CN113926958A - Simple sliding support technology for conveying reinforcing steel bars - Google Patents

Abstract

The invention relates to the technical field of steel bar conveying, and discloses a simple sliding support technology for conveying steel bars, which comprises four groups of support channel steel frames, connecting angle steel and a cutter, wherein two support channel steel frames are arranged in one group of support channel steel frame, the two support channel steel frames are arranged at the front and the back, the four groups of support channel steel frames are arranged at equal intervals from left to right, the connecting angle steel is fixedly arranged between each group of support channel steel frames, the cutter is arranged at the leftmost side of the support channel steel frames, when the steel bars enter between a rubber roller I and a rubber roller II, the rubber roller I moves upwards for a moment, the rubber roller I moves upwards to drive two sliding tables to move upwards, the two sliding tables move upwards in a main conveying table, the two sliding tables move upwards to drive two micro springs I to deform in a compression mode, the two micro springs I keep the clamping force on the steel bars through the elasticity of the micro springs I, so that the stability of the steel bars during moving is improved, prevent the steel bar from shaking when moving.

Description

Simple sliding support technology for conveying reinforcing steel bars

Technical Field

The invention relates to the technical field of steel bar conveying, in particular to a simple sliding support technology for steel bar conveying.

Background

The steel bar refers to steel for reinforced concrete and prestressed reinforced concrete, the cross section of the steel bar is circular, sometimes square with round corners, and the steel bar comprises smooth steel bars, ribbed steel bars and twisted steel bars.

The traditional manual carrying of the steel bars to the cutting machine for cutting off needs two workers to carry the raw steel bars to the cutting position from the end simultaneously, needs to consume the force of larger workers, has no labor-saving measure on the traditional steel bar support platform, and carries the raw steel bars completely by manpower. Therefore, a simple sliding support technology for conveying the reinforcing steel bars is provided.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art and provides a simple sliding support technology for conveying steel bars.

In order to achieve the purpose, the invention adopts the following technical scheme that the simple sliding support technology for conveying the steel bars comprises four groups of support channel steel frames, connecting angle steels and a cutting machine, wherein two support channel steel frames are arranged in one group of support channel steel frames, the two support channel steel frames are arranged at the front and the back, the four groups of support channel steel frames are arranged at equal intervals from left to right, the connecting angle steels are fixedly arranged between each group of support channel steel frames, the cutting machine is arranged at the leftmost side of the support channel steel frames, a push plate device capable of driving the steel bars to move is arranged at the left end of the cutting machine, the push plate device comprises a main conveying table, the main conveying table is fixedly arranged at the end part of the cutting machine, the main conveying table is L-shaped, an electric motor is fixedly arranged on the inner side wall of the main conveying table, a transmission rod is fixedly arranged on an output shaft of the electric motor, and a main rotary table is fixedly arranged on the transmission rod, the shape of main carousel is fan-shaped, and the one end of main carousel is the plane, the planar one end laminating of main carousel has assisted the carousel, the tip of assisting the carousel rotates installs the bull stick, it installs pivot one to rotate between bull stick and the main platform of carrying.

As preferred, the upper end of bull stick is rotated and is installed the slip table, the tip fixed mounting of slip table has miniature spring two, the other end fixed mounting of miniature spring two has the side shield, the upper end fixed mounting of side shield has outer balladeur train, outer balladeur train slides and cup joints outside the slip table, the upper end fixed mounting of slip table has the last push rod, the upper end fixed mounting of outer balladeur train has two side connecting plates, two the equal fixed mounting of side connecting plate is carried the bench at the main, two fixed mounting has two to store the frame between the side connecting plate, every the equal fixed mounting of left end of storing the frame has flange one, every the equal fixed mounting of lower tip of storing the frame inside wall has flange two.

Preferably, the inner side wall of the main conveying table is rotatably provided with a second rubber rod, the end parts of the second rubber rod and the transmission rod are fixedly provided with track sleeves, a track is arranged between the two track sleeves, the upper end part of the second rubber rod is attached with a first rubber rod, the two end parts of the first rubber rod are rotatably provided with sliding tables, and a first micro spring is fixedly arranged between each sliding table and the inner side wall of the main conveying table.

