CN205341551U - Reinforcing bar processing lines - Google Patents

Abstract

The utility model provides a reinforcing bar processing lines belongs to reinforcing bar processing field, including dephosphorization mechanism, cold rolling mill, straightening mechanism, shearing mechanism and aggregating mechanism, dephosphorization mechanism includes base, a first installation section of thick bamboo and a second installation section of thick bamboo, and a first installation section of thick bamboo and a second installation section of thick bamboo transversely set up respectively in the base, and the inner wall of first installation section of thick bamboo top side is provided with a plurality of dephosphorization subassemblies side by side, and the inner wall bottom side of a first installation section of thick bamboo is provided with the support module, and the top of supporting the module is provided with the axial spout, every dephosphorization subassembly includes fixed axle, dephosphorization piece and dog, and the fixed axle outer wall is provided with the annular groove, and the outside of fixed axle is located to dephosphorization piece cover, dog activity joint is in the annular groove, be provided with polylith steel brush board in the second installation section of thick bamboo, every block of steel brush board is provided with the steel brush, reinforcing bar after handling passes cold rolling mill, straightening mechanism, the aggregating mechanism of shearing mechanism in proper order. This technical scheme provides a neotype reinforcing bar processing lines, simple structure, and the processing effect is better.

Description

A kind of steel bar meter production line

Technical field

This utility model relates to steel bar meter field, in particular to a kind of steel bar meter production line.

Background technology

Dephosphorization mechanism in existing steel bar meter production line utilizes the oxide skin that pressure roller or roller remove rebar surface to be processed to cut, utilize the dephosphorization mechanism of pressure roller, phosphor-removing effect is bad, and the dephosphorization mechanism arranging multiple rows of roller is bulky, expands taking up room of whole steel bar meter production line.

Utility model content

The purpose of this utility model is in that to provide a kind of steel bar meter production line, to improve the problems referred to above.

This utility model is achieved in that

The steel bar meter production line that this utility model provides includes dephosphorization mechanism, cold mill complex, bar straightening mechanism, cutting mechanism and collecting mechanism；Dephosphorization mechanism includes base, the first mounting cylinder and the second mounting cylinder, first mounting cylinder and the second mounting cylinder are horizontally set at base respectively, the two ends of the first mounting cylinder respectively arrival end and the port of export, the inwall top side of the first mounting cylinder has in axial direction been arranged side by side multiple dephosphorization assembly, the inwall bottom side of the first mounting cylinder is provided with support module, and the top supporting module is provided with axial slide；

Each dephosphorization assembly includes fixing axle, dephosphorization block and block, fixing axle is vertically fixed on inside the first mounting cylinder, fixing axle outer wall is provided with annular groove, dephosphorization block is provided with the first through hole, the longitudinal cross-section of the first through hole is trapezoidal, dephosphorization block is sheathed on the outside of fixing axle, and the aperture near fixing shaft end of the first through hole is less than the aperture away from fixing shaft end；Block is provided with the second through hole, and the aperture of the second through hole is more than the diameter of annular groove and less than the diameter of fixing axle, and block active card is connected in annular groove, and block is for being limited to fixing axle by dephosphorization block；

Being provided with polylith steel brush plate in second mounting cylinder, polylith steel brush plate is arranged around the rotary centerline of the second mounting cylinder, and every block of steel brush plate is provided with steel brush；

Dephosphorization block and axial slide are correspondingly arranged, and dephosphorization block is divided into forward part and rear section, and rear section is towards arrival end, and anterior towards the port of export, the weight of forward part is more than the weight of rear section；Reinforcing bar to be processed is through the first mounting cylinder and the second mounting cylinder, and the reinforcing bar after dephosphorization mechanism processes sequentially passes through cold mill complex, bar straightening mechanism, cutting mechanism, collecting mechanism.

Dephosphorization mechanism is for removing the iron scale of rebar surface, it is to avoid iron scale is pressed into rebar surface and produces defect by cold rolling link, improves the surface quality after steel bar cold rolling；Cold mill complex is for improving the hardness of reinforcing bar；Bar straightening mechanism for reinforcing bar carried out straightening so that follow-up use；Cutting mechanism is for intercepting as several sections by the reinforcing bar after straightening, in order to transport and use；Collecting mechanism is then collected by the reinforcing bar blocked, in order to deposit.

