CN202864435U - Profile steel cushion storage device - Google Patents

Abstract

The utility model discloses a profile steel cushion storage device which comprises a buffering channel, an overturning feeding device, a buffering horizontal channel and a control device, wherein the buffering channel, the overturning feeding device and the buffering horizontal channel are sequentially and horizontally arranged and respectively connected with the control device. Profile steel is conveyed on the buffering channel from a last working link, and in a forwarding process, the profile steel is limited in the channel by a lateral positioning roll and stopped gradually when contacted with a stopping device; the profile steel on the buffering channel is conveyed onto the buffering horizontal channel in a supporting manner through a feeding claw of the overturning feeding device, and the profile steel can also be conveyed onto the buffering channel from the buffering horizontal channel in a supporting manner. A roller bearing follower on a conveying chain of the buffering horizontal channel pushes the profile steel to move to a next station; and a stop plate of the stopping device is rotated and falls under an upper bus of a roll shaft, and the profile steel can also directly enter the next link. The profile steel buffering storage device can save labor resource, improves the production efficiency and is convenient to operate and high in automation degree.

Description

A kind of shaped steel buffering storage device

Technical field

The utility model relates to the shaped steel technical field of processing equipment, particularly a kind of storage device of shaped steel machining production line.

Background technology

Shaped steel is a kind of bar structural section that certain section shape and size is arranged, and can be divided into H shaped steel, I-beam section, channel-section steel, square steel, rectangular steel pipe, square steel tube etc. by its cross sectional shape.Shaped steel is widely used in all conglomeraties such as industrial building, lathe, electricity transmission iron tower, multi-storied garage, vehicle.

In the shaped steel machining production line, artificial lifting, the artificial modes of stacking of adopting are carried out more at present, and production efficiency is low, and the appropriation of labour power resource is many.

Summary of the invention

The purpose of this utility model be to provide a kind of save human resources, easy to operate, enhance productivity, shaped steel buffering storage device that degree of automation is high.

The technical scheme that the utility model adopts for achieving the above object is:

A kind of shaped steel buffering storage device is characterized in that: comprise fender road, upset feeding device, cushion and laterally expect road and control setup that fender road, upset feeding device and the horizontal material of buffering road successively lateral arrangement also link to each other with control setup respectively.

In the utility model, described fender road comprises material road frame, is horizontally placed on the roll shaft on the material road frame, the power that drives the roller bearing rotation and transmission device, vertically is arranged at lateral register roller, aligning gear, front end stop gauge and the pneumatic system of expecting frame both sides, road.

Further, described power and transmission device comprise the reductor A of the translator that is installed in material road frame one end, drive sprocket A is installed on the output shaft of reductor A, roll shaft is rotationally connected with plane on the material road frame, roll shaft one end is equipped with double driven sprocket A, chain with drive sprocket A be connected near the driven sprocket A on the roll shaft of reductor A, the driven sprocket A on other each roll shafts links to each other successively by chain.

In order to make things convenient for processing, assembling and safety, roll shaft described in the utility model is rotationally connected with plane on the material road frame by band plummer block housing bearing with spherical outside surface; Described chain and sprocket wheel are provided with guard shield outward.

In order to prevent that shaped steel side direction in course of conveying from shifting out the fender road, both sides, fender of the present utility model road are provided with registration roller, the location roller of described registration roller is connected on the roll shaft of location by bearing, and the location roll shaft is connected on the roller seat of location, and the location roller seat is fixed on the material road frame.

Cause in order to prevent shaped steel from course of conveying, having a certain degree with fender road center line shaped steel some outside the material loading pawl of upset feeding device, can not normally lift, fender described in the utility model is provided with aligning gear on the road, the floor installation of described aligning gear is on material road frame, cylinder, two guide rails assemblings that be arranged in parallel are on base, gear passes through bearing, bearing seat is installed on the base, the cylinder the tip of the axis links to each other with an end of cylinder jacking block by nut, the other end of cylinder jacking block links to each other with slide plate A one end, the centre portion of slide plate A is equipped with tooth bar A and the tooth bar jacking block that is meshed with gear, and the other end of slide plate A is connected with centring roll by axle and bearing; A is corresponding with slide plate, and the centre portion of slide plate B is equipped with tooth bar B and the tooth bar jacking block that is meshed with gear, and the end of slide plate B is connected with centring roll by axle and bearing; The bottom of slide plate A, slide plate B be separately installed with two with the suitable slide block of guide rail, slide plate A, slide plate B can slide at two guide rails respectively.During work, the tooth bar that cylinder promotes to interrelate with it moves, tooth bar is fixed in the thereupon to the midline motion of centring roll on the same slide plate therewith, the rack drives gear rotates, and then another centring roll that another rack drives and this tooth bar are fixed on the same slide plate moves to the midline, and two centring rolls are with shaped steel centering.Two centring rolls of aligning gear also can play the effect that restriction shaped steel shifts out the material road when being in the outermost end state.

