CN206969568U - The induction system of container production line - Google Patents

Abstract

The induction system of the production line of container provided by the utility model, belong to the manufacturing field of container, including the main orbit for transfering containers and the auxiliary track for transfering containers；The main orbit is set with the auxiliary track side-by-side parallel, and the main orbit is identical with the auxiliary track running direction；It is provided between the main orbit and the auxiliary track and multiple container is delivered to the transverse-moving mechanism one of the auxiliary track and container is delivered to the transverse-moving mechanism two of the main orbit；Multiple accelerators for being used to accelerate container translational speed are provided with the main orbit.Main line needs to stop when the utility model solve thes problems, such as to be moved to subordinate line in the prior art, subordinate line process operation can be carried out in the case of production main line and related process operation are non-stop simultaneously, drastically increase production efficiency, the production capacity lifting of production line is promoted, optimizes resource distribution.

Description

The induction system of container production line

Technical field

It the utility model is related to the manufacturing field of container, more particularly to a kind of induction system of container production line.

Background technology

Container refers to that there is some strength, rigidity and specification to specialize in the large-scale goods container being used in turn.Use packaging It case transshipment cargo, can directly be freighted in the warehouse of consignor, transport to the warehouse unloading of consignee, interline, ship time, without inciting somebody to action Goods takes out out of case and changed the outfit.The exactly various advantages of container, vital effect is played in the trade that globalizes, together When also create the prosperity of container manufacture.

During Production Container, container usually needs to be moved on subordinate line to be adjusted in production line The techniques such as examination, test.In the prior art, it is necessary to which whole main line and related process operation are stopped when container is delivered to subordinate line, After container is delivered on main line again after subordinate line process operation terminates, restart main line and carry out related process behaviour Make, cause the production efficiency of container low, serious waste of resources.

Utility model content

For above-mentioned problem, the induction system of container production line provided by the utility model is existing to solve The problem of container production line delivery system production efficiency is low in technology, serious waste of resources, can be in production main line and phase Subordinate line process operation is carried out simultaneously in the case of pass process operation is non-stop, production efficiency is drastically increased, promotes production The production capacity lifting of line, optimizes resource distribution.

To achieve the above object, the technical scheme that the utility model is taken is：

A kind of induction system of container production line, it is characterised in that including the main orbit and use for transfering containers In the auxiliary track of transfering containers；The main orbit is set with the auxiliary track side-by-side parallel, the main orbit and the auxiliary rail Road traffic direction is identical；It is provided between the main orbit and the auxiliary track and multiple container is delivered to the auxiliary track Transverse-moving mechanism one and the transverse-moving mechanism two that container is delivered to the main orbit；It is provided with the main orbit multiple for adding The accelerator of fast container translational speed, multiple accelerators and multiple transverse-moving mechanisms one, transverse-moving mechanism 211 pair Should, before the accelerator corresponding with the transverse-moving mechanism one is arranged at the transverse-moving mechanism one and main orbit crosspoint Side, after the accelerator corresponding with the transverse-moving mechanism two is arranged at the transverse-moving mechanism two and main orbit crosspoint Side.

The induction system of container production line provided by the utility model, it is preferable that the transverse-moving mechanism one includes setting Elevating mechanism one below the main orbit and the elevating mechanism two being arranged at below the auxiliary track；The transverse-moving mechanism two Including the elevating mechanism three being arranged at below the main orbit and the elevating mechanism four being arranged at below the auxiliary track.

The induction system of container production line provided by the utility model, it is preferable that the transverse-moving mechanism one also includes setting The sliding equipment one being placed between the elevating mechanism one and the elevating mechanism two, the transverse-moving mechanism two also include being arranged at Sliding equipment two between the elevating mechanism three and the elevating mechanism four.

The induction system of container production line provided by the utility model, it is preferable that the elevating mechanism one, the lifting The friction driving mechanisms for traversing container are provided with mechanism two, the elevating mechanism three and the elevating mechanism four One.

