CN204250950U - Chock feedway in Automatic elevator guide rail stacker - Google Patents

Abstract

The utility model discloses the chock feedway in Automatic elevator guide rail stacker, comprise the fixed frame in transverse onveyer front, guide rail windrow platform is provided with in fixed frame, fixed frame above guide rail windrow platform left and right sides is arranged with erection support, the madial wall of each erection support is arranged with outer end and extends to chock guide plate directly over guide rail windrow platform, the chock guide plate of erection support and its homonymy forms chock delivery platform jointly, each chock delivery platform is at least provided with a driving chain respectively, every root driving chain is arranged at intervals with some expellers along its length successively, gap length on every root driving chain between adjacent two pieces of expellers just in time can insert chock, the rotation direction of every root driving chain guarantees that expeller can by chock along outer conveying, and make chock can fall to elevator rail crown guide rail windrow platform from chock guide plate outer end.It is simple that the utility model has structure, and installation and maintenance are advantage easily.

Description

Chock feedway in Automatic elevator guide rail stacker

Technical field

The utility model relates to the chock feedway in Automatic elevator guide rail stacker.

Background technology

Automatic elevator guide rail stacker comprises: the fixed frame along cage guide throughput direction being front and back distribution, and be provided with the horizontal blanking rack that can be fed forward the transverse onveyer arranging cage guide in horizontal cross, guide rail windrow platform is provided with in the bottom of fixed frame, a glidepath is respectively arranged with in the fixed frame of the guide rail windrow platform left and right sides, moving frame moves forward and backward in fixed frame along glidepath under the driving moving forward and backward mechanism, a lifting motor is vertically provided with respectively in the left and right sides, top of moving frame, the output shaft of every platform lifting motor is respectively arranged with a down-feed screw, every bar down-feed screw has been threaded a L shape blowing plate, two L shape blowing plates form the first guide rail placement platform placing cage guide jointly, two lifting motors can drive the first guide rail placement platform upwards to hold up the cage guide be positioned on transverse onveyer, the chock feedway that chock interval can be positioned over by the cage guide top of the first guide rail placement platform picking-up is provided with in moving frame side.During work, when transverse onveyer is laterally booked row's cage guide, the first guide rail placement platform that two L shape blowing plates are formed to be displaced downwardly on transverse onveyer immediately below row's cage guide in the drive moving forward and backward mechanism, then the cage guide sequenced in horizontal cross on transverse onveyer upwards holds up by the first guide rail placement platform under the drive of two lifting motors, then move forward under the drive moving forward and backward mechanism directly over guide rail windrow platform, now, chock feedway by two pieces of chocks be horizontal longitudinal interval be placed on by hold up one row cage guide on, then the first guide rail placement platform is displaced downwardly to the below of guide rail windrow platform again, the cage guide be placed on the first guide rail placement platform is dropped on guide rail windrow platform.

The structure of the chock feedway used at present is: being provided with in moving frame side can chock frame synchronization-moving with moving frame, some layers of chock are placed with in chock frame, in the bottom of chock frame, some lift cylinders are vertically installed, the piston rod of all lift cylinders fixes with the chock crane being placed with some layers of chock simultaneously, in chock crane, the single chock of every one deck is horizontal cross placement, the fixed frame in chock frame front is provided with a chock load-transfer device laterally across fixed frame, on chock frame above chock load-transfer device, also level is longitudinally placed with horizontal sliding oil cylinder, the piston rod of horizontal sliding oil cylinder is provided with pushing block, the piston rod of horizontal sliding oil cylinder stretches out, can will be positioned at conplane chock with it falls on chock load-transfer device to extrapolation, be movably set with one respectively and can capture and the chock handgrip rotating chock being positioned at the fixed frame left and right sides above chock load-transfer device, when the chock that horizontal cross is placed is delivered to immediately below each chock handgrip by chock load-transfer device, chock handgrip can carry out capturing and is rotated by chock to being that level is longitudinally placed by chock, guarantees that chock can drop on the cage guide top held up by two L shape blowing plates.The shortcoming of above-mentioned chock feedway is: complex structure, and enterprise's production and application cost is high, workman's installation and maintenance difficulty.