, each shaped steel same position on the fender road conveniently carries out next step rotary movement for being stopped, fender described in the utility model is provided with the front end stop gauge on the road, the floor installation of front end stop gauge is on material road frame, bearing is installed on the base, two guide rods that be arranged in parallel are fixed on the bearing by end cap, one end of guide rod is equipped with spring, the other end is equipped with sliding rack, be provided with Nonlubricated bearing between sliding rack and the guide rod, two rotating shaft bases are installed on the sliding rack, and the two ends of turning cylinder link to each other with two rotating shaft bases respectively, and turning cylinder is provided with rotor plate, rotor plate simultaneously has striker plate, another side is equipped with monaural, and monaural is hinged by mandrel and ears, and ears are connected on the cylinder axis of cylinder, cylinder block is fixed on the cylinder saddle, and cylinder saddle is installed on the sliding rack.During work, cylinder promotes rotor plate and rotates, and striker plate plays the backgauge effect when lifting the position, when striker plate falls, can make shaped steel smoothly by entering subsequent processing.During the striker plate backgauge, sliding rack drives the spring-compressed on the guide rod, thereby plays buffer action, avoids clashing.

For plane on the material loading pawl that makes the upset feeding device remains horizontality in switching process, upset feeding device described in the utility model comprises reductor B and at least two supports of translator, the output shaft of reductor B is provided with drive sprocket B, chain B links to each other drive sprocket B with hinge wheel, hinge wheel is installed on the minor axis A, minor axis A two ends are connected with major axis A with flange, be installed on the bearing with spherical outside surface of usheing to seat in the middle of the minor axis A, fixed chain wheels also is installed on the minor axis A, fixed chain wheels is installed on the fixed chain wheels seat, top and the bearing with spherical outside surface of usheing to seat of fixed chain wheels seat links to each other, and the below links to each other with support; Fixed chain wheels links to each other with planet sprocket by chain A, and planet sprocket is installed on the little axle A, and little axle A two ends are equipped with the material loading pawl, and the centre links to each other with link span by bearing, and link span is installed on the end of pivoted arm, and the other end of pivoted arm is fixed on the minor axis A; The two ends of major axis A respectively with two stands adjacent one another are on minor axis A be connected by flange.During work, reductor B rotates by the pivoted arm that the chain transmission drives on the minor axis A, the chain transmission that sprocket wheel on planet sprocket on the link span inner small shaft that links to each other with pivoted arm and the pivoted arm other end minor axis A forms can make the material loading pawl driving surface on the pivoted arm remain level, the material loading pawl can move to the shaped steel holder of centering on the fender road buffering and laterally expect also shaped steel to be moved on the fender road from cushioning the road pop-up of horizontal material on the road.In this process and since material loading pawl driving surface all the time level upwards, shaped steel is the translation state.

In the utility model, described buffering laterally expects to comprise at least two fuselage cradles, reductor C, the output shaft of reductor C is provided with drive sprocket C, chain C links to each other drive sprocket C with driven sprocket C, driven sprocket C is installed in the end of minor axis B, minor axis B is installed in an end of fuselage cradle by rolling bearing units, transportation sprocket is installed in the middle of the minor axis B, minor axis B two ends link to each other with major axis B, the other end of fuselage cradle is equipped with the tensioning transportation sprocket, chain D links to each other transportation sprocket with the tensioning transportation sprocket, chain D is provided with push pedal, and little axle B links to each other push pedal with the coro bearng follower; The two ends of major axis B are connected with minor axis B on two fuselage cradles adjacent one another are respectively.Reductor C rotates by the be dynamically connected axle of each fuselage cradle of chain driving band, so that the motion of the conveyer chain in each fuselage cradle, the coro bearng follower that links to each other with conveyer chain by push pedal promotes shaped steel and moves.Buffering laterally material road can be put the shaped steel that the feeding device that overturns turn successively.

