CN111745095B - Equipment for equally cutting and segmenting reinforcing steel bars - Google Patents

Abstract

The invention relates to a device for cutting sections, in particular to a device for cutting sections of steel bars at equal intervals. The invention aims to provide equipment for equidistantly cutting and segmenting reinforcing steel bars, which ensures the personal safety of workers, reduces the fatigue degree of the workers, is easy to fix, has higher applicability, ensures the smoothness of notches, reduces the time cost and cuts at fixed intervals. The technical scheme of the invention is as follows: an apparatus for equidistantly cutting sections of rebar, comprising: the periphery of the bottom of the first mounting plate is connected with support columns; the front side of the top of the first mounting plate is connected with a first sliding block in a sliding manner; the rack is connected to one side of the top of the first mounting plate in a sliding manner; one side of the first mounting plate, which is far away from the rack, is connected with the servo motor. The steel bars with different lengths can be cut by matching the fixed sleeve, the first gear lack, the second gear lack and the handle, so that the applicability of the device is improved.

Description

Equipment for equally cutting and segmenting reinforcing steel bars

Technical Field

The invention relates to a device for cutting sections, in particular to a device for cutting sections of steel bars at equal intervals.

Background

In the machining process, the reinforcing bar that transports the builder usually surpasss use length, consequently making in-process reinforcing bar fixed length and regular segmentation be the essential link in the building site work progress, reinforcing bar cutting common use mode is cutting of semi-automatic cutting machine and numerical control cutting machine, in the building trade, to the application of cutting machine, mainly in the cutting of reinforcing bar, when the workman need be to the reinforcing bar cutting on the factory floor, the majority adopts the reinforcing bar cutting machine of ground formula to press the formula cutting through the hand.

This kind of cutting mode is not only intensity of labour big, and the security is lower, longer reinforcing bar is difficult for fixing, use unusual trouble, cut spark and a large amount of dust that the in-process produced and also can bring great harm to operating personnel, the suitability is lower, the use is restricted, because the reinforcing bar is fixed a position in cutting process and is not enough to cause the incision of reinforcing bar to form the terminal surface influence of unevenness and use and pleasing to the eye, reinforcing bar cutting to a great extent all cuts into the reinforcing bar section of equidimension, it often wastes time and energy to measure at the in-process of every cutting, through manual measurement then the cutting, the length of cutting is hardly held.

Disclosure of Invention

The invention aims to overcome the defects that the safety is low, the labor intensity is high, the fixing is not easy, the applicability is low, the use and the attractiveness are affected by uneven notches, the time and the labor are wasted, and the control is difficult.

An apparatus for equal-spaced cutting segments of rebar, comprising:

the periphery of the bottom of the first mounting plate is connected with support columns;

the front side of the top of the first mounting plate is connected with a first sliding block in a sliding manner;

the rack is connected to one side of the top of the first mounting plate in a sliding manner;

one side of the first mounting plate, which is far away from the rack, is connected with a servo motor;

the two sides of the top of the first mounting plate, which are far away from one side of the first sliding block, are connected with the first bearing seats;

a first rotating shaft is rotatably connected between the first bearing seats, and one end of the first rotating shaft is connected with an output shaft of the servo motor;

the part of the first rotating shaft, which is far away from the servo motor, is connected with a pitch-changing mechanism;

one part of the first mounting plate, which is far away from the first sliding block, is connected with the cutting mechanism.

More preferably, the pitch mechanism includes:

the part of the first rotating shaft, which is far away from the servo motor, is connected with a fixed sleeve, and the fixed sleeve is connected with a rotating block in a sliding manner;

the rotating block at one side of the first gear lack, which is far away from the servo motor, is connected with a first gear lack and a second gear lack, and the second gear lack is meshed with the rack;

the handle, the eccentric position of keeping away from the turning block of servo motor one side is connected with the handle, and the handle passes first scarce gear and second scarce gear.

More preferably, the cutting mechanism includes:

the first bevel gear is connected to the first rotating shaft;

the side, far away from the first sliding block, of the first mounting plate is connected with a support;

one side of the bracket, which is close to the first rotating shaft, is connected with a second bearing seat, a second rotating shaft is rotatably connected in the second bearing seat, and the second rotating shaft penetrates through the bracket;

one end of the second rotating shaft, which is close to the first rotating shaft, is connected with a second bevel gear, and the first bevel gear is meshed with the second bevel gear;

one end of the second rotating shaft, which is far away from the second bevel gear, is connected with an electric cutter;

one side of the bracket, which is far away from the first rotating shaft, is connected with the guide frame, and the circle center position of the electric cutter is connected with the guide frame in a sliding manner.

