CN1039188C - Snap fasteners fitting machine - Google Patents

Abstract

To obtain a fluoroalkoxy silane used as a raw material for producing silicon dioxide, semiconductor-processing materials, optical fiber materials, etc., by reacting an alkoxysilane with a fluorosilane. The characteristic of the method for producing a fluoroalkoxysilane by introducing an alkoxysilane and a fluorosilane into a reactio'ystem is reacting the alkoxysilane with the fluorosilan in the presence of a catalyst comprising one or more kinds of the oxides of the group V or VI elements in the periodic table.

Description

Snap fasteners fitting machine

The child that the present invention relates to be used for forming snap-fastener is buckled or the snap fasteners fitting machine of box binding on pliability diaphragms such as clothes, specifically, relate to a kind of like this snap fasteners fitting machine: two parts that form son button or box in the configuration of the two sides of pliability diaphragm, be that gomphosis part parts and convex or matrix is gone in riveting, the central authorities of this gomphosis part are formed with the confession riveting and go into the through hole that the projection of parts is passed, the projection that parts are gone in riveting penetrates the pliability diaphragm and inserts in the through hole of above-mentioned gomphosis part, impact this projected front ends, make its hole enlargement distortion, like this, above-mentioned riveting is gone into parts and gomphosis part is just clamped the pliability diaphragm and by calking.

Snap fasteners fitting machine in the past is provided with and bears tool, liftable towards tool, towards the lifting drive and the pusher of tool.This bears projection that tool makes riveting go into parts and is supporting riveting up and go into parts; Liftable is configured in towards tool and bears tool top and relative with it; Pusher bears tool and goes into parts and gomphosis part towards tool supply riveting to above-mentioned respectively, and there is the through hole of going into the projection insertion of parts for riveting in the central authorities of this gomphosis part.Above-mentioned be provided with towards tool liftable towards tool body, the directed drift of tube axle shape and the tight drift of moat.This orientation drift can be with respect to sliding up and down towards the tool body, and be pressed parts toward the below pushing; The tight drift of this moat is configured in directed to the inboard of drift, and with respect to fixing towards the tool body.Be clipped at the pliability diaphragm and bear tool and under the state between the tool, make towards tool and descend, by gomphosis part under the directed drift pushing, the projection that makes riveting go into parts penetrates the pliability diaphragm and inserts in the through hole of gomphosis part, impact this projected front ends with the tight drift of moat again, make riveting go into parts and gomphosis part is tight by moat under the state that clips the pliability diaphragm.

Snap fasteners fitting machine according to above-mentioned structure, gomphosis part and riveting are gone into parts and are delivered to towards tool and bearing on the tool by pusher, be inserted with under the state of pliability diaphragm at the two, make when tool descends within the specific limits by lifting drive, directed drift earlier with the gomphosis part pushing down, the projection of parts is gone in the extrusion riveting above the pliability diaphragm, so the projection that parts are gone in riveting penetrates the pliability diaphragm and inserts in the through hole of gomphosis part.

In the process of pushing gomphosis part, if there is excessive load to act on the directed drift, slip then should the orientation drift will relatively make progress, that is to say, the tight drift of moat further descends under the state that makes directed drift stop to descend, the tight drift of this moat impacts from the outstanding projected front ends portion of gomphosis part through hole, makes projection hole enlargement distortion, makes riveting go into parts and gomphosis part is tight by moat under the state that clips the pliability diaphragm.

But, this snap fasteners fitting machine in the past, it is online towards tool and lifting drive basically, the lower position of the lifting travel of the tight drift of moat is certain, so, there is following shortcoming.

Promptly, the directed drift of tube axle shape that is positioned at the tight drift of moat periphery can be with respect to sliding up and down towards the tool body, and be pressed parts toward the below pushing, so, this orientation drift can slide up and down because of the thickness of pliability diaphragm, when the thinner thickness of pliability diaphragm, directed drift pushes lower position with gomphosis part, so go into the outstanding length of projection of parts from the outstanding riveting of the through hole of gomphosis part then longer, under the thicker situation of the thickness of pliability diaphragm, when gomphosis part decline aequum, directed drift is resisted above-mentioned press member and is retreated toward the top, and the projection length of going into parts from the outstanding riveting of above-mentioned through hole shortens.Simultaneously, no matter the thickness of pliability diaphragm how, always the tight drift of moat drops to the lower position of lifting travel, is impacted the projection that parts are gone in riveting, projection is flattened.