The aperture, top of the first through hole is more than aperture, bottom, and dephosphorization block can rotate around fixing axle run-off the straight；The design of the second through hole then enables block slide up and down in annular groove and tilt slide.The forward part weight of dephosphorization block is more than rear section weight, then the front end of dephosphorization block tilts to the direction of the transverse plane near the first mounting cylinder rotational axis line, the rear end of dephosphorization block then tilts to the direction of the transverse plane away from the first mounting cylinder rotational axis line, it is simple to reinforcing bar to be processed enters between dephosphorization block diapire and axial notch.Reinforcing bar to be processed is being subject to the friction of dephosphorization block in the process of axial notch, to realize removing the effect of the iron scale of rebar surface.Dephosphorization mechanism is simple and practical, better effects if after the steel bar cold rolling after dephosphorization.

Arranging steel brush in second mounting cylinder and can remove the hammer scale of rebar surface further, phosphor-removing effect is better.The connection of steel brush plate and the second mounting cylinder is not limited to the implementation that the application provides.

Further, second mounting cylinder inwall is in axial direction provided with draw-in groove, and the end face of the second mounting cylinder is run through in one end near the first mounting cylinder of draw-in groove, and the longitudinal cross-section of draw-in groove is " convex " font, the longitudinal cross-section of steel brush plate is " convex " font, and steel brush plate can slide and be embedded in draw-in groove.

The shape of steel brush plate and the shape of draw-in groove are mutually matched, and steel brush plate slides and is embedded in draw-in groove, and installation and removal are convenient.

Further, base is provided with mounting shell, and the sidewall of mounting shell is provided with dust extraction fan, and the first mounting cylinder is positioned at mounting shell, and the sidewall of the first mounting cylinder is provided with multiple small opening.

Reinforcing bar can produce dust after dephosphorization block rubs, and dust is collected in the phosphor-removing effect that can affect dephosphorization mechanism in the first mounting cylinder, and the dust being collected in the first mounting cylinder can be blown out the first mounting cylinder by dust extraction fan, and dust discharges the first mounting cylinder through small opening.

Further, base is provided with disposal box, and disposal box is positioned at the lower section of mounting shell, and the top of disposal box is provided with opening, and the bottom of mounting shell is provided with open ports, and opening and open ports are correspondingly arranged.

The dust discharged from the first mounting cylinder falls in disposal box, it is simple to focus on, it is to avoid dust is disperseed everywhere." being correspondingly arranged " herein refers to that the dust discharged through open ports can enter inside disposal box through opening.

Further, being provided with bracing frame inside mounting shell, the first mounting cylinder is fixed on bracing frame.

First mounting cylinder is fixed on bracing frame, it is achieved the rotational axis line of the first mounting cylinder overlaps with the reinforcing bar of output and input in backward-forward procedure, simplifies processor.

Further, the exit of dephosphorization mechanism is provided with lubricant powder box, is placed with powdered lubricant, reinforcing bar traverse lubricant powder box to be processed in lubricant powder box.

Reinforcing bar after dephosphorization carries out cold rolling again after lubricant powder box, reduces the internal friction of reinforcing bar and cold-rolling mill, and cold rolling more uniform, processing effect is better.

Further, cold mill complex includes cold-rolling mill, and bar straightening mechanism includes straightener, it is provided with cone pulley between delivery outlet and the input port of straightener of cold-rolling mill, cone pulley includes vertically arranged round platform, and the arranged outside of round platform has annular guide channel, and cone pulley is for drawing reinforcing bar to be processed.

Cone pulley can eliminate on the one hand the stress of reinforcing bar, it is simple to follow-up straightening reinforcing bar, and on the other hand, the reinforcing bar after cold rolling is pulled out by cone pulley for drawing, it is ensured that cold rolling uniformly, processing effect is good.

