CN203410962U - Vibrating disk mechanism of beading machine - Google Patents

Abstract

The utility model discloses a vibrating disk mechanism of a beading machine. The vibrating disk mechanism of the beading machine comprises a vibrating disk assembly and a motor assembly. The vibrating disk assembly is connected with the motor assembly. The motor assembly drives the vibrating disk assembly to vibrate, so that sewing buttons are conveyed to the top of a vibrating disk body from the bottom of the vibrating disk body, and the sewing buttons are further conveyed to a fixed rail of the vibrating disk assembly and a sewing button guide rail by the way of vibrating. Compared with the prior art, the vibrating disk mechanism of the beading machine enables the sewing buttons to be conveyed smoothly, breakdowns are reduced, and the conveying efficiency of the sewing buttons is improved.

Description

A kind of vibrating disk mechanism of pearl nailer

Technical field

The utility model relates to pearl nailer field, exactly refers to a kind of vibrating disk mechanism of pearl nailer.

Background technology

Now, development along with apparel industry, people more and more pursue the attractive in appearance and variety of clothes, except to clothes from the requirement of body style, also can also there is requirement to the auxiliary material accessories that depend on clothes, thereby need on clothes, 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 at first completes by manual threading, and efficiency is very low, and slowly development had just had pearl nailer afterwards, changed into by mechanization and followed closely 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 pearl is by up transmitting below, then nail catcher and pearl are rushed to riveting is fixed together by impacting.Technological deficiency due to 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 be seen pearl, easily cause pearl location 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 on the basis of original generation pearl nailer, improve, by reverse side nail pearl, change positive face nailing pearl into.Pearl transmits from above, and nail catcher transmits from beneath, then by impacting, nail catcher and pearl is fixed together.Two generation pearl nailer nail catcher transmission need to just can complete through two actions: 1, nail catcher is sent on the track of frame appointment, and nail catcher forwards to along track in the draw-in groove of middle switch block, and the end of track is vertical with middle switch block; 2, middle switch block drives nail catcher to the red needle hole site of nail catcher cylinder through the cylinder at frame rear along delivery chute again, thereby completes action in a week.After again the impact by nail catcher cylinder nail catcher and pearl are fixed together.Because nail catcher is to be advanced by the cylinder-pushed at rear in the draw-in groove of middle switch block, for nail catcher, middle switch block, draw-in groove, the accuracy requirement of rear cylinder and delivery chute is higher, if in five, have one undesirable, capital causes the damage of nail catcher or nail catcher cannot enter draw-in groove, along with each propelling movement of rear cylinder is clashed into, nail catcher is stuck in delivery chute, cannot carry out follow-up nail catcher operation, not having nail catcher to enter draw-in groove send transfer block sky, can make nail catcher and pearl cannot rush riveting is fixed together, or nail catcher cannot arrive the red needle hole site of nail catcher cylinder and await orders, or often cause the pawl nail of nail catcher can not guarantee not defect of each pin, indeformable, the pearl of study plot and top coincide and rushes riveting and finish the work, therefore, can cause blocking of nail catcher in nail pearl process, make troubles to the operation of nail pearl.

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

Due to generation pearl nailer and two generations the many disadvantages that exists of pearl nailer make it still can not meet the requirement of production, be directed to this, need to improve pearl nailer.

Utility model content

For above-mentioned defect, the technical matters that the utility model solves is to provide a kind of vibrating disk mechanism of pearl nailer, can make the conveying of nail catcher become smooth and easy, reduces the generation of fault, improves the transport efficiency of nail catcher.

In order to solve above technical matters, the vibrating disk mechanism of the pearl nailer that the utility model provides, involving vibrations dish assembly and electric machine assembly, described vibrating disk assembly is connected with described electric machine assembly; Wherein:

Described vibrating disk assembly involving vibrations disc main body, trapped orbit and nail catcher guide rail, wherein: on the madial wall of described vibrating disk main body, be provided with the nail catcher path spiraling up, the outlet in described nail catcher path is amplified along the circular arc of described vibrating disk main body, together with the outlet in described nail catcher path is welded and fixed with described trapped orbit;

