compared with prior art, the nail catcher transfer structure of pearl nailer provided by the invention, due to the optimal design of transfer structure, nail catcher has the guiding of nail catcher guide rail from vibrating disk to delivery chute, vibration and gravity effect under advance, also the guiding of the second nail catcher guide rail is had in delivery chute, nail catcher advances under the action of the forces of the wind, and the motion of nail catcher is all slow and orderly, and the conveying of nail catcher can be made to become smooth and easy, reduce the generation of fault, improve the transport efficiency of nail catcher.

In addition, the nail catcher transfer structure of pearl nailer provided by the invention, compared to two generation button-sewing machine, saved rear cylinder, decreased a cylinder, accordingly can economize energy.

Accompanying drawing explanation

Fig. 1 is the integral structure schematic diagram of the nail catcher transfer structure of pearl nailer in the embodiment of the present invention;

Fig. 2 is the integral structure schematic diagram of the nail catcher transfer structure of pearl nailer in the embodiment of the present invention, eliminates cover plate in this figure;

Fig. 3 is the scheme of installation of vibrating disk, trapped orbit and nail catcher guide rail in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Fig. 4 is the structural representation one of trapped orbit in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Fig. 5 is the structural representation two of trapped orbit in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Fig. 6 is the structural representation one of nail catcher guide rail in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Fig. 7 is the structural representation two of nail catcher guide rail in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Fig. 8 is the structural representation of delivery chute in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Fig. 9 is the plan structure schematic diagram of delivery chute in the nail catcher transfer structure of embodiment of the present invention pearl nailer;

Figure 10 is the schematic diagram in the face that covers of the nail catcher transfer structure cover plate of embodiment of the present invention pearl nailer.

Detailed description of the invention

In order to those skilled in the art can understand technical scheme provided by the present invention better, set forth below in conjunction with specific embodiment.

Refer to Fig. 1-Figure 10, Fig. 1 is the integral structure schematic diagram of the nail catcher transfer structure of pearl nailer in the embodiment of the present invention; Fig. 2 is the integral structure schematic diagram of the nail catcher transfer structure of pearl nailer in the embodiment of the present invention, eliminates cover plate in this figure; Fig. 3 is the scheme of installation of vibrating disk, trapped orbit and nail catcher guide rail in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Fig. 4 is the structural representation one of trapped orbit in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Fig. 5 is the structural representation two of trapped orbit in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Fig. 6 is the structural representation one of nail catcher guide rail in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Fig. 7 is the structural representation two of nail catcher guide rail in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Fig. 8 is the structural representation of delivery chute in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Fig. 9 is the plan structure schematic diagram of delivery chute in the nail catcher transfer structure of embodiment of the present invention pearl nailer; Figure 10 is the schematic diagram in the face that covers of the nail catcher transfer structure cover plate of embodiment of the present invention pearl nailer.

The nail catcher transfer structure of the pearl nailer that the embodiment of the present invention provides, involving vibrations dish 1, nail catcher guide rail 3, trapped orbit 2, delivery chute 4 and cover plate 5.

The madial wall of vibrating disk 1 is provided with the nail catcher path 15 that conter clockwise spirals up, in order to ensure that nail catcher slowly upwards can also advance along with the conter clockwise vibration of vibrating disk 1 under the inhibition of gravity and resistance, the elevation angle that nail catcher path 15 spirals up can not be too large, otherwise nail catcher can not upwards advance.The elevation angles that nail catcher path 15 spirals up is 1 °-5 °, and preferably, in the present embodiment, the elevation angles that nail catcher path 15 spirals up is 2 °.

The outlet 11 in nail catcher path 15 is amplified along the circular arc of vibrating disk 1, together with the outlet 11 in nail catcher path 15 is welded and fixed with trapped orbit 2; Together with trapped orbit 2 to be welded and fixed along the tangential direction at vibrating disk 1 edge with vibrating disk 1.Under effect of vibration, nail catcher shake vibrating disk 1 time advance route be in the tangential direction of vibrating disk 1, trapped orbit 2 can make nail catcher advance better together with being welded and fixed along the tangential direction at vibrating disk 1 edge with vibrating disk 1.

