CN113622680A - Control method and equipment for automatically binding reinforcing steel bars - Google Patents

Abstract

The application relates to a control method and equipment for automatically binding steel bars, and relates to the field of building construction. The application has the effects of reducing the labor intensity of constructors, relieving the fatigue of hands of the constructors and improving the working efficiency of the constructors.

Description

Control method and equipment for automatically binding reinforcing steel bars

Technical Field

The application relates to the field of building construction, in particular to a control method and equipment for automatically bundling reinforcing steel bars.

Background

The reinforcing steel bar bundling belongs to an important link in building construction, and the reinforcing steel bar can greatly enhance the strength of a building, so that the reinforcing steel bar bundling is widely applied to building of the building.

At present, when constructor banded the reinforcing bar, adopt strapping tool such as pliers or hook to tie up the both ends of steel wire together with rotating usually to ligature the intersection of two reinforcing bars, but constructor rotates strapping tool through the staff, and intensity of labour is high, and the time very easily produces tired sense of hand after a long time, and then leads to the efficiency of construction low.

In view of the above-mentioned related technologies, the inventor believes that there are defects that the labor intensity of a constructor rotating a binding tool by hands for a long time is high, the hands are easily fatigued, and the construction efficiency is low.

Disclosure of Invention

In order to reduce the labor intensity of constructors, reduce the fatigue of hands of the constructors and improve the working efficiency of the constructors, the application provides a control method and equipment for automatically binding reinforcing steel bars.

The application provides a control method and equipment for automatically binding reinforcing steel bars, which adopts the following technical scheme:

in a first aspect, the present application provides an apparatus for implementing automatic steel bar bundling, which adopts the following technical scheme:

the utility model provides an equipment of reinforcing bar is tied up automatically in realization, the electric iron comprises a handle, the setting is at the telescopic link of handle one end, rotate to connect and keep away from the couple that handle one end was used for tying up the steel wire at the telescopic link, the setting is used for driving couple pivoted rotary mechanism between handle and telescopic link, the setting is used for making the handle automatic to being close to the resilience mechanism of telescopic link one side removal between handle and telescopic link, the setting is used for strengthening between telescopic link and handle and is connected and restrict the reinforcement mechanism of both alternate segregation.

By adopting the technical scheme, when a constructor bundles the reinforcing steel bars through the automatic reinforcing steel bar bundling equipment, the steel wires are bent in a centering mode, one end of each steel wire which is folded in half penetrates through the intersection of the reinforcing steel bars, then the constructor hangs the hook at one end of each steel wire which is folded in half, then the constructor pulls the handle upwards, the handle drives the hook to rotate through the rotating mechanism, so that the two ends of each steel wire are wound, the intersection of the two reinforcing steel bars is bound, and the two reinforcing steel bars can be bundled; after the constructor finishes one-time bundling, the handle is loosened, the handle and the telescopic rod are automatically and quickly restored to the initial state by the rebounding mechanism, and then the constructor can perform the next bundling; when constructors bind reinforcing steel bars, the tool is tied up without the rotation that the hands are relatively hard, and the rotating mechanism can be controlled by only lifting the pull handle to bind the intersection of the two reinforcing steel bars at the two ends of the steel wire, so that the labor intensity of the constructors is greatly reduced, the fatigue of the hands of the constructors is relieved, and the construction efficiency of the constructors is improved.

Optionally, the rotating mechanism includes a rotating shaft rotatably connected in the telescopic rod, a driving assembly arranged between the telescopic rod and the rotating shaft and used for driving the rotating shaft to rotate, and a linkage assembly arranged between the rotating shaft and the hook and used for driving the hook to rotate.

Through adopting above-mentioned technical scheme, when constructor passed through rotary mechanism and drives the couple and rotate, at first drive the rotation axis through drive assembly and rotate, the rotation axis can drive the couple through the linkage subassembly and rotate after that to realize the rotation of couple.

Optionally, the driving assembly includes a rack arranged between the handle and the rotating shaft, and a driving gear sleeved on the rotating shaft; the driving gear is fixedly connected with the rotating shaft, one end of the rack is fixedly connected with the handle, the other end of the rack is connected with the telescopic rod in a sliding mode, and the driving gear is meshed with the rack.