Therefore, if set the lower position of the lifting travel of the tight drift of moat higher in order to adapt to thicker pliability diaphragm, then the binding object is when approaching the pliability diaphragm, even the tight drift of moat impacts the projection that parts are gone in riveting, also can only be out of shape the top hole enlargement of the projection that grows gomphosis part through hole top, and moat is tight fully.Otherwise, if set the lower position of the lifting travel of the tight drift of moat lower in order to adapt to thin pliability diaphragm, when then the binding object is thick pliability diaphragm, although it is short from the projection length that through hole is outstanding, but the tight drift of moat still descends with original slippage and impacts the projection that parts are gone in riveting, and the slippage of drift surpasses actual requirement, along with the hole enlargement distortion of projection, gomphosis part is subjected to the undue power that through hole is enlarged, so gomphosis part easily splits.

In order to overcome above-mentioned defective, in snap fasteners fitting machine in the past, when pliability diaphragm varied in thickness, will change the tight drift of moat on the tool body of being fixed on of different length, must reset the down position of the tight drift lifting travel of moat.

When the binding snap-fastener to as if during clothes, often on dress, the position that individual layer, bilayer or three layers of cloth are arranged, on these positions during the binding snap-fastener, because the thick matter at these positions has nothing in common with each other, for can with a snap fasteners fitting machine all snap-fasteners all binding get finely, just must change drift several times, the replacing operation is pretty troublesome, thereby the operating rate of binding snap-fastener is reduced.

For this reason, with the fabric thickness identical portions on the dress the position as a group, be divided into the position of binding snap-fastener some thin, adopt the fabric thickness of corresponding each group and set the tight punch length of moat, promptly, prepare some snap-fastener fitting machines, clothes is taken the enterprising luggage nail of these snap fasteners fitting machines, share the snap fasteners fitting operation by these assembling machines with different directed drift ceiling stroke down positions.Like this, some snap fasteners fitting machines are set, need the big place that is provided with simultaneously, so, the binding cost of snap-fastener improved.

The present invention puts forward in view of the above-mentioned problems, its purpose is to provide a kind of snap fasteners fitting machine, use this snap fasteners fitting machine, can save to adapting to pliability diaphragm thickness and change the trouble operation of drift, can be with the snap fasteners fitting machine of playscript with stage directions invention, binding snap-fastener on the pliability diaphragm of different-thickness.

To achieve these goals, snap fasteners fitting machine of the present invention is provided with and bears tool, liftable towards tool, towards the lifting drive and the pusher of tool; This bears projection that tool makes riveting go into parts and is supporting riveting up and go into parts, should be configured in the top of bearing tool and relative towards tool with it, this pusher is respectively to bearing tool and supply with riveting towards tool and go into parts and gomphosis part, has for riveting in the central authorities of this gomphosis part and goes into the through hole that the projection of parts is inserted; Above-mentioned be provided with towards tool liftable towards tool body, the directed drift of tube axle shape and the tight drift of moat; This orientation drift can be with respect to sliding up and down towards the tool body, and be pressed parts toward the below pushing, and the tight drift of this moat is configured in the inboard of directed drift, and with respect to fixing towards the tool body; Descend the pliability diaphragm being clipped in bear tool and make towards tool under the state between the tool, by above-mentioned directed drift gomphosis part is pushed, the projection that makes riveting go into parts penetrates the pliability diaphragm and inserts in the through hole of gomphosis part, the tight drift of above-mentioned moat impacts above-mentioned projected front ends portion, make above-mentioned riveting go into parts and gomphosis part is tight by moat under the state that clips the pliability diaphragm, it is characterized in that: above-mentioned have connecting rod towards tool, this connecting rod can slide along the vertical direction within the specific limits with respect to the slide block of lifting drive, one end of this connecting rod is connected with the tool body that dashes towards tool, its other end is connected with above-mentioned slide block by press member, and this press member pushes above-mentioned connecting rod downwards.

According to above-mentioned structure, because directed drift can be with respect to sliding up and down and be pressed parts towards the tool body toward the below pushing, acting on load (the decline resistance of directed drift) on the directed drift can flexible membrane thickness corresponding to the snap fasteners fitting object and change, therefore the lower position of directed drift lifting travel also changes, and the projection length of going into parts from the outstanding riveting of the through hole of gomphosis part also changes.