Further, cutting mechanism is positioned at the exit of bar straightening mechanism, cutting mechanism includes mounting seat, top rotary table and lower rotary table, top rotary table and lower rotary table rotate and are arranged at mounting seat, top rotary table is identical with lower rotary table rotating speed and turns to contrary, the periphery of top rotary table is provided with shears, and the periphery of lower rotary table is provided with lower scissors.

Upper shears is identical with lower scissors velocity of rotation, and rotation direction is contrary, and when forwarding and move toward one another relative with lower scissors to when upper shears, reinforcing bar is truncated.This cutting mechanism simple in construction, can give one thrust forward of reinforcing bar simultaneously, makes reinforcing bar have the movement tendency of the next program of motion.

Further, the sidewall of the first groove is equipped with the first bolt, and the sidewall of the second groove is equipped with the second bolt, and the end of the first bolt is pressed against the first pressing plate, and the end of the second bolt is pressed against the second pressing plate.

First bolt end props up the first pressing plate, and the first pressing plate props up shears, it is achieved fixing of upper shears, the first pressing plate is used for avoiding the first bolt end to lie directly against shears, causes the abrasion of shears.Fixing in like manner of lower scissors, repeats no more.

Further, collecting mechanism includes aggregate rack, rotates axle and multiple tripod；Rotate axle lateral rotation and be arranged at aggregate rack, rotation axle is fixed at multiple tripod intervals, each tripod includes three interconnective poles, wherein the end of a pole connects with the shoulder of adjacent pole, aggregate rack is provided with multiple arc collecting means laterally side by side, multiple arc collecting means opening up, arc collecting means is positioned at the side rotating axle；Tripod rotates once, and the reinforcing bar being placed on multiple tripod falls in multiple arc collecting means.

" shoulder " of pole refers to the position near strut ends, " wherein the end of a pole connects with the shoulder of adjacent pole ", the then equal extension length in the end of the pole that wherein one end of every pole is relatively adjacent, this partial-length called after support bar, this support bar is for supporting the reinforcing bar after bar straightening mechanism straightening.Tripod rotates 120 ° every time, being placed on the support bar of multiple tripod through the reinforcing bar of bar straightening mechanism straightening, after cutting mechanism shear reinforcement, tripod rotates 120 °, the reinforcing bar blocked is delivered in the arc collecting means being arranged at aggregate rack side, in order to follow-up arrangement is deposited.

The beneficial effects of the utility model: the technical program provides a kind of simple in construction, carries out cold rolling steel bar meter production line after dephosphorization, and processing effect is better.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, the accompanying drawing used required in embodiment will be briefly described below, it is to be understood that, the following drawings illustrate only some embodiment of the present utility model, therefore the restriction to scope it is not construed as, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other relevant accompanying drawings according to these accompanying drawings.

The overall structure schematic diagram of the steel bar meter production line that Fig. 1 provides for this utility model embodiment；

Fig. 2 is the partial enlarged drawing of Fig. 1；

Fig. 3 is the internal structure schematic diagram of the first mounting cylinder in Fig. 1；

Fig. 4 is the internal structure schematic diagram of Fig. 3；

Fig. 5 is the partial enlarged drawing of Fig. 4；

Fig. 6 is the side view of the dephosphorization mechanism in Fig. 1；

Fig. 7 is the internal structure schematic diagram of Fig. 6；

Fig. 8 is the structural representation within the second mounting cylinder in Fig. 1；

The side view of Fig. 9 Fig. 8；

Figure 10 is the structural representation of the aggregate structure in Fig. 1.

In figure:

Dephosphorization mechanism 101；Cold mill complex 102；Bar straightening mechanism 103；Cutting mechanism 104；Collecting mechanism 105；Base 106；First mounting cylinder 107；Dephosphorization block 108；Mounting shell 109；Dust extraction fan 200；Small opening 201；Disposal box 202；Lubricant powder box 206；Cone pulley 207；Mounting seat 208；Top rotary table 209；Lower rotary table 300；Upper shears 301；Lower scissors 302；Aggregate rack 303；Rotate axle 304；Tripod 305；Arc collecting means 306；Fixing axle 307；Block 308；Annular groove 309；First through hole 400；Support module 402；Axial slide 403；Bracing frame 404；Second mounting cylinder 405；Steel brush plate 406；Steel brush 407.