The induction system of container production line provided by the utility model, it is preferable that the container production line delivery system System also includes being arranged at the rotationally conveying device on the left of the main orbit, and the rotationally conveying device includes rotating mechanism, fixation Turning arm in the rotating mechanism, be arranged at the turning arm where elevating mechanism five and elevating mechanism six below plane； The elevating mechanism six is close to the main orbit.

The induction system of container production line provided by the utility model, it is preferable that the turning arm is in initial position When positioned at the surface of the elevating mechanism five, when the turning arm is in final position positioned at the elevating mechanism six just on Side.

The induction system of container production line provided by the utility model, it is preferable that be provided with the elevating mechanism six Friction driving mechanisms two for moving containers.

The induction system of container production line provided by the utility model, it is preferable that the turning arm is " Contraband " shape.

The induction system of container production line provided by the utility model, it is preferable that be provided with use below the main orbit Elevating mechanism seven is provided with the right side of the lower railway of transmission slide plate, the main orbit, is provided with and rubs on the elevating mechanism seven Wipe drive mechanism three.

The induction system of container production line provided by the utility model, it is preferable that the lower railway is provided at both ends with Turntable.

Above-mentioned technical proposal has the following advantages that or beneficial effect：

The induction system of container production line provided by the utility model, not only overcomes and is transferred to subordinate line in the prior art When the problem of needing main line to stop production, subordinate line work can be carried out simultaneously in the case of production main line and related process operation are non-stop Skill operation, and the overwhelming majority of system can be embedded in underground, the system that reduces takes volume, cost-effective.

Brief description of the drawings

By reading the detailed description made with reference to the following drawings to non-limiting example, the utility model and its spy Sign, profile and advantage will become more apparent, the identical mark instruction identical part in whole accompanying drawings.Do not press deliberately Accompanying drawing is drawn according to ratio, it is preferred that emphasis is purport of the present utility model is shown.

Fig. 1 is the knot of 90 ° of the rotate counterclockwise of the induction system for the container production line that the utility model embodiment 1 provides Structure schematic diagram；

Fig. 2 is that the lower track portion of the induction system for the container production line that the utility model embodiment 1 provides is counterclockwise The structural representation being rotated by 90 °；

Fig. 3 is the part-structure schematic diagram of the induction system for the container production line that the utility model embodiment 1 provides；

Fig. 4 is the part-structure schematic diagram of the induction system for the container production line that the utility model embodiment 1 provides；

Fig. 5 is the structure of the transverse-moving mechanism one of the induction system for the container production line that the utility model embodiment 1 provides Schematic diagram；

Fig. 6 is the structure of the transverse-moving mechanism two of the induction system for the container production line that the utility model embodiment 1 provides Schematic diagram；

Fig. 7 is the structural representation of the rotationally conveying device of the container production line of the body of the utility model embodiment 1.

Embodiment

The utility model is further described with specific embodiment below in conjunction with the accompanying drawings, but not as this practicality New restriction.