Nail catcher spout 13 is arranged on the upper side wall of vibrating disk 1, the import of nail catcher spout 13 communicates with nail catcher path 15, because nail catcher is more tiny, not easy to clean, when needing the nail catcher in vibrating disk 1 to clear out, only the sluice gate 16 of nail catcher spout 13 need be opened, nail catcher will flow out outside vibrating disk 1 automatically along with the vibration of vibrating disk 1.

The lateral wall of vibrating disk is also provided with clump weight, and clump weight and nail catcher reclaim tank, trapped orbit and nail catcher guide rail weight are matched; The amplifier section weight of the outlet in nail catcher spout and nail catcher path is matched.

Trapped orbit 2 comprises first paragraph track 21 and second segment track 22, and first paragraph track 21 is connected with second segment track 22; Nail catcher guide rail 3 is attached on trapped orbit 2, nail catcher guide rail 3 is sharpened thin relative to the side 33 of positioning plate 24, make the gap between nail catcher guide rail 3 and trapped orbit 2 with 0.5mm, nail catcher guide rail 3 comprises first paragraph guide rail 31 and second segment guide rail 32, and first paragraph guide rail 31 is connected with second segment guide rail 32.

The oblique upper left side of first paragraph track 21 tilts 45 °, and the front segment length of first paragraph track 21 is 19mm, and the back segment of first paragraph track 21 is provided with the breach 23 of nail catcher, and the length of breach is 7mm.The oblique upper left side of first paragraph guide rail 31 tilts 45 °, and its angle of inclination is identical with the angle of inclination of first paragraph track 21, and first paragraph guide rail 31 one side pastes first paragraph track 21, the another side of first paragraph guide rail 31 is provided with the padded baffle plate 7 for keeping out nail catcher.Also have certain gap between padded baffle plate 7 and first paragraph guide rail 31, this gap is less than the diameter of nail catcher, makes nail catcher can not fall into this gap.The effect of padded baffle plate 7 prevents nail catcher climbing over first paragraph guide rail 31 along during 21 landing of first paragraph track, and the pawl of nail catcher is followed closely can not be fastened in first paragraph guide rail 31 by the side 33 of skiving.

Nail catcher drops when the first paragraph track 21 of trapped orbit 2 from vibrating disk 1, under vibration and Action of Gravity Field, nail catcher can along first paragraph track 21 landing, at this moment, part pawl nail nail catcher down can be fastened in the first paragraph guide rail 31 of nail catcher guide rail by the side 33 of skiving, and to advance along the track of first paragraph guide rail 31; Those nail catchers be not fastened on the first paragraph guide rail 31 of nail catcher guide rail 3 then can move on, drop in vibrating disk 1 breach 23 of the nail catcher that falls arranged from the back segment of first paragraph track 21, so both can reclaim nail catcher, nail catcher can not be made again to be squeezed on first paragraph track 21.It should be noted that the length of breach 23 can not be long, the excessive velocities otherwise nail catcher drops because nail catcher self has certain length and width, the nail catcher quantity that can make to be fastened on nail catcher guide rail 3 is inadequate, can not meet the rate request of nail pearl; The length of breach 23 can not be too short, otherwise nail catcher drops, speed is excessively slow, and nail catcher can overstock on first paragraph track 21, and owing to mutually disturbing between nail catcher, nail catcher can not drop in vibrating disk.