Detailed description of the invention

For making the purpose of this utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is a part of embodiment of this utility model, rather than whole embodiments.Generally can with various different configurations arrange and design with the assembly of this utility model embodiment that illustrate described in accompanying drawing herein.

Therefore, below the detailed description of the embodiment of the present utility model provided in the accompanying drawings is not intended to limit claimed scope of the present utility model, but is merely representative of selected embodiment of the present utility model.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

It should also be noted that similar label and letter below figure represent similar terms, therefore, once a certain Xiang Yi accompanying drawing is defined, then it need not be carried out definition further and explain in accompanying drawing subsequently.

In description of the present utility model, it should be noted that, term " " center ", " on ", D score, " vertically ", " transverse direction ", " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, or this utility model product orientation usually put or position relationship when using, it is for only for ease of description this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that indicate or hint relative importance.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or connect integratedly；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be the connection of two element internals.For the ordinary skill in the art, it is possible to concrete condition understands above-mentioned term concrete meaning in this utility model.

Detailed description of the invention, referring to figs. 1 through Figure 10.

As shown in Fig. 1, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, the steel bar meter production line that the present embodiment provides includes dephosphorization mechanism 101, cold mill complex 102, bar straightening mechanism 103, cutting mechanism 104 and collecting mechanism 105；Dephosphorization mechanism 101 includes base the 106, first mounting cylinder 107 and the second mounting cylinder 405, first mounting cylinder 107 and the second mounting cylinder 405 are horizontally set at base 106 respectively, the two ends respectively arrival end of the first mounting cylinder 107 and the port of export, the inwall top side of the first mounting cylinder 107 has in axial direction been arranged side by side multiple dephosphorization assembly, the inwall bottom side of the first mounting cylinder 107 is provided with support module 402, and the top supporting module 402 is provided with axial slide 403；

Each dephosphorization assembly includes fixing axle 307, dephosphorization block 108 and block 308, fixing axle 307 is vertically fixed on inside the first mounting cylinder 107, fixing axle 307 outer wall is provided with annular groove 309, dephosphorization block 108 is provided with the first through hole 400, the longitudinal cross-section of the first through hole 400 is trapezoidal, dephosphorization block 108 is sheathed on the outside of fixing axle 307, and the aperture near fixing axle 307 end of the first through hole 400 is less than the aperture away from fixing axle 307 end；Block 308 is provided with the second through hole, and the aperture of the second through hole is more than the diameter of annular groove 309 and less than the diameter of fixing axle 307, and block 308 active card is connected in annular groove 309, and block 308 for being limited to fixing axle 307 by dephosphorization block 108；

As shown in Figure 8 and Figure 9, being provided with polylith steel brush plate 406 in the second mounting cylinder 405, polylith steel brush plate 406 is arranged around the rotary centerline of the second mounting cylinder 405, and every block of steel brush plate 406 is provided with steel brush 407；

Dephosphorization block 108 and axial slide 403 are correspondingly arranged, and dephosphorization block 108 is divided into forward part and rear section, and rear section is towards arrival end, and anterior towards the port of export, the weight of forward part is more than the weight of rear section；Reinforcing bar to be processed is through the first mounting cylinder 107 and the second mounting cylinder 405, and the reinforcing bar after dephosphorization mechanism 101 processes sequentially passes through cold mill complex 102, bar straightening mechanism 103, cutting mechanism 104, collecting mechanism 105.

Dephosphorization mechanism 101 is for removing the iron scale of rebar surface, it is to avoid iron scale is pressed into rebar surface and produces defect by cold rolling link, improves the surface quality after steel bar cold rolling；Cold mill complex 102 is for improving the hardness of reinforcing bar；Bar straightening mechanism 103 for reinforcing bar is carried out straightening so that follow-up use；Cutting mechanism 104 is for intercepting as several sections by the reinforcing bar after straightening, in order to transport and use；Collecting mechanism 105 is then collected by the reinforcing bar blocked, in order to deposit.

