CN104942583A - Upper cap head distributing and feeding mechanism of automatic valve element assembling machine - Google Patents

Abstract

The invention discloses an upper cap head distributing and feeding mechanism of an automatic valve element assembling machine. The upper cap head distributing and feeding mechanism comprises an upper cap head feeding base plate, and the front side and the rear side of the upper cap head feeding base plate are each provided with an upper cap head feeding side vertical plate which is vertically mounted. An upper cap head collecting and feeding device is mounted on the upper edges of the upper cap head feeding side vertical plates, an inductive distributing rack is arranged below the upper cap head collecting and feeding device, and the front end and the rear end of the inductive distributing rack are connected with the upper cap head feeding side vertical plates. An upper cap head pneumatic distributing device is arranged below the inductive distributing rack, the lower edge of an upper cap head distributing side vertical plate of the upper cap head pneumatic distributing device is fixed on the upper cap head feeding base plate, and four upper cap head distributing support pillars of the upper cap head pneumatic distributing device are located below a discharging opening of the inductive distributing rack. By the adoption of the mode, the upper cap head distributing and feeding mechanism can replace workers to separate and convey upper cap heads to the specified positions quickly.

Description

The rail top sub-material feed mechanism of spool automatic assembling

Technical field

The present invention relates to automatic field, particularly relate to a kind of rail top sub-material feed mechanism of spool automatic assembling.

Background technology

Expanding valve core is an important component part of expansion valve, expanding valve core is made up of spring, spring positioning sleeve, rail top, spool thimble, before because of its use amount little, the technique adopted all manually is assembled one by one, assemble rear unified compacting, single stage characterization processes is not had in assembling process yet, after completing Deng compacting, workman's simple test one bottom spool active situation just finishes, such spool is very low for service life, sometimes just install to and valve just occurred the stuck phenomenon such as motionless, cannot instructions for use have been met at all.

Summary of the invention

The technical problem that the present invention mainly solves is to provide a kind of rail top sub-material feed mechanism of spool automatic assembling, can substitute workman and fast rail top separation is transported to assigned address.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: the rail top sub-material feed mechanism providing a kind of spool automatic assembling, the rail top sub-material feed mechanism of this spool automatic assembling comprises induction type material distributing rest, the pneumatic feeding-distribution device of rail top, rail top material loading cant board, rail top material loading base plate and rail top feeding feeding device, the both sides, front and back of described rail top material loading base plate are respectively provided with a vertically arranged rail top material loading cant board, the upper edge of rail top material loading cant board is provided with rail top feeding feeding device, the below of rail top feeding feeding device is provided with induction type material distributing rest, the rear and front end of induction type material distributing rest is connected to rail top material loading cant board, the below of induction type material distributing rest is provided with the pneumatic feeding-distribution device of rail top, rail top material loading base plate is fixed in the lower edge of the rail top sub-material cant board of the pneumatic feeding-distribution device of rail top, four rail top sub-material fore-sets of the pneumatic feeding-distribution device of rail top are positioned at below induction type material distributing rest discharging opening,

Described induction type material distributing rest comprises material distributing rest base plate, material distributing rest front top plate, top board after material distributing rest, sub-material mould on rail top, sub-material mould under rail top, sub-material mould grid spacer, material distributing rest optical fiber inductive head and optical fiber inductive head support, described material distributing rest base plate is provided with sub-material mould under the rail tops of five equidistant arrangements side by side, by sub-material mould lateral surface under the rail top at two ends, material distributing rest base plate left and right is provided with sub-material mould grid spacer, under five rail tops of equidistantly arranging side by side, above sub-material mould, correspondence is provided with sub-material mould on five rail tops, on five rail tops sub-material mould upper plane on front side of be all fixed on material distributing rest front top plate, on five rail tops, the upper planar back side of sub-material mould is all fixed on top board after material distributing rest, two sub-material mould grid spacers are all connected to sub-material mould on the rail top at two ends, top board left and right after material distributing rest by that side surface upper part of sub-material mould under rail top, on rail top, on sub-material mould, plane is fixed with the optical fiber inductive head support being parallel to material distributing rest front top plate, optical fiber inductive head support is provided with four material distributing rest optical fiber inductive heads, four material distributing rest optical fiber inductive heads are walked to expect interval trough facing to equidistantly arrange four of being formed of sub-material mould on five rail tops,