Described trapped orbit comprises first paragraph track and second segment track, described first paragraph track is connected with described second segment track, wherein: the oblique upper left side of described first paragraph track tilts 30 °-75 °, the front segment length of described first paragraph track is 15mm-23mm, 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, and the destination county of described second segment track is vertical with horizontal surface; The sidewall of described second segment track is provided with the positioning plate of 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, described nail catcher guide rail is sharpened thin with respect to a side of described positioning plate, described nail catcher guide rail comprises first paragraph guide rail and second segment guide rail, described first paragraph guide rail is connected with described second segment guide rail, wherein: the oblique upper left side of described 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 simultaneously pastes described first paragraph track, is provided with for keeping out the padded baffle plate of nail catcher on the another side of described first paragraph guide rail; 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, and the destination county of described second segment guide rail is vertical with horizontal surface;

Described vibrating disk main body is also provided with nail catcher reclaim tank and nail catcher spout, and described nail catcher reclaim tank is arranged on the first paragraph track below of described trapped orbit, and the inner side of described nail catcher reclaim tank communicates with described vibrating disk main body; Described nail catcher spout is arranged on the upper side wall of described vibrating disk main body, and the import of described nail catcher spout communicates with described nail catcher path;

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

Described electric machine assembly comprises electromagnet, damping base, firm banking, biography shake contiguous block and vibrating mass, in described electric machine assembly, the position relationship of each major part is followed successively by damping base, firm banking, biography shake contiguous block and vibrating mass from the bottom to top, and described electromagnet is positioned at the described biography contiguous block that shakes; Wherein:

Described firm banking is arranged on described damping base, and the described biography contiguous block that shakes is connected with described firm banking;

The described biography contiguous block that shakes is hollow annular structure, described electromagnet is placed on described biography and shakes in the hollow annular structure of contiguous block, the shake periphery of contiguous block of described biography is provided with helical teeth in the counterclockwise direction, described helical teeth recedes 12 °-17 °, described helical teeth comprises two of helical teeth one side and helical teeth, between two of described helical teeth one side and described helical teeth, stagger up and down and connect by section, the width distance of described section is 0.2mm-0.8mm;

Described vibrating mass covers in described biography and shakes on contiguous block, and the face that covers of described vibrating mass is provided with the armature coordinating with described electromagnet; The periphery of described vibrating mass is also provided with the second helical teeth in the counterclockwise direction, and the sweptback angle of described the second helical teeth is consistent with the angle of inclination of described helical teeth, and described the second helical teeth is connected by shell fragment with the helical teeth one side of described helical teeth;

The vibrating disk of described vibrating disk assembly is connected with the vibrating mass of described electric machine assembly.

Preferably, the elevation angle angle that the nail catcher path of described vibrating disk main body spirals up is 1 °-5 °.

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

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

Preferably, together with described trapped orbit is welded and fixed with vibrating disk main body along the tangential direction on described vibrating disk body edge edge.

Preferably, the bottom of described vibrating disk main body is connected with the vibrating mass of described electric machine assembly by annular cushion block.

Preferably, described armature is over against described electromagnet, is separated with the gap of 0.2mm-0.8mm between between described armature and described electromagnet.

Preferably, described vibrating mass and the described biography contiguous block that shakes has gap in the vertical direction, and the distance in described gap is greater than spaced slot between described armature and described electromagnet.

Preferably, described firm banking and described biography are shaken, and contiguous block is structure as a whole or Split type structure.

Preferably, the shake periphery of contiguous block of described biography is evenly provided with 3 above helical teeth in the counterclockwise direction, and the periphery of described vibrating mass is also provided with the second helical teeth of equal number in the counterclockwise direction.

The principle of work of the vibrating disk mechanism of the pearl nailer that the utility model provides is as follows:

In electric machine assembly, because the second helical teeth of vibrating mass is connected by shell fragment with passing between the helical teeth one side of the contiguous block that shakes, because helical teeth one side and helical teeth two faces of the contiguous block that shakes in biography stagger up and down, between two of helical teeth one side and helical teeth, be connected with section, helical teeth is simultaneously positioned at the below of two of helical teeth, therefore, shell fragment and helical teeth two faces are not close to, and exist the gap of a section between the two; Because being connected with armature, the face that covers of vibrating mass coordinates with electromagnet again, when electromagnet energising produces behind magnetic field, can there is a downward adsorption affinity to armature, while conducting on shell fragment due to this adsorption affinity by vibrating mass, shell fragment can produce certain back stretch, shell fragment can vibrate back and forth to the continuous conter clockwise of direction of two of helical teeth, driving simultaneously vibrating mass also thereupon constantly conter clockwise vibrate back and forth.The vibrating disk main body of vibrating disk assembly is connected with the vibrating mass of electric machine assembly, vibrating disk main body is also along with conter clockwise vibration, nail catcher in vibrating disk main body can slowly be sent to the top of vibrating disk main body along the nail catcher path spiraling up from bottom, and drop in the outlet in nail catcher path, and then under the effect of vibration of vibrating disk main body, nail catcher shakes off the first paragraph track to trapped orbit from vibrating disk main body, and the vibration along with vibrating disk main body, nail catcher can constantly vibrate and advance, because the first paragraph track of trapped orbit tilts obliquely, and a 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 nail of nail catcher is transferred to gradually vertically upward from oblique, on the second segment track of trapped orbit, limited location plate holds, nail catcher can't drop, but via buffering delivery chute, be transferred in the delivery chute of transfer block under the effect of vibration, owing to there being the second nail catcher guide rail in delivery chute, the pawl nail of nail catcher was from being originally fastened in nail catcher guide rail then be fastened on the second nail catcher guide rail, the initial segment distance of nail catcher in delivery chute is to be advanced by nail catcher promotion 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 vibrating disk mechanism of the pearl nailer that the utility model provides, optimal design due to transfer structure, nail catcher is along with the conter clockwise vibration of vibrating disk is slowly sent to vibrating disk top from bottom, and nail catcher has the guiding of nail catcher guide rail from vibrating disk main body to delivery chute, under the effect of vibration and gravity, advance, in delivery chute, also there is the guiding of the second nail catcher guide rail, nail catcher advances under the effect of wind-force, the motion of nail catcher is all slow and orderly, can make the conveying of nail catcher become smooth and easy, reduce the generation of fault, improve the transport efficiency of nail catcher.

Accompanying drawing explanation

Fig. 1 is vibrating disk assembly and the delivery chute connection structure schematic diagram of the vibrating disk mechanism of pearl nailer in the utility model embodiment;

Fig. 2 is vibrating disk assembly and the delivery chute connection structure schematic diagram of the vibrating disk mechanism of pearl nailer in the utility model embodiment, in this figure, has removed cover plate;

Fig. 3 is the scheme of installation of the vibrating disk assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Fig. 4 is the structural representation one of trapped orbit in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Fig. 5 is the structural representation two of trapped orbit in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Fig. 6 is the structural representation one of nail catcher guide rail in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Fig. 7 is the structural representation two of nail catcher guide rail in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Fig. 8 is the structural representation of delivery chute in the utility model embodiment;

Fig. 9 is the plan structure schematic diagram of delivery chute in the utility model embodiment;

Figure 10 is the schematic diagram of the face that covers of the utility model embodiment cover plate;

Figure 11 is the package assembly schematic diagram of electric machine assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Figure 12 is the blast constructional drawing of electric machine assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer;

Figure 13 is the shake structural representation of contiguous block of the biography of electric machine assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer.

The specific embodiment

For those skilled in the art can understand technical scheme provided by the utility model better, below in conjunction with specific embodiment, set forth.

Refer to Fig. 1-Figure 13, Fig. 1 is vibrating disk assembly and the delivery chute connection structure schematic diagram of the vibrating disk mechanism of pearl nailer in the utility model embodiment; Fig. 2 is vibrating disk assembly and the delivery chute connection structure schematic diagram of the vibrating disk mechanism of pearl nailer in the utility model embodiment, in this figure, has removed cover plate; Fig. 3 is the scheme of installation of the vibrating disk assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer; Fig. 4 is the structural representation one of trapped orbit in the vibrating disk mechanism of the utility model embodiment pearl nailer; Fig. 5 is the structural representation two of trapped orbit in the vibrating disk mechanism of the utility model embodiment pearl nailer; Fig. 6 is the structural representation one of nail catcher guide rail in the vibrating disk mechanism of the utility model embodiment pearl nailer; Fig. 7 is the structural representation two of nail catcher guide rail in the vibrating disk mechanism of the utility model embodiment pearl nailer; Fig. 8 is the structural representation of delivery chute in the utility model embodiment; Fig. 9 is the plan structure schematic diagram of delivery chute in the utility model embodiment; Figure 10 is the schematic diagram of the face that covers of the utility model embodiment cover plate; Figure 11 is the package assembly schematic diagram of electric machine assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer; Figure 12 is the blast constructional drawing of electric machine assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer; Figure 13 is the shake structural representation of contiguous block of the biography of electric machine assembly in the vibrating disk mechanism of the utility model embodiment pearl nailer.