Preferably, the rear side is located fixed mounting has the connection channel-section steel between the top wall of support channel-section steel frame and between the top wall that is located the preceding side support channel-section steel frame, and every group all is provided with slide mechanism between the support channel-section steel frame, and slide mechanism is including two slide bearings, and slide bearing inlays to be installed at two corresponding lateral walls of support channel-section steel frame, two fixed mounting has the slip screw-thread steel between the inner ring of slide bearing, has cup jointed the slip cover outer loop in the middle of the lateral wall of slip screw-thread steel, and the slip screw-thread steel has run through the front and back lateral wall of slip cover outer loop, and the inside of slip cover outer loop is provided with the slip cover inner ring, and the slip cover inner ring cup joints on the slip screw-thread steel.

Preferably, transmission balls are movably mounted between the outer ring of the sliding sleeve and the inner ring of the sliding sleeve, four connecting block supporting groove steel frames fixedly connected with the inner wall surface of the inner ring of the sliding sleeve are fixedly mounted on the side wall of the sliding threaded steel in an evenly distributed mode corresponding to the inner ring of the sliding sleeve, a limiting groove with the middle concave inwards is formed in the middle of the outer side wall surface of the outer ring of the sliding sleeve, a cutting groove is formed in the position, corresponding to the limiting groove, of the top wall surface of the cutting machine, the cutting groove penetrates through the left side wall and the right side wall of the cutting machine, two guide limiting blocks are fixedly mounted on the right side inside of the cutting groove, the two guide limiting blocks are mounted at the front end and the rear end of the inner side wall of the cutting groove respectively, and the inclined surfaces of the two guide limiting blocks face the direction of the outer ring of the sliding sleeve.

Advantageous effects

The invention provides a simple sliding support technology for conveying reinforcing steel bars. The method has the following beneficial effects:

(1) the simple sliding support technology for conveying the reinforcing steel bars comprises the steps that the reinforcing steel bars are placed between two connecting channel steel, a sliding mechanism is arranged between supporting channel steel frames and comprises a sliding sleeve outer ring, the reinforcing steel bars are placed on the sliding sleeve outer ring, a sliding sleeve inner ring is arranged inside the sliding sleeve outer ring, a plurality of groups of transmission balls capable of rolling are arranged between the sliding sleeve inner ring and the sliding sleeve outer ring, the sliding sleeve inner ring is fixedly connected with sliding threaded steel through a limiting groove, the sliding threaded steel is movably arranged on the supporting channel steel frames through sliding bearings, the sliding threaded steel can rotate through the sliding bearings so as to drive the sliding sleeve inner ring to rotate, when the reinforcing steel bars move on the sliding sleeve outer ring, the reinforcing steel bars can generate friction with the sliding sleeve outer ring, the sliding sleeve outer ring rotates through the transmission balls, the sliding sleeve outer ring rotates on the sliding sleeve inner ring through the transmission balls, the sliding sleeve outer ring can rotate more smoothly through the self-transmission of the transmission balls, the inner ring of the sliding sleeve can be driven by the transmission ball and can rotate in the sliding bearing with the sliding thread steel, the steel bar can move more smoothly on the outer ring of the sliding sleeve through multiple rotations, and an operator can spend less force to transport the steel bar to the front of the cutting machine compared with moving the steel bar, so that the time-saving and labor-saving effects are achieved.

(2) This carry simple and easy sliding support technique of reinforcing bar, owing to seted up the spacing groove on the sliding sleeve outer loop, the spacing groove makes the reinforcing bar be located the spacing inslot when can making the reinforcing bar move on the sliding sleeve outer loop, and the spacing groove is unanimous with the position of cutter, so the reinforcing bar can directly move in the cutter at spacing inslot motion, has avoided the reinforcing bar to disorder on the sliding sleeve outer loop to lead to the condition emergence that can't correctly get into the cutter.

(3) This carry simple and easy sliding support technique of reinforcing bar, because the groove of cutting has been seted up on the cutter, cut and install two direction stoppers in the inslot, the direction stopper is elastic, and the inclined plane of two sets of direction stoppers all faces the direction of sliding sleeve outer loop, when the reinforcing bar removes the place ahead to two grooves of cutting, the inclined plane in groove of cutting can guide the reinforcing bar to remove the inside to two grooves of cutting, big or small reinforcing bar according to the reinforcing bar can extrude the direction stopper, the direction stopper also can release reverse power and fix the reinforcing bar, thereby make the reinforcing bar can not move about when being cut off, reached the guide reinforcing bar and advanced and carry out the effect fixed to the reinforcing bar.