From the outstanding jut of the through hole of gomphosis part,, be out of shape by hole enlargement by impacting with the tight drift of the inboard moat that together descends towards the tool body.If it is longer from the jut that the through hole of gomphosis part is outstanding, then owing to be subjected to the constraint of through hole hole wall few, the tight drift of moat flattens projection (hole enlargement distortion) and only needs slight power, if it is short from the jut that through hole is outstanding, then owing to firmly being difficult to distortion by the constraint of the hole wall of through hole around it, the tight drift of moat flattens projection need use bigger power.That is to say that just shorter from the jut that through hole is outstanding when the thickness of pliability diaphragm is thicker, when the tight drift of moat flattened projection, effect load (the decline resistance of the tight drift of moat) thereon just increased.

Owing to can slide up and down with respect to lifting drive towards tool, and be pressed parts toward the below pushing, so, when the tight drift of moat flattens projection, if effect load thereon increases,, still resist the pushing force of press member with respect to the past top slip of this lifting drive towards tool body and then the tight drift of moat although lifting drive invests the driving force that descends towards the tool body, like this, just automatically improve the lower position of the lifting travel of the tight drift of moat.

Its result, regardless of the thickness of pliability diaphragm, the jut that the tight drift of moat always only will protrude in through hole flattens.

Accompanying drawing has been represented embodiments of the invention.

Fig. 1 is the front elevation of snap fasteners fitting machine;

Fig. 2 is the side view of snap fasteners fitting machine;

Fig. 3 is the exploded perspective view of major part;

Fig. 4 is the side view of the major part of broken section;

Fig. 5 is the front elevation of the major part of broken section;

Fig. 6 is the side view of the major part of broken section;

Fig. 7 is action specification figure;

Fig. 8 is action specification figure.

Among the figure, 7-towards tool, 8-tool born, 9-lifting drive, 10-pusher, 17-towards the tool body, 18-press member, 19-directed drift, the tight drift of 20-moat, 33-press member, A-gomphosis part, parts are gone in B-riveting, S-pliability diaphragm, b-projection, d-through hole.

Below, with reference to the description of drawings embodiments of the invention.Fig. 1, Fig. 2 represent the integral body of snap fasteners fitting machine, and Fig. 3-Fig. 6 represents the major part of snap fasteners fitting machine.In these figure, 1 is the hopper of accommodating a plurality of convexs (or matrix) gomphosis part A, and 2 for to accommodate the hopper that part B is gone in a plurality of rivetings, and these hoppers about 1,2 are located at the upside of erectile shelf 3 mutually with standing facing each other.S is a mounting object, as pliability diaphragms such as clothes.

Above-mentioned gomphosis part A and riveting are gone into part B and are synthetic resin system.Riveting is gone into part B and is constituted by discoideus head a with from the outstanding sharp projection b of its inside central authorities.Gomphosis part A has had convex (or matrix) the fitting portion C of fastening effect, and portion forms for above-mentioned projection b and inserts the through hole d that leads in the central.

4,5 adjust the gomphosis part A of certain posture and the chute that part B is gone in riveting with the rotation of hopper 1,2 for taking out.At the fore-end of upside chute 4, form fore-and-aft direction gomphosis part A send groove e, at the fore-end of downside chute 5, be provided with the guide rail 6 of fore-and-aft direction, what be formed with on guide rail 6 that riveting goes into part B sends groove f.

In above-mentioned the place ahead of sending groove e, f, lifting dashing tool 7 and bearing tool 8 freely relatively is being set up and down, bear tool 8 and make projection b support riveting up to go into part B.9 is the lifting drive towards tool 7, and 10 supply with gomphosis part A towards tool 7 and part B gone in riveting supply with the pusher of 2 sections arm 10a, 10b up and down that bears tool 8 for having respectively, it with dash the lifting action ground same period that has and move back and forth at fore-and-aft direction.Along with rearward moving of pusher 10, gomphosis part A in the above-mentioned chute 4,5 and riveting are gone into part B and are fed to above-mentioned groove e, the f of sending respectively singly, when pusher 10 moves toward the place ahead, above-mentioned gomphosis part A and riveting are gone into part B and are moved in sending groove e, f, are sent to towards tool 7 respectively from the end of sending groove e, f and bear tool 8.The 11st, the driving mechanism of pusher 10.

The above-mentioned tool 8 that bears has and bears platform 12, a pair of switching metal fixture 13a, 13b and spring 14 freely.It is fixing with respect to shelf 3 that this bears platform 12; Metal fixture 13a, 13b are keeping being placed on the head a that part B is gone in the riveting of bearing on the platform 12 from both sides; Spring 14 is closed metal fixture 13a, 13b.The lower end of metal fixture 13a, 13b is connected with movable framework 15, under the driving mechanism effect of this movable framework 15 outside figure, with towards lifting same period of tool 7 move at above-below direction.The upper end side of metal fixture 13a, 13b is along with the decline of movable framework 15, on one side with respect to bearing platform 12 declines, the pressure face breakdown of antagonistic spring 14 on one side.