During for fear of equidistant layout coro bearng follower, the material loading pawl of upset feeding device collides with an adjacent shaped steel when laterally expecting to get the shaped steel in edge from described buffering, and the spacing between the coro bearng follower adjacent one another are described in the utility model is by one is long and the other is short order setting.

Working process of the present utility model is as follows:

Shaped steel is transported on the fender road from a upper working link, control setup is controlled its reductor and is rotated, and rotates by chain driving band action roller shaft, drives it in the movement of fender road thereby roll shaft applies friction force to shaped steel, in traveling process, the lateral register roller is limited to shaped steel in the material road.When shaped steel moved to the striker plate of front end stop gauge, reductor stopped operating, because inertia, shaped steel bump striker plate, and then sliding rack Compress Spring, spring potential energy increases, and shaped steel kinetic energy reduces, and shaped steel stops gradually.May produce the offsetting dip phenomenon in the shaped steel traveling process, at this moment, the cylinder of aligning gear promotes tooth bar motion, and gear rotates, and then drives another tooth bar motion, and the centring roll on two slide plates drives shaped steel and moves to center position, reaches the effect of centering.The cylinder action, roller is retracted into initial condition.

The reductor of upset feeding device rotates, driving pivoted arm by the chain transmission rotates, the chain transmission that the link span inner planet sprocket wheel that links to each other with pivoted arm and the fixed chain wheels on the pivoted arm form can make the material loading pawl driving surface on the pivoted arm remain level, the material loading pawl can move to the shaped steel holder of centering on the fender road buffering and laterally expect also shaped steel to be moved on the fender road from cushioning the road pop-up of horizontal material on the road.In this process and since material loading pawl driving surface all the time level upwards, shaped steel is the translation state.

The buffering laterally reductor in material road is rotated, and drive sprocket drives driven sprocket and rotates, and transportation sprocket and tensioning transportation sprocket are rotated, and the coro bearng follower on the chain promotes shaped steel and moves to next station, and former station is waited for the placement of next root shaped steel.Same upset feeding device also can expect that laterally the shaped steel on the road turn on the fender road with buffering.If shaped steel will only need the cylinder axis of the cylinder of control front end stop gauge to retract by the fender road of buffering storage device, rotor plate drives striker plate and rotates, and then drops down onto below the Up Highway UHW of roll shaft, and shaped steel can be smoothly by entering next link.

Adopt the utility model shaped steel buffering storage device, save human resources, easy to operate, enhance productivity, degree of automation is high.

Description of drawings

Fig. 1 is that the master of the utility model shaped steel buffering storage device looks scheme drawing.

Fig. 2 is the schematic top plan view of the utility model shaped steel buffering storage device.

Fig. 3 is that scheme drawing is looked on the right side of the utility model shaped steel buffering storage device.

Fig. 4 is that the master in the fender road 100 of the utility model shaped steel buffering storage device looks scheme drawing.

Fig. 5 is the schematic top plan view in the fender road 100 of the utility model shaped steel buffering storage device.

Fig. 6 is that scheme drawing is looked on the left side in the fender road 100 of the utility model shaped steel buffering storage device.

Fig. 7 is the I section enlarged diagram among Fig. 4

Fig. 8 is that the master of the aligning gear 109 in the fender road 100 of the utility model shaped steel buffering storage device looks scheme drawing.

Fig. 9 is the schematic top plan view of the aligning gear 109 in the fender road 100 of the utility model shaped steel buffering storage device.

Figure 10 is that scheme drawing (after removing cylinder) is looked on the left side of the aligning gear 109 in the fender road 100 of the utility model shaped steel buffering storage device.

Figure 11 is that the master of the front end stop gauge 110 in the fender road 100 of the utility model shaped steel buffering storage device looks scheme drawing.

Figure 12 is the schematic top plan view of the front end stop gauge 110 in the fender road 100 of the utility model shaped steel buffering storage device.

Figure 13 is that scheme drawing is looked on the left side of the front end stop gauge 110 in the fender road 100 of the utility model shaped steel buffering storage device.