More preferably, the device further comprises a fixing mechanism, wherein the fixing mechanism comprises:

the two sides of the top of the first mounting plate, which are far away from one side of the servo motor, are connected with the second mounting plate;

the inner sides of the second mounting plates are both connected with second sliding blocks in a sliding manner;

the third bearing seat is connected between the second sliding blocks, the fixed sleeve penetrates through the third bearing seat, and the third bearing seat is connected with the rotating block;

the two sides of the top of the first mounting plate, which are far away from one side of the servo motor, are connected with the L-shaped plates;

the two sides of the top of the first mounting plate close to the L-shaped plate are both connected with tension springs;

the upper parts of the L-shaped plates are connected with the extrusion blocks, the tops of the extrusion blocks are in contact with the lower parts of the third bearing seats, and the tail ends of the tension springs are connected with the bottoms of the extrusion blocks.

More preferably, the clamping device further comprises a clamping mechanism, wherein the clamping mechanism comprises:

the two parts of the top side of the first sliding block are connected with a fourth bearing seat;

a third rotating shaft is rotatably connected between the third rotating shaft and the fourth bearing seat, and a fixed block is connected on the third rotating shaft;

a torsion spring is connected between the inner side of the fourth bearing seat and the two sides of the fixed block;

the two parts of the first mounting plate are both connected with the telescopic components in a sliding manner;

the movable plate is connected between the telescopic assemblies;

the top of the moving plate is connected with the long plate in a bolt mode.

More preferably, the method further comprises:

the guide wheel is rotatably connected between one sides, far away from the first sliding block, of the guide wheels.

The invention has the following advantages: 1. through the cooperation of fixed cover, first scarce gear, second lack gear and handle, can cut the reinforcing bar of different length, improve the suitability of device.

2. Through the cooperation of first bevel gear, second pivot, second bevel gear and electric cutter, can carry out automatic cutout to the reinforcing bar, raise the efficiency, reduce the waste of time cost.

3. Through the cooperation of fixed block, torsion spring, long board and movable plate, can make the reinforcing bar fixed firm, prevent to lead to the reinforcing bar to remove because of the cutting dynamics is too big.

4. Through the leading wheel, guarantee the planarization of reinforcing bar cutting.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic diagram of a first partial body structure according to the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a schematic perspective view of a part of an exploded structure of the present invention.

Fig. 6 is a perspective view of a third embodiment of the present invention.

Wherein: a 1.. supporting post, a 2.. first mounting plate, a 3.. first slider, a 4.. rack, a 5.. servomotor, a 6.. first shaft bearing, a 7.. first rotating shaft, an 8.. variable pitch mechanism, an 81.. fixed sleeve, an 82.. rotating block, an 83.. first absent gear, an 84.. second absent gear, an 85.. handle, a 9.. cutting mechanism, a 91.. first bevel gear, a 92.. bracket, a 93.. second shaft bearing, a 94.. second rotating shaft, a 95.. second bevel gear, a 96.. electric cutter, a 97.. guide frame, a 10.. fixing mechanism, a 101.. third shaft bearing, a 102.. second mounting plate, a 103.. second slider, a 104.. first mounting plate, a 105.. extrusion block, a 106.. extrusion plate, a tension spring mechanism, a fourth bearing block, 112.. a third rotating shaft, 113.. a fixed block, 114.. a torsion spring, 115.. a long plate, 116.. a moving plate, 117.. a telescopic assembly, and 12.. a guide wheel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the accompanying drawings in combination with the embodiments. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