The aperture, top of the first through hole 400 is more than aperture, bottom as shown in Figure 5, and dephosphorization block 108 can rotate around fixing axle 307 run-off the straight；The design of the second through hole then makes block 308 can slide up and down and tilt slide in annular groove 309.The forward part weight of dephosphorization block 108 is more than rear section weight, then the front end of dephosphorization block 108 tilts to the direction of the transverse plane rotating axle 304 heart line near the first mounting cylinder 107, the rear end of dephosphorization block 108 then tilts to the direction of the transverse plane rotating axle 304 heart line away from the first mounting cylinder 107, it is simple to reinforcing bar to be processed enters between dephosphorization block 108 diapire and axial notch.Reinforcing bar to be processed is being subject to the friction of dephosphorization block 108 in the process of axial notch, to realize removing the effect of the iron scale of rebar surface.Dephosphorization mechanism 101 is simple and practical, better effects if after the steel bar cold rolling after dephosphorization.

Arranging steel brush 407 in second mounting cylinder 405 and can remove the hammer scale of rebar surface further, phosphor-removing effect is better.The connection of steel brush plate 406 and the second mounting cylinder 405 is not limited to the implementation that the application provides.

Second mounting cylinder 405 inwall is in axial direction provided with draw-in groove, the end face of the second mounting cylinder 405 is run through in one end near the first mounting cylinder 107 of draw-in groove, the longitudinal cross-section of draw-in groove is " convex " font, and the longitudinal cross-section of steel brush plate 406 is " convex " font, and steel brush plate 406 can slide and be embedded in draw-in groove.The shape of steel brush plate 406 and the shape of draw-in groove are mutually matched, and steel brush plate 406 slides and is embedded in draw-in groove, and installation and removal are convenient.

As shown in Figure 3 and Figure 4, base 106 is provided with mounting shell 109, and the sidewall of mounting shell 109 is provided with dust extraction fan 200, and the first mounting cylinder 107 is positioned at mounting shell 109, and the sidewall of the first mounting cylinder 107 is provided with multiple small opening 201.Reinforcing bar can produce dust after dephosphorization block 108 rubs, dust is collected in the phosphor-removing effect that can affect dephosphorization mechanism 101 in the first mounting cylinder 107, the dust being collected in the first mounting cylinder 107 can be blown out the first mounting cylinder 107 by dust extraction fan 200, and dust discharges the first mounting cylinder 107 through small opening 201.

Base 106 is provided with disposal box 202, and disposal box 202 is positioned at the lower section of mounting shell 109, and the top of disposal box 202 is provided with opening, and the bottom of mounting shell 109 is provided with open ports, and opening and open ports are correspondingly arranged.The dust discharged from the first mounting cylinder 107 falls in disposal box 202, it is simple to focus on, it is to avoid dust is disperseed everywhere.It is internal that " being correspondingly arranged " herein refers to that the dust discharged through open ports can enter disposal box 202 through opening.

As shown in Fig. 3, Fig. 6 and Fig. 7, being provided with bracing frame 404 inside mounting shell 109, the first mounting cylinder 107 is fixed on bracing frame 404.First mounting cylinder 107 is fixed on bracing frame 404, it is achieved axle 304 heart line that rotates of the first mounting cylinder 107 overlaps with the reinforcing bar of output and input in backward-forward procedure, simplifies processor.

As it is shown in figure 1, the exit of dephosphorization mechanism is provided with lubricant powder box 206, lubricant powder box 206 is placed with powdered lubricant, reinforcing bar traverse lubricant powder box 206 to be processed.Reinforcing bar after dephosphorization carries out cold rolling again after lubricant powder box 206, reduces the internal friction of reinforcing bar and cold-rolling mill, and cold rolling more uniform, processing effect is better.