(4) Put into two storage framves with a plurality of reinforcing bars in, two are stored and are put up the constitution Y shape, partly reinforcing bar enters into two vertical inslots that store the frame lower extreme, partly reinforcing bar is stayed in the V-arrangement groove, because two equal fixed mounting of lateral tip that store the frame have flange one, consequently the tip of reinforcing bar flushes in two storage framves, two flange two can keep the reinforcing bar to spill in can not following two storage framves simultaneously, be the Y shape through storing two shelf designs, effectively keep a plurality of reinforcing bars to discharge in proper order.

(5) The right flank of push up rod and two steel bar laminating of storing the bottom in the frame, and the diameter that highly is less than the reinforcing bar of push up rod, the diameter that highly is less than the reinforcing bar through the design push up rod is favorable to the push up rod to drive a reinforcing bar when removing and remove to be favorable to the reinforcing bar to enter into in proper order and support the channel steelframe, prevent that a plurality of reinforcing bars from removing simultaneously and lead to the card to pause.

(6) The auxiliary turntable moves rightwards to drive the rotating rod to move rightwards, the rotating rod rotates in the main conveying table through the rotating shaft I, the moving state of the rotating rod is changed through the shape of the main turntable, the time of the rotating rod moving back and forth at each time is the same, a chip is not required to be adopted for control, enough time is reserved for the moving of each reinforcing steel bar, and the moving stability of the reinforcing steel bars is further improved.

(7) Because the restriction of outer balladeur train to the slip table leads to the bull stick to the dextrorotation angle limited, and the distance that the slip table moved to the right is also limited, through utilizing outer balladeur train to restrict the displacement distance of slip table to the distance that every reinforcing bar removed is effectively controlled, takes place the dislocation when preventing every reinforcing bar because of the displacement difference leads to carrying, bumps even between two reinforcing bars.

(8) When the reinforcing bar enters into between rubber rod one and the rubber rod two, rubber rod upward movement for a moment, rubber rod upward movement drives two sliding table upward movement, two sliding table are carried the platform at the main upward movement, two sliding table upward movement can drive two miniature spring compressive deformation, two miniature spring one keep the clamping-force to the reinforcing bar through the elasticity of self to improve the stability of reinforcing bar when removing, prevent that the reinforcing bar from taking place the shake when removing.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic view of a support channel steel frame structure according to the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the outer ring structure of the sliding sleeve of the present invention;

FIG. 5 is a schematic view of a main transport table of the present invention;

FIG. 6 is a schematic view of a rotating rod structure according to the present invention;

FIG. 7 is a schematic view of a storage rack according to the present invention;

FIG. 8 is an enlarged view of the invention at B in FIG. 7.

Illustration of the drawings:

1. supporting the channel steel frame; 2. connecting angle steel; 3. connecting channel steel; 4. a cutting machine; 5. a sliding bearing; 6. sliding deformed steel bar; 7. a sliding sleeve outer ring; 8. an inner ring of a sliding sleeve; 9. a transmission ball; 10. connecting blocks; 11. a limiting groove; 12. cutting off the groove; 13. a guide limiting block; 14. a first rubber roller; 15. a first miniature spring; 16. a sliding table; 17. a rubber pad; 18. a second rubber roller; 19. a crawler belt; 21. a transmission rod; 22. a main turntable; 23. an electric motor; 24. a first rotating shaft; 25. an auxiliary turntable; 26. a rotating rod; 27. a sliding table; 28. a push rod is arranged; 29. an outer carriage; 31. a second miniature spring; 32. a side connection plate; 33. a track sleeve; 34. a main conveying table; 35. a storage rack; 36. a first flange; 37. a second flange; 91. side dams.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: as shown in figures 1, 5, 6, 7 and 8, a simple sliding support technology for conveying steel bars comprises four groups of supporting channel steel frames 1, connecting angle steels 2 and a cutting machine 4, wherein two supporting channel steel frames 1 are arranged in one group of supporting channel steel frame 1, two supporting channel steel frames 1 are arranged in front of and behind each other, the four groups of supporting channel steel frames 1 are arranged at equal intervals from left to right, the connecting angle steels 2 are fixedly arranged between the supporting channel steel frames 1, the cutting machine 4 is arranged at the leftmost side of the supporting channel steel frame 1, a push plate device capable of driving the steel bars to move is arranged at the left end of the cutting machine 4, the push plate device comprises a main conveying table 34, the main conveying table 34 is fixedly arranged at the end part of the cutting machine 4, the main conveying table 34 is L-shaped, a motor 23 is fixedly arranged on the inner side wall of the main conveying table 34, a transmission rod 21 is fixedly arranged on an output shaft of the motor 23, a main turntable 22 is fixedly arranged on the transmission rod 21, the main turntable 22 is fan-shaped, one end of the main turntable 22 is a plane, one end of the plane of the main turntable 22 is attached with an auxiliary turntable 25, the end of the auxiliary turntable 25 is rotatably provided with a rotating rod 26, a rotating shaft I24 is rotatably arranged between the rotating rod 26 and a main conveying platform 34, the upper end of the rotating rod 26 is rotatably provided with a sliding platform 27, the end of the sliding platform 27 is fixedly provided with a micro spring II 31, the other end of the micro spring II 31 is fixedly provided with a side baffle 91, the upper end of the side baffle 91 is fixedly provided with an outer sliding frame 29, the outer sliding frame 29 is slidably sleeved outside the sliding platform 27, the upper end of the sliding platform 27 is fixedly provided with an upper push rod 28, the upper end of the outer sliding frame 29 is fixedly provided with two side connecting plates 32, the two side connecting plates 32 are both fixedly arranged on the main conveying platform 34, two storage frames 35 are fixedly arranged between the two side connecting plates 32, and the left end of each storage frame 35 is fixedly provided with a first blocking edge 36, the lower end of the inner side wall of each storage frame 35 is fixedly provided with a second flange 37, the inner side wall of the main conveying table 34 is rotatably provided with a second rubber roller 18, the end parts of the second rubber roller 18 and the transmission rod 21 are fixedly provided with crawler sleeves 33, a crawler 19 is arranged between the two crawler sleeves 33, the upper end part of the second rubber roller 18 is attached with a first rubber roller 14, the two end parts of the first rubber roller 14 are rotatably provided with sliding tables 16, and a first micro spring 15 is fixedly arranged between each sliding table 16 and the inner side wall of the main conveying table 34.

When using, put into two storage frame 35 with a plurality of reinforcing bars in, two are stored frame 35 and are constituteed the Y shape, partly reinforcing bar enters into two vertical grooves that store the frame 35 lower extreme, partly reinforcing bar is stayed in the V-arrangement groove, because the equal fixed mounting of lateral end of two storage frame 35 has flange 36, consequently the tip of reinforcing bar flushes in two storage frame 35, two 37 of while flanges can keep the reinforcing bar can not spill in two storage frame 35, be the Y shape through storing two 35 designs of frame, effectively keep a plurality of reinforcing bars to discharge in proper order.

Because the micro spring II 31 is fixedly arranged between the rotating rod 26 and the side baffle 91, the micro spring II 31 can keep the rotating rod 26 close to the side baffle 91 through self elasticity, the rotating rod 26 drives the auxiliary rotating disc 25 to close to the side baffle 91, the side baffle 91 is positioned above the main rotating disc 22, the auxiliary rotating disc 25 can be tightly attached to the main rotating disc 22, the arc surface of the main rotating disc 22 is in contact with the auxiliary rotating disc 25 in the initial state, the sliding table 27 is positioned at the leftmost end of the outer sliding frame 29 at the moment, the upper push rod 28 at the upper end part of the sliding table 27 is positioned between the two storage frames 35, when the upper push rod 28 is positioned at the leftmost end of the outer sliding frame 29, the right side surface of the upper push rod 28 is attached to a steel bar at the bottommost layer in the two storage frames 35, the height of the upper push rod 28 is smaller than the diameter of the steel bar, and the design that the height of the upper push rod 28 is smaller than the diameter of the steel bar is beneficial to driving the upper push rod 28 to move only one steel bar, thereby be favorable to the reinforcing bar to enter into in proper order and support channel steel frame 1, prevent that a plurality of reinforcing bars from removing simultaneously and lead to the card to pause.