The pneumatic feeding-distribution device of described rail top also comprises rail top sub-material slide rail, rail top sub-material slide block, rail top sub-material cylinder, rail top sub-material cylinder mounting plate, rail top sub-material cylinder floating joint, rail top sub-material slide plate, rail top sub-material fore-set guide pin bushing, the outer jump ring of guide pin bushing, rail top sub-material fore-set fixed strip, top gas cylinder in rail top sub-material, top gas cylinder floating junction and rail top sub-material push up cylinder mounting plate to rail top sub-material, the upper edge of described rail top sub-material cant board is provided with rail top sub-material slide rail, rail top sub-material slide rail is provided with rail top sub-material slide block, rail top sub-material slide block is provided with rail top sub-material slide plate, rail top sub-material slide plate is connected to the piston rod of rail top sub-material cylinder by rail top sub-material cylinder floating joint, rail top sub-material cylinder is installed on rail top sub-material cylinder mounting plate, rail top sub-material cylinder mounting plate is fixed on the left side edge top of rail top sub-material cant board, rail top sub-material slide plate is embedded with four rail top sub-material fore-set guide pin bushings be arranged side by side on the right side of plane, rail top sub-material fore-set guide pin bushing is fixed by the outer jump ring of guide pin bushing, the rail top sub-material fore-set that can slide up and down is equipped with in rail top sub-material fore-set guide pin bushing, rail top sub-material fore-set fixed strip is all fixed in the lower end of rail top sub-material fore-set, rail top sub-material fore-set fixed strip is connected to the piston rod of top gas cylinder in rail top sub-material by top gas cylinder floating junction in rail top sub-material, rail top sub-material is pushed up cylinder side to be loaded in rail top sub-material and to push up cylinder mounting plate, rail top sub-material slide plate right edge edge is fixed in the left surface upper edge of rail top sub-material being pushed up cylinder mounting plate,

Described rail top feeding feeding device comprises rail top feeding transverse cylinder, rail top feeding transverse cylinder installing plate, rail top feeding transverse cylinder floating junction, the traversing buffer of feeding, traversing buffer installing plate, feeding cross sliding rail, the traversing slide block of feeding, feeding cross sliding rail installing plate and pneumatic type vacuum take out device, described rail top feeding transverse cylinder is installed on rail top feeding transverse cylinder installing plate, rail top feeding transverse cylinder installing plate is connected to the left end of two pieces of feeding cross sliding rail installing plates, the right-hand member of two pieces of feeding cross sliding rail installing plates is connected to traversing buffer installing plate, traversing buffer installing plate is provided with two traversing buffers of feeding, two pieces of feeding cross sliding rail installing plate medial surfaces are all provided with a feeding cross sliding rail, feeding cross sliding rail is equipped with a traversing slide block of the feeding that can horizontally slip, two traversing slide blocks of feeding are all connected to the side of pneumatic type vacuum take out device, pneumatic type vacuum take out device is connected to the piston rod of rail top feeding transverse cylinder by rail top feeding transverse cylinder floating junction, rail top feeding transverse cylinder installing plate is also provided with two traversing buffers of feeding,

Described pneumatic type vacuum take out device comprises feeding lifting base plate, feeding lifting sliding rail, feeding lifting slider, clamp before the traversing slide block of feeding connects, clamp after the traversing slide block of feeding connects, first feeding cylinder, first feeding cylinder mounting plate, first feeding cylinder floating joint, first feeding cylinder lifter plate and lift type vacuum device for suction material, described feeding lifting base plate front is provided with two feeding lifting sliding rails be parallel to each other, feeding lifting sliding rail is equipped with the feeding lifting slider that can slide up and down, feeding lifting slider is all connected to the first feeding cylinder lifter plate back side, first feeding cylinder lifter plate upper edge is connected to the piston rod of the first feeding cylinder by the first feeding cylinder floating joint, first feeding cylinder is installed on feeding lifting base plate upper edge by the first feeding cylinder mounting plate, before and after feeding lifting base plate, dual-side is connected rear clamp along being installed with the front clamp of feeding traversing slide block connection with the traversing slide block of feeding, first feeding cylinder lifter plate front is provided with lift type vacuum device for suction material,