Second segment track 22 anticlockwise direction reverses, and the oblique upper left side, starting point place 25 of second segment track 22 tilts, and angle of inclination is identical with the angle of inclination of first paragraph track 21, the destination county 26 of second segment track 22 and horizontal plane; The sidewall of second segment track 22 is provided with the positioning plate 24 holding nail catcher, and positioning plate 24 is along with second segment track 22 together anticlockwise direction torsion; The end of second segment track 22 is provided with buffering delivery chute 27.Second segment guide rail 32 pastes second segment track 22, second segment guide rail 32 anticlockwise direction reverses, the oblique upper left side, starting point place of second segment guide rail 32 tilts, and angle of inclination is identical with the angle of inclination of first paragraph guide rail 31, the destination county of second segment guide rail 32 and horizontal plane.

When being socketed in the nail catcher on first paragraph guide rail 31 when vibrating and enter on second segment guide rail 32 under Action of Gravity Field, nail catcher can reverse along the torsional direction of second segment guide rail 32, the pawl nail of nail catcher is from transferring to gradually vertically upward obliquely, due to the holding of limited location plate 24 on the second segment track 22 of trapped orbit 2, nail catcher can't drop, but is transferred in the delivery chute 4 of transfer block 46 via buffering delivery chute 27 under the effect of vibration.

Delivery chute 4 is arranged in transfer block 46, and transfer block is fixed on mounting blocks 6.The notch 48 of delivery chute 4 is just to the notch of buffering delivery chute 27, and have the gap of 0.3mm between delivery chute 4 and buffering delivery chute 27, delivery chute 4 comprises major trough 41 and secondary groove 42.Secondary groove 42 is close to major trough 41 side by side and communicates with major trough 41, and major trough 41 extends to the position just right with cushioning delivery chute 27 from the push-rod hole 45 of the cylinder of ejection nail catcher always.Secondary groove 42 is communicated with gas hole 47, tilts to have 20 ° of angles between gas hole 47 and secondary groove 42; Secondary groove 42 extends, until have notch 43 to the other end from gas hole 47 always.Cover plate 5 covers in transfer block 46, and cover plate 5 is provided with the centre being positioned at the major trough 41 of delivery chute 4 when the second nail catcher guide rail 51, second nail catcher guide rail 51 covers in the face of covering; Second nail catcher guide rail 51, just to the destination county of second segment guide rail 32, has gap between the second nail catcher guide rail 51 and the destination county of second segment guide rail 32, and the size in this gap and delivery chute 4 are identical with the gap cushioned between delivery chute 27.

Owing to having the second nail catcher guide rail 51 in the major trough 41 of delivery chute 4, the pawl nail of nail catcher is to be originally fastened in second segment guide rail 32 then to be fastened on the second nail catcher guide rail 51, the initial segment distance of nail catcher in the major trough 41 of delivery chute 4 is promoted to advance by nail catcher below, then nail catcher can move under the wind-force effect of gas hole 47, be transported to push-rod hole 45 position of nail catcher cylinder always, then by the push rod of nail catcher cylinder, nail catcher and pearl be fixed together.

The major trough 41 of delivery chute 4, for carrying nail catcher, because the diameter itself of nail catcher is approximately 1.2mm, is highly approximately 2.0mm.Major trough 41 can not excessive can not be too small, otherwise nail catcher can dilapidatedly be unfavorable for conveying advance, result in blockage.In the present embodiment.The degree of depth of the major trough 41 of delivery chute 4 is 4.0mm, and major trough 41 width of delivery chute 4 is 2.1mm.The effect of secondary groove 41 is dredged for ventilation, when gas hole 47 is blown to the nail catcher in major trough 41, nail catcher is driven to advance by the effect of wind-force, flowing for gas needs to dredge, secondary groove 42 can go ahead along major trough 41 and blows by dredging flow, until the nail catcher of major trough 41 to be blown to the position of specifying, then air-flow blows out from the notch 43 of secondary groove 41.In order to ensure that the size of air-flow can drive nail catcher to advance, the degree of depth of the secondary groove 42 of delivery chute 4 is 1.8mm, and the width of the secondary groove 42 of delivery chute 4 is 1.1mm.The major trough 41 of delivery chute 4 also has a bit of open slot 44 below at the push-rod hole 45 of the cylinder of ejection nail catcher, and the effect of this bit of open slot 44 is also dredging for air-flow, prevents air-flow from major trough 41, forming eddy flow, thus affects the conveying of nail catcher.