Through adopting above-mentioned technical scheme, when constructor drove the rotation axis through drive assembly and rotates, at first upwards carry the pull handle, the handle drives rather than fixed connection's rack rebound, and the rack is located the telescopic link and upwards slides, and the rack drives rather than the drive gear rotation of meshing after that, and drive gear can drive rather than fixed connection's rotation axis rotation to realize the rotation of rotation axis.

Optionally, the linkage assembly comprises a driving bevel gear sleeved on the rotating shaft and a driven bevel gear sleeved on the hook; the driving bevel gear is fixedly connected with the rotating shaft, the driven bevel gear is fixedly connected with the hook, and the driving bevel gear is meshed with the driven bevel gear.

By adopting the technical scheme, when a constructor drives the hook to rotate through the linkage assembly, firstly the rotating shaft drives the driving bevel gear fixedly connected with the rotating shaft to rotate, then the driving bevel gear drives the driven bevel gear meshed with the driving bevel gear to rotate, and the driven bevel gear can drive the hook fixedly connected with the driven bevel gear to rotate.

Optionally, the rebounding mechanism comprises a supporting seat fixedly arranged on the handle, a connecting seat fixedly arranged on the telescopic rod, and a spring arranged between the supporting seat and the connecting seat and used for enabling the supporting seat and the connecting seat to approach each other; and two ends of the spring are respectively connected with the supporting seat and the connecting seat.

By adopting the technical scheme, when a constructor pulls the handle upwards, the spring is in a stretching state, and the elastic potential energy is increased; when constructor loosened the handle, the supporting seat moved to one side of being close to the connecting seat under the elastic potential energy effect of spring, and the supporting seat can drive rather than fixed connection's handle and move to being close to connecting seat one side to realize reseing of handle.

Optionally, the two ends of the spring are detachably connected with the supporting seat and the connecting seat respectively.

Through adopting above-mentioned technical scheme, the spring is used many times after, can age gradually, can dismantle the connection and be convenient for constructor to change the spring to the constructor's of being convenient for maintenance.

Optionally, the strengthening mechanism includes a plurality of support frames of setting between handle and telescopic link, support frame one end and telescopic link fixed connection, the other end slide with the handle and be connected, be provided with between support frame and the handle and be used for reducing the reduction piece of wearing and tearing when the support frame slides.

By adopting the technical scheme, the support frame plays a role in guiding the movement of the handle, the support frame enables the handle not to rotate and only to move along one side far away from the telescopic rod, so that the stability of the handle during movement is ensured, and the connection between the handle and the telescopic rod is enhanced; the friction force of the support frame and the handle during sliding is reduced by the damage reducing piece, and abrasion between the support frame and the handle is reduced.

Optionally, the damage reducing part is a roller rotatably connected to the support frame; the outer side wall of the handle is provided with a guide groove along the length direction, and the roller is positioned in the guide groove and slides.

Through adopting above-mentioned technical scheme, can drive the gyro wheel with its butt when the handle reciprocates and rotate thereupon, the gyro wheel is located the guide way internal rotation, and the gyro wheel can not throw off from the guide way, and the gyro wheel changes the sliding friction between support frame and the handle into rolling friction to frictional force when sliding between support frame and the handle has been reduced greatly.

Optionally, a rubber layer is laid on the outer side wall of the handle.

Through adopting above-mentioned technical scheme, the rubber layer is comparatively soft, and yielding after the atress, has the effect of certain buffering, and is more comfortable when making the handheld handle of staff to alleviate the tired sense of constructor hand.

In a second aspect, the present application further provides a control method for automatically bundling steel bars, which adopts the following technical scheme:

a control method for realizing automatic steel bar binding is suitable for the equipment for realizing automatic steel bar binding, and comprises the following construction steps:

s1, bending the steel wire: bending the steel wire pair;

s2, hooking steel wires: one end of the steel wire which is folded in half penetrates through the intersection of the steel bars, then the hook hooks one end of the steel wire which is folded in half, and two ends of the steel wire are simultaneously abutted against the hook;

s3, binding the steel bar intersections: the handle is dragged upwards, the handle controls the rotating mechanism to drive the hook to rotate, and the two ends of the steel wire are wound, so that the two ends of the steel wire are bound, and the intersection of the two steel bars is bound;

s4, handle resetting: after the reinforcing steel bars are bound, the handle is loosened, and the rebounding mechanism drives the handle to move towards one side close to the telescopic rod, so that the handle is reset;

and S5, taking down the hook and binding the next steel bar intersection.