Figure 14 is that the master of the upset feeding device 200 of the utility model shaped steel buffering storage device looks scheme drawing.

Figure 15 is the schematic top plan view (pivoted arm turns over 90 degree) of the upset feeding device 200 of the utility model shaped steel buffering storage device.

Figure 16 is that scheme drawing (pivoted arm turns over 90 degree) is looked on the left side of the upset feeding device 200 of the utility model shaped steel buffering storage device.

Figure 17 is the II section enlarged diagram among Figure 14.

Figure 18 is the III section enlarged diagram among Figure 15.

Figure 19 is that the buffering of the utility model shaped steel buffering storage device expects that laterally 300 master looks scheme drawing.

Figure 20 is that the buffering of the utility model shaped steel buffering storage device is laterally expected 300 schematic top plan view.

Figure 21 is that the buffering of the utility model shaped steel buffering storage device expects that laterally a left side of 300 looks scheme drawing.

Figure 22 is the enlarged diagram of IV among Figure 19.

Figure 23 is the enlarged diagram of V among Figure 22.

Figure 24 is the enlarged diagram of VI among Figure 21.

Among the figure: 100-fender road, 101-material road frame, 102-reductor A, 103-drive sprocket A, 104-chain, 105-roll shaft, 106-driven sprocket A, 107-registration roller, 108-band plummer block housing bearing with spherical outside surface, the 109-aligning gear, 110-front end stop gauge, 111-guard shield, 10701-locates roller seat, and 10702-locates roll shaft, and 10703-locates roller, the 107004-bearing, 10705-end cap, 10901-base, the 10902-cylinder, 10903-nut, 10904-cylinder jacking block, 10905-slide plate A, 10906-tooth bar jacking block, 10907-tooth bar A, the 10908-axle, the 10909-bearing, 10910-centring roll, 10911-gear, 10912-tooth bar B, 10913-slide plate B, 10914-slide block, 10915-guide rail, the 11001-base, the 11002-bearing, 11003-guide rod, 11004-Nonlubricated bearing, the 11005-sliding rack, the 11006-rotating shaft base, 11007-turning cylinder, 11008-striker plate, the 11009-rotor plate, the 11010-monaural, 11011-mandrel, 11012-ears, the 11013-spring, the 11014-end cap, 11015-cylinder saddle, 11016-cylinder; The 200-feeding device that overturns, 201-reductor B, 202-drive sprocket B, 203-support, the 204-planet sprocket, 205-link span, 206-bearing, the little axle A of 207-, 208-material loading pawl, 209-chain A, the 210-pivoted arm, 211-flange, 212-major axis A, 213-minor axis A, 214-fixed chain wheels, 215-fixed chain wheels seat, the 216-bearing with spherical outside surface of usheing to seat, 217-hinge wheel, 218-chain B; The 300-buffering is the material road laterally, 301-reductor C, 302-drive sprocket C, 303-chain C, 304-driven sprocket C, 305-rolling bearing units, the 306-backing plate, 307-push pedal, 308-coro bearng follower, the little axle B of 309-, 310-tensioning transportation sprocket, 311-fuselage cradle, 312-chain D, 313-major axis B, 314-minor axis B, 315-transportation sprocket; The 400-control setup.

The specific embodiment

For clearly demonstrating the technical characterstic of this programme, below by the specific embodiment, and by reference to the accompanying drawings, the utility model is described further.

Extremely shown in Figure 24 such as Fig. 1, a kind of shaped steel buffering storage device, comprise fender road 100, upset feeding device 200, cushion and laterally expect road 300 and control setup 400 that fender road 100, upset feeding device 200 and the horizontal material of buffering 300 roads successively lateral arrangement also link to each other with control setup 400 respectively.

Described fender road 100 comprises material road frame 101, is horizontally placed on the roll shaft 105 on the material road frame, the power that drives roller bearing 105 rotations and transmission device, vertically is arranged at lateral register roller 107, aligning gear 109, front end stop gauge 110 and the pneumatic system of expecting frame 101 both sides, road.