As shown in Figure 1, cold mill complex 102 includes cold-rolling mill, bar straightening mechanism 103 includes straightener, it is provided with cone pulley 207 between delivery outlet and the input port of straightener of cold-rolling mill, cone pulley 207 includes vertically arranged round platform, the arranged outside of round platform has annular guide channel, and cone pulley 207 is for drawing reinforcing bar to be processed.Cone pulley 207 1 aspect can eliminate the stress of reinforcing bar, it is simple to follow-up straightening reinforcing bar, and on the other hand, the reinforcing bar after cold rolling is pulled out by cone pulley 207 for drawing, it is ensured that cold rolling uniformly, processing effect is good.

As shown in Figure 2, cutting mechanism 104 is positioned at the exit of bar straightening mechanism, cutting mechanism 104 includes mounting seat 208, top rotary table 209 and lower rotary table 300, top rotary table 209 and lower rotary table 300 rotate and are arranged at mounting seat 208, top rotary table 209 is identical with lower rotary table 300 rotating speed and turns to contrary, the periphery of top rotary table 209 is provided with shears 301, and the periphery of lower rotary table 300 is provided with lower scissors 302.Upper shears 301 is identical with lower scissors 302 velocity of rotation, and rotation direction is contrary, and when upper shears 301 forwards and move toward one another relative with lower scissors 302 to, reinforcing bar is truncated.This cutting mechanism 104 simple in construction, can give one thrust forward of reinforcing bar simultaneously, makes reinforcing bar have the movement tendency of the next program of motion.

The mounting means of upper shears 301 and lower scissors 302 is preferably but not limited to following mode, the sidewall of the first groove is equipped with the first bolt, the sidewall of the second groove is equipped with the second bolt, and the end of the first bolt is pressed against the first pressing plate, and the end of the second bolt is pressed against the second pressing plate.First bolt end props up the first pressing plate, and the first pressing plate props up shears 301, it is achieved fixing of upper shears 301, the first pressing plate is used for avoiding the first bolt end to lie directly against shears 301, causes the abrasion of shears 301.Fixing in like manner of lower scissors 302, repeats no more.

As shown in Figure 10, collecting mechanism 105 includes aggregate rack 303, rotates axle 304 and multiple tripod 305；Rotate axle 304 lateral rotation and be arranged at aggregate rack 303, rotation axle 304 is fixed at multiple tripod 305 intervals, each tripod 305 includes three interconnective poles, wherein the end of a pole connects with the shoulder of adjacent pole, aggregate rack 303 is provided with multiple arc collecting means 306 laterally side by side, multiple arc collecting means 306 opening up, arc collecting means 306 is positioned at the side rotating axle 304；Tripod 305 rotates once, and the reinforcing bar being placed on multiple tripod 305 falls in multiple arc collecting means 306.

" shoulder " of pole refers to the position near strut ends, " wherein the end of a pole connects with the shoulder of adjacent pole ", the then equal extension length in the end of the pole that wherein one end of every pole is relatively adjacent, this partial-length called after support bar, this support bar is for supporting the reinforcing bar after bar straightening mechanism 103 straightening.Tripod 305 rotates 120 ° every time, it is placed on the support bar of multiple tripod 305 through the reinforcing bar of bar straightening mechanism 103 straightening, after cutting mechanism 104 shear reinforcement, tripod 305 rotates 120 °, the reinforcing bar blocked is delivered in the arc collecting means 306 being arranged at aggregate rack 303 side, in order to follow-up arrangement is deposited.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for a person skilled in the art, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (9)

1. a steel bar meter production line, it is characterised in that include dephosphorization mechanism, cold mill complex, bar straightening mechanism, cutting mechanism and collecting mechanism；Described dephosphorization mechanism includes base, the first mounting cylinder and the second mounting cylinder, described first mounting cylinder and described second mounting cylinder are horizontally set at described base respectively, the two ends respectively arrival end of described first mounting cylinder and the port of export, the inwall top side of described first mounting cylinder has in axial direction been arranged side by side multiple dephosphorization assembly, the inwall bottom side of described first mounting cylinder is provided with support module, and the top of described support module is provided with axial slide；