Through adopting above-mentioned technical scheme, when constructor tied up the reinforcing bar through automatic bundling reinforcing bar equipment, need not the comparatively hard rotation of people's hand and tie up the instrument, only need to go up the pull handle and can control rotary mechanism and carry out the ligature with the both ends of steel wire with the intersection of two reinforcing bars to greatly reduced constructor's intensity of labour and the tired sense that alleviates constructor's hand improve constructor's efficiency of construction.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a constructor binds the reinforcing steel bars, the constructor does not need to rotate a binding tool with relatively great labor force by hands, and only needs to lift the handle upwards to control the rotating mechanism to bind the two ends of the steel wire to the intersection of the two reinforcing steel bars, so that the labor intensity of the constructor is greatly reduced, the fatigue of the hand of the constructor is relieved, and the construction efficiency of the constructor is improved;

2. after the constructor finishes one-time bundling, the handle is loosened, the handle and the telescopic rod are automatically and quickly restored to the initial state through the rebounding mechanism, so that the constructor can operate more conveniently and comfortably, and then the constructor can perform the next bundling;

3. the support frame has a guiding function on the movement of the handle, the support frame enables the handle not to rotate and only can move along one side far away from the telescopic rod, so that the stability of the handle during movement is ensured, and the connection between the handle and the telescopic rod is enhanced; the friction force of the support frame and the handle during sliding is reduced by the damage reducing piece, and abrasion between the support frame and the handle is reduced.

Drawings

Fig. 1 is a schematic view showing the construction of an apparatus for automatically binding reinforcing bars;

fig. 2 is a partial sectional view showing the rotating mechanism;

FIG. 3 is a partial schematic view showing the rebound mechanism;

FIG. 4 is a partial cross-sectional view showing a reinforcement mechanism;

fig. 5 is a partial schematic view showing the handle under the contraction action of the resilient mechanism.

Description of reference numerals: 1. a handle; 11. a guide groove; 2. a telescopic rod; 3. hooking; 4. a rotation mechanism; 41. a rotating shaft; 42. a drive assembly; 421. a rack; 422. a drive gear; 43. a linkage assembly; 431. a drive bevel gear; 432. a driven bevel gear; 5. a rebound mechanism; 51. a supporting seat; 52. a connecting seat; 53. a spring; 54. a hook; 55. a hoisting ring; 6. a reinforcement mechanism; 61. a support frame; 62. and a roller.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a device for automatically binding steel bars. Referring to fig. 1 and 2, the automatic rebar tying device comprises a handle 1, wherein an expansion link 2 is arranged at one end of the handle 1, and the expansion link 2 and the handle 1 are arranged at intervals; the telescopic rod 2 is provided with a hook 3 far away from one end of the handle 1, the hook 3 is used for binding steel wires, and the hook 3 is rotatably connected with the telescopic rod 2. A rotating mechanism 4 is arranged between the handle 1 and the telescopic rod 2, and the rotating mechanism 4 is used for driving the hook 3 to rotate; a rebound mechanism 5 is arranged between the handle 1 and the telescopic rod 2, and the rebound mechanism 5 is used for enabling the handle 1 to automatically move to one side close to the telescopic rod 2; be provided with strengthening mechanism 6 between telescopic link 2 and the handle 1, strengthening mechanism 6 is used for strengthening being connected between telescopic link 2 and the handle 1, and is used for restricting telescopic link 2 and handle 1 looks mutual separation.

Referring to fig. 1, 1 lateral wall upper berth of handle is equipped with the rubber layer, and the rubber layer is comparatively soft, and yielding, the effect that has certain buffering after the atress for alleviate the tired sense of constructor hand, it is more comfortable when making constructor handheld handle 1.

When a constructor ties up the steel bars through the automatic steel bar tying equipment, firstly, the steel wires are bent in a centering mode, then one end of the steel wires which are folded in half penetrates through a steel bar crossing part, then the constructor hangs the hook 3 at one end of the steel wires which are folded in half, then the constructor pulls the handle 1 upwards, the handle 1 controls the rotating mechanism 4 to drive the hook 3 to rotate, the hook 3 drives two ends of the steel wires to wind, then the two steel bar crossing parts are tied, tying of the two steel bars is achieved, labor intensity of the constructor is greatly reduced, and fatigue of hands of the constructor is relieved; after the constructor finishes tying up once, loosen handle 1, rebound mechanism 5 makes handle 1 and telescopic link 2 automatic quick recovery to initial condition, and constructor carries out tying up next time afterwards can.

