CN103640876B - Cage guide S. A. metalworking travel line - Google Patents

Abstract

The invention discloses cage guide S. A. metalworking travel line, comprise: be arranged at the transverse onveyer in frame, be interval with some energy in the frame above transverse onveyer successively and place the flute profile placement platform of the cage guide of T-shaped placement and some support roller lifting tables placing the cage guide placed in ⊥ shape; Methods, rack is provided with the guide rail placement platform be positioned at above transverse onveyer before each flute profile placement platform, the frame of the left and right sides, each guide rail placement platform front is arranged with and is positioned at material blocking block before above transverse onveyer for a pair, the front and back machine frame at two sides of each flute profile placement platform is also arranged with material stirring-up mechanism and transition discharge mechanism; The frame of the left and right sides, each support roller lifting table front is arranged with the rear stock stop be positioned at for a pair above transverse onveyer respectively, on front side of each support roller lifting table, is also arranged with a transition platform of blanking.The present invention has the high advantage of work efficiency.

Description

Cage guide S. A. metalworking travel line

Technical field

The present invention relates to cage guide S. A. metalworking travel line.

Background technology

The car of cage type elevator realizes pulsation-free vertical lift by sliding up and down along T-shaped guide rail.The structure of T-shaped guide rail is: comprise the guide rail body that cross-sectional plane is T-shaped, and guide rail body is made up of fixed arm and the guide arm be vertically installed in the middle part of fixed arm.T-shaped guide rail, when installing and using, is the fixed arm of T-shaped guide rail and building are fixed, and makes guide arm and the car bearing fit of T-shaped guide rail, therefore must ensure the quality of T-shaped guide rail.Eight road metalworking operations of T-shaped guide rail comprise: use the large back of the body two ends fixed arm back side of milling machine to T-shaped guide rail to carry on the back greatly milling respectively, use positive tenon bed and cloudy tenon bed to offer cloudy tenon and positive tenon at the two ends of T-shaped guide rail respectively, use the two ends of drilling machine to T-shaped guide rail to hole and use in the boring of hole drill machine after processing suddenly and bore hole suddenly; In the metalworking operation of T-shaped guide rail, T-shaped guide rail T-shaped placement must carry on the back greatly milling operation, the operation of positive tenon, the operation of cloudy tenon and drilling operation, and must place in ⊥ shape and carry out brills hole operation suddenly.

The metalworking process of cage guide is: first artificial will be after the ⊥ shape cage guide be placed on transverse onveyer overturns T-shaped placement, manually move to again in large back of the body milling machine and carry on the back milling greatly, after cage guide completes large back of the body milling operation, more manually the upset of the cage guide of T-shaped placement is placed on transverse onveyer in ⊥ shape carries to later process; And then after manually the cage guide of the large back of the body milling be placed on transverse onveyer in ⊥ shape being overturn T-shaped placement, manually move positive tenon bed again to and carry out positive tenon operation, artificial again after completing the operation of positive tenon the upset of the cage guide of T-shaped placement is placed on transverse onveyer carries to later process in ⊥ shape; Then more artificial cage guide after the positive tenon operation be placed in ⊥ shape on transverse onveyer is overturn T-shaped placement after, manually move cloudy tenon bed again to and carry out cloudy tenon operation, after completing the operation of cloudy tenon, artificial cage guide upset of T-shaped being placed is placed on transverse onveyer carries to later process in ⊥ shape again; Then more artificial cage guide after the cloudy tenon operation be placed in ⊥ shape on transverse onveyer is overturn T-shaped placement after, manually move in drilling machine again and carry out drilling operation, artificial again after completing drilling operation the upset of the cage guide of T-shaped placement is placed on transverse onveyer carries to later process in ⊥ shape; And then artificial being removed by cage guide transverse onveyer being the placement of ⊥ shape carries out brill hole operation suddenly to neglecting in hole drill machine, when boring, hole operation is suddenly artificial again after completing to be carried to cage guide on transverse onveyer.The shortcoming of this metalworking mode of operation is: because cage guide upset number of times is more, and require higher to the fitness between workman during guide rail upset, not only labor strength is large, and inefficiency.