Described lift type vacuum device for suction material comprises the second feeding cylinder, second feeding cylinder mounting plate, tube type vacuum generator, vacuum generator clamp, rail top vacuum mould-suction, vacuum mould-suction tube connector, vacuum mould-suction tube connector guide pin bushing and vacuum mould-suction tube connector guide pin bushing mount pad, described vacuum mould-suction tube connector guide pin bushing mount pad is fixed on the downside of the first feeding cylinder lifter plate front, four vacuum mould-suction tube connector guide pin bushings be arranged side by side are fitted with in vacuum mould-suction tube connector guide pin bushing mount pad, the vacuum mould-suction tube connector that can slide up and down is equipped with in vacuum mould-suction tube connector guide pin bushing, the lower end of vacuum mould-suction tube connector is all connected with a rail top vacuum mould-suction, the upper end of vacuum mould-suction tube connector is all connected with a tube type vacuum generator, four tube type vacuum generators are installed in vacuum generator clamp, vacuum generator clamp is connected to the piston rod flanged plate of the second feeding cylinder, second feeding cylinder side is loaded on the second feeding cylinder mounting plate, the back side of the second feeding cylinder mounting plate is fixed on the upside of the first feeding cylinder lifter plate front.

The invention has the beneficial effects as follows: the rail top sub-material feed mechanism of a kind of spool automatic assembling of the present invention, workman can be substituted and fast rail top separation is transported to assigned address.

Accompanying drawing explanation

Fig. 1 is the structural representation of the rail top sub-material feed mechanism of spool automatic assembling of the present invention;

Fig. 2 is the close-up schematic view of the rail top sub-material feed mechanism of spool automatic assembling of the present invention;

Fig. 3 is the structural representation of the induction type material distributing rest of spool automatic assembling of the present invention;

Fig. 4 is the structural representation of the pneumatic feeding-distribution device of rail top of spool automatic assembling of the present invention;

Fig. 5 is the structural representation of the pneumatic type vacuum take out device of spool automatic assembling of the present invention;

Fig. 6 is the close-up schematic view of the pneumatic type vacuum take out device of spool automatic assembling of the present invention;

Fig. 7 is the structural representation of the lift type vacuum device for suction material of spool automatic assembling of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, present pre-ferred embodiments is described in detail, to make the advantage of invention and feature can be easier to be readily appreciated by one skilled in the art, thus more explicit defining is made to protection scope of the present invention.

Refer to Fig. 1 to Fig. 7, the embodiment of the present invention comprises:

A kind of rail top sub-material feed mechanism of spool automatic assembling, the rail top sub-material feed mechanism of this spool automatic assembling comprises induction type material distributing rest 631, the pneumatic feeding-distribution device 632 of rail top, rail top material loading cant board 633, rail top material loading base plate 634 and rail top feeding feeding device 635, the both sides, front and back of described rail top material loading base plate 634 are respectively provided with a vertically arranged rail top material loading cant board 633, the upper edge of rail top material loading cant board 633 is provided with rail top feeding feeding device 635, the below of rail top feeding feeding device 635 is provided with induction type material distributing rest 631, the rear and front end of induction type material distributing rest 631 is connected to rail top material loading cant board 633, the below of induction type material distributing rest 631 is provided with the pneumatic feeding-distribution device 632 of rail top, rail top material loading base plate 634 is fixed in the lower edge of the rail top sub-material cant board 6320 of the pneumatic feeding-distribution device 632 of rail top, four rail top sub-material fore-sets 6321 of the pneumatic feeding-distribution device 632 of rail top are positioned at below induction type material distributing rest 631 discharging opening,