Described power and transmission device comprise the reductor A102 of the translator that is installed in material road frame 101 1 ends, drive sprocket A103 is installed on the output shaft of reductor A102, roll shaft 105 is rotationally connected with plane on the material road frame 101, roll shaft 105 1 ends are equipped with double driven sprocket A106, chain 104 with drive sprocket A103 be connected near the driven sprocket A106 on the roll shaft 105 of reductor A102, the driven sprocket A on other each roll shafts 105 links to each other successively by chain.

Described roll shaft 105 is rotationally connected with plane on the material road frame 101 by band plummer block housing bearing with spherical outside surface 108; Described chain and sprocket wheel are provided with guard shield 111 outward.

The location roller 10703 of described registration roller 107 is connected on the roll shaft 10702 of location by bearing 10704, and location roll shaft 10702 is connected on the roller seat 10701 of location, and location roller seat 10701 is fixed on the material road frame 101.

The base 10901 of described aligning gear 109 is installed on the material road frame 101, cylinder 10902, two guide rails that be arranged in parallel 10915 are installed on the base 10901, gear 10911 passes through bearing, bearing seat is installed on the base 10901, the cylinder the tip of the axis links to each other with an end of cylinder jacking block 10904 by nut 10903, the other end of cylinder jacking block links to each other with slide plate A10905 one end, the centre portion of slide plate A10905 is equipped with tooth bar A10907 and the tooth bar jacking block 10906 that is meshed with gear 10911, and the other end of slide plate A10905 is connected with centring roll 10910 by axle 10908 and bearing 10909; A10905 is corresponding with slide plate, and the centre portion of slide plate B10913 is equipped with tooth bar B10912 and the tooth bar jacking block that is meshed with gear 10911, and the end of slide plate B10913 is connected with centring roll 10910 by axle 10908 and bearing 10909; The bottom of slide plate A10905, slide plate B10913 be separately installed with two with the suitable slide block 10914 of guide rail 10915, slide plate A10905, slide plate B10913 can slide at two guide rails 10915 respectively.

The base 11001 of described front end stop gauge 110 is installed on the material road frame 101, bearing 11002 is installed on the base, two guide rods that be arranged in parallel 11003 are fixed on the bearing 11002 by end cap 11014, one end of guide rod is equipped with spring 11013, the other end is equipped with sliding rack 11005, be provided with Nonlubricated bearing 11004 between sliding rack and the guide rod, two rotating shaft bases 11006 are installed on the sliding rack 11005, the two ends of turning cylinder 11007 link to each other with two rotating shaft bases 11006 respectively, turning cylinder 11007 is provided with rotor plate 11009, rotor plate 11009 one sides have striker plate 11008, another side is equipped with monaural 11010, and monaural 11010 is hinged by mandrel 11011 and ears 11012, and ears 11012 are connected on the cylinder axis of cylinder 11016, cylinder block is fixed on the cylinder saddle 11015, and cylinder saddle is installed on the sliding rack 11005.

Described upset feeding device 200 comprises reductor B201 and 5 supports 203 of translator, the output shaft of reductor B201 is provided with drive sprocket B202, chain B218 links to each other drive sprocket B202 with hinge wheel 217, hinge wheel 217 is installed on the minor axis A213, minor axis A213 two ends are connected with major axis A 212 with flange 211, be installed on the bearing with spherical outside surface 216 of usheing to seat in the middle of the minor axis A213, fixed chain wheels 214 also is installed on the minor axis A213, fixed chain wheels 214 is installed on the fixed chain wheels seat 215, top and the bearing with spherical outside surface 216 of usheing to seat of fixed chain wheels seat 215 links to each other, and the below links to each other with support 203; Fixed chain wheels 214 links to each other with planet sprocket 204 by chain A209, planet sprocket 204 is installed on the little axle A207, little axle A207 two ends are equipped with material loading pawl 208, the middle bearing 206 that passes through links to each other with link span 205, link span 205 is installed on the end of pivoted arm 210, and the other end of pivoted arm 210 is fixed on the minor axis A213; The two ends of major axis A 212 respectively with two stands 203 adjacent one another are on minor axis A213 be connected by flange.