Summary of the invention

The object of this invention is to provide the cage guide S. A. metalworking travel line that a kind of labor strength is low, work efficiency is high.

For achieving the above object, present invention employs following technical scheme: described cage guide S. A. metalworking travel line, comprise: frame, the transverse onveyer carrying cage guide is provided with in frame, along the throughput direction of cage guide, be arranged at intervals with some energy in the frame above transverse onveyer successively and place the flute profile placement platform of the cage guide of T-shaped placement and some support roller lifting tables placing the cage guide placed in ⊥ shape, the frame in each flute profile placement platform front is respectively arranged with the guide rail placement platform be positioned at above transverse onveyer, the frame of the left and right sides, each guide rail placement platform front is symmetrically arranged with respectively and is positioned at material blocking block before above transverse onveyer for a pair, the front and rear sides frame of each flute profile placement platform is also respectively arranged with material stirring-up mechanism and transition discharge mechanism, and cage guide transverse onveyer abutting against front material blocking block can upwards be turned over to dropping on corresponding guide rail placement platform in inclination T-shaped by described material stirring-up mechanism, the frame of the left and right sides, each support roller lifting table front is symmetrically arranged with the rear stock stop be positioned at for a pair above transverse onveyer respectively, a transition platform of blanking is also respectively arranged with in the front side of each support roller lifting table, in order to hold up the upper surface of cage guide in downward-sloping setting gradually from front to back on each transition platform of blanking, and extend downward corresponding support roller lifting table, when support roller lifting table drive transition platform of blanking moves, transition platform of blanking just in time head on transverse onveyer abuts against rear stock stop cage guide on move, make cage guide leave transverse onveyer and drop in transition blanking leave from office, when support roller lifting table is displaced downwardly to below transverse onveyer, the cage guide be placed in ⊥ shape on support roller lifting table can drop on transverse onveyer.

Further, aforesaid cage guide S. A. metalworking travel line, wherein: the structure of described material stirring-up mechanism is: comprise the rotating shaft of freely-movable bearing in frame, a pair stirring arm is symmetrically installed with it respectively in the two end axles of rotating shaft, each stirring arm offers open slot respectively in order to the end pushing against cage guide, vertically be provided with a stirring cylinder in the bottom of frame, the piston rod of stirring cylinder and one end of pipe link are hinged, and the other end and the rotating shaft axle body of pipe link fix; When the piston rod of stirring cylinder protrudes upward, two stirring arms can be promoted upwards rotate around the shaft simultaneously, make two pieces of stirring arms just in time upwards be turned in inclination T-shaped dropped on guide rail placement platform corresponding to rear from transverse onveyer in cage guide top transverse onveyer abutting against front material blocking block.

Further, aforesaid cage guide S. A. metalworking travel line, wherein: the structure of described transition discharge mechanism is: in the frame of the left and right sides, flute profile placement platform rear, be vertically provided with a blowing cylinder respectively, the piston rod of each blowing cylinder is hinged with the drive end of one block of blowing plate respectively, the pin jointed end of every block blowing plate is respectively by the frame of hinge above transverse onveyer, two blocks of blowing plates form transition blowing platform jointly, when the piston rod of two blowing cylinders is retracted simultaneously, the drive end of two blocks of blowing plates can be driven to be swung down to around respective bearing pin to be positioned at below transverse onveyer simultaneously, the cage guide be placed on transition blowing platform in ⊥ shape can be slipped on transverse onveyer along skewed transition blowing platform.