Embodiment 1：

As shown in Fig. 1~7, the induction system of container production line provided by the utility model, including for conveying packaging The main orbit 1 of case and the auxiliary track 2 for transfering containers；Main orbit 1 and the auxiliary side-by-side parallel of track 2 are set, main orbit 1 with it is auxiliary The traffic direction of track 2 is identical；Two cross sliding machines that container is delivered to auxiliary track 2 are provided between main orbit 1 and auxiliary track 2 Structure 1 and the transverse-moving mechanism 2 32 that container is delivered to main orbit 1；It is provided with main orbit 1 multiple for accelerating container The accelerator 11 of translational speed, multiple accelerators 11 correspond with multiple transverse-moving mechanisms 1, transverse-moving mechanism 2 32, with Accelerator 11 corresponding to transverse-moving mechanism 1 is arranged at the front of transverse-moving mechanism 1 and the crosspoint of main orbit 1, with cross sliding machine Accelerator 11 corresponding to structure 2 32 is arranged at the rear of transverse-moving mechanism 2 32 and the crosspoint of main orbit 1, leads in the present embodiment Track 1 is identical with the speed of service of auxiliary track 2.Pass through the setting of accelerator 11 so that the translational speed of container is compared with packaging The speed of service of the case on main orbit 1 has greatly improved, and container is quickly moved on transverse-moving mechanism 1, transverse-moving mechanism One 31 by traversing to the auxiliary track 2 of container, and transverse-moving mechanism 2 32 is traversing on main orbit 1 by container, and container can be Quickly moved forward in the presence of accelerator 11, into next procedure.In the present embodiment, collection is caused using accelerator 11 The purpose that vanning accelerates to be passed onwards to predetermined station be in order to container from traversing to the auxiliary track 2 of main orbit 1 and from auxiliary track 2 The traversing traversing time to main orbit 1 offsets so that container remains corresponding same in main orbit with the position of auxiliary track Step, i.e., can ensure container from auxiliary track enter after main orbit still positioned at original position (container from initially entering main orbit, Assuming that position of the container on main orbit is position one, this position one travels forward with main orbit, and container is from main orbit After main orbit being entered back into auxiliary track, still positioned at position one, and because main orbit is identical with the auxiliary track speed of service, and The time of acceleration offsets with the traversing time, and position of the container on auxiliary track is similarly relative with the position one on main orbit Should, original position described above refers to position one), with cause container into auxiliary track 2 progress other processes when, main orbit according to So in continuous service, the shortcomings that needing to stop transferring to subordinate line by main line in the prior art is overcome；Simultaneously by setting two Individual (or more) transverse-moving mechanism 1, can allow multiple containers to be moved to auxiliary track 2 from main orbit 1, avoid container Wait the situation into subordinate line to occur, can further lift the speed of service of main orbit and auxiliary track, improve production efficiency.

Transverse-moving mechanism 1 includes being arranged at the elevating mechanism 1 of the lower section of main orbit 1 and is arranged at the auxiliary lower section of track 2 Elevating mechanism 2 21, transverse-moving mechanism 1 also include the sliding equipment being arranged between elevating mechanism 1 and elevating mechanism 2 21 One 311, transverse-moving mechanism 2 32 includes being arranged at the elevating mechanism 3 13 of the lower section of main orbit 1 and is arranged at the liter of the auxiliary lower section of track 2 Descending mechanism 4 22, transverse-moving mechanism 2 32 also include the sliding equipment two being arranged between elevating mechanism 3 13 and elevating mechanism 4 22 321；It is provided with elevating mechanism 1, elevating mechanism 2 21, elevating mechanism 3 13 and elevating mechanism 4 22 for traversing collection The friction driving mechanisms 1 of vanning.

Container production line delivery system also includes the rotationally conveying device 4 for being arranged at the left side of main orbit 1, rotation conveying dress Putting 4 includes rotating mechanism 41, is fixed on the turning arm 42 of rotating mechanism 41, the lifting being arranged at below the place plane of turning arm 42 Mechanism 5 43 and elevating mechanism 6 44；Elevating mechanism 6 44 is close to main orbit 1；Positioned at lifting when turning arm 42 is in initial position The surface of mechanism 5 43, positioned at the surface of elevating mechanism 6 44 when turning arm 42 is in final position；Elevating mechanism 6 44 On be provided with friction driving mechanisms 2 62 for moving containers；Turning arm 42 is " Contraband " shape., will using rotationally conveying device Elevating mechanism 5 43 is embedded in the volume that rotationally conveying device occupancy is considerably reduced in melt pit with elevating mechanism 6 44, and Very easily the wheel being fixed on container can be removed, facilitate follow-up container operation, meanwhile, turning arm will collect After vanning is sent to position, it can rapidly be rotated back to load next container, eliminate the trouble of time-consuming wait in traditional process, Put forward conevying efficiency；Turning arm 42 is arranged to " Contraband " shape, facilitates turning arm 2 to be separated with container, turning arm conveys container During to final position, it can rapidly circle round to initial position, to wait to load next container, effectively improve conevying efficiency.