Described buffering expects that laterally 300 comprise 5 fuselage cradles 311, reductor C301, the output shaft of reductor C301 is provided with drive sprocket C302, chain C303 links to each other drive sprocket C302 with driven sprocket C304, driven sprocket C304 is installed in the end of minor axis B314, minor axis B314 is installed in an end of fuselage cradle 311 by rolling bearing units 305, transportation sprocket 315 is installed in the middle of the minor axis B314, minor axis B314 two ends link to each other with major axis B313, the other end of fuselage cradle 311 is equipped with tensioning transportation sprocket 310, chain D312 links to each other transportation sprocket with the tensioning transportation sprocket, chain D312 is provided with push pedal 307, and little axle B309 links to each other push pedal 307 with coro bearng follower 308; The two ends of major axis B313 are connected with minor axis B314 on two fuselage cradles 311 adjacent one another are respectively.

Order arranges spacing between the described coro bearng follower adjacent one another are by one is long and the other is short.

The working process of present embodiment is as follows:

Shaped steel is transported on the fender road 100 from a upper working link, control setup 400 its reductor of control A102 rotate, rotate by chain driving band action roller shaft 105, thereby 105 pairs of shaped steel of roll shaft apply friction force and drive its 100 movements in the fender road, in traveling process, lateral register roller 107 is limited to shaped steel in the material road.When shaped steel moved to the striker plate 11008 of front end stop gauge 110, reductor A stopped operating, because inertia, shaped steel bump striker plate 11008, and then sliding rack 11005 Compress Springs 11013, spring 11013 potential energy increase, shaped steel kinetic energy reduces, and shaped steel stops gradually.In the shaped steel traveling process, may produce the offsetting dip phenomenon, at this moment, the cylinder 10902 of aligning gear 109 promotes tooth bar A10907 motion, gear 10911 rotates, and then drive another tooth bar B10912 motion, centring roll 10910 on two slide plate A10905 and the slide plate B10913 drives shaped steel and moves to center position, reaches the effect of centering.Cylinder 10902 actions, centring roll is retracted into initial condition.

The reductor B201 of upset feeding device 200 rotates, driving pivoted arm 210 by the chain transmission rotates, the link span 205 inner planet sprocket wheels 204 that link to each other with pivoted arm can make material loading pawl 208 driving surfaces on the pivoted arm remain level with the chain transmission that the fixed chain wheels 214 on the pivoted arm forms, the material loading pawl can move to the shaped steel holder of centering on the fender road 100 buffering and laterally expect also shaped steel to be moved on the fender road 100 from cushioning 300 pop-ups of horizontal material road on the road 300.In this process and since material loading pawl 208 driving surfaces all the time level upwards, shaped steel is the translation state.

The buffering laterally reductor C301 in material road 300 is rotated, drive sprocket C302 drives driven sprocket C304 and rotates, and transportation sprocket 315 and tensioning transportation sprocket 310 are rotated, coro bearng follower 308 on the chain C312 promotes shaped steel and moves to next station, and former station is waited for the placement of next root shaped steel.Same upset feeding device 200 also can expect that laterally the shaped steel on the road 300 turn on the fender road 100 with buffering.If shaped steel will be by the fender road 100 of buffering storage device, only need the cylinder axis of the cylinder 11016 of control front end stop gauge 110 to retract, rotor plate 11009 drives striker plate 11008 and rotates, and then drops down onto below the Up Highway UHW of roll shaft 105, and shaped steel can be smoothly by entering next link.

Claims (10)

1. a shaped steel buffering storage device is characterized in that: comprise fender road, upset feeding device, cushion and laterally expect road and control setup that fender road, upset feeding device and the horizontal material of buffering road successively lateral arrangement also link to each other with control setup respectively.

2. a kind of shaped steel according to claim 1 cushions storage device, it is characterized in that: described fender road comprises material road frame, is horizontally placed on the roll shaft on the material road frame, the power that drives the roller bearing rotation and transmission device, vertically is arranged at lateral register roller, aligning gear, front end stop gauge and the pneumatic system of expecting frame both sides, road.

3. a kind of shaped steel according to claim 2 cushions storage device, it is characterized in that: described power and transmission device comprise the reductor A of the translator that is installed in material road frame one end, drive sprocket A is installed on the output shaft of reductor A, roll shaft is rotationally connected with plane on the material road frame, roll shaft one end is equipped with double driven sprocket A, chain with drive sprocket A be connected near the driven sprocket A on the roll shaft of reductor A, the driven sprocket A on other each roll shafts links to each other successively by chain.