Further, aforesaid cage guide S. A. metalworking travel line, wherein: the structure of described support roller lifting table is: comprise the mounting bracket being installed on the frame left and right sides respectively, a retainer cylinder is vertically installed in each mounting bracket, the piston rod of each retainer cylinder is separately installed with a support roller crane, in each support roller crane, freely-movable bearing has a retainer roller respectively, and two retainer rollers form retainer placement platform jointly; The structure of described transition platform of blanking is: in support roller lifting table, the front side of each support roller crane is fixed with one piece of blanking plate respectively, on every block blanking plate in order to the upper surface that holds up cage guide in downward-sloping setting extend downward corresponding retainer roller top gradually from front to back, two pieces of blanking plates form transition platform of blanking jointly; When the piston rod of two retainer cylinders stretches out simultaneously, two blanking plates can be driven to move synchronously, the cage guide two pieces of blanking plates just in time being headed on transverse onveyer abuts against rear stock stop moves, make cage guide leave transverse onveyer and drop on transition platform of blanking, when the piston rod of two retainer cylinders is retracted simultaneously, two retainer rollers can be driven synchronously to be displaced downwardly to below transverse onveyer, the cage guide be placed on support roller lifting table in ⊥ shape is dropped on transverse onveyer.

By the enforcement of technique scheme, the invention has the beneficial effects as follows: the upset number of times to cage guide can be reduced, reduce labor strength, improve work efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of cage guide S. A. metalworking travel line of the present invention.

Fig. 2 is the structural representation overlooking direction of Fig. 1.

The structural representation that Fig. 3 is the material stirring-up mechanism shown in Fig. 1 and transition discharge mechanism.

Fig. 4 is the structural representation overlooking direction of Fig. 3.

Fig. 5 is the working state schematic representation of the material stirring-up mechanism shown in Fig. 3.

The structural representation that Fig. 6 is the support roller lifting table shown in Fig. 1 and transition platform of blanking.

The structural representation overlooking direction of Fig. 7 Fig. 6.

The working state schematic representation that Fig. 8 is the support roller lifting table shown in Fig. 6 and transition platform of blanking.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

As shown in Figure 1 and Figure 2, described cage guide S. A. metalworking travel line, comprise: frame 1, left conveyer chain 2 and right conveyer chain 3 is symmetrically arranged with in the arranged on left and right sides of frame 1, left conveyer chain 2 and right conveyer chain 3 form the transverse onveyer in order to carry cage guide 4 jointly, along the throughput direction of cage guide 4, in the frame 1 above transverse onveyer, be arranged at intervals with the support roller lifting table that six flute profile placement platforms placing the cage guide 4 of T-shaped placement and two can place the cage guide 4 placed in ⊥ shape successively, namely the throughput direction comprised along cage guide 4 is set in turn in the first flute profile placement platform 11 in frame 1, second flute profile placement platform 12, groove-shaped placement platform 13, 4th flute profile placement platform 14, 5th flute profile placement platform 15, 6th flute profile placement platform 16, first support roller lifting table 17 and the second support roller lifting table 18, all flute profile placement platforms are by the flute profile tugboat composition be vertically actively supported in frame 1, the frame 1 in each flute profile placement platform front is respectively arranged with the guide rail placement platform be positioned at above transverse onveyer, all guide rail placement platforms are left by being installed on corresponding flute profile placement platform front respectively, left supporting board 5 in right machine frame at two sides 1 forms with right supporting board 6, left in each guide rail placement platform front, the frame 1 of right both sides is symmetrically arranged with respectively and is positioned at left front material blocking block above transverse onveyer 7 and right front material blocking block 8, before each flute profile placement platform, rear machine frame at two sides 1 is also respectively arranged with material stirring-up mechanism and transition discharge mechanism, described material stirring-up mechanism upwards can be turned over to dropping on guide rail placement platform corresponding to rear in inclination T-shaped by transverse onveyer abutting against the cage guide 4 of left front material blocking block 7 with right front material blocking block 8, left in each support roller lifting table front, the frame 1 of right both sides is symmetrically arranged with respectively and is positioned at left back material blocking block above transverse onveyer 9 and right back material blocking block 10, a transition platform of blanking is also respectively arranged with in the front side of each support roller lifting table, in order to hold up the upper surface of cage guide 4 in downward-sloping setting gradually from front to back on transition platform of blanking, and extend downward corresponding support roller lifting table, when support roller lifting table drive transition platform of blanking moves, transition platform of blanking just in time heads on transverse onveyer to abut against on left back material blocking block 9 and the cage guide 4 of right back material blocking block 10 and moves, make cage guide 4 leave transverse onveyer and drop in transition blanking leave from office, when support roller lifting table is displaced downwardly to below transverse onveyer, the cage guide 4 be placed in ⊥ shape on support roller lifting table can drop on transverse onveyer.