The vibrating disk mechanism of the pearl nailer that the utility model embodiment provides, involving vibrations dish assembly and electric machine assembly, vibrating disk assembly is connected with electric machine assembly.

Vibrating disk assembly involving vibrations disc main body 1, trapped orbit 2 and nail catcher guide rail 3, wherein: on the madial wall of vibrating disk main body 1, be provided with the nail catcher path 15 that conter clockwise spirals up, in order to guarantee that nail catcher can also be along with the conter clockwise vibration of vibrating disk main body 1 is slowly upwards advanced 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 angle angle that nail catcher path 15 spirals up is 1 °-5 °, and preferably, in the present embodiment, the elevation angle angle 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 main body 1, together with the outlet 11 in nail catcher path 15 is welded and fixed with trapped orbit 2; Together with trapped orbit 2 is welded and fixed with vibrating disk main body 1 along the tangential direction at vibrating disk main body 1 edge.Under effect of vibration, advance route when nail catcher shakes vibrating disk main body 1 is in the tangential direction of vibrating disk main body 1, trapped orbit 2 can make nail catcher advance better together with being welded and fixed with vibrating disk main body 1 along the tangential direction at vibrating disk main body 1 edge.

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 with respect to a side 33 of positioning plate 24, make to have between nail catcher guide rail 3 and trapped orbit 2 gap of 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 23 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 sides are pasted first paragraph track 21, are provided with for keeping out the padded baffle plate 7 of nail catcher on the another side of first paragraph guide rail 31.Between padded baffle plate 7 and first paragraph guide rail 31, also there is certain ，Gai gap, gap to be less than the diameter of nail catcher, make nail catcher can not fall into this gap.The effect of padded baffle plate 7 is to prevent that nail catcher from climbing over first paragraph guide rail 31 when along 21 landing of first paragraph track, and the pawl nail of nail catcher can not be fastened on first paragraph guide rail 31.

Nail catcher drops when the first paragraph track 21 of trapped orbit 2 from vibrating disk main body 1, under vibration and Action of Gravity Field, nail catcher can be along 21 landings of first paragraph track, at this moment, part pawl nail nail catcher down can be fastened in being sharpened in a thin side 33 of first paragraph guide rail 31 of nail catcher guide rail 3, and advances along the track of first paragraph guide rail 31; Those nail catchers that are not fastened on the first paragraph guide rail 31 of nail catcher guide rail 3 can move on, from the breach 23 of the nail catcher that falls of the back segment setting of first paragraph track 21, drop in the nail catcher reclaim tank 12 of vibrating disk main body 1, so both can reclaim nail catcher, and can not make again nail catcher be squeezed on first paragraph track.It should be noted that because nail catcher self is to have certain length and width, if the length of breach 23 is long, the nail catcher excessive velocities that drops, 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; If the length of breach is too short, the nail catcher speed that drops is excessively slow, and nail catcher can overstock on first paragraph track 21, and due to phase mutual interference between nail catcher, nail catcher can not drop in the nail catcher reclaim tank 12 of vibrating disk main body 21.

Second segment track 22 anticlockwise directions reverse, 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, and the destination county 26 of second segment track 22 is vertical with horizontal surface; The sidewall of second segment track 22 is provided with the positioning plate 24 of holding nail catcher, and positioning plate 24 is along with together anticlockwise direction torsion of second segment track 22; 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 directions reverse, 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, and the destination county of second segment guide rail 32 is vertical with horizontal surface.