Starting equipment, starting a motor 23 positioned in a support channel steel frame 1, wherein the motor 23 operates to drive a transmission rod 21 to rotate through an output shaft, the transmission rod 21 rotates to drive a main turntable 22 and a track sleeve 33 to rotate, the track sleeve 33 rotates to drive a rubber rod II 18 to rotate through a track 19, the rubber rod II 18 rotates in a main conveying table 34, the plane of the motor 23 gradually rotates to contact with an auxiliary turntable 25 due to the fact that the main turntable 22 is fan-shaped, the diameter of the arc-shaped surface is larger than that of the plane, when the auxiliary turntable 25 gradually contacts with the plane of the main turntable 22, the auxiliary turntable 25 moves rightwards to drive a rotating rod 26 to move rightwards, the rotating rod 26 rotates in the main conveying table 34 through a rotating shaft I24, the moving state of the rotating rod 26 is changed by utilizing the shape of the main turntable 22, and the time for the rotating rod 26 to-and-fro move is the same each time without adopting a chip for control, and enough time is reserved for the movement of each reinforcing steel bar, so that the movement stability of the reinforcing steel bars is further improved.

The lower end of the rotating rod 26 rotates outwards and rightwards at the rotating shaft I24, at the moment, the upper end of the rotating rod 26 synchronously rotates rightwards, the upper end of the rotating rod 26 rotates rightwards to drive the sliding table 27 to rotate rightwards, but the sliding table 27 is limited by the outer sliding frame 29, so that the sliding table 27 can horizontally move rightwards in the outer sliding frame 29, the sliding table 27 rotates on the rotating rod 26, meanwhile, the sliding table 27 moves rightwards to drive the micro spring II 31 to compress and deform, the sliding table 27 moves rightwards to drive the upper push rod 28 to move rightwards, the upper push rod 28 moves rightwards to drive the reinforcing steel bars to move rightwards, the reinforcing steel bars move in the two storage racks 35, but because the outer sliding frame 29 limits the sliding table 27, the angle of the rotating rod 26 rotating rightwards is limited, the distance of the sliding table 27 moving rightwards is also limited, and the moving distance of each reinforcing steel bar is limited by the outer sliding frame 29, so that the moving distance of each reinforcing steel bar is effectively controlled, and the dislocation caused by different moving distances of each reinforcing bar is prevented, and even collision between two reinforcing bars.

After the reinforcing steel bar moves for a certain distance between the two storage racks 35, the end part of the reinforcing steel bar can move between the rubber roller II 18 and the rubber roller I14, the transmission rod 21 drives the rubber roller II 18 to rotate through the track sleeve 33, so the rubber roller II 18 rotates to drive the reinforcing steel bar to continue moving, the reinforcing steel bar has a certain thickness, when the reinforcing steel bar enters between the rubber roller I14 and the rubber roller II 18, the rubber roller I14 moves upwards to drive the two sliding tables 16 to move upwards, the rubber pad 17 can control the distance between the rubber roller I14 and the rubber roller II 18, the two sliding tables 16 move upwards in the main conveying table 34, the two sliding tables 16 move upwards to drive the two micro springs I15 to compress and deform, the two micro springs I15 keep the clamping force on the reinforcing steel bar through the own elasticity, and therefore the stability of the reinforcing steel bar during moving is improved, the reinforcing bars are prevented from shaking when moving, and the reinforcing bars are gradually moved into the cutting grooves 12.

Example 2: as shown in fig. 1, 2, 3 and 4, the rear side fixed connection channel steel 3 is installed between the top wall surfaces of the support channel steel frames 1 and between the top wall surfaces of the front side support channel steel frames 1, each group of support channel steel frames 1 is provided with a sliding mechanism, the sliding mechanism comprises two sliding bearings 5, the sliding bearings 5 are installed on one side wall surface corresponding to the two support channel steel frames 1 in an embedded manner, sliding deformed steel bars 6 are fixedly installed between the inner rings of the sliding bearings 5, a sliding sleeve outer ring 7 is sleeved in the middle of the side wall of the sliding deformed steel bars 6, the sliding deformed steel bars 6 penetrate through the front side wall and the rear side wall of the sliding sleeve outer ring 7, a sliding sleeve inner ring 8 is arranged inside the sliding sleeve outer ring 7, the sliding sleeve inner ring 8 is sleeved on the sliding deformed steel bars 6, transmission balls 9 are movably installed between the sliding sleeve outer ring 7 and the sliding sleeve inner ring 8, four sliding deformed steel bars 6 are fixedly installed corresponding to the positions of the sliding sleeve inner ring 8, and are evenly distributed Move cover 8 inside wall fixed connection's connecting block 10, the outside wall intermediate position of sliding sleeve outer loop 7 sets up middle inside sunken spacing groove 11, the top wall of cutter 4 corresponds the position of spacing groove 11 and has seted up cutting groove 12, and cutting groove 12 has run through the lateral wall about cutter 4, the inside right side fixed mounting of cutting groove 12 has two direction stoppers 13, and both ends around cutting groove 12 inside lateral wall are installed respectively to two direction stoppers 13, and the inclined plane of two direction stoppers 13 is towards the direction of sliding sleeve outer loop 7.

