CN109986122A - The splitting device and subdivision unit of changeable control - Google Patents

Abstract

The present invention provides a kind of splitting device of changeable control, including pedestal, it further include being installed for the pedestal and along the sliding rail of the conveying direction setting perpendicular to material and the traverse displacement unit moved for controlling the pedestal along the sliding rail, the subdivision ontology of the sheared edge passed through with feed subdivision is installed on the pedestal and material can be moved to the empty of the runout table by the approach table and crosses roller-way, and the subdivision ontology and the empty roller-way of crossing are arranged side by side along the direction of the sliding rail；A kind of subdivision unit, including above-mentioned splitting device are also provided.It is used in the present invention by subdivision ontology and the empty switching for crossing roller-way, so that subdivision unit not only can be applied to the production of small dimension flat-bulb steel, but also can be used for big specification flat-bulb steel production, compatibility is very high, and the production cost of flat-bulb steel can be effectively reduced.

Description

The splitting device and subdivision unit of changeable control

Technical field

The present invention relates to the splitting devices and subdivision unit of flat-bulb steel production more particularly to a kind of changeable control.

Background technique

Splitting device is the key equipment of flat-bulb steel production line, and function is carried out at subdivision to the flat-bulb steel produced in pairs Reason.It specifically in order to improve productivity ratio, will be at when producing the flat-bulb steel of small dimension generally using production in pairs, in finishing procedure Pair flat-bulb steel carry out subdivision processing, and the flat-bulb steel of big specification is directly formed by mill milling, does not need to carry out subdivision processing. Thus in the prior art, the flat-bulb steel production process of the flat-bulb steel of small dimension and big specification uses individual unit, compatibility It is poor, so that the production cost of flat-bulb steel is relatively high.

Summary of the invention

The purpose of the present invention is to provide a kind of splitting devices of changeable control, it is intended to for solving existing flat-bulb steel Production line small dimension is needed from big specification using different units, and the two compatibility is poor, so that production cost is higher Problem.

The present invention is implemented as follows:

The embodiment of the present invention provides a kind of splitting device, including pedestal, further include for the pedestal install and along perpendicular to The sliding rail of the conveying direction setting of material and the traverse displacement unit moved for controlling the pedestal along the sliding rail, institute It states the subdivision ontology for installing the sheared edge passed through with feed subdivision on pedestal and material can be moved to by the approach table The empty of the runout table crosses roller-way, and the subdivision ontology is crossed roller-way with the sky and set side by side along the direction of the sliding rail It sets.

Further, it is provided with sword and lower sword on the subdivision ontology, encloses shape between the upper sword and the lower sword At the sheared edge.

It further, further include driving device for driving the upper sword Yu the lower sword synchronous rotary, Yu Suoshu is cutd open Divide on ontology and be additionally provided with gear-box, two output shafts of the gear-box connect with the upper sword and the lower sword transmission respectively It connects.

Further, the driving device is connect by transmission shaft with the gearbox drive, described transmission shaft one end and The driving device connection, other end sliding wear the gear-box and are rotatably connected between the two.

Further, it is close to be all made of two layers of outside framework oil seal for the gear-box and two end positions of the transmission axis connection Envelope, is provided with back oil ring between two layers of outside framework oil seal, and the back oil ring passes through the oil return hole that is set on the gear-box It is connected to the inside of the gear-box.

Further, it is additionally provided with that the upper sword is opposite with the lower sword level to be moved for controlling on Yu Suoshu subdivision ontology The second worm gear set that dynamic the first worm gear set and the control upper sword and the lower sword relatively moves vertically.

Further, in being arranged with spring ring on the cutter shaft of the cutter shaft of the upper sword and the lower sword, and along described Upper sword and the lower sword described in the length direction of cutter shaft are respectively positioned between two spring rings.

Further, the subdivision ontology is installed by binding clasp on the sliding rail, and in the subdivision ontology Entrance side and outlet side be provided with two groups of binding clasps.

Further, the traverse displacement unit includes driving motor and drives the ball wire of rotation by the driving motor Bar, the ball screw are connect with the whorl of base, and in being installed on encoder on the driving motor.