An apparatus for equally cutting and segmenting a steel bar comprises a support column 1, a first mounting plate 2, a first slide block 3, a rack 4, a servo motor 5, a first bearing seat 6, a first rotating shaft 7, a variable pitch mechanism 8 and a cutting mechanism 9, wherein the support column 1 is arranged at the front, the back, the left and the right of the bottom of the first mounting plate 2, the first slide block 3 is connected with the front inner wall of the first mounting plate 2 in a sliding way, the rack 4 is connected with the right inner wall of the first mounting plate 2 in a sliding way, the right end of the first slide block 3 is connected with the rack 4, the servo motor 5 is connected with the rear side of the left part of the first mounting plate 2, when a worker needs to cut the steel bar at equal intervals, the steel bar can be placed on the first slide block 3, the servo motor 5 is started to rotate reversely, the left and the right parts of the rear side of the top of the first mounting plate 2 are both connected with the first bearing seat 6, the first rotating shaft 7 is rotatably connected between the first bearing seats 6, 7 left ends of first pivot and servo motor 5's output shaft are connected, servo motor 5 reversal drives first pivot 7 and rotates at primary shaft bearing 6, 7 right parts of first pivot are connected with displacement mechanism 8, 7 rotatory drive displacement mechanism 8 reversals of first pivot, displacement mechanism 8 reversals drive rack 4 backward movement, rack 4 backward movement drives first slider 3 and reinforcing bar backward movement, 2 rear portion upsides of first mounting panel are connected with cutting mechanism 9, servo motor 5 rotates and drives cutting mechanism 9 simultaneously and rotate and carry out the equidistance cutting to the reinforcing bar, the back of finishing is operated, the staff closes servo motor 5, servo motor 5 stall makes displacement mechanism 8 and cutting mechanism 9 stall.

Example 2

On the basis of embodiment 1, as shown in fig. 3, the pitch varying mechanism 8 includes a fixed sleeve 81, a rotating block 82, a first gear-lacking 83, a second gear-lacking 84 and a handle 85, the outer side of the right portion of the first rotating shaft 7 is connected with the fixed sleeve 81, the fixed sleeve 81 is located at the right side of the right portion first bearing seat 6, the fixed sleeve 81 is slidably connected with the rotating block 82, the right portion of the rotating block 82 is connected with the first gear-lacking 83, the right end of the rotating block 82 is connected with the second gear-lacking 84, the second gear-lacking 84 is engaged with the rack 4, when the servo motor 5 is started, the servo motor 5 rotates to drive the fixed sleeve 81 to rotate reversely through the first rotating shaft 7, the fixed sleeve 81 rotates to drive the rotating block 82 to rotate reversely, the rotating block 82 rotates reversely to drive the second gear-lacking 84 to rotate counterclockwise, the second gear-lacking 84 rotates counterclockwise to drive the rack 4 to move backward, the rack 4 moves backward to drive the first sliding block 3 and the reinforcing steel bar to move backward, meanwhile, the servo motor 5 rotates and simultaneously drives the cutting mechanism 9 to rotate to perform equidistant cutting on the steel bars, the eccentric position on the right side of the rotating block 82 is connected with the handle 85, the handle 85 penetrates through the first gear 83 and the second gear 84, when the steel bars with different equidistance need to be cut, the worker can pull the handle 85 to move rightwards, so that the rotating block 82 is driven, the first gear 83 and the second gear 84 lack to move rightwards, the first gear 83 and the rack 4 are meshed, the first gear 83 reverses to drive the rack 4 to move backwards, the rack 4 moves backwards to drive the first sliding block 3 and the steel bars to move backwards, the servo motor 5 rotates and simultaneously drives the cutting mechanism 9 to rotate anticlockwise, so that the steel bars can be cut for a longer distance, and after the operation is finished, the worker closes the servo motor 5.

As shown in fig. 4, the cutting mechanism 9 includes a first bevel gear 91, a support 92, a second bearing seat 93, a second rotating shaft 94, a second bevel gear 95, an electric cutter 96 and a guide frame 97, the first bevel gear 91 is connected to the middle of the first rotating shaft 7, when the servo motor 5 rotates, the first bevel gear 91 is driven to rotate reversely by the first rotating shaft 7, the support 92 is connected to the upper side of the rear portion of the first mounting plate 2, the second bearing seat 93 is connected to the front side of the support 92, the second rotating shaft 94 is rotatably connected to the second bearing seat 93, the second rotating shaft 94 passes through the support 92, the second bevel gear 95 is connected to the front end of the second rotating shaft 94, the first bevel gear 91 is engaged with the second bevel gear 95, the first bevel gear 91 rotates reversely to drive the second bevel gear 95 to rotate forwardly, the second bevel gear 95 drives the second rotating shaft 94 to rotate forwardly in the second bearing seat 93 and the support 92, the electric cutter 96 is connected to the rear end of the second rotating shaft 94, the support 92 rear side is connected with leading truck 97, and the centre of a circle position and the leading truck 97 upper portion front end sliding connection of electric cutter 96, second pivot 94 corotation drive electric cutter 96 corotation in leading truck 97 to cut the reinforcing bar, the back that finishes, the staff closes servo motor 5, makes electric cutter 96 stop rotatory.