Referring to fig. 1 and 2, the rotating mechanism 4 includes a rotating shaft 41 rotatably connected in the telescopic rod 2, and a driving assembly 42 is disposed between the telescopic rod 2 and the rotating shaft 41, and the driving assembly 42 is used for driving the rotating shaft 41 to rotate; a linkage component 43 is further arranged between the rotating shaft 41 and the hook 3, and the linkage component 43 is used for driving the hook 3 to rotate.

Referring to fig. 2 and 3, the driving assembly 42 includes a rack 421 disposed between the handle 1 and the rotating shaft 41, one end of the rack 421 is fixedly connected to the handle 1, the other end is slidably connected to the telescopic rod 2, and the rack 421 is disposed along the length direction of the telescopic rod 2. The rotating shaft 41 is sleeved with a driving gear 422, the driving gear 422 is fixedly connected with the rotating shaft 41, and the driving gear 422 is meshed with the rack 421.

Referring to fig. 2, the linkage assembly 43 includes a driving bevel gear 431 sleeved on the rotating shaft 41, and the driving bevel gear 431 is fixedly connected with the rotating shaft 41; the hook 3 is sleeved with a driven bevel gear 432, the driven bevel gear 432 is fixedly connected with the hook 3, and the driving bevel gear 431 is meshed with the driven bevel gear 432.

When a constructor drives the hook 3 to rotate through the rotating mechanism 4, the constructor firstly pulls the handle 1 upwards, the handle 1 drives the rack 421 fixedly connected with the handle to move upwards, the rack 421 is positioned in the telescopic rod 2 to move upwards, then the rack 421 drives the driving gear 422 meshed with the rack 421 to rotate, the driving gear 422 can drive the rotating shaft 41 fixedly connected with the rotating shaft to rotate, then the rotating shaft 41 drives the driving bevel gear 431 fixedly connected with the rotating shaft to rotate, the driving bevel gear 431 drives the driven bevel gear 432 meshed with the driven bevel gear 431 to rotate, and the driven bevel gear 432 can drive the hook 3 fixedly connected with the driven bevel gear 432 to rotate, so that the rotation of the hook 3 is realized.

Referring to fig. 1 and 3, the rebounding mechanism 5 includes a supporting seat 51 fixed on the handle 1, and a connecting seat 52 fixed on the telescopic rod 2; a spring 53 is arranged between the supporting seat 51 and the connecting seat 52, the spring 53 is used for enabling the supporting seat 51 and the connecting seat 52 to approach each other, and two ends of the spring 53 are respectively detachably connected with the supporting seat 51 and the connecting seat 52. Hooks 54 are fixedly arranged at two ends of the spring 53 respectively, hanging rings 55 are fixedly arranged at the sides, close to each other, of the supporting seat 51 and the connecting seat 52 respectively, and the hooks 54 and the hanging rings 55 are buckled with each other.

When the constructor pulls the handle 1 upwards, the spring 53 is in a stretching state, and the elastic potential energy is increased; when constructor loosened handle 1, supporting seat 51 moved to one side that is close to connecting seat 52 under spring 53's elastic potential energy effect, supporting seat 51 can drive handle 1 rather than fixed connection and move to being close to connecting seat 52 one side to realize handle 1's restoration, and spring 53 uses the back many times, can age gradually, when needing to change the spring 53 after ageing, take off hook 54 from rings 55, the spring 53 of more renewing can.

Referring to fig. 4 and 5, the reinforcing mechanism 6 includes a plurality of support frames 61 disposed between the handle 1 and the telescopic rod 2, and the support frames 61 may be in a U-shaped configuration or a V-shaped configuration, which may have a certain supporting function. Support frame 61 one end and 2 fixed connection of telescopic link, the other end slide with handle 1 and be connected, are provided with between support frame 61 and the handle 1 and reduce the damage piece, reduce the wearing and tearing when reducing support frame 61 and slide. The loss reducing part is a roller 62 rotatably connected to the support frame 61, the outer side wall of the handle 1 is provided with a guide groove 11 along the length direction of the outer side wall, and the roller 62 is located in the guide groove 11 and slides.