When being socketed in first paragraph guide rail 31 and being sharpened nail catcher in a thin side 33 and entering on second segment guide rail 32 under vibration and Action of Gravity Field, nail catcher can be along the torsional direction of second segment guide rail 32 and is reversed, the pawl nail of nail catcher transfers to gradually vertically upward from oblique, due to holding of limited location plate 24 on the second segment track 22 at trapped orbit 2, nail catcher can't drop, but via buffering delivery chute 27, is transferred in the delivery chute 4 of transfer block 46 under the effect of vibration.

Vibrating disk main body 1 is also provided with nail catcher reclaim tank 12 and nail catcher spout 13, nail catcher reclaim tank 12 is arranged on first paragraph track 21 belows of trapped orbit 2, the inner side of nail catcher reclaim tank 12 communicates with vibrating disk main body 1, when nail catcher is from the breach 23 of first paragraph track 21 falls, nail catcher can recycle again along with vibration continues to enter in vibrating disk main body 1.

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

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

Electric machine assembly comprises electromagnet S12, damping base S13, firm banking S10, passes shake contiguous block S9 and vibrating mass S8, in electric machine assembly, the position relationship of each major part is followed successively by from the bottom to top damping base S13, firm banking S10, passes shake contiguous block S9 and vibrating mass S8, and electromagnet S12 is positioned at and passes the contiguous block S9 that shakes; Wherein:

It is upper that firm banking S10 is arranged on damping base S13, passes the contiguous block S9 that shakes and be connected with firm banking S10;

The biography contiguous block S9 that shakes is hollow annular structure, electromagnet S12 is placed in the hollow annular structure that passes the contiguous block S9 that shakes, the shake periphery of contiguous block S9 of biography is evenly provided with 4 helical teeth S91 in the counterclockwise direction, helical teeth S91 recede 14 ° 40 ', helical teeth S91 comprises helical teeth one side S911 and two S912 of helical teeth, between helical teeth one side S911 and two S912 of helical teeth, stagger up and down and connect by section S913, the width distance of section S913 is 0.2mm-0.8mm, and two S912 of helical teeth one side S911 and helical teeth are parallel.The periphery of vibrating mass S8 is also evenly provided with the second helical teeth S81 with helical teeth S91 equal number in the counterclockwise direction, the sweptback angle of the second helical teeth S81 is consistent with the angle of inclination of helical teeth S91, and the second helical teeth S81 is connected by shell fragment S11 with the screw hole S92 of the helical teeth one side S911 of helical teeth S91 by screw hole S82.

Vibrating mass S8 covers in biography and shakes on contiguous block S9, and the face that covers of vibrating mass S8 is provided with the armature S14 coordinating with electromagnet S12; Armature S14 is over against electromagnet S12, is separated with the gap of 0.6mm-0.8mm between between armature S14 and electromagnet S12.Gap between armature S14 and electromagnet S12 can not be excessive can not be too small, the excessive and too small resistance of electromagnet S12 Inside coil that all can cause in gap increases, electromagnet S12 excess Temperature, easily burns out.In addition, if the gap between armature S14 and electromagnet S12 is excessive, also can make electromagnet S12 inadequate to the adsorption affinity of armature, cause shell fragment S11 can not reach the amplitude of regulation, nail catcher vibration cannot be advanced.

Vibrating mass S8 and the biography contiguous block S9 that shakes has gap S15 in the vertical direction, the distance of gap S15 is greater than spaced slot between armature S14 and electromagnet S12, this gap S15 mono-touches and passes the contiguous block S9 that shakes in the time of can preventing vibrating mass S8 vibration, avoids producing wearing and tearing and loss; The 2nd, can increase the circulating air that passes the contiguous block S9 inside that shakes, the heat producing while taking away electromagnet S12 work, plays thermolysis.

The bottom of vibrating disk main body 1 is connected with the vibrating mass S8 of electric machine assembly by annular cushion block.Because the bottom of vibrating disk main body 1 raises up, its bottom unfairness, need the upper annular cushion block ability of pad smooth, and be hollow because annular cushion block is middle, on pad after annular cushion block, can vibrating disk main body and vibrating mass between there is one section of air space, can increase the buffering of vibration and reduce the noise of vibration.

Firm banking S10 and the biography contiguous block S9 that shakes is structure as a whole or Split type structure, all can realize the purpose of this utility model, in the present embodiment, easy for what process, and firm banking S10 and the biography contiguous block S9 that shakes is Split type structure.