The embodiment of the present invention also provides a kind of subdivision unit, including approach table and runout table, the approach table It is located along the same line with the runout table, further includes above-mentioned splitting device, the splitting device is located at the input roller Between road and the runout table.

The invention has the following advantages:

In the present invention, subdivision ontology is arranged side by side with empty roller-way of crossing, and subdivision ontology and sky under the action of traverse displacement unit Crossing roller-way can move along the conveying direction perpendicular to material, and then the switching between approach table and runout table may be implemented Docking, for example when needing to carry out subdivision to supplied materials, then the subdivision main body of traverse displacement unit control splitting device is located at approach table Between runout table, specifically material is delivered to sheared edge by approach table, be can achieve the purpose of subdivision by sheared edge, is cutd open Material after point is then continued to move to by runout table, and when not needing to supplied materials subdivision, traverse displacement unit then controls splitting device Sky crosses roller-way between approach table and runout table, and supplied materials successively crosses roller-way and runout table via approach table, sky. Subdivision unit provided by the invention not only can be applied to the production of small dimension flat-bulb steel as a result, but also can be used for big specification flat-bulb steel life It produces, compatibility is very high, the production cost of flat-bulb steel can be effectively reduced, in addition entire subdivision set structure is simple, and in work Flexible switching control subdivision ontology as needed and the empty position for crossing roller-way are only needed when making, it is very convenient.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the structural schematic diagram of subdivision unit provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the splitting device of the subdivision unit of Fig. 1；

Fig. 3 is the structural schematic diagram of the subdivision ontology of the subdivision unit of Fig. 1；

Fig. 4 is the first worm gear set of the subdivision unit of Fig. 1 and the structural schematic diagram of the second worm gear set；

Fig. 5 is the driving device of the subdivision unit of Fig. 1 and the fit structure schematic diagram of gear-box；

Fig. 6 is enlarged drawing at A in Fig. 5.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other Embodiment shall fall within the protection scope of the present invention.

Referring to Fig. 1 and Fig. 2, the embodiment of the present invention provide a kind of subdivision unit, including approach table 1, splitting device 2 with And runout table 3, three sets gradually along the conveying direction of material, and approach table 1 is located along the same line with runout table 3, It is usually flat-bulb steel for material mentioned herein, flat-bulb steel successively passes through approach table 1, splitting device 2 and runout table 3, Specifically subdivision unit further includes having a traverse displacement unit 4, splitting device 2 can be enabled along vertical by the traverse displacement unit 4 Mobile in the moving direction of flat-bulb steel, certain splitting device 2 should be set on a sliding rail 41, sliding rail 41 along perpendicular to The moving direction of flat-bulb steel is arranged, and splitting device 2 is moved along sliding rail 41 under the action of traverse displacement unit 4.Pass through traversing dress The cooperation of 4 Yu splitting device 2 is set, can making the tool of splitting device 2, there are two types of fit system and approach table 1 and runout tables 3 cooperations, so that big specification flat-bulb steel and the production of small dimension flat-bulb steel can be applied on the subdivision unit.