Above-mentioned towards tool 7 have towards tool body 17, the directed drift 19 of tube axle shape, the tight drift 20 of moat, pair of metal anchor clamps 21a to be opened/closed, 21b and spring 22, can be towards tool body 17 along guiding parts 16 liftings; Directed drift 19 is positioned at towards the lower end of tool body 17, can be with respect to sliding up and down within the specific limits towards tool body 17, and the press member 18 that is made of helical spring is toward the belows pushing; The tight drift 20 of moat is configured in the inboard of directed drift 19, and with respect to fixing towards tool body 17; Metal fixture 21a, 21b are located at towards the front of tool body 17, can move up and down with respect to drift tool body 17; Spring 22 is closed metal fixture 21a, 21b.In the upper end towards tool body 17, the fulcrum 24 by fore-and-aft direction is connecting the connecting rod 23 that can swing, is formed with rectangular aperture g on this connecting rod 23.25 is the anti-avulsion pin of directed drift 19, and 26 is the set screw of the tight drift 20 of moat.Lower surface (shock surface) central portion of the tight drift 20 of moat is formed with and slightly is conical pit, and when the tight drift 20 of moat descended, the front end that the projection b of part B is gone in riveting embedded in this pit, is located.Under this state, projection b is flattened by the tight drift 20 of moat.

Above-mentioned lifting drive 9 is to constitute like this: central part has the slide block 28 of pin-and-hole 27 can slide up and down to be located in the above-mentioned rectangular aperture g, the crankpin 31 that is located on the rotating shaft 30 rotatably is inserted in the pin-and-hole 27 of slide block 28, and this rotating shaft 30 is driven rotation by an outer rotary clutch of figure by the output of motor 29.The 32nd, the pedal of the rotary clutch that attended operation is above-mentioned.

Above-mentionedly in the scope of the gap L of above-mentioned rectangular aperture g and slide block 28, slide up and down, be pressed the bigger press member 33 of the above-mentioned press member 18 of power toward the belows pushing with respect to lifting drive 9 towards tool 7.

As Fig. 3, Fig. 5, shown in Figure 6, above-mentioned press member 33 is to constitute like this: hole 34 is formed at the top at connecting rod 23, simultaneously, this hole 34 and concentric screwed hole 35 are formed on the top of above-mentioned slide block 28, reduced diameter section threaded portion, bottom h with screwed part 36 of different-diameter section passes above-mentioned hole 34 and is screwed in the above-mentioned screwed hole 35, and, prevent the rotation of reduced diameter section threaded portion h by spline pin 37.Several disk springs 38 are embedded on the above-mentioned screwed part 36, these disk springs up and down towards different.In the upper end of this screwed part 36, screwing togather by packing ring 39 and to compress the nut 40 that disk spring is used.

In addition, press member 33 grades by cover 41 (see figure 1) covers.In order to prevent that the butterfly spring 38 facing to above-mentioned reduced diameter section threaded portion from moving horizontally, the cylindrical shell 42 that has been nested on the butterfly spring 38 in the lower side certain limit, above-mentioned butterfly spring 38 also can change helical spring etc. into.When replacing butterfly spring 38, can save above-mentioned cylindrical shell 42 with helical spring.

Below, the action of above-mentioned snap fasteners fitting machine is described.

As Fig. 4, shown in Figure 7, pliability diaphragm S is placed on bears tool 8 and towards between the tool 7, under this state, foot-operated above-mentioned pedal 32 is towards 7 declines of tool, shown in Fig. 8 (a), metal fixture 21a, 21b started with the suitable cycle, and simultaneously, directed drift 19 pushes gomphosis part A, part B is gone in the extrusion riveting above pliability diaphragm S, like this, the projection b that part B is gone in riveting just penetrates pliability diaphragm S, inserts in the through hole d of above-mentioned gomphosis part A.