Utility model content

It is simple that the purpose of this utility model is to provide a kind of structure, the chock feedway in the Automatic elevator guide rail stacker of enterprise's production and application relative inexpensiveness.

For achieving the above object, the utility model have employed following technical scheme: the chock feedway in described Automatic elevator guide rail stacker, comprise: the fixed frame being positioned at transverse onveyer front along cage guide throughput direction, guide rail windrow platform is provided with in the bottom of fixed frame, fixed frame above the guide rail windrow platform left and right sides is respectively arranged with an erection support, the madial wall top of each erection support is respectively arranged with one piece of outer end and extends to chock guide plate directly over guide rail windrow platform, the chock guide plate top surface of the top surface of erection support and its homonymy forms chock delivery platform jointly, each chock delivery platform is at least provided with one respectively and drives rotation by driver train, and the driving chain in left and right transverse distribution, every root driving chain is arranged at intervals with some expellers along its length successively, gap length on every root driving chain between adjacent two pieces of expellers just in time can insert chock, the rotation direction of every root driving chain guarantees that the chock inserting gap location between adjacent two pieces of expellers can be carried along chock delivery platform to the outer end of chock guide plate by expeller, and makes chock fall to the top of the cage guide guide rail windrow platform from chock guide plate outer end.

Further, chock feedway in aforesaid Automatic elevator guide rail stacker, wherein: on each chock delivery platform, be longitudinally set side by side with two respectively drive synchronous axial system by driver train and driving chain in left and right transverse distribution, every bar driving chain is arranged at intervals with some expellers along its length successively, expeller on two driving chains on each chock delivery platform is that front and back are symmetrical, and the gap length between two pairs of expellers adjacent on two driving chains on each chock delivery platform just in time can insert chock.

Further, chock feedway in aforesaid Automatic elevator guide rail stacker, wherein: in every root driving chain the both sides, front and back of every block expeller respectively freely-movable bearing have roller, the fixed frame of the both sides, front and back below every root driving chain is respectively arranged with a guide rail, when expeller turn to its outer end down time, before and after this expeller, the roller of both sides just in time moves along the guide rail of correspondence respectively.

Further, the chock feedway in aforesaid Automatic elevator guide rail stacker, wherein: on each erection support, be provided with the arc stock guide that the chock between the expeller at homonymy driving chain top can be guided to chock delivery platform.

By the enforcement of technique scheme, it is simple that the utility model has structure, and installation and maintenance are convenient, the advantage of enterprise's production and application relative inexpensiveness.

Accompanying drawing explanation

Fig. 1 is the structural representation of the chock feedway in Automatic elevator guide rail stacker described in the utility model.

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

Fig. 3 is the structural representation of the right apparent direction of Fig. 1.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