The lower section of main orbit 1 is provided with the lower railway 5 for transmitting slide plate, and the right side of main orbit 1 is provided with elevating mechanism seven 14, friction driving mechanisms 3 63 are provided with elevating mechanism 7 14；Lower railway 5 is provided at both ends with turntable 51.Rationally utilize Space below main orbit, the slide plate for placing container is sent to initial position below main orbit, container of reloading, It is excessive to avoid the present embodiment space-consuming caused by being set up in parallel a track for transmitting slide plate with main orbit Problem, reduce the space hold volume of the container production line of the offer of the present embodiment 1；Meanwhile using turntable 51 by slide plate Rotation lateral transfer enables to that lower railway structure design is small, and transporting velocity is fast, and required melt pit volume is also smaller, saves Build the cost of the induction system of container production line.

The induction system for the container production line that the utility model embodiment 1 provides will be conveyed entirely, it is necessary to dug melt pit In system embedment melt pit, only cause turning arm, main orbit, auxiliary track, transverse-moving mechanism one and straight-bar machines structure is second-class is exposed to ground, rationally Space is make use of, the space-consuming of the induction system of the container production line of the offer of the utility model embodiment 1 is be provided, Space is saved, saves Productive statistics cost.

When using the induction system of container production line provided by the utility model, turning arm 42 is located at initial position, The laterally disposed slide plate 00 on turning arm 42, the container with pulley is moved to above slide plate, elevating mechanism 5 43 will collect Vanning and slide plate, which jack up, departs from bottom surface, removes the pulley of container base, and elevating mechanism declines, container and slide plate are positioned over On turning arm 42, turning arm 42 drives container and slide plate to turn on elevating mechanism 6 44, and elevating mechanism 6 44 jacks up slide plate And container so that slide plate departs from turning arm 42, and turning arm 42 is rotated to initial position, container and slide plate in friction-driven machine Enter main orbit 1 in the presence of structure 2 62；Container and slide plate (the i.e. accelerator when sliding into specific station on main orbit 1 11 positions), accelerator 11 accelerates container and slide plate so that and container and slide plate reach rapidly elevating mechanism 1, Elevating mechanism 1, which jacks up container and slide plate, departs from main orbit 1, in friction driving mechanisms 1 and sliding equipment 1 Effect is lower to enter elevating mechanism 2 21, and elevating mechanism 2 21 declines, and container and slide plate contact with auxiliary track 2, on auxiliary track 2 Operation carries out related process；Container and slide plate are run to elevating mechanism 4 22, and elevating mechanism 4 22 is by container and slide plate top Rise and depart from auxiliary track 2, elevating mechanism 3 13 is entered in the presence of friction driving mechanisms 1 and sliding equipment 2 321, lift Mechanism 3 13 declines, and container and slide plate are contacted with main orbit 1 and run forward, in the presence of accelerator 11, quickly forward, Then it is operated together with main orbit 1, if also needing to enter auxiliary track 2, is moved in circles according to above-mentioned steps；Container and slide plate are defeated When delivering to 1 end of main orbit, enter elevating mechanism 7 14 in the presence of friction driving mechanisms 3 63, on elevating mechanism 7 14 Rise, pulley is installed in container base, elevating mechanism 7 14 declines, and slide plate departs from container, removes container；Slide plate is rubbing Enter turntable 51 in the presence of wiping drive mechanism 3 62, rotated in the presence of turntable 51, slide plate is changed into laterally along under Track is fed forward to the turntable 51 of opposite side, is rotated in the presence of turntable 51, and slide plate is changed into vertical, and slide plate slides are extremely On elevating mechanism six, elevating mechanism six rises, and it is stand-by to take slide plate away.

In summary, the induction system of container production line provided by the utility model, not only overcomes in the prior art The problem of needing main line to stop production when being transferred to subordinate line, can be in the case of production main line and related process operation be non-stop simultaneously Subordinate line process operation is carried out, and the overwhelming majority of system can be embedded in underground, system is reduced and takes volume, save into This.