In the present embodiment, because all material stirring-up mechanisms 40 are all identical with the structure of transition discharge mechanism 41, only be described with the structure of transition discharge mechanism 41 for the material stirring-up mechanism 40 being positioned at both sides before and after the first flute profile placement platform 11 below, as Fig. 3, Fig. 4, shown in Fig. 5, the structure of described material stirring-up mechanism 40 is: comprise the rotating shaft 19 of freely-movable bearing in frame 1, left stirring arm 20 and right stirring arm 21 is symmetrically installed with it respectively in the two end axles of rotating shaft 19, left stirring arm 20 and right stirring arm 21 offer open slot respectively in order to the end pushing against cage guide, a stirring cylinder 22 is vertically installed in the bottom of frame 1, the piston rod of stirring cylinder 22 and one end of pipe link 23 are hinged, the other end of pipe link 23 and the axle body of rotating shaft 19 fix, when the piston rod of stirring cylinder 22 protrudes upward, left stirring arm 20 can be promoted 19 upwards rotate around the shaft with right stirring arm 21 simultaneously, when left stirring arm 20 upwards turns to right stirring arm 21 cage guide 4 that contact against on left front material blocking block 7 and right front material blocking block 8, cage guide 4 just in time drops on left stirring arm 20 with in two open slots of right stirring arm 21, along with stirring cylinder 22 piston rod continue protrude upward, left stirring arm 20 can by cage guide top from transverse onveyer with right stirring arm 21, and upwards turn over to dropping on the first flute profile placement platform 11 that left supporting board corresponding to rear 5 and right supporting board 6 formed in inclination T-shaped, the structure of described transition discharge mechanism 41 is: left at the first flute profile placement platform 11 rear, the frame 1 of right both sides is vertically provided with respectively left blowing cylinder 24 and right blowing cylinder 25, the piston rod of left blowing cylinder 24 and the drive end of left blowing plate 26 are hinged, the pin jointed end of left blowing plate 26 is articulated with in the frame 1 above transverse onveyer by left bearing pin 27, the piston rod of right blowing cylinder 25 and the drive end of right blowing plate 28 are hinged, the pin jointed end of right blowing plate 28 is articulated with in the frame 1 above transverse onveyer by right bearing pin 29, left blowing plate 26 forms transition blowing platform jointly with right blowing plate 28, when left blowing cylinder 24 is retracted with the piston rod of right blowing cylinder 25 simultaneously, left blowing plate 26 can be driven to be swung down to the drive end of right blowing plate 28 below being positioned at transverse onveyer around respective bearing pin simultaneously, make the cage guide 4 be placed on transition blowing platform in ⊥ shape can along skewed transition blowing platform landing on transverse onveyer.