As Fig. 1, Fig. 2, shown in Fig. 3, chock feedway in described Automatic elevator guide rail stacker, comprise: the fixed frame 3 being positioned at transverse onveyer 2 front along cage guide 1 throughput direction, guide rail windrow platform 4 is provided with in the bottom of fixed frame 3, fixed frame 3 above on the left of guide rail windrow platform 4 is provided with left erection support 5, the left chock guide plate 6 that one piece of outer end extends to guide rail windrow platform 4 right upper left is provided with at the madial wall top of left erection support 5, the top surface of left erection support 5 and the top surface of left chock guide plate 6 form left chock delivery platform jointly, left chock delivery platform is at least provided with one respectively and drives rotation by driver train, and the Left Drive chain 7 in left and right transverse distribution, every root Left Drive chain 7 is arranged at intervals with some left expellers 8 along its length successively, gap length on every root Left Drive chain 7 between adjacent two pieces of left expellers 8 just in time can insert chock 9, the rotation direction of every root Left Drive chain 7 guarantees that left expeller 8 can by the outer end conveying along left chock delivery platform chock guide plate 6 left of the chock 9 that inserts gap location between adjacent two pieces of left expellers 8, and make the chock 9 being delivered to left chock guide plate 6 outer end can fall to the left side top of the cage guide 1 guide rail windrow platform 4 from left chock guide plate 6 outer end, fixed frame 3 above on the right side of guide rail windrow platform 4 is provided with right erection support 51, be provided with one piece of outer end at the madial wall top of right erection support 51 and extend to the just top-right right chock guide plate 61 of guide rail windrow platform 4, the top surface of right erection support 51 and the top surface of right chock guide plate 61 form right chock delivery platform jointly, right chock delivery platform is at least provided with one respectively and drives rotation by driver train, and the right driving chain 71 in left and right transverse distribution, the right driving chain of every root 71 is arranged at intervals with some right expellers 81 along its length successively, gap length on the right driving chain of every root 71 between adjacent two pieces of right expellers 81 just in time can insert chock 9, the rotation direction of the right driving chain of every root 71 guarantees that right expeller 81 can by the outer end conveying along right chock delivery platform chock guide plate 61 to the right of the chock 9 that inserts gap location between adjacent two pieces of right expellers 81, and make the chock 9 being delivered to right chock guide plate 61 outer end can fall to the right hand top of the cage guide 1 guide rail windrow platform 4 from right chock guide plate 61 outer end, in the present embodiment, longitudinally be set side by side with two at left chock delivery platform and drive synchronous axial system by driver train and Left Drive chain 7 in left and right transverse distribution, every bar Left Drive chain 7 is arranged at intervals with some left expellers 8 along its length successively, left expeller 8 between two Left Drive chains 7 on each left chock delivery platform is symmetrical in front and back, and the gap length between two pairs of expellers that on two Left Drive chains 7 on each left chock delivery platform, left and right is adjacent just in time can insert chock 9, longitudinally be set side by side with two at right chock delivery platform and drive synchronous axial system by driver train and right driving chain 71 in left and right transverse distribution, the right driving chain of every bar 71 is arranged at intervals with some right expellers 81 along its length successively, right expeller 8 between two right driving chains 71 on each right chock delivery platform is symmetrical in front and back, gap length between two pairs, the left and right expeller that on two right driving chains 71 on each right chock delivery platform, left and right is adjacent just in time can insert chock 9, and this more stably can promote expeller, in the present embodiment, in every root Left Drive chain 7 both sides, front and back of every left expeller 8 of block respectively freely-movable bearing have roller, the fixed frame 3 of the both sides, front and back below every root Left Drive chain 7 is respectively arranged with a left rail, when left pusher 8 pieces turn to its outer end down time, before and after left expeller 8, the roller of both sides just in time moves along the left rail of correspondence respectively, in the right driving chain of every root 71 both sides, front and back of the right expeller 81 of every block respectively freely-movable bearing have roller, the fixed frame 3 of the both sides, front and back below the right driving chain of every root 71 is respectively arranged with a right guide rail, when right expeller 81 turn to its outer end down time, before and after right expeller 81, the roller of both sides just in time moves along the right guide rail of correspondence respectively, such expeller that can make more stably promotes chock, improves the operation stability of equipment, in the present embodiment, left erection support 5 is provided with the left arc stock guide 10 that the chock 9 between the left expeller 8 at Left Drive chain 7 top can be guided to left chock delivery platform, right erection support 51 is provided with the right arc stock guide 11 that the chock 9 between the right expeller 81 at right driving chain 71 top can be guided on right chock delivery platform, in actual applications, capturing on transverse onveyer 2 cage guide that is laterally booked in Automatic elevator guide rail stacker and be matched with chock feedway by the guide rail material stocking device that whole row's cage guide moves to directly over guide rail windrow platform, wherein in chock feedway, left chock delivery platform and right chock delivery platform are positioned at the top of guide rail material stocking device,