It should be appreciated by those skilled in the art that those skilled in the art combine prior art and above-described embodiment can be real The existing change case, will not be described here.Such change Lee has no effect on substantive content of the present utility model, also refuses herein Repeat.

Preferred embodiment of the present utility model is described above.It is to be appreciated that the utility model not office It is limited to above-mentioned particular implementation, wherein the equipment and structure be not described in detail to the greatest extent are construed as using the common side in this area Formula is practiced；Any those skilled in the art, do not depart from technical solutions of the utility model make it is many possible Changes and modifications, or the equivalent embodiment of equivalent variations is revised as, this has no effect on substantive content of the present utility model.Therefore, Every content without departing from technical solutions of the utility model, above example is made according to the technical essence of the utility model Any simple modifications, equivalents, and modifications, still fall within technical solutions of the utility model protection in the range of.

Claims (10)

1. a kind of induction system of container production line, it is characterised in that including the main orbit for transfering containers and be used for The auxiliary track of transfering containers；The main orbit is set with the auxiliary track side-by-side parallel, the main orbit and the auxiliary track Traffic direction is identical；Multiple horizontal strokes that container is delivered to the auxiliary track are provided between the main orbit and the auxiliary track Telephone-moving structure one and the transverse-moving mechanism two that container is delivered to the main orbit；It is provided with the main orbit multiple for accelerating The accelerator of container translational speed, multiple accelerators are corresponding with multiple transverse-moving mechanisms one, transverse-moving mechanism 211, The accelerator corresponding with the transverse-moving mechanism one is arranged at the front of the transverse-moving mechanism one and main orbit crosspoint, with The accelerator corresponding to the transverse-moving mechanism two is arranged at the rear of the transverse-moving mechanism two and main orbit crosspoint.

2. the induction system of container production line as claimed in claim 1, it is characterised in that the transverse-moving mechanism one includes setting The elevating mechanism one being placed in below the main orbit and the elevating mechanism two being arranged at below the auxiliary track；The transverse-moving mechanism Two include being arranged at the elevating mechanism three below the main orbit and the elevating mechanism four being arranged at below the auxiliary track.

3. the induction system of container production line as claimed in claim 2, it is characterised in that the transverse-moving mechanism one also includes The sliding equipment one being arranged between the elevating mechanism one and the elevating mechanism two, the transverse-moving mechanism two also include setting Sliding equipment two between the elevating mechanism three and the elevating mechanism four.

4. the induction system of container production line as claimed in claim 3, it is characterised in that the elevating mechanism one, described The friction-driven machine for traversing container is provided with elevating mechanism two, the elevating mechanism three and the elevating mechanism four Structure one.

5. the induction system of container production line as claimed in claim 1, it is characterised in that the container production line conveying System also includes being arranged at the rotationally conveying device on the left of the main orbit, and the rotationally conveying device includes rotating mechanism, consolidated Turning arm due to the rotating mechanism, be arranged at the turning arm where elevating mechanism five and elevating mechanism below plane Six；The elevating mechanism six is close to the main orbit.

6. the induction system of container production line as claimed in claim 5, it is characterised in that the turning arm is in initial bit Positioned at the surface of the elevating mechanism five when putting, when the turning arm is in final position positioned at the elevating mechanism six just Top.

7. the induction system of container production line as claimed in claim 6, it is characterised in that set on the elevating mechanism six There are the friction driving mechanisms two for moving containers.

8. the induction system of container production line as claimed in claim 7, it is characterised in that the turning arm is " Contraband " shape.

9. the induction system of container production line as claimed in claim 1, it is characterised in that be provided with below the main orbit For transmitting the lower railway of slide plate, elevating mechanism seven is provided with the right side of the main orbit, is provided with the elevating mechanism seven Friction driving mechanisms three.

10. the induction system of container production line as claimed in claim 9, it is characterised in that the both ends of the lower railway are set It is equipped with turntable.