The principle of work of the vibrating disk mechanism of the pearl nailer that the utility model provides is as follows:

In electric machine assembly, because the second helical teeth S81 of vibrating mass S8 is connected by shell fragment S11 with passing between the helical teeth one side S911 of the contiguous block S9 that shakes, because helical teeth one side S911 and two S912 of helical teeth of the contiguous block S9 that shakes in biography stagger up and down, between helical teeth one side S911 and two S912 of helical teeth, be connected with section S913, helical teeth one side S911 is positioned at the below of two S912 of helical teeth, therefore, two S912 of shell fragment S11 and helical teeth are not close to, and exist the gap of a section between the two; Because being connected with armature S14, the face that covers of vibrating mass S8 coordinates with electromagnet S12 again, when electromagnet S12 energising produces behind magnetic field, can there is a downward adsorption affinity to armature S14, while conducting on shell fragment S11 due to this adsorption affinity by vibrating mass S8, shell fragment S11 can produce certain back stretch, shell fragment S11 can vibrate back and forth to the continuous conter clockwise of direction of two S912 of helical teeth, driving simultaneously vibrating mass S8 also thereupon constantly conter clockwise vibrate back and forth.The vibrating disk main body 1 of vibrating disk assembly is connected with the vibrating mass S8 of electric machine assembly, vibrating disk main body 1 is also along with conter clockwise vibration, nail catcher in vibrating disk main body 1 can slowly be sent to the top of vibrating disk main body 1 along the nail catcher path 15 spiraling up from bottom, and drop in the outlet 11 in nail catcher path 15, and then under the effect of vibration of vibrating disk main body 1, nail catcher shakes off the first paragraph track 21 to trapped orbit 2 from vibrating disk main body 1, and the vibration along with vibrating disk main body 1, nail catcher can constantly vibrate and advance, because the first paragraph track 21 of trapped orbit 2 tilts obliquely, and a side 33 of the first paragraph guide rail 31 of nail catcher guide rail 3 is sharpened thin, nail catcher can be fastened in the thin side 33 of being sharpened of nail catcher guide rail 3 under the effect of vibratory force and gravity, and nail catcher can reverse along with the torsional direction of nail catcher guide rail 3, the pawl nail of nail catcher is transferred to gradually vertically upward from oblique, on the second segment track 22 of trapped orbit 2, limited location plate 24 holds, nail catcher can't drop, but via buffering delivery chute 27, be transferred in the major trough 41 of delivery chute 4 of transfer block 46 under the effect of vibration, owing to having the second nail catcher guide rail 51 in delivery chute 4 major troughs 41, the pawl nail of nail catcher was from being originally fastened in nail catcher guide rail 3 then be fastened on the second nail catcher guide rail 51, the initial segment distance of nail catcher in delivery chute 4 is to be advanced by nail catcher promotion below, then nail catcher can move under the wind-force effect of gas hole 47, be transported to push-rod hole 45 positions of nail catcher cylinder always, then by the push rod of nail catcher cylinder, nail catcher and pearl be fixed together.

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, over against the notch of buffering delivery chute 27, has 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 side by side major trough 41 and communicates with major trough 41, major trough 41 from the push-rod hole 45 of the cylinder of ejection nail catcher extend to always with cushion delivery chute 27 over against position.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 to the other end from gas hole 47 always, until have notch 43.Cover plate 5 covers in transfer block 46, and cover plate 5 is provided with the centre that is positioned at the major trough 41 of delivery chute 4 when the second nail catcher guide rail 51, the second nail catcher guide rails 51 cover at the face of covering; The second nail catcher guide rail 51 is over against the destination county of second segment guide rail 32, between the destination county of the second nail catcher guide rail 51 and second segment guide rail 32, has the size in ，Gai gap, gap identical with the gap between delivery chute 4 and buffering delivery chute 27.