As shown in fig. 5, the fixing mechanism 10 further includes a fixing mechanism 10, the fixing mechanism 10 includes a third bearing seat 101, a second mounting plate 102, a second slider 103, an extrusion block 104, an L-shaped plate 105 and a tension spring 106, the right portion of the rear side of the top of the first mounting plate 2 is connected with the two second mounting plates 102, the inner sides of the second mounting plates 102 are connected with the second slider 103 in a sliding manner, the third bearing seat 101 is connected between the second sliders 103, the fixing sleeve 81 passes through the third bearing seat 101, the right side of the third bearing seat 101 is connected with the left side of the rotating block 82, when the rotating block 82 moves rightwards, the third bearing seat 101 and the second slider 103 are driven to move rightwards in the second mounting plate 102, the inner wall of the right portion of the first mounting plate 2 is connected with an L-shaped plate 105, the inner wall of the right portion of the first mounting plate 2 is connected with the two tension springs 106, the tension springs 106 are located between the L-shaped plates 105, the extrusion blocks 104 are connected to the left and right portions of the L-shaped plate 105, the upside of the extrusion block 104 contacts with the top wall of the third bearing seat 101, the top end of the tension spring 106 is connected with the bottom side of the extrusion block 104, the third bearing seat 101 contacts with the right extrusion block 104, when the displacement is needed, the worker can pull the handle 85 to move rightwards, the handle 85 moves rightwards to drive the rotating block 82 to move rightwards so as to drive the first gear 83 to move rightwards to be meshed with the rack 4, the rotating block 82 moves rightwards to drive the third bearing seat 101 and the second sliding block 103 to move rightwards, the third bearing seat 101 contacts with the right extrusion block 104, the right tension spring 106 is compressed at the moment, the left tension spring 106 drives the left extrusion block 104 to reset, thereby the fixing effect on the third bearing seat 101 can be achieved, and the first gear 83 which lacks in the cutting work is prevented from moving so as to influence the cutting.

As shown in fig. 6, the clamping mechanism 11 is further included, the clamping mechanism 11 includes a fourth bearing seat 111, a third rotating shaft 112, a fixed block 113, a torsion spring 114, a long plate 115, a moving plate 116 and a telescopic assembly 117, the left and right sides of the top of the first sliding block 3 are connected with the fourth bearing seat 111, the third rotating shaft 112 is rotatably connected between the fourth bearing seats 111, the fixed block 113 is connected on the third rotating shaft 112, the torsion spring 114 is connected between the inner side of the fourth bearing seat 111 and the two sides of the fixed block 113, the telescopic assemblies 117 are slidably connected on the inner walls of the left and right sides of the first mounting plate 2, the moving plate 116 is connected between the telescopic assemblies 117, the top of the moving plate 116 is connected with the long plate 115 through bolts, the front side of the long plate 115 and the fixed block 113 can contact, when a worker needs to cut the reinforcing steel bar at equal intervals, the long plate 115 can be removed first, the moving plate 116 is pulled upwards, the reinforcing steel bar can be placed between the moving plate 116 and the first sliding block 3 at this time, then the moving plate 116 is loosened, the moving plate 116 is driven to move downwards under the action of the telescopic assembly 117 to fix the steel bars, then the fixing block 113 is rotated anticlockwise, the fixing block 113 is pressed through the long plate 115, at the moment, the torsion spring 114 deforms to achieve the purpose of firmly fixing the steel bars, when the steel bars are replaced, the long plate 115 is taken down, the fixing block 113 and the third rotating shaft 112 are driven to rotate clockwise under the action of the torsion spring 114, at the moment, the steel bars can be placed again, and the subsequent operation can be continued.