In the present embodiment, because all support roller lifting tables are all identical with the structure of transition platform of blanking 42, only be described for the structure of the first support roller lifting table 17 transition platform of blanking 42 corresponding with it below, as Fig. 6, Fig. 7, shown in Fig. 8, the structure of described support roller lifting table is: comprise and be installed on frame 1 left side respectively, left installation bracket 30 and the right mounting bracket 31 of right both sides, left retainer cylinder 32 is vertically installed in left installation bracket 30, the piston rod of left retainer cylinder 32 is provided with left support roller crane 33, in left support roller crane 33, freely-movable bearing has left retainer roller 34, right retainer cylinder 35 is vertically installed in right mounting bracket 31, the piston rod of right retainer cylinder 35 is provided with right support roller crane 36, in right support roller crane 36, freely-movable bearing has right retainer roller 37, left retainer roller 34 forms retainer placement platform jointly with right retainer roller 37, the structure of described transition platform of blanking is: the installed in front of the left support roller crane 33 in support roller lifting table has lower-left flitch 38, on lower-left flitch 38 in order to the upper surface that holds up cage guide 4 in by downward-sloping setting gradually after forward direction, and extend downward the top of left retainer roller 34, bottom right flitch 39 is had in the installed in front of right support roller crane 36, on bottom right flitch 39 in order to the surface that holds up cage guide 4 in by downward-sloping setting gradually after forward direction, and extend downward the top of right retainer roller 37, lower-left flitch 38 and bottom right flitch 39 form transition platform of blanking jointly, when left retainer cylinder 32 stretches out with the piston rod of right retainer cylinder 35 simultaneously, can synchronously drive lower-left flitch 38 synchronous with bottom right flitch 39 on move, lower-left flitch 38 and bottom right flitch 39 are just in time headed on transverse onveyer abuts against left back material blocking block 9 and the cage guide of right back material blocking block 10 move, make cage guide leave transverse onveyer and drop on lower-left flitch 38 jointly to be formed on transition platform of blanking with bottom right flitch 39, when left retainer cylinder 32 is retracted with the piston rod of right retainer cylinder 35 simultaneously, left retainer roller 34 and right retainer roller 37 can be driven synchronously to be displaced downwardly to the below of transverse onveyer, the cage guide making to be placed in ⊥ shape on the support roller lifting table that formed by left retainer roller 34 and right retainer roller 37 drops on transverse onveyer.In actual applications, a left side is carried on the back greatly the left side that milling machine is arranged on the first flute profile placement platform 11, the right side is carried on the back greatly the right side that milling machine is arranged on the second flute profile placement platform 12, positive tenon bed is arranged on the left side of groove-shaped placement platform 13, cloudy tenon bed is arranged on the right side of the 4th flute profile placement platform 14, left drilling machine is arranged on the left side of the 5th flute profile placement platform 15, right drilling machine is arranged on the right side of the 6th flute profile placement platform 16, a left side is neglected the left side that hole drill machine is arranged on the first support roller lifting table 17, the right side is neglected the right side that hole drill machine is arranged on the second support roller lifting table 18.

Principle of work of the present invention is as follows: be placed on transverse onveyer by the cage guide placed in ⊥ shape, when transverse onveyer drives cage guide 4 to move to abut against left front material blocking block 7 with right front material blocking block 8, the piston rod of stirring cylinder 22 is protruded upward, promote left stirring arm 20 19 upwards to rotate around the shaft with right stirring arm 21 simultaneously, when left stirring arm 20 upwards turns to right stirring arm 21 cage guide 4 that contact against on left front material blocking block 7 and right front material blocking block 8, cage guide 4 just in time drops on left stirring arm 20 with in two open slots of right stirring arm 21, along with stirring cylinder 22 piston rod continue protrude upward, left stirring arm 20 can by cage guide top from transverse onveyer with right stirring arm 21, and upwards turn over to dropping on guide rail placement platform that left supporting board corresponding to rear 5 and right supporting board 6 formed in inclination T-shaped, then artificial again will be that the inclination T-shaped cage guide 4 be placed on guide rail placement platform is carried in the first flute profile placement platform 11, then make left large back of the body milling machine to carrying on the back greatly milling operation bottom cage guide 4 left end, complete large back of the body milling operation bottom the left end of cage guide after, artificial upset by the cage guide 4 being arranged in the first flute profile placement platform 11 is placed in ⊥ shape again, and be placed on the transition blowing platform that formed by left blowing plate 26 and right blowing plate 28, then left blowing cylinder 24 is retracted with the piston rod of right blowing cylinder 25 simultaneously, drive dynamic left blowing plate 26 to be swung down to the drive end of right blowing plate 28 below being positioned at transverse onveyer around respective bearing pin simultaneously, the cage guide 4 be now placed on transition blowing platform in ⊥ shape can along skewed transition blowing platform landing on transverse onveyer, and be fed forward by transverse onveyer continuation drive,