Referring again to Fig. 1 and Fig. 2, for above embodiment, the embodiment of the present invention provides a kind of changeable control Splitting device 2 can be applied in above-mentioned subdivision unit, and splitting device 2 includes that pedestal 21, subdivision ontology 22 and sky cross roller Road 23, wherein subdivision ontology 22 and empty roller-way 23 of crossing are installed on pedestal 21, and pedestal 21 is to be slideably positioned in above-mentioned cunning On dynamic rail road 41, pedestal 21 can be moved along sliding rail 41 under the action of traverse displacement unit 4, and then drive subdivision sheet by pedestal 21 Body 22 and sky cross 23 synchronizing moving of roller-way, and arranged side by side along the oriented partition ontology 22 of sliding rail 41 and empty roller-way 23 of crossing, It can make in this way according to production needs, pass through the corresponding portion of splitting device 2 between approach table 1 and runout table 3 Point docked, such as when needing to produce small dimension flat-bulb steel, traverse displacement unit 4 control subdivision ontology 22 and approach table 1 with And runout table 3 docks, and when needing to produce big specification flat-bulb steel, traverse displacement unit 4 controls empty roller-way 23 of crossing and docks input roller Road 1 and runout table 3.For subdivision ontology 22, it is the main functional parts of splitting device 2, is provided with sheared edge 221, when subdivision ontology 22 docks approach table 1 and when runout table 3, the sheared edge 221 and approach table 1 of subdivision ontology 22 with And the height of runout table 3 is essentially identical, and three is located along the same line, the flat-bulb steel that approach table 1 transmits via Runout table 3 is delivered to after sheared edge 221, and when it passes through sheared edge 221, sheared edge 221 be may be implemented to flat-bulb steel Subdivision work, i.e., complete flat-bulb steel are two fractional transmissions to runout table 3 by 221 subdivision of sheared edge；And sky crosses roller-way 23 be the what's new part of splitting device 2, and overall structure is similar with approach table 1 and runout table 3, when sky crosses roller-way When 23 docking approach tables 1 and runout table 3, sky crosses the transmission part that roller-way 23 is flat-bulb steel, and the ball of approach table 1 is flat Steel is steadily delivered to runout table 3.In the present embodiment, for the tool of splitting device 2 there are two types of function, one kind is subdivision function, another Kind is transfer function, can choose corresponding function according to production needs, does not interfere between two functions, not only whole knot Structure is simple, can control conveniently, when being thus applied to the splitting device 2 of this structure in above-mentioned subdivision unit, can make Obtaining subdivision unit not only can be adapted for big specification flat-bulb steel production, but also be applicable to the production of small dimension flat-bulb steel, have stronger Compatibility can substantially reduce the production cost of flat-bulb steel.Certainly it is directed to 2 structure of splitting device provided in this embodiment, may be used also To provide other embodiment, for example traverse displacement unit 4 and sliding rail 41 belong to a part of splitting device 2.