4. a kind of shaped steel according to claim 3 cushions storage device, it is characterized in that: described roll shaft is rotationally connected with plane on the material road frame by band plummer block housing bearing with spherical outside surface; Described chain and sprocket wheel are provided with guard shield outward.

5. a kind of shaped steel according to claim 2 cushions storage device, it is characterized in that: the location roller of described registration roller is connected on the roll shaft of location by bearing, and the location roll shaft is connected on the roller seat of location, and the location roller seat is fixed in expects on the road frame.

6. a kind of shaped steel according to claim 2 cushions storage device, it is characterized in that: the floor installation of described aligning gear is on material road frame, the guide rails assembling that cylinder, two be arranged in parallel is on base, gear is installed on the base by bearing, bearing seat, the cylinder the tip of the axis links to each other with an end of cylinder jacking block by nut, the other end of cylinder jacking block links to each other with slide plate A one end, the centre portion of slide plate A is equipped with tooth bar A and the tooth bar jacking block that is meshed with gear, and the other end of slide plate A is connected with centring roll by axle and bearing; A is corresponding with slide plate, and the centre portion of slide plate B is equipped with tooth bar B and the tooth bar jacking block that is meshed with gear, and the end of slide plate B is connected with centring roll by axle and bearing; The bottom of slide plate A, slide plate B be separately installed with two with the suitable slide block of guide rail, slide plate A, slide plate B can slide at two guide rails respectively.

7. a kind of shaped steel according to claim 2 cushions storage device, it is characterized in that: the floor installation of described front end stop gauge is on material road frame, bearing is installed on the base, two guide rods that be arranged in parallel are fixed on the bearing by end cap, one end of guide rod is equipped with spring, the other end is equipped with sliding rack, be provided with Nonlubricated bearing between sliding rack and the guide rod, two rotating shaft bases are installed on the sliding rack, the two ends of turning cylinder link to each other with two rotating shaft bases respectively, turning cylinder is provided with rotor plate, and rotor plate simultaneously has striker plate, and another side is equipped with monaural, monaural is hinged by mandrel and ears, ears are connected on the cylinder axis of cylinder, and cylinder block is fixed on the cylinder saddle, and cylinder saddle is installed on the sliding rack.

8. a kind of shaped steel according to claim 1 cushions storage device, it is characterized in that: described upset feeding device comprises reductor B and at least two supports of translator, the output shaft of reductor B is provided with drive sprocket B, chain B links to each other drive sprocket B with hinge wheel, hinge wheel is installed on the minor axis A, minor axis A two ends are connected with major axis with flange, be installed on the bearing with spherical outside surface of usheing to seat in the middle of the minor axis A, fixed chain wheels also is installed on the minor axis A, fixed chain wheels is installed on the fixed chain wheels seat, top and the bearing with spherical outside surface of usheing to seat of fixed chain wheels seat links to each other, and the below links to each other with support; Fixed chain wheels links to each other with planet sprocket by chain A, and planet sprocket is installed on the little axle A, and little axle A two ends are equipped with the material loading pawl, and the centre links to each other with link span by bearing, and link span is installed on the end of pivoted arm, and the other end of pivoted arm is fixed on the minor axis A; The two ends of major axis A respectively with two stands adjacent one another are on minor axis A be connected by flange.

9. a kind of shaped steel according to claim 1 cushions storage device, it is characterized in that: described buffering laterally expects to comprise at least two fuselage cradles, reductor C, the output shaft of reductor C is provided with drive sprocket C, chain C links to each other drive sprocket C with driven sprocket C, driven sprocket C is installed in the end of minor axis B, minor axis B is installed in an end of fuselage cradle by rolling bearing units, transportation sprocket is installed in the middle of the minor axis B, minor axis B two ends link to each other with major axis B, the other end of fuselage cradle is equipped with the tensioning transportation sprocket, chain D links to each other transportation sprocket with the tensioning transportation sprocket, chain D is provided with push pedal, and little axle B links to each other push pedal with the coro bearng follower; The two ends of major axis B are connected with minor axis B on two fuselage cradles adjacent one another are respectively.

10. a kind of shaped steel buffering storage device according to claim 9 is characterized in that: order arranges the spacing between the described coro bearng follower adjacent one another are by one is long and the other is short.

Images