When being delivered to the left front material blocking block 7 in the second flute profile placement platform 12 front and right front material blocking block 8 through the left side cage guide carried on the back greatly after milling, cage guide upwards can be turned over to being placed on corresponding guide rail placement platform in inclination T-shaped by the material stirring-up mechanism in the second flute profile placement platform 12 front, and then manually cage guide is carried in the second flute profile placement platform 12, then make right large back of the body milling machine to carrying on the back greatly milling operation bottom cage guide right-hand member, when after the large back of the body milling operation that cage guide completes bottom right-hand member, the artificial cage guide upset that will be arranged in the second flute profile placement platform 12 is that ⊥ shape is placed again, and be placed on the transition blowing platform that formed by left blowing plate 26 and right blowing plate 28, the cage guide placed in ⊥ shape is delivered to transverse onveyer by transition blowing platform, continue drive by transverse onveyer to be fed forward,

When being delivered to the left front material blocking block 7 in groove-shaped placement platform 13 front and right front material blocking block 8 through the right side cage guide carried on the back greatly after milling, cage guide upwards can be turned over to being placed on corresponding guide rail placement platform in inclination T-shaped by the material stirring-up mechanism in groove-shaped placement platform 13 front, and then manually cage guide is carried in groove-shaped placement platform 13, then positive tenon bed is made to carry out positive tenon operation to the left end of cage guide, after cage guide completes the positive tenon operation of left end, the artificial cage guide upset that will be arranged in groove-shaped placement platform 13 is that ⊥ shape is placed again, and be placed on the transition blowing platform that formed by left blowing plate 26 and right blowing plate 28, the cage guide placed in ⊥ shape is delivered to transverse onveyer by transition blowing platform, continue drive by transverse onveyer to be fed forward,

When the cage guide after positive tenon operation is delivered to the left front material blocking block 7 in the 4th flute profile placement platform 14 front and right front material blocking block 8, cage guide upwards can be turned over to being placed on corresponding guide rail placement platform in inclination T-shaped by the material stirring-up mechanism in the 4th flute profile placement platform 14 front, and then manually cage guide is carried in the 4th flute profile placement platform 14, then cloudy tenon bed is made to carry out cloudy tenon operation to the right-hand member of cage guide, after cage guide completes the cloudy tenon operation of right-hand member, the artificial cage guide upset that will be arranged in the 4th flute profile placement platform 14 is that ⊥ shape is placed again, and be placed on the transition blowing platform that formed by left blowing plate 26 and right blowing plate 28, the cage guide placed in ⊥ shape is delivered to transverse onveyer by transition blowing platform, continue drive by transverse onveyer to be fed forward,

When the cage guide after cloudy tenon operation is delivered to the left front material blocking block 7 in the 5th flute profile placement platform 15 front and right front material blocking block 8, cage guide upwards can be turned over to being placed on corresponding guide rail placement platform in inclination T-shaped by the material stirring-up mechanism in the 5th flute profile placement platform 15 front, and then manually cage guide is carried in the 5th flute profile placement platform 15, then left drilling machine is made to carry out drilling operation to the left end of cage guide, after cage guide completes the drilling operation of left end, the artificial cage guide upset that will be arranged in the 5th flute profile placement platform 15 is that ⊥ shape is placed again, and be placed on the transition blowing platform that formed by left blowing plate 26 and right blowing plate 28, the cage guide placed in ⊥ shape is delivered to transverse onveyer by transition blowing platform, continue drive by transverse onveyer to be fed forward,