Each described dephosphorization assembly includes fixing axle, dephosphorization block and block, described fixing axle is vertically fixed on inside described first mounting cylinder, described fixing axle outer wall is provided with annular groove, described dephosphorization block is provided with the first through hole, the longitudinal cross-section of described first through hole is trapezoidal, described dephosphorization block is sheathed on the outside of described fixing axle, and the aperture of the close described fixing shaft end of described first through hole is less than the aperture away from described fixing shaft end；Described block is provided with the second through hole, the aperture of described second through hole is more than the diameter of described annular groove and less than the diameter of described fixing axle, described block active card is connected in described annular groove, and described block is for being limited to described fixing axle by described dephosphorization block；

Being provided with polylith steel brush plate in described second mounting cylinder, steel brush plate described in polylith is arranged around the rotary centerline of described second mounting cylinder, and every block of described steel brush plate is provided with steel brush；

Described dephosphorization block and described axial slide are correspondingly arranged, and described dephosphorization block is divided into forward part and rear section, and described rear section is towards described arrival end, and described front portion is towards the described port of export, and the weight of described forward part is more than the weight of described rear section；Reinforcing bar to be processed is through described first mounting cylinder and the second mounting cylinder, and the reinforcing bar after described dephosphorization mechanism processes sequentially passes through described cold mill complex, described bar straightening mechanism, described cutting mechanism, described collecting mechanism.

2. steel bar meter production line according to claim 1, it is characterized in that, described second mounting cylinder inwall is in axial direction provided with draw-in groove, the end face of described second mounting cylinder is run through in one end of close described first mounting cylinder of described draw-in groove, the longitudinal cross-section of described draw-in groove is " convex " font, the longitudinal cross-section of described steel brush plate is " convex " font, and described steel brush plate can slide and be embedded in described draw-in groove.

3. steel bar meter production line according to claim 1, it is characterized in that, described base is provided with mounting shell, and the sidewall of described mounting shell is provided with dust extraction fan, described first mounting cylinder is positioned at described mounting shell, and the sidewall of described first mounting cylinder is provided with multiple small opening.

4. steel bar meter production line according to claim 3, it is characterized in that, described base is provided with disposal box, described disposal box is positioned at the lower section of described mounting shell, the top of described disposal box is provided with opening, the bottom of described mounting shell is provided with open ports, and described opening and described open ports are correspondingly arranged.

5. steel bar meter production line according to claim 4, it is characterised in that being provided with bracing frame inside described mounting shell, described first mounting cylinder is fixed on support frame as described above.

6. steel bar meter production line according to claim 1, it is characterised in that the exit of described dephosphorization mechanism is provided with lubricant powder box, is placed with powdered lubricant, the reinforcing bar described lubricant powder box of traverse to be processed in described lubricant powder box.

7. steel bar meter production line according to claim 1, it is characterized in that, described cold mill complex includes cold-rolling mill, described bar straightening mechanism includes straightener, it is provided with cone pulley between delivery outlet and the input port of described straightener of described cold-rolling mill, described cone pulley includes vertically arranged round platform, and the arranged outside of described round platform has annular guide channel, and described cone pulley is for drawing reinforcing bar to be processed.

8. steel bar meter production line according to claim 1, it is characterized in that, described cutting mechanism is positioned at the exit of described bar straightening mechanism, described cutting mechanism includes mounting seat, top rotary table and lower rotary table, described top rotary table and described lower rotary table rotate and are arranged at described mounting seat, described top rotary table is identical with described lower rotary table rotating speed and turns to contrary, and the periphery of described top rotary table is provided with shears, and the periphery of described lower rotary table is provided with lower scissors.

9. steel bar meter production line according to claim 1, it is characterised in that described collecting mechanism includes aggregate rack, rotates axle and multiple tripod；Described rotation axle lateral rotation is arranged at described aggregate rack, described rotation axle is fixed at multiple described tripod intervals, each tripod includes three interconnective poles, wherein the end of a described pole connects with the shoulder of adjacent described pole, described aggregate rack is provided with multiple arc collecting means laterally side by side, multiple described arc collecting means opening up, described arc collecting means is positioned at the side of described rotation axle；Described tripod rotates once, and the reinforcing bar being placed on multiple described tripod falls in multiple described arc collecting means.