Referring to Fig. 3 and Fig. 4, above-described embodiment is refined, is provided with sword 222 and lower sword 223, upper sword on subdivision ontology 22 Sheared edge 221 is enclosed between 222 and lower sword 223, upper sword 222 is fixed on by hydraulic nut corresponding with lower sword 223 On cutter shaft.In the present embodiment, upper sword 222 and lower sword 223 are the main subdivision component of splitting device 2, and upper sword 222 is located at lower sword 223 top, the two are realized by the two sides up and down of flat-bulb steel work subdivision that respectively thus the two has certain in vertical direction Overlapping region, with guarantee flat-bulb steel can by complete subdivision, and in order to avoid between upper sword 222 and lower sword 223 generate interference, The two should also be staggered in the horizontal direction certain interval, i.e., is formed with sideshake between the two, and certain sideshake size is smaller, with Keep sword 222 and the position of lower 223 subdivision flat-bulb steel of sword essentially identical.Optimize above embodiment, on subdivision ontology 22 also It is provided with the first worm gear set 24 and the second worm gear set 25, wherein the first worm gear set 24 is mainly used It relatively moves, and then can achieve between the upper sword 222 of control and lower sword 223 with lower 223 horizontal direction of sword in controlling upper sword 222 The purpose of sideshake, and the second worm gear set 25 be then mainly used for controlling sword 222 it is opposite with lower 223 vertical direction of sword It is mobile, and then achieve the purpose that control degree of overlapping between upper sword 222 and lower sword 223.Specifically, the first worm gear set 24 can It is moved horizontally with controlling upper sword 222, the second worm gear set 25 can control lower 223 vertical shift of sword, the first gear on worm Component 24 includes the first worm screw 241 and first gear 242, is intermeshed between the two, first gear 242 is coaxially installed in upper On the cutter shaft of sword 222, first gear 242 is driven to move horizontally by the first worm screw 241, and then by first gear 242 with moving knife Corresponding upper 222 horizontal synchronization of sword of axis is mobile, and specifically, first gear 242 is not to be mounted directly the corresponding cutter shaft of supreme sword 222 On, axle sleeve is provided on cutter shaft, by bearing-transmission between axle sleeve and cutter shaft, first gear 242 drives axle sleeve rotation, and is cuing open It is additionally provided with trapezoidal nut on point ontology 22, axle sleeve is installed by trapezoidal nut on subdivision ontology 22, and is between the two spiral shell Line connection, since trapezoidal nut is positioned, then when axle sleeve rotates, axle sleeve band movable arbor is straight in the horizontal direction with respect to trapezoidal nut Line is mobile, and then can achieve and adjust the purpose that upper sword 222 relatively moves in the horizontal direction with lower sword 223, to realize the two Between sideshake adjust, certainly at work, upper sword 222 corresponding cutter shaft rotation, not will drive axle sleeve synchronous rotary, then at this time Upper sword 222 will not move in the horizontal direction；Similarly the second worm gear set 25 includes the second worm screw 251 and second gear 252, it is intermeshed between the two, second gear 252 is coaxially installed on the cutter shaft of lower sword 223, is driven by the second worm screw 251 252 vertical shift of second gear, and then by second gear 252 with the vertical synchronizing moving of the corresponding lower sword 223 of movable arbor, specifically Ground, second gear 252 are directly mounted on the corresponding cutter shaft of lower sword 223, are sequentially connected between the two by excentric sleeve, And connected between excentric sleeve and cutter shaft by bearing, i.e. second gear 252 drives excentric sleeve rotation, and then by excentric sleeve Band movable arbor synchronous rotary, and wobbler action during rotation due to excentric sleeve makes cutter shaft inclined along the vertical direction It moves, to achieve the purpose that adjust degree of overlapping between upper sword 222 and lower sword 223, certainly in the operating condition, lower sword 223 is corresponding Cutter shaft rotation, without will drive excentric sleeve synchronous rotary, then this sword 223 will not move along the vertical direction at present.Certainly this Regulative mode is all fine tuning, and the displacement of upper sword 222 and lower sword 223 is smaller.Certainly in another embodiment, the first worm screw Gear assembly 24 can control lower sword 223 and move horizontally, and the second worm gear set 25 can control 222 vertical shift of sword, Specifically the first worm screw 241 and the rotation of the second worm screw 251 are controlled respectively using two groups of servo motors 29.In a preferred approach, Spring ring 224 is also arranged on upper sword 222 cutter shaft corresponding with lower sword 223, and along the length direction of two cutter shafts, upper sword 222 and lower sword 223 be respectively positioned between two spring rings 224.During subdivision, two spring rings 224 can effectively support ball Band steel, and both there is elasticity, certain buffer function is formed, can guarantee subdivision quality.

Referring to Fig. 5, further, splitting device 2 further includes the drive for driving upper sword 222 and lower 223 synchronous rotary of sword Dynamic device 5, is additionally provided with gear-box 26 on subdivision ontology 22, two output shafts of gear-box 26 respectively with upper sword 222 and Lower sword 223 is sequentially connected.In the present embodiment, upper sword 222 controls synchronous rotary by same driving device 5 with lower sword 223, generally For driving device 5 include servo motor 51 and speed reducer 52, the output shaft of servo motor 51 is slowed down transmission by speed reducer 52, And gear-box 26 is transfer case, it is interior to use gear drive, and then can guarantee that two output shafts can work as servo with synchronous rotary After motor work, two output shafts by being driven rear gear box 26 can be with synchronous rotary, and then can drive sword 222 under 223 synchronous rotary of sword.