Principle of work of the present utility model is as follows: gap location between the left expeller 8 of two couples that first left and right is adjacent between two left dynamic chains 7 of left biography, and gap location inserts chock 9 respectively between the right expeller 81 of two couples that between two right driving chains 71, left and right is adjacent, when transverse onveyer 2 is laterally booked one row's cage guide longitudinally moves to directly over guide rail windrow platform 4 by guide rail material stocking device, two Left Drive chains 7 counterclockwise movement simultaneously again, by adjacent two outer end conveyings to the chock 9 of gap location between left expeller 8 chock guide plate 6 left between two Left Drive chains 7, simultaneously by two right driving chains 71 clockwise movement simultaneously, by adjacent two outer end conveyings to the chock 9 of gap location between right expeller 81 chock guide plate 61 to the right between two right driving chains 71, when two Left Drive chains 7 will be positioned at the action stopping two Left Drive chains 7 when an outermost chock 9 pushes away and drops down onto cage guide top left side, when two right driving chains 71 will be positioned at the action stopping two right driving chains 71 when an outermost chock 9 pushes away and drops down onto cage guide top right side, then whole row's cage guide that the left and right sides, top can be placed with chock 9 by guide rail material stocking device to be respectively placed on guide rail windrow platform and to continue another row's cage guide that transverse onveyer 2 has laterally been booked to longitudinally move to directly over guide rail windrow platform 4, repeat above-mentioned Left Drive chain 7 and the action of right driving chain 71, complete and operation is placed to the chock at this row's cage guide top.It is simple that the utility model has structure, and installation and maintenance are convenient, the advantage of enterprise's production and application relative inexpensiveness.

Claims (4)

1. the chock feedway in Automatic elevator guide rail stacker, comprise: the fixed frame being positioned at transverse onveyer front along cage guide throughput direction, guide rail windrow platform is provided with in the bottom of fixed frame, it is characterized in that: the fixed frame above the guide rail windrow platform left and right sides is respectively arranged with an erection support, the madial wall top of each erection support is respectively arranged with one piece of outer end and extends to chock guide plate directly over guide rail windrow platform, the chock guide plate top surface of the top surface of erection support and its homonymy forms chock delivery platform jointly, each chock delivery platform is at least provided with one respectively and drives rotation by driver train, and the driving chain in left and right transverse distribution, every root driving chain is arranged at intervals with some expellers along its length successively, gap length on every root driving chain between adjacent two pieces of expellers just in time can insert chock, the rotation direction of every root driving chain guarantees that the chock inserting gap location between adjacent two pieces of expellers can be carried along chock delivery platform to the outer end of chock guide plate by expeller, and makes chock fall to the top of the cage guide guide rail windrow platform from chock guide plate outer end.

2. the chock feedway in Automatic elevator guide rail stacker according to claim 1, it is characterized in that: on each chock delivery platform, being longitudinally set side by side with two drives synchronous axial system by driver train respectively, and the driving chain in left and right transverse distribution, every bar driving chain is arranged at intervals with some expellers along its length successively, expeller on two driving chains on each chock delivery platform is that front and back are symmetrical, gap length between two pairs of expellers adjacent on two driving chains on each chock delivery platform just in time can insert chock.

3. the chock feedway in Automatic elevator guide rail stacker according to claim 1 and 2, it is characterized in that: in every root driving chain the both sides, front and back of every block expeller respectively freely-movable bearing have roller, the fixed frame of the both sides, front and back below every root driving chain is respectively arranged with a guide rail, when expeller turn to its outer end down time, before and after this expeller, the roller of both sides just in time moves along the guide rail of correspondence respectively.

4. the chock feedway in Automatic elevator guide rail stacker according to claim 1 and 2, is characterized in that: on each erection support, be provided with the arc stock guide that the chock between the expeller at homonymy driving chain top can be guided to chock delivery platform.