When in use, the steel bar is placed between the two connecting channel steels 3, because the sliding mechanism is arranged between the supporting channel steel frame 1 and comprises the sliding sleeve outer ring 7, the steel bar is placed on the sliding sleeve outer ring 7, the sliding sleeve inner ring 8 is arranged inside the sliding sleeve outer ring 7, a plurality of groups of rolling transmission balls 9 are arranged between the sliding sleeve inner ring 8 and the sliding sleeve outer ring 7, the sliding sleeve inner ring 8 is fixedly connected with the sliding thread steel 6 through the limiting groove 11, the sliding thread steel 6 is movably arranged on the supporting channel steel frame 1 through the sliding bearing 5, so the sliding thread steel 6 can rotate through the sliding bearing 5 to drive the sliding sleeve inner ring 8 to rotate, when the steel bar moves on the sliding sleeve outer ring 7, the steel bar can generate friction with the sliding sleeve outer ring 7, the friction enables the sliding sleeve outer ring 7 to rotate, the sliding sleeve outer ring 7 rotates on the sliding sleeve inner ring 8 through the transmission balls 9, the self-transmission of transmission ball 9 can make the slip cap outer loop 7 rotatory more smooth, and slip cap inner loop 8 also can be driven by transmission ball 9 and slip screw-thread steel 6 internal rotation at slide bearing 5, can make the reinforcing bar move more smooth on slip cap outer loop 7 through multiple rotation for operating personnel can spend less power with the reinforcing bar transport before cutter 4 in moving the reinforcing bar, thereby reached labour saving and time saving's effect.

Because the sliding sleeve outer ring 7 is provided with the limiting groove 11, the limiting groove 11 can enable the reinforcing steel bar to be positioned in the limiting groove 11 when the reinforcing steel bar moves on the sliding sleeve outer ring 7, and the limiting groove 11 is consistent with the position of the cutting machine 4, so that the reinforcing steel bar can move in the limiting groove 11 and can directly move into the cutting machine 4, and the condition that the reinforcing steel bar cannot enter the cutting machine 4 correctly due to disorder movement on the sliding sleeve outer ring 7 is avoided.

Because cut-off groove 12 has been seted up on cutter 4, cut-off and install two direction stoppers 13 in the groove 12, direction stopper 13 is elastic, and the inclined plane of two sets of direction stoppers 13 all faces the direction of slip cap outer loop 7, when the reinforcing bar removed to the place ahead of two cut-off grooves 12, the inclined plane of cut-off groove 12 can guide the reinforcing bar to remove to the inside of two cut-off grooves 12, big or small reinforcing bar according to the reinforcing bar can extrude direction stopper 13, direction stopper 13 also can release reverse power and fix the reinforcing bar, thereby make the reinforcing bar can not move about when being cut off, the effect that the guide reinforcing bar gos forward and fix the reinforcing bar has been reached.

Finally, it should be noted that the above embodiments are merely representative examples of the present invention. It is obvious that the invention is not limited to the above-described embodiments, but that many variations are possible. Any simple modification, equivalent change and modification made to the above embodiments in accordance with the technical spirit of the present invention should be considered to be within the scope of the present invention.

Claims (10)

1. The utility model provides a carry simple and easy sliding support technique of reinforcing bar, includes four groups support channel steel frame (1), angle connector (2) and cutter (4), has two support channel steel frame (1) in a set of support channel steel frame (1), and two support channel steel frame (1) set up from beginning to end, and four groups support channel steel frame (1) from left to right equidistance setting, angle connector (2) fixed mounting support between channel steel frame (1) at every group, cutter (4) set up the leftmost side supporting channel steel frame (1), the left end of cutter (4) is equipped with the push pedal device that can drive the reinforcing bar and remove, its characterized in that: the push pedal device includes mainly carries platform (34), mainly carry platform (34) fixed mounting at the tip of cutter (4), the shape that mainly carries platform (34) is L shape, the inside wall fixed mounting that mainly carries platform (34) has motor (23), the output shaft fixed mounting of motor (23) has transfer line (21), fixed mounting has main carousel (22) on transfer line (21), the shape of main carousel (22) is fan-shaped, and the one end of main carousel (22) is the plane, the planar one end laminating of main carousel (22) has subsidiary carousel (25), the tip of subsidiary carousel (25) rotates and installs bull stick (26), rotate between bull stick (26) and main transport platform (34) and install pivot (24).