When the cage guide after left end boring is delivered to the left front material blocking block 7 in the 6th flute profile placement platform 16 front and right front material blocking block 8, cage guide upwards can be turned over to being placed on corresponding guide rail placement platform in inclination T-shaped by the material stirring-up mechanism in the 6th flute profile placement platform 16 front, and then manually cage guide is carried in the 6th flute profile placement platform 16, then right drilling machine is made to carry out drilling operation to the right-hand member of cage guide, after cage guide completes the drilling operation of right-hand member, the artificial cage guide upset that will be arranged in the 6th flute profile placement platform 16 is that ⊥ shape is placed again, and be placed on the transition blowing platform that formed by left blowing plate 26 and right blowing plate 28, the cage guide placed in ⊥ shape is delivered to transverse onveyer by transition blowing platform, continue drive by transverse onveyer to be fed forward,

When the cage guide after right boring is delivered to the left back material blocking block 9 in the first support roller lifting table 17 front and right back material blocking block 10, left retainer cylinder 32 in first support roller lifting table 17 stretches out with the piston rod of right retainer cylinder 35 simultaneously, move on drive lower-left flitch 38 is synchronous with bottom right flitch 39, lower-left flitch 38 and bottom right flitch 39 are just in time headed on transverse onveyer abuts against left back material blocking block 9 and the cage guide of right back material blocking block 10 move, make cage guide leave transverse onveyer and drop on lower-left flitch 38 jointly to be formed on transition platform of blanking with bottom right flitch 39, then manually cage guide is pulled on the first support roller lifting table 17 that left retainer roller 34 and right retainer roller 37 formed, then make the left end boring of left hole drill machine suddenly to cage guide carry out brill and neglect hole operation, neglect after hole operation when completing to bore, left retainer cylinder 32 is retracted with the piston rod of right retainer cylinder 35 simultaneously, left retainer roller 34 and right retainer roller 37 is driven synchronously to be displaced downwardly to the below of transverse onveyer, the cage guide be placed on the first support roller lifting table 17 in ⊥ shape is made to drop on transverse onveyer, driven by transverse onveyer and continue to be fed forward,

When neglecting the cage guide after hole operation through a left side and being delivered to the left back material blocking block 9 in the second support roller lifting table 18 front and right back material blocking block 10, left retainer cylinder 32 in second support roller lifting table 18 stretches out with the piston rod of right retainer cylinder 35 simultaneously, move on drive lower-left flitch 38 is synchronous with bottom right flitch 39, lower-left flitch 38 and bottom right flitch 39 are just in time headed on transverse onveyer abuts against left back material blocking block 9 and the cage guide of right back material blocking block 10 move, make cage guide leave transverse onveyer and drop on lower-left flitch 38 jointly to be formed on transition platform of blanking with bottom right flitch 39, then manually cage guide is pulled on the second support roller lifting table 18 that left retainer roller 34 and right retainer roller 37 formed, then make the right-hand member boring of right hole drill machine suddenly to cage guide carry out brill and neglect hole operation, neglect after hole operation when completing to bore, left retainer cylinder 32 is retracted with the piston rod of right retainer cylinder 35 simultaneously, left retainer roller 34 and right retainer roller 37 is driven synchronously to be displaced downwardly to the below of transverse onveyer, the cage guide be placed on the second support roller lifting table 18 in ⊥ shape is made to drop on transverse onveyer, continue drive by transverse onveyer to be fed forward, by aforesaid operations, namely complete the eight road metalworking operations to cage guide.The present invention reduces the artificial upset number of times of workman to cage guide, have and can reduce labor strength, the advantage of increasing work efficiency.

Claims (4)