Because the initial segment distance of nail catcher in the major trough 41 of delivery chute 4 is promoted to advance by nail catcher below, the power promoting to advance is very weak, if in resistant a little words above, nail catcher can be made not to be pushed advance.Because nail catcher leans on wind blows to advance at a segment distance below of the major trough 41 of delivery chute 4, in order to ensure enough wind-force, need to ensure certain air quantity.Most of air quantity of gas flowing is discharged from rear one section of notch of major trough 41 and secondary groove 42, and a fraction of air quantity is discharged from the notch of initial a section of major trough in addition.The both sides of the second nail catcher guide rail 51 of cover plate 5 are provided with surplus groove 52, major trough 41 and the secondary groove 42 of surplus groove 52 and delivery chute 4 communicate, the spatial content of major trough 42 and secondary groove 42 can be increased, both dredging of air-flow had been conducive to, the wind-force of discharging from the notch of initial a section of major trough 41 can be reduced again, make this part wind-force can not hinder the advance of the nail catcher of an initial segment distance.Due to the reason of distance air blowing hole distance, wind-force along the second nail catcher guide rail 51 direction from outside to inside wind-force reduce gradually, the degree of depth of surplus groove 52 diminishes from outside to inside gradually along the second nail catcher guide rail 51 direction, the spatial content of such major trough 41 and secondary groove 42 reduces gradually, can ensure that wind-force is relatively more even, blow nail catcher always and advance forward.

Although the notch 48 of delivery chute 4 is just to the notch of buffering delivery chute 27, between delivery chute 4 and buffering delivery chute 27, there is the gap of 0.3mm.Because buffering delivery chute 27 can vibrate under the drive of vibrating disk 1, delivery chute 4 can not contact with buffering delivery chute 27, prevents the vibration effect cushioning delivery chute 27 to delivery chute 4, thus has influence on the delivery precision of nail catcher in delivery chute 4.In like manner, although the second nail catcher guide rail 51 is just to the destination county of second segment guide rail 32, have gap between the second nail catcher guide rail 51 and the destination county of second segment guide rail 32, the size in this gap and delivery chute 4 are identical with the gap cushioned between delivery chute 27.

Compared with prior art, the nail catcher transfer structure of pearl nailer provided by the invention, due to the optimal design of transfer structure, nail catcher has the guiding of nail catcher guide rail from vibrating disk to delivery chute, vibration and gravity effect under advance, also the guiding of the second nail catcher guide rail is had in delivery chute, nail catcher advances under the action of the forces of the wind, and the motion of nail catcher is all slow and orderly, and the conveying of nail catcher can be made to become smooth and easy, reduce the generation of fault, improve the transport efficiency of nail catcher.

In addition, the nail catcher transfer structure of pearl nailer provided by the invention, compared to two generation button-sewing machine, saved rear cylinder, decreased a cylinder, accordingly can economize energy.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a nail catcher transfer structure for pearl nailer, is characterized in that, involving vibrations dish, nail catcher guide rail, trapped orbit, delivery chute and cover plate, wherein:

Together with described vibrating disk is welded and fixed with described trapped orbit;

Described trapped orbit comprises first paragraph track and second segment track, and described first paragraph track is connected with described second segment track, wherein:

The described oblique upper left side of first paragraph track tilts 30 °-75 °, and the front segment length of described first paragraph track is 15mm-23mm, and the back segment of described first paragraph track is provided with the breach of nail catcher, and the length of described breach is 6mm-10mm;

Described second segment track anticlockwise direction reverses, and the oblique upper left side, starting point place of described second segment track tilts, and angle of inclination is identical with the angle of inclination of described first paragraph track, the destination county of described second segment track and horizontal plane; The sidewall of described second segment track is provided with the positioning plate holding nail catcher, and described positioning plate is along with the together anticlockwise direction torsion of described second segment track; The end of described second segment track is provided with buffering delivery chute;