2. The simple sliding support technology for conveying the steel bars as claimed in claim 1, wherein: the upper end of bull stick (26) rotates and installs slip table (27), the tip fixed mounting of slip table (27) has miniature spring two (31), the other end fixed mounting of miniature spring two (31) has side shield (91).

3. The simple sliding support technology for conveying the steel bars as claimed in claim 2, wherein: the upper end fixed mounting of side shield (91) has outer balladeur train (29), outer balladeur train (29) slip cup joint outside slip table (27), the upper end fixed mounting of slip table (27) has last push rod (28), the upper end fixed mounting of outer balladeur train (29) has two side connecting plates (32), two the equal fixed mounting of side connecting plate (32) is on main transport platform (34).

4. The simple sliding support technology for conveying the steel bars as claimed in claim 3, wherein: two fixed mounting has two to store frame (35), every between side connecting plate (32) the equal fixed mounting of left end portion of storing frame (35) has flange one (36), every the equal fixed mounting of lower tip of storing frame (35) inside wall has flange two (37).

5. The simple sliding support technology for conveying the steel bars as claimed in claim 1, wherein: the inside wall of main transport platform (34) rotates installs rubber rod two (18), the equal fixed mounting of tip of rubber rod two (18) and transfer line (21) has track cover (33), two install track (19) between track cover (33), the laminating of the upper end of rubber rod two (18) has rubber rod one (14), two tip of rubber rod one (14) all rotate and install sliding stand (16), every equal fixed mounting has miniature spring one (15) between the inside wall of sliding stand (16) and main transport platform (34).

6. The simple sliding support technology for conveying the steel bars as claimed in claim 1, wherein: be located the rear side support fixed mounting has between the top wall of channel steel frame (1) and be located the front side and support between the top wall of channel steel frame (1) and connect channel-section steel (3), and every group supports and all is provided with slide mechanism between channel steel frame (1), and slide mechanism is including two slide bearing (5), and slide bearing (5) are inlayed and are installed and are supported one side wall that channel steel frame (1) is corresponding at two.

7. The simple sliding support technology for conveying the steel bars as claimed in claim 6, wherein: two fixed mounting has slip screw-thread steel (6) between the inner ring of slide bearing (5), has cup jointed slip cap outer loop (7) in the middle of the lateral wall of slip screw-thread steel (6), and slip screw-thread steel (6) have run through the front and back lateral wall of slip cap outer loop (7), and the inside of slip cap outer loop (7) is provided with slip cap inner ring (8), and slip cap inner ring (8) cup joints on slip screw-thread steel (6).

8. The simple sliding support technology for conveying the steel bars as claimed in claim 7, wherein: the novel sliding sleeve is characterized in that a transmission ball (9) is movably mounted between the sliding sleeve outer ring (7) and the sliding sleeve inner ring (8), four connecting blocks (10) fixedly connected with the inner wall surface of the sliding sleeve inner ring (8) are fixedly mounted on the side wall of the sliding threaded steel (6) corresponding to the sliding sleeve inner ring (8) in an even distribution mode, and a middle inwards-concave limiting groove (11) is formed in the middle of the outer side wall surface of the sliding sleeve outer ring (7).

9. The simple sliding support technology for conveying the steel bars as claimed in claim 1, wherein: the top wall surface of the cutting machine (4) is provided with a cutting groove (12) corresponding to the position of the limiting groove (11), and the cutting groove (12) penetrates through the left side wall and the right side wall of the cutting machine (4).

10. The simple sliding support technology for conveying the steel bars as claimed in claim 9, wherein: the inside right side fixed mounting of cutting groove (12) has two direction stoppers (13), and both ends around the inside lateral wall of cutting groove (12) are installed respectively to two direction stoppers (13), and the inclined plane of two direction stoppers (13) is towards the direction of slip cap outer loop (7).

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