As shown in fig. 1, the steel bar cutting device further comprises a guide wheel 12, wherein the guide wheel 12 is rotatably connected between the inner walls of the rear portion of the first mounting plate 2, and the guide wheel 12 is positioned below the support 92, so that when steel bars are cut, the flatness of the cut steel bars can be ensured, and meanwhile, the stability of the steel bars in conveying can also be ensured.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (2)

1. An apparatus for equally cutting and sectioning a reinforcing bar, comprising:

the support column structure comprises a first mounting plate (2), wherein support columns (1) are connected to the periphery of the bottom of the first mounting plate (2);

the top front side of the first mounting plate (2) is connected with a first sliding block (3) in a sliding manner;

the rack (4) is connected to one side of the top of the first mounting plate (2) in a sliding mode;

the servo motor (5) is connected to one side, away from the rack (4), of the first mounting plate (2);

the two sides of the top of the first mounting plate (2) at one side, which is far away from the first sliding block (3), of the first bearing seat (6) are connected with the first bearing seat (6);

a first rotating shaft (7) is rotatably connected between the first bearing seats (6), and one end of the first rotating shaft (7) is connected with an output shaft of the servo motor (5);

the first rotating shaft (7) is connected with the pitch-changing mechanism (8) at one end far away from the servo motor (5);

the cutting mechanism (9) is connected to one side, away from the first sliding block (3), of the first mounting plate (2);

the pitch control mechanism (8) comprises:

the end, far away from the servo motor (5), of the first rotating shaft (7) is connected with the fixed sleeve (81), and the fixed sleeve (81) is connected with a rotating block (82) in a sliding mode;

the first gear (83) is omitted, a rotating block (82) on one side, far away from the servo motor (5), is connected with the first gear (83) and a second gear (84), and the second gear (84) is meshed with the rack (4);

the eccentric position of the rotating block (82) on one side, away from the servo motor (5), of the handle (85) is connected with the handle (85), and the handle (85) penetrates through the first gear-lacking wheel (83) and the second gear-lacking wheel (84);

the clamping mechanism (11) comprises:

the fourth bearing seats (111) are connected to the two sides of the top of the first sliding block (3);

a third rotating shaft (112) is rotatably connected between the third rotating shaft (112) and the fourth bearing seat (111), and a fixed block (113) is connected on the third rotating shaft (112);

a torsion spring (114), wherein the torsion spring (114) is connected between the inner side of the fourth bearing seat (111) and the two sides of the fixed block (113);

the two sides of the first mounting plate (2) are both connected with the telescopic assemblies (117) in a sliding manner;

the moving plate (116) is connected between the moving plates (116) and the telescopic assemblies (117);

the top of the moving plate (116) is connected with the long plate (115) in a bolt mode;

the cutting mechanism (9) comprises:

the first bevel gear (91) is connected to the first rotating shaft (7);

the side, far away from the first sliding block (3), of the first mounting plate (2) is connected with the support (92);

one side, close to the first rotating shaft (7), of the support (92) is connected with the second bearing seat (93), the second bearing seat (93) is connected with a second rotating shaft (94) in a rotating mode, and the second rotating shaft (94) penetrates through the support (92);

one end, close to the first rotating shaft (7), of the second rotating shaft (94) is connected with a second bevel gear (95), and the first bevel gear (91) is meshed with the second bevel gear (95);

one end of the second rotating shaft (94), which is far away from the second bevel gear (95), is connected with an electric cutter (96);

one side, far away from the first rotating shaft (7), of the support (92) is connected with the guide frame (97), and the circle center position of the electric cutter (96) is connected with the guide frame (97) in a sliding mode;

still including fixed establishment (10), fixed establishment (10) includes:

the two sides of the top of the first mounting plate (2) on one side, far away from the servo motor (5), of the second mounting plate (102) are connected with the second mounting plate (102);

the inner sides of the second mounting plates (102) are both connected with second sliding blocks (103) in a sliding manner;

a third bearing seat (101) is connected between the second sliding blocks (103), the fixing sleeve (81) penetrates through the third bearing seat (101), and the third bearing seat (101) is connected with the rotating block (82);

the two sides of the top of the first mounting plate (2) on one side, away from the servo motor (5), of the L-shaped plate (105) are connected with the L-shaped plate (105);

the two sides of the top of the first mounting plate (2) close to the L-shaped plate (105) are both connected with a tension spring (106);

the upper parts of the L-shaped plates (105) are connected with the extrusion blocks (104), the tops of the extrusion blocks (104) are in contact with the lower parts of the third bearing seats (101), and the tail ends of the tension springs (106) are connected with the bottoms of the extrusion blocks (104).

2. An apparatus for equally dividing and sectioning a reinforcing bar according to claim 1, further comprising:

the guide wheel (12) is rotatably connected between the first mounting plates (2) on the side far away from the first sliding block (3).

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