Described induction type material distributing rest 631 comprises material distributing rest base plate 6311, material distributing rest front top plate 6312, top board 6313 after material distributing rest, sub-material mould 6314 on rail top, sub-material mould 6315 under rail top, sub-material mould grid spacer 6316, material distributing rest optical fiber inductive head 6317 and optical fiber inductive head support 6318, described material distributing rest base plate 6311 is provided with sub-material mould 6315 under the rail tops of five equidistant arrangements side by side, by sub-material mould 6315 lateral surface under the rail top at material distributing rest base plate about 6311 two ends is provided with sub-material mould grid spacer 6316, under five rail tops of equidistantly arranging side by side, above sub-material mould 6315, correspondence is provided with sub-material mould 6314 on five rail tops, on five rail tops sub-material mould 6314 upper plane on front side of be all fixed on material distributing rest front top plate 6312, on five rail tops, the upper planar back side of sub-material mould 6314 is all fixed on top board 6313 after material distributing rest, two sub-material mould grid spacers 6316 are all connected to sub-material mould 6314 on the rail top at top board about 6313 two ends after material distributing rest by that side surface upper part of sub-material mould 6315 under rail top, on rail top, on sub-material mould 6314, plane is fixed with the optical fiber inductive head support 6318 being parallel to material distributing rest front top plate 6312, optical fiber inductive head support 6318 is provided with four material distributing rest optical fiber inductive heads 6317, four material distributing rest optical fiber inductive heads 6317 walk to expect interval trough 6319 facing to equidistant four of arranging formation of sub-material mould 6314 on five rail tops,

The pneumatic feeding-distribution device 632 of described rail top also comprises rail top sub-material slide rail 6322, rail top sub-material slide block 6323, rail top sub-material cylinder 6324, rail top sub-material cylinder mounting plate 6325, rail top sub-material cylinder floating joint 6326, rail top sub-material slide plate 6327, rail top sub-material fore-set guide pin bushing 6328, the outer jump ring 6329 of guide pin bushing, rail top sub-material fore-set fixed strip 6330, top gas cylinder 6331 in rail top sub-material, top gas cylinder floating junction 6332 and rail top sub-material push up cylinder mounting plate 6333 to rail top sub-material, the upper edge of described rail top sub-material cant board 6320 is provided with rail top sub-material slide rail 6322, rail top sub-material slide rail 6322 is provided with rail top sub-material slide block 6323, rail top sub-material slide block 6323 is provided with rail top sub-material slide plate 6327, rail top sub-material slide plate 6327 is connected to the piston rod of rail top sub-material cylinder 6324 by rail top sub-material cylinder floating joint 6326, rail top sub-material cylinder 6324 is installed on rail top sub-material cylinder mounting plate 6325, rail top sub-material cylinder mounting plate 6325 is fixed on the left side edge top of rail top sub-material cant board 6320, rail top sub-material slide plate 6327 is embedded with four rail top sub-material fore-set guide pin bushings 6328 be arranged side by side on the right side of plane, rail top sub-material fore-set guide pin bushing 6328 is fixed by the outer jump ring 6329 of guide pin bushing, the rail top sub-material fore-set 6321 that can slide up and down is equipped with in rail top sub-material fore-set guide pin bushing 6328, rail top sub-material fore-set fixed strip 6330 is all fixed in the lower end of rail top sub-material fore-set 6321, rail top sub-material fore-set fixed strip 6330 is connected to the piston rod of top gas cylinder 6331 in rail top sub-material by top gas cylinder floating junction 6332 in rail top sub-material, in rail top sub-material, top gas cylinder 6331 side is loaded in rail top sub-material and pushes up cylinder mounting plate 6333, rail top sub-material slide plate 6327 right edge edge is fixed in the left surface upper edge of rail top sub-material being pushed up cylinder mounting plate 6333,