At this moment, tool body 17 slides up and down because directed drift 19 can liquidate mutually, and be pressed parts 18 and push downwards, acting on load on the directed drift 19 (resistances that directed drift 19 descends) changes because of the thickness of pliability diaphragm S, so, the lifting travel lower position of directed drift 19 changes, and the length that the projection b of part B is gone in the riveting of passing gomphosis part A through hole d also changes.For example, shown in Fig. 8 (a), when pliability diaphragm S was a slice, gomphosis part A was pushed into lower position, so, longer from the length of the outstanding jut of through hole d.But shown in Fig. 9 (a), be when the superimposed position binding snap-fastener of three pliability diaphragms, because directed drift 19 opposing press member 18 retreat toward tops, so shorter from the length of the outstanding jut of through hole d.

Then, along with the decline towards tool body 17, the tight drift 20 of moat further descends, shown in Fig. 8 (b), the front end by the above-mentioned projection b of tight drift 20 impacts of moat makes its hole enlargement distortion, like this, it is tight by moat under the state that clips pliability diaphragm S that part B is gone in gomphosis part A and riveting.

At this moment, the tight drift of moat 20 with integrally descend towards tool body 17, can slide up and down with respect to lifting drive 9 in above-mentioned gap L scope towards tool 7, and pushed downwards by above-mentioned press member 33, so when the tight drift 20 of moat flattened projection b, the load (the decline resistance of the tight drift 20 of moat) that acts on the tight drift 20 of moat correspondingly slided the tight drift 20 of moat upward, like this, the lower position of the lifting travel of the tight drift 20 of moat just changes.

Therefore, regardless of the thickness of pliability diaphragm S, the ledge that the tight drift 20 of moat always only will protrude in through hole d flattens, thereby can prevent that the cracking of gomphosis part or moat are not tight.

That is, the tight drift of moat 20 impacts rivetings when going into the front end of projection b of part B, if longer from the outstanding jut of the through hole d of gomphosis part A, then because it would be subjected to the constraint of through hole d hole wall few, so the tight drift 20 of moat only needs slighter power when flattening projection b; If shorter from the jut that through hole d is outstanding, then owing to the constraint that is subjected to through hole d hole wall around it would be difficult to distortion, so the tight drift 20 of moat just needs bigger power when flattening projection b.Because the lower position of the lifting travel of the tight drift 20 of moat is to change according to the load that acts on the drift when the tight drift 20 of moat flattens projection b, for example, no matter be 1 pliability diaphragm S shown in Fig. 8 (b), or three overlapping pliability diaphragm S shown in Fig. 9 (b), the tight drift 20 of moat always only flattens the jut that protrudes in through hole d, so,, also needn't change the tight drift 20 of moat of different length even the thickness of pliability diaphragm changes.

As mentioned above, according to the present invention, even the projection length of going into parts from the outstanding riveting of the through hole of gomphosis part A changes because of the thickness of pliability diaphragm, but because 20 flattenings of the tight drift of moat protrude in the jut of through hole, so, can prevent that gomphosis part cracking or moat are not tight.

Thereby, can save to the thickness that adapts to the pliability diaphragm and change this time-consuming bothersome operation of the tight drift of moat, only need with 1 snap fasteners fitting machine just can be on the pliability diaphragm of different-thickness the binding snap-fastener.

Claims (1)

1. a snap fasteners fitting machine is provided with and bears tool, liftable towards tool, towards the lifting drive and the pusher of tool; This bears projection that tool makes riveting go into parts and is supporting riveting up and go into parts, should be configured in the top of bearing tool and relative towards tool with it, this pusher is respectively to bearing tool and supply with riveting towards tool and go into parts and gomphosis part, has for riveting in the central authorities of this gomphosis part and goes into the through hole that the projection of parts is inserted; Above-mentioned be provided with towards tool liftable towards tool body, the directed drift of tube axle shape and the tight drift of moat; This orientation drift can be with respect to sliding up and down towards the tool body, and be pressed parts toward the below pushing, and the tight drift of this moat is configured in the inboard of directed drift, and with respect to fixing towards the tool body; Descend the pliability diaphragm being clipped in bear tool and make towards tool under the state between the tool, by above-mentioned directed drift gomphosis part is pushed, the projection that makes riveting go into parts penetrates the pliability diaphragm and inserts in the through hole of gomphosis part, the tight drift of above-mentioned moat impacts above-mentioned projected front ends portion, make above-mentioned riveting go into parts and gomphosis part is tight by moat under the state that clips the pliability diaphragm, it is characterized in that: above-mentioned have connecting rod towards tool, this connecting rod can slide along the vertical direction within the specific limits with respect to the slide block of lifting drive, one end of this connecting rod is connected with the tool body that dashes towards tool, its other end is connected with above-mentioned slide block by press member, and this press member pushes above-mentioned connecting rod downwards.

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