Referring to fig. 2 and Fig. 5, optimization above-described embodiment, driving device 5 are connected by transmission shaft 53 and the transmission of gear-box 26 It connects, one end of transmission shaft 53 is connect with driving device 5, is specifically passed through between the output shaft of the speed reducer 52 of driving device 5 Shaft coupling 54 connects, and it is that can be rotated that the other end sliding of transmission shaft 53, which is worn between gear-box 26 and gear-box 26 and transmission shaft 53, Connection.In the present embodiment, driving device 5 is not installed on pedestal 21, i.e., when traverse displacement unit 4 drives pedestal 21 mobile, drives Dynamic device 5 will not synchronizing moving, splitting device 2 can also include pedestal 27, traverse displacement unit 4 and sliding rail 41 install in On the pedestal 27, driving device 5 can be installed on pedestal 27, can also installing in the outside of pedestal 27, and on pedestal 27 also It installs there are two bearing block 271, wherein a bearing block 271 is arranged and is located at subdivision ontology 22 close to subdivision ontology 22 and sky crosses roller The outside in road 23, another bearing block 271 cross the setting of roller-way 23 by near-space and are located at subdivision ontology 22 and the empty outside for crossing roller-way 23, Transmission shaft 53 wears two bearing blocks 271 and forms effective support by two bearing blocks 271, and then guarantees servo motor work When, transmission shaft 53 can smoothly be rotated around own axes.Active of the transmission shaft 53 when wearing gear-box 26, in gear-box 26 Gear 261 is sheathed on transmission shaft 53, and the two is connected by key, and can be used flat key, can be played and lead to driving gear 261 To effect, certain driving gear 261 can drive two output shaft synchronous of gear-box 26 to revolve by multi-stage gear engaged transmission Turn, the revolving speed of two output shafts is consistent, so that upper sword 222 is consistent with the revolving speed of lower sword 223, then when transmission shaft 53 rotates, passes Moving axis 53 is able to drive 261 synchronous rotary of driving gear in gear-box 26, and when traverse displacement unit 4 works, driving gear 261 Relative movement can be generated between transmission shaft 53.As a result, by above structure, can satisfy when traverse displacement unit 4 works, no Driving device 5 can be driven to generate movement.

Referring to Fig. 5 and Fig. 6, continue to optimize above-described embodiment, due to using gear drive in gear-box 26, then gear-box It should be filled with a certain amount of gear-box 26 in 26, processing thus should be also sealed between transmission shaft 53 and gear-box 26.This reality It applies in example, two end positions that gear-box 26 is connect with transmission shaft 53 are all made of two layers of outside framework oil seal 262 and are sealed, specifically Ground, the gear shaft both ends of driving gear 261 extend respectively in two axis holes of the shell of gear-box 26, and transmission shaft 53 is arranged in In the gear shaft of driving gear 261, connected between driving gear 261 and the shaft hole inner wall of gear-box 26 using tapered roller bearing It connects, high torque can be transmitted, will be formed between the gear oil in gear-box 26 and transmission shaft 53 from there through driving gear 261 Certain degree isolation, and two layers of outside framework oil seal 262 is provided at each tapered roller bearing, i.e., using two layers of skeleton oil It seals at 262 pairs of tapered roller bearings and is effectively sealed.Further, it is set between two layers of outside framework oil seal 262 of each axis hole It is equipped with back oil ring 263, and is provided with the oil return hole of 26 inside of connection back oil ring 263 and gear-box on the shell of gear-box 26 264, it can be recycled and be broken through on the inside of the gear oil to gear-box 26 of the first weight outside framework oil seal 262 in time by this structure.

Referring to fig. 2 and Fig. 4, further, subdivision ontology 22 is installed by binding clasp 28 on sliding rail 41, and The entrance side and outlet side of subdivision ontology 22 are provided with two groups of binding clasps 28.In the present invention, subdivision ontology 22 passes through pedestal 21 To be slidably connected between sliding rail 41, but wait for that the flat-bulb steel of subdivision has biggish resistance of deformation in subdivision, thus Subdivision ontology 22 is fixed on sliding rail 41 by binding clasp 28 in the present embodiment, to guarantee in subdivision, subdivision ontology 22 will not generate relative movement between sliding rail 41, need to adjust subdivision ontology 22 and the empty position for crossing roller-way 23 certainly When, then binding clasp 28 should be unclamped, traverse displacement unit 4 can drive pedestal 21 to move along sliding rail 41.Generally, binding clasp 28 uses Hydraulic-driven can guarantee clamping dynamics under the mating reaction of multiple binding clasps 28 in this way.The structure of traverse displacement unit 4 is refined, It includes driving motor 42 and drives the ball screw 43 of rotation by the driving motor 42, ball screw 43 and splitting device 2 Between be threadedly coupled, certainly when by traverse displacement unit 4 as 2 a part of splitting device, spiral shell between ball screw 43 and pedestal 21 Line connection, ball screw 43 is parallel with sliding rail 41, and after driving motor 42 drives ball screw 43 to rotate, pedestal 21 is driven Subdivision ontology 22 is crossed roller-way 23 with sky and is moved along sliding rail 41.Encoder is usually additionally provided on driving motor 42, specifically It is absolute value type encoder, subdivision ontology 22 accurately can be moved to predetermined position by cooperation 43 use of ball screw, be adjusted Easy and precision is higher.