In major trough 41 due to delivery chute 4, there is the second nail catcher guide rail 51, the pawl nail of nail catcher was from being originally fastened in second segment guide rail 32 then 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 to be advanced by nail catcher promotion below, then nail catcher can move under the wind-force effect of gas hole 47, be transported to push-rod hole 45 positions 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 is for delivery of nail catcher, because self diameter of nail catcher is approximately 1.2mm, is highly approximately 2.0mm.Major trough 41 can not be excessive can not be too small, otherwise nail catcher can dilapidatedly be unfavorable for carrying advancing, and results 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 are 2.1mm.The effect of secondary groove 41 is to dredge for ventilation, when gas hole 47 is blown to the nail catcher in major trough 41, effect by wind-force drives nail catcher to advance, for the mobile of gas, need to dredge, secondary groove 42 can go ahead and blow along major trough 41 by dredging flow, until the nail catcher of major trough 41 is blown to the position of appointment, then air-flow blows out from the notch 43 of secondary groove 41.In order to guarantee 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.It is also for the dredging of air-flow that the major trough 41 of delivery chute 4 also has a bit of open slot 44, the effect of this bit of open slot 44 below at the push-rod hole 45 of the cylinder of ejection nail catcher, prevents that air-flow is at the interior formation eddy flow of major trough 41, thereby affects the conveying of nail catcher.

Because the initial segment distance of nail catcher in the major trough 41 of delivery chute 4 is to be promoted to advance by nail catcher below, promote the power of advancing very weak, if in resistant a little words above, can make nail catcher not be pushed and advance.Because nail catcher advances by wind blows at the segment distance below of the major trough 41 of delivery chute 4, in order to ensure enough wind-force, need to guarantee certain air quantity.Most of air quantity of gas flow one section of notch from major trough 41 and secondary groove 42 is discharged, and also has a fraction of air quantity to discharge from the notch of initial a section of major trough.The both sides of the second nail catcher guide rail 51 of cover plate 5 are provided with surplus groove 52, surplus groove 52 communicates with major trough 41 and the secondary groove 42 of delivery chute 4, can increase the spatial content of major trough 42 and secondary groove 42, both be conducive to dredging of air-flow, can reduce again the wind-force of discharging from the notch of initial a section of major trough 41, make this part wind-force can not hinder the advancing of nail catcher of an initial segment distance.Reason due to distance air blowing hole distance, wind-force along the second nail catcher guide rail 51 directions 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 directions, the spatial content of major trough 41 and secondary groove 42 reduces gradually like this, can guarantee that wind-force is more even, blow nail catcher always and advance forward.

Although the notch 48 of delivery chute 4, over against the notch of buffering delivery chute 27, has the gap of 0.3mm between delivery chute 4 and buffering delivery chute 27.Because buffering delivery chute 27 is to vibrate under the drive of vibrating disk 1, delivery chute 4 can not contact with buffering delivery chute 27, prevents that the vibration effect that cushions delivery chute 27 is to delivery chute 4, thereby has influence on the delivery precision of nail catcher in delivery chute 4.In like manner, although the second nail catcher guide rail 51 over against the destination county of second segment guide rail 32, has the size in ，Gai gap, gap identical with the gap between delivery chute 4 and buffering delivery chute 27 between the destination county of the second nail catcher guide rail 51 and second segment guide rail 32.

Compared with prior art, the vibrating disk mechanism of the pearl nailer that the utility model provides, optimal design due to transfer structure, nail catcher is along with the conter clockwise vibration of vibrating disk is slowly sent to vibrating disk top from bottom, and nail catcher has the guiding of nail catcher guide rail from vibrating disk main body to delivery chute, under the effect of vibration and gravity, advance, in delivery chute, also there is the guiding of the second nail catcher guide rail, nail catcher advances under the effect of wind-force, the motion of nail catcher is all slow and orderly, can make the conveying of nail catcher become smooth and easy, reduce the generation of fault, improve the transport efficiency of nail catcher.

Above-mentioned explanation to the disclosed embodiments, makes professional and technical personnel in the field can realize or use the utility model.To the multiple modification of these embodiment, will be apparent for those skilled in the art, General Principle as defined herein can, in the situation that not departing from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a vibrating disk mechanism for pearl nailer, is characterized in that, involving vibrations dish assembly and electric machine assembly, and described vibrating disk assembly is connected with described electric machine assembly; Wherein:

Described vibrating disk assembly involving vibrations disc main body, trapped orbit and nail catcher guide rail, wherein: on the madial wall of described vibrating disk main body, be provided with the nail catcher path spiraling up, the outlet in described nail catcher path is amplified along the circular arc of described vibrating disk main body, together with the outlet in described nail catcher path is welded and fixed with described trapped orbit;