Described nail catcher guide rail is attached on described trapped orbit, and described nail catcher guide rail is sharpened thin relative to the side of described positioning plate, and described nail catcher guide rail comprises first paragraph guide rail and second segment guide rail, and described first paragraph guide rail is connected with described second segment guide rail, wherein:

The described oblique upper left side of first paragraph guide rail tilts 30 °-75 °, its angle of inclination is identical with the angle of inclination of described first paragraph track, described first paragraph guide rail one side pastes described first paragraph track, the another side of described first paragraph guide rail is provided with the padded baffle plate for keeping out nail catcher;

Described second segment guide rail pastes described second segment track, described second segment guide rail anticlockwise direction reverses, the oblique upper left side, starting point place of described second segment guide rail tilts, and angle of inclination is identical with the angle of inclination of described first paragraph guide rail, the destination county of described second segment guide rail and horizontal plane;

Described delivery chute is arranged in transfer block, and the notch of described delivery chute, just to the notch of described buffering delivery chute, has the gap of 0.1mm-0.8mm between described delivery chute and described buffering delivery chute, described delivery chute comprises major trough and secondary groove, wherein:

Described secondary groove is close to described major trough side by side and communicates with described major trough, and described major trough extends to the position just right with described buffering delivery chute from the push-rod hole of the cylinder of ejection nail catcher always;

Described secondary groove is communicated with gas hole, tilts to have certain angle between described gas hole and described secondary groove; Described secondary groove extends, until have notch to the other end from described gas hole always;

Described cover plate covers in described transfer block, and described cover plate is provided with the second nail catcher guide rail in the face of covering, and is positioned at the centre of the major trough of delivery chute when described second nail catcher guide rail covers; Described second nail catcher guide rail, just to the destination county of described second segment guide rail, has gap between described second nail catcher guide rail and the destination county of described second segment guide rail, and the size in this gap is identical with the gap between described delivery chute and described buffering delivery chute.

2. the nail catcher transfer structure of pearl nailer according to claim 1, is characterized in that, described nail catcher guide rail is sharpened thin relative to the side of described positioning plate, makes the gap between described nail catcher guide rail and described trapped orbit with 0.3mm-0.7mm.

3. the nail catcher transfer structure of pearl nailer according to claim 1, is characterized in that, the described oblique upper left side of first paragraph track tilts 45 °, and the described oblique upper left side of first paragraph guide rail tilts 45 °.

4. the nail catcher transfer structure of pearl nailer according to claim 1, is characterized in that, together with described trapped orbit to be welded and fixed along the tangential direction at described vibrating disk edge with vibrating disk.

5. the nail catcher transfer structure of pearl nailer according to claim 1, is characterized in that, the degree of depth of the major trough of described delivery chute is 3.8mm-4.5mm; The major trough width of described delivery chute is 1.8mm-2.5mm.

6. the nail catcher transfer structure of pearl nailer according to claim 5, is characterized in that, the degree of depth of the secondary groove of described delivery chute is 1.5m-2.0mm, and the width of the secondary groove of described delivery chute is 0.8mm-1.2mm.

7. the nail catcher transfer structure of pearl nailer according to claim 6, is characterized in that, the angle tilted between described gas hole and described secondary groove is 15 °-30 °.

8. the nail catcher transfer structure of pearl nailer according to claim 1, is characterized in that, the major trough of described delivery chute also has a bit of open slot after the push-rod hole of the cylinder of described ejection nail catcher.

9. the nail catcher transfer structure of pearl nailer according to claim 1, is characterized in that, the both sides of the second nail catcher guide rail of described cover plate are provided with surplus groove.

10. the nail catcher transfer structure of pearl nailer according to claim 9, is characterized in that, the degree of depth of described surplus groove diminishes from outside to inside gradually along described second nail catcher guide rail direction.