1. cage guide S. A. metalworking travel line, comprise: frame, it is characterized in that: the transverse onveyer being provided with to carry cage guide in frame, along the throughput direction of cage guide, be arranged at intervals with some energy in the frame above transverse onveyer successively and place the flute profile placement platform of the cage guide of T-shaped placement and some support roller lifting tables placing the cage guide placed in ⊥ shape, the frame in each flute profile placement platform front is respectively arranged with the guide rail placement platform be positioned at above transverse onveyer, the frame of the left and right sides, each guide rail placement platform front is symmetrically arranged with respectively and is positioned at material blocking block before above transverse onveyer for a pair, the front and rear sides frame of each flute profile placement platform is also respectively arranged with material stirring-up mechanism and transition discharge mechanism, and cage guide transverse onveyer abutting against front material blocking block can upwards be turned over to dropping on corresponding guide rail placement platform in inclination T-shaped by described material stirring-up mechanism, the frame of the left and right sides, each support roller lifting table front is symmetrically arranged with the rear stock stop be positioned at for a pair above transverse onveyer respectively, a transition platform of blanking is also respectively arranged with in the front side of each support roller lifting table, in order to hold up the upper surface of cage guide in downward-sloping setting gradually from front to back on each transition platform of blanking, and extend downward corresponding support roller lifting table, when support roller lifting table drive transition platform of blanking moves, transition platform of blanking just in time head on transverse onveyer abuts against rear stock stop cage guide on move, make cage guide leave transverse onveyer and drop in transition blanking leave from office, when support roller lifting table is displaced downwardly to below transverse onveyer, the cage guide be placed in ⊥ shape on support roller lifting table can drop on transverse onveyer.

2. cage guide S. A. metalworking travel line according to claim 1, it is characterized in that: the structure of described material stirring-up mechanism is: comprise the rotating shaft of freely-movable bearing in frame, a pair stirring arm is symmetrically installed with it respectively in the two end axles of rotating shaft, each stirring arm offers open slot respectively in order to the end pushing against cage guide, a stirring cylinder is vertically installed in the bottom of frame, the piston rod of stirring cylinder and one end of pipe link are hinged, and the other end and the rotating shaft axle body of pipe link fix; When the piston rod of stirring cylinder protrudes upward, two stirring arms can be promoted upwards rotate around the shaft simultaneously, make two pieces of stirring arms just in time upwards be turned in inclination T-shaped dropped on guide rail placement platform corresponding to rear from transverse onveyer in cage guide top transverse onveyer abutting against front material blocking block.

3. cage guide S. A. metalworking travel line according to claim 1, it is characterized in that: the structure of described transition discharge mechanism is: in the frame of the left and right sides, flute profile placement platform rear, be vertically provided with a blowing cylinder respectively, the piston rod of each blowing cylinder is hinged with the drive end of one block of blowing plate respectively, the pin jointed end of every block blowing plate is respectively by the frame of hinge above transverse onveyer, two blocks of blowing plates form transition blowing platform jointly, when the piston rod of two blowing cylinders is retracted simultaneously, the drive end of two blocks of blowing plates can be driven to be swung down to around respective bearing pin to be positioned at below transverse onveyer simultaneously, the cage guide be placed on transition blowing platform in ⊥ shape can be slipped on transverse onveyer along skewed transition blowing platform.

4. cage guide S. A. metalworking travel line according to claim 1, it is characterized in that: the structure of described support roller lifting table is: comprise the mounting bracket being installed on the frame left and right sides respectively, a retainer cylinder is vertically installed in each mounting bracket, the piston rod of each retainer cylinder is separately installed with a support roller crane, in each support roller crane, freely-movable bearing has a retainer roller respectively, and two retainer rollers form retainer placement platform jointly; The structure of described transition platform of blanking is: in support roller lifting table, the front side of each support roller crane is fixed with one piece of blanking plate respectively, on every block blanking plate in order to the upper surface that holds up cage guide in downward-sloping setting extend downward corresponding retainer roller top gradually from front to back, two pieces of blanking plates form transition platform of blanking jointly; When the piston rod of two retainer cylinders stretches out simultaneously, two blanking plates can be driven to move synchronously, the cage guide two pieces of blanking plates just in time being headed on transverse onveyer abuts against rear stock stop moves, make cage guide leave transverse onveyer and drop on transition platform of blanking, when the piston rod of two retainer cylinders is retracted simultaneously, two retainer rollers can be driven synchronously to be displaced downwardly to below transverse onveyer, the cage guide be placed on support roller lifting table in ⊥ shape is dropped on transverse onveyer.