Described rail top feeding feeding device 635 comprises rail top feeding transverse cylinder 6351, rail top feeding transverse cylinder installing plate 6352, rail top feeding transverse cylinder floating junction 6353, the traversing buffer 6354 of feeding, traversing buffer installing plate 6355, feeding cross sliding rail 6356, the traversing slide block 6357 of feeding, feeding cross sliding rail installing plate 6358 and pneumatic type vacuum take out device 6359, described rail top feeding transverse cylinder 6351 is installed on rail top feeding transverse cylinder installing plate 6352, rail top feeding transverse cylinder installing plate 6352 is connected to the left end of two pieces of feeding cross sliding rail installing plates 6358, the right-hand member of two pieces of feeding cross sliding rail installing plates 6358 is connected to traversing buffer installing plate 6355, traversing buffer installing plate 6355 is provided with two traversing buffers 6354 of feeding, two pieces of feeding cross sliding rail installing plate 6358 medial surfaces are all provided with a feeding cross sliding rail 6356, feeding cross sliding rail 6356 is equipped with a traversing slide block 6357 of the feeding that can horizontally slip, two traversing slide blocks 6357 of feeding are all connected to the side of pneumatic type vacuum take out device 6359, pneumatic type vacuum take out device 6359 is connected to the piston rod of rail top feeding transverse cylinder 6351 by rail top feeding transverse cylinder floating junction 6353, rail top feeding transverse cylinder installing plate 6352 is also provided with two traversing buffers 6354 of feeding,

Described pneumatic type vacuum take out device 6359 comprises feeding lifting base plate 63590, feeding lifting sliding rail 63591, feeding lifting slider 63592, clamp 63593 before the traversing slide block of feeding connects, clamp 63594 after the traversing slide block of feeding connects, first feeding cylinder 63595, first feeding cylinder mounting plate 63596, first feeding cylinder floating joint 63597, first feeding cylinder lifter plate 63598 and lift type vacuum device for suction material 63599, described feeding lifting base plate 63590 front is provided with two feeding lifting sliding rails 63591 be parallel to each other, feeding lifting sliding rail 63591 is equipped with the feeding lifting slider 63592 that can slide up and down, feeding lifting slider 63592 is all connected to first feeding cylinder lifter plate 63598 back side, first feeding cylinder lifter plate 63598 upper edge is connected to the piston rod of the first feeding cylinder 63595 by the first feeding cylinder floating joint 63597, first feeding cylinder 63595 is installed on feeding lifting base plate 63590 upper edge by the first feeding cylinder mounting plate 63596, before and after feeding lifting base plate 63590, dual-side is connected rear clamp 63594 along being installed with the front clamp 63593 of feeding traversing slide block connection with the traversing slide block of feeding, first feeding cylinder lifter plate 63598 front is provided with lift type vacuum device for suction material 63599,

Described lift type vacuum device for suction material 63599 comprises the second feeding cylinder 635991, second feeding cylinder mounting plate 635992, tube type vacuum generator 635993, vacuum generator clamp 635994, rail top vacuum mould-suction 635995, vacuum mould-suction tube connector 635996, vacuum mould-suction tube connector guide pin bushing 635997 and vacuum mould-suction tube connector guide pin bushing mount pad 635998, described vacuum mould-suction tube connector guide pin bushing mount pad 635998 is fixed on the downside of the first feeding cylinder lifter plate 63598 front, four vacuum mould-suction tube connector guide pin bushings 635997 be arranged side by side are fitted with in vacuum mould-suction tube connector guide pin bushing mount pad 635998, the vacuum mould-suction tube connector 635996 that can slide up and down is equipped with in vacuum mould-suction tube connector guide pin bushing 635997, the lower end of vacuum mould-suction tube connector 635996 is all connected with a rail top vacuum mould-suction 635995, the upper end of vacuum mould-suction tube connector 635996 is all connected with a tube type vacuum generator 635993, four tube type vacuum generators 635993 are installed in vacuum generator clamp 635994, vacuum generator clamp 635994 is connected to the piston rod flanged plate of the second feeding cylinder 635991, second feeding cylinder 635991 side is loaded on the second feeding cylinder mounting plate 635992, the back side of the second feeding cylinder mounting plate 635992 is fixed on the upside of the first feeding cylinder lifter plate 63598 front.

The rail top sub-material feed mechanism of spool automatic assembling of the present invention, can substitute workman and fast rail top separation is transported to assigned address.