Referring to Fig. 1, subdivision unit of the invention also provides another embodiment, further includes straightener 6, straightener 6 is located at Between approach table 1 and splitting device 2.In the present invention, the flat-bulb steel for being cooled to target temperature from cold bed is deposited in cooling procedure It is deforming, straightener 6 is thus had additional in the present embodiment, flat-bulb steel is introduced into straightener 6 by approach table 1, then via strong Straight machine 6 enters splitting device 2 and carries out subdivision after aligning, and straightener 6 and splitting device 2 close to arrangement, then flat-bulb steel side is aligned Side subdivision, and straightener 6 can provide enough chucking powers when subdivision, and then ball when subdivision can be effectively prevented Band steel generates the phenomenon that sideslip, so that the flat-bulb steel cross section quality after subdivision is relatively good.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of splitting device of changeable control, including pedestal, it is characterised in that: further include being installed for the pedestal and along vertical Directly in the sliding rail of the conveying direction setting of material and the traversing dress moved for controlling the pedestal along the sliding rail It sets, the subdivision ontology of the sheared edge passed through with feed subdivision is installed on the pedestal and material can be moved by the approach table It moves to the empty of the runout table and crosses roller-way, the subdivision ontology and described empty cross roller-way along the direction of the sliding rail side by side Setting.

2. the splitting device of changeable control as described in claim 1, it is characterised in that: be provided on the subdivision ontology Sword and lower sword, are enclosed the sheared edge between the upper sword and the lower sword.

3. the splitting device of changeable control as claimed in claim 2, it is characterised in that: further include for driving the upper sword With the driving device of the lower sword synchronous rotary, it is additionally provided with gear-box on Yu Suoshu subdivision ontology, two of the gear-box Output shaft is sequentially connected with the upper sword and the lower sword respectively.

4. the splitting device of changeable control as claimed in claim 3, it is characterised in that: the driving device passes through transmission shaft It is connect with the gearbox drive, described transmission shaft one end is connect with the driving device, and other end sliding wears the gear It case and is rotatably connected between the two.

5. the splitting device of changeable control as claimed in claim 4, it is characterised in that: the gear-box and the transmission shaft Two end positions of connection are all made of two layers of skeleton oil seal, are provided with back oil ring between two layers of outside framework oil seal, institute Back oil ring is stated to be connected to by the oil return hole being set on the gear-box with the inside of the gear-box.

6. the splitting device of changeable control as claimed in claim 2, it is characterised in that: also set up on Yu Suoshu subdivision ontology Have the first worm gear set for controlling the upper sword and lower sword level relative movement and the control upper sword with The second worm gear set that the lower sword relatively moves vertically.

7. the splitting device of changeable control as claimed in claim 2, it is characterised in that: cutter shaft and institute in the upper sword It states and is arranged with spring ring on the cutter shaft of lower sword, and be respectively positioned on two along upper sword and the lower sword described in the length direction of the cutter shaft Between a spring ring.

8. the splitting device of changeable control as described in claim 1, it is characterised in that: the subdivision ontology passes through binding clasp It installs on the sliding rail, and is provided with two groups of binding clasps in the entrance side of the subdivision ontology and outlet side.

9. the splitting device of changeable control as described in claim 1, it is characterised in that: the traverse displacement unit includes driving electricity Machine and the ball screw that rotation is driven by the driving motor, the ball screw are connect with the whorl of base, and in institute It states and is installed on encoder on driving motor.

10. a kind of subdivision unit, including approach table and runout table, the approach table and the runout table are located at same On one straight line, it is characterised in that: further include such as the described in any item splitting devices of claim 1-9, the splitting device is located at Between the approach table and the runout table.