Described trapped orbit comprises first paragraph track and second segment track, described first paragraph track is connected with described second segment track, wherein: the oblique upper left side of described first paragraph track tilts 30 °-75 °, the front segment length of described first paragraph track is 15mm-23mm, 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, and the destination county of described second segment track is vertical with horizontal surface; The sidewall of described second segment track is provided with the positioning plate of 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, described nail catcher guide rail is sharpened thin with respect to a side of described positioning plate, described nail catcher guide rail comprises first paragraph guide rail and second segment guide rail, described first paragraph guide rail is connected with described second segment guide rail, wherein: the oblique upper left side of described 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 simultaneously pastes described first paragraph track, is provided with for keeping out the padded baffle plate of nail catcher on the another side of described first paragraph guide rail; 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, and the destination county of described second segment guide rail is vertical with horizontal surface;

Described vibrating disk main body is also provided with nail catcher reclaim tank and nail catcher spout, and described nail catcher reclaim tank is arranged on the first paragraph track below of described trapped orbit, and the inner side of described nail catcher reclaim tank communicates with described vibrating disk main body; Described nail catcher spout is arranged on the upper side wall of described vibrating disk main body, and the import of described nail catcher spout communicates with described nail catcher path;

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

Described electric machine assembly comprises electromagnet, damping base, firm banking, biography shake contiguous block and vibrating mass, in described electric machine assembly, the position relationship of each major part is followed successively by damping base, firm banking, biography shake contiguous block and vibrating mass from the bottom to top, and described electromagnet is positioned at the described biography contiguous block that shakes; Wherein:

Described firm banking is arranged on described damping base, and the described biography contiguous block that shakes is connected with described firm banking;

The described biography contiguous block that shakes is hollow annular structure, described electromagnet is placed on described biography and shakes in the hollow annular structure of contiguous block, the shake periphery of contiguous block of described biography is provided with helical teeth in the counterclockwise direction, described helical teeth recedes 12 °-17 °, described helical teeth comprises two of helical teeth one side and helical teeth, between two of described helical teeth one side and described helical teeth, stagger up and down and connect by section, the width distance of described section is 0.2mm-0.8mm;

Described vibrating mass covers in described biography and shakes on contiguous block, and the face that covers of described vibrating mass is provided with the armature coordinating with described electromagnet; The periphery of described vibrating mass is also provided with the second helical teeth in the counterclockwise direction, and the sweptback angle of described the second helical teeth is consistent with the angle of inclination of described helical teeth, and described the second helical teeth is connected by shell fragment with the helical teeth one side of described helical teeth;

The vibrating disk of described vibrating disk assembly is connected with the vibrating mass of described electric machine assembly.

2. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, the elevation angle angle that the nail catcher path of described vibrating disk main body spirals up is 1 °-5 °.

3. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, described nail catcher guide rail is sharpened thin with respect to a side of described positioning plate, makes to have between described nail catcher guide rail and described trapped orbit the gap of 0.3mm-0.7mm.

4. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, the oblique upper left side of described first paragraph track tilts 45 °, and the oblique upper left side of described first paragraph guide rail tilts 45 °.

5. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, together with described trapped orbit is welded and fixed with vibrating disk main body along the tangential direction on described vibrating disk body edge edge.

6. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, the bottom of described vibrating disk main body is connected with the vibrating mass of described electric machine assembly by annular cushion block.

7. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, described armature is over against described electromagnet, is separated with the gap of 0.2mm-0.8mm between between described armature and described electromagnet.

8. the vibrating disk mechanism of pearl nailer according to claim 7, is characterized in that, described vibrating mass and the described biography contiguous block that shakes has gap in the vertical direction, and the distance in described gap is greater than spaced slot between described armature and described electromagnet.

9. the vibrating disk mechanism of pearl nailer according to claim 1, is characterized in that, described firm banking and described biography are shaken, and contiguous block is structure as a whole or Split type structure.

10. the vibrating disk mechanism of pearl nailer according to claim 1, it is characterized in that, the shake periphery of contiguous block of described biography is evenly provided with 3 above helical teeth in the counterclockwise direction, and the periphery of described vibrating mass is also provided with the second helical teeth of equal number in the counterclockwise direction.

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