The foregoing is only embodiments of the invention; not thereby the scope of the claims of the present invention is limited; every utilize description of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (6)

1. the rail top sub-material feed mechanism of a spool automatic assembling, it is characterized in that: the rail top sub-material feed mechanism of this spool automatic assembling comprises induction type material distributing rest, the pneumatic feeding-distribution device of rail top, rail top material loading cant board, rail top material loading base plate and rail top feeding feeding device, the both sides, front and back of described rail top material loading base plate are respectively provided with a vertically arranged rail top material loading cant board, the upper edge of rail top material loading cant board is provided with rail top feeding feeding device, the below of rail top feeding feeding device is provided with induction type material distributing rest, the rear and front end of induction type material distributing rest is connected to rail top material loading cant board, the below of induction type material distributing rest is provided with the pneumatic feeding-distribution device of rail top, rail top material loading base plate is fixed in the lower edge of the rail top sub-material cant board of the pneumatic feeding-distribution device of rail top, four rail top sub-material fore-sets of the pneumatic feeding-distribution device of rail top are positioned at below induction type material distributing rest discharging opening.

2. the rail top sub-material feed mechanism of spool automatic assembling according to claim 1, it is characterized in that: described induction type material distributing rest comprises material distributing rest base plate, material distributing rest front top plate, top board after material distributing rest, sub-material mould on rail top, sub-material mould under rail top, sub-material mould grid spacer, material distributing rest optical fiber inductive head and optical fiber inductive head support, described material distributing rest base plate is provided with sub-material mould under the rail tops of five equidistant arrangements side by side, by sub-material mould lateral surface under the rail top at two ends, material distributing rest base plate left and right is provided with sub-material mould grid spacer, under five rail tops of equidistantly arranging side by side, above sub-material mould, correspondence is provided with sub-material mould on five rail tops, on five rail tops sub-material mould upper plane on front side of be all fixed on material distributing rest front top plate, on five rail tops, the upper planar back side of sub-material mould is all fixed on top board after material distributing rest, two sub-material mould grid spacers are all connected to sub-material mould on the rail top at two ends, top board left and right after material distributing rest by that side surface upper part of sub-material mould under rail top, on rail top, on sub-material mould, plane is fixed with the optical fiber inductive head support being parallel to material distributing rest front top plate, optical fiber inductive head support is provided with four material distributing rest optical fiber inductive heads, four material distributing rest optical fiber inductive heads are walked to expect interval trough facing to equidistantly arrange four of being formed of sub-material mould on five rail tops.

3. the rail top sub-material feed mechanism of spool automatic assembling according to claim 1, it is characterized in that: the pneumatic feeding-distribution device of described rail top also comprises rail top sub-material slide rail, rail top sub-material slide block, rail top sub-material cylinder, rail top sub-material cylinder mounting plate, rail top sub-material cylinder floating joint, rail top sub-material slide plate, rail top sub-material fore-set guide pin bushing, the outer jump ring of guide pin bushing, rail top sub-material fore-set fixed strip, top gas cylinder in rail top sub-material, top gas cylinder floating junction and rail top sub-material push up cylinder mounting plate to rail top sub-material, the upper edge of described rail top sub-material cant board is provided with rail top sub-material slide rail, rail top sub-material slide rail is provided with rail top sub-material slide block, rail top sub-material slide block is provided with rail top sub-material slide plate, rail top sub-material slide plate is connected to the piston rod of rail top sub-material cylinder by rail top sub-material cylinder floating joint, rail top sub-material cylinder is installed on rail top sub-material cylinder mounting plate, rail top sub-material cylinder mounting plate is fixed on the left side edge top of rail top sub-material cant board, rail top sub-material slide plate is embedded with four rail top sub-material fore-set guide pin bushings be arranged side by side on the right side of plane, rail top sub-material fore-set guide pin bushing is fixed by the outer jump ring of guide pin bushing, the rail top sub-material fore-set that can slide up and down is equipped with in rail top sub-material fore-set guide pin bushing, rail top sub-material fore-set fixed strip is all fixed in the lower end of rail top sub-material fore-set, rail top sub-material fore-set fixed strip is connected to the piston rod of top gas cylinder in rail top sub-material by top gas cylinder floating junction in rail top sub-material, rail top sub-material is pushed up cylinder side to be loaded in rail top sub-material and to push up cylinder mounting plate, rail top sub-material slide plate right edge edge is fixed in the left surface upper edge of rail top sub-material being pushed up cylinder mounting plate.

4. the rail top sub-material feed mechanism of spool automatic assembling according to claim 1, it is characterized in that: described rail top feeding feeding device comprises rail top feeding transverse cylinder, rail top feeding transverse cylinder installing plate, rail top feeding transverse cylinder floating junction, the traversing buffer of feeding, traversing buffer installing plate, feeding cross sliding rail, the traversing slide block of feeding, feeding cross sliding rail installing plate and pneumatic type vacuum take out device, described rail top feeding transverse cylinder is installed on rail top feeding transverse cylinder installing plate, rail top feeding transverse cylinder installing plate is connected to the left end of two pieces of feeding cross sliding rail installing plates, the right-hand member of two pieces of feeding cross sliding rail installing plates is connected to traversing buffer installing plate, traversing buffer installing plate is provided with two traversing buffers of feeding, two pieces of feeding cross sliding rail installing plate medial surfaces are all provided with a feeding cross sliding rail, feeding cross sliding rail is equipped with a traversing slide block of the feeding that can horizontally slip, two traversing slide blocks of feeding are all connected to the side of pneumatic type vacuum take out device, pneumatic type vacuum take out device is connected to the piston rod of rail top feeding transverse cylinder by rail top feeding transverse cylinder floating junction, rail top feeding transverse cylinder installing plate is also provided with two traversing buffers of feeding.

5. the rail top sub-material feed mechanism of spool automatic assembling according to claim 4, it is characterized in that: described pneumatic type vacuum take out device comprises feeding lifting base plate, feeding lifting sliding rail, feeding lifting slider, clamp before the traversing slide block of feeding connects, clamp after the traversing slide block of feeding connects, first feeding cylinder, first feeding cylinder mounting plate, first feeding cylinder floating joint, first feeding cylinder lifter plate and lift type vacuum device for suction material, described feeding lifting base plate front is provided with two feeding lifting sliding rails be parallel to each other, feeding lifting sliding rail is equipped with the feeding lifting slider that can slide up and down, feeding lifting slider is all connected to the first feeding cylinder lifter plate back side, first feeding cylinder lifter plate upper edge is connected to the piston rod of the first feeding cylinder by the first feeding cylinder floating joint, first feeding cylinder is installed on feeding lifting base plate upper edge by the first feeding cylinder mounting plate, before and after feeding lifting base plate, dual-side is connected rear clamp along being installed with the front clamp of feeding traversing slide block connection with the traversing slide block of feeding, first feeding cylinder lifter plate front is provided with lift type vacuum device for suction material.

6. the rail top sub-material feed mechanism of spool automatic assembling according to claim 5, it is characterized in that: described lift type vacuum device for suction material comprises the second feeding cylinder, second feeding cylinder mounting plate, tube type vacuum generator, vacuum generator clamp, rail top vacuum mould-suction, vacuum mould-suction tube connector, vacuum mould-suction tube connector guide pin bushing and vacuum mould-suction tube connector guide pin bushing mount pad, described vacuum mould-suction tube connector guide pin bushing mount pad is fixed on the downside of the first feeding cylinder lifter plate front, four vacuum mould-suction tube connector guide pin bushings be arranged side by side are fitted with in vacuum mould-suction tube connector guide pin bushing mount pad, the vacuum mould-suction tube connector that can slide up and down is equipped with in vacuum mould-suction tube connector guide pin bushing, the lower end of vacuum mould-suction tube connector is all connected with a rail top vacuum mould-suction, the upper end of vacuum mould-suction tube connector is all connected with a tube type vacuum generator, four tube type vacuum generators are installed in vacuum generator clamp, vacuum generator clamp is connected to the piston rod flanged plate of the second feeding cylinder, second feeding cylinder side is loaded on the second feeding cylinder mounting plate, the back side of the second feeding cylinder mounting plate is fixed on the upside of the first feeding cylinder lifter plate front.