When constructor upwards drags handle 1, support frame 61 plays the guide effect to the removal of handle 1, and support frame 61 makes handle 1 can not rotate, only can follow the one side removal of keeping away from telescopic link 2, thereby stability when guaranteeing handle 1 to remove, and support frame 61 plays certain additional strengthening to being connected between handle 1 and the telescopic link 2, handle 1 can drive the gyro wheel 62 with its butt when reciprocating simultaneously and rotates thereupon, gyro wheel 62 is located 11 rotations of guide way, and gyro wheel 62 can not throw off from guide way 11, gyro wheel 62 changes the sliding friction between support frame 61 and the handle 1 into rolling friction, thereby reduce the frictional force when sliding between support frame 61 and the handle 1 greatly.

The embodiment of the application also discloses a control method for automatically binding the reinforcing steel bars, which is applied to the equipment for automatically binding the reinforcing steel bars, and the construction steps are as follows:

s1, bending the steel wire: bending the steel wire pair;

s2, hooking steel wires: one end of the steel wire which is folded in half penetrates through the intersection of the steel bars, then the hook 3 is hooked on one end of the steel wire which is folded in half, and the two ends of the steel wire are simultaneously abutted against the hook 3;

s3, binding the steel bar intersections: dragging the handle 1 upwards, controlling the rotating mechanism 4 by the handle 1 to drive the hook 3 to rotate, and winding two ends of the steel wire so as to tie up two ends of the steel wire and further tie up the intersection of two steel bars;

s4, resetting the handle 1: after the reinforcing steel bars are bound, the handle 1 is loosened, and the spring 53 drives the handle 1 to move towards one side close to the telescopic rod 2, so that the handle 1 is reset;

and S5, taking down the hook 3 and binding the next steel bar intersection.

The implementation principle of the control method and the equipment for automatically binding the reinforcing steel bars in the embodiment of the application is as follows: when a constructor ties up the steel bars through the automatic steel bar tying equipment, firstly, the steel wires are bent in a centering mode, then one end of the steel wires which are folded in half penetrates through a steel bar crossing part, then the constructor hangs the hook 3 at one end of the steel wires which are folded in half, then the constructor pulls the handle 1 upwards, the handle 1 controls the rotating mechanism 4 to drive the hook 3 to rotate, so that the two ends of the steel wires are wound, the crossing part of the two steel bars is bound, and the two steel bars can be tied up; after the constructor finishes one-time bundling, the handle 1 is loosened, the spring 53 drives the handle 1 and the telescopic rod 2 to automatically and quickly return to the initial state, and then the constructor can perform the next bundling; when constructor ligature reinforcing bar, need not the comparatively hard rotation of people's hand and tie up the instrument, only need to go up pull handle 1 and can control rotary mechanism 4 and carry out the ligature with the both ends of steel wire with the cross section of two reinforcing bars to greatly reduced constructor's intensity of labour and the tired sense that alleviates constructor hand improve constructor's efficiency of construction.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an equipment of realization automatic bundling reinforcing bar which characterized in that: the steel wire binding machine comprises a handle (1), a telescopic rod (2) arranged at one end of the handle (1), a hook (3) rotatably connected to the telescopic rod (2) and used for binding steel wires and far away from one end of the handle (1), a rotating mechanism (4) arranged between the handle (1) and the telescopic rod (2) and used for driving the hook (3) to rotate, a rebounding mechanism (5) arranged between the handle (1) and the telescopic rod (2) and used for enabling the handle (1) to automatically move towards one side close to the telescopic rod (2), and a reinforcing mechanism (6) arranged between the telescopic rod (2) and the handle (1) and used for reinforcing connection between the telescopic rod (2) and the handle and limiting mutual separation between the telescopic rod (2) and the handle (1).

2. The apparatus for automatically binding reinforcing bars according to claim 1, wherein: the rotating mechanism (4) comprises a rotating shaft (41) which is rotatably connected in the telescopic rod (2), a driving component (42) which is arranged between the telescopic rod (2) and the rotating shaft (41) and used for driving the rotating shaft (41) to rotate, and a linkage component (43) which is arranged between the rotating shaft (41) and the hook (3) and used for driving the hook (3) to rotate.

3. The apparatus for automatically binding reinforcing bars according to claim 2, wherein: the driving component (42) comprises a rack (421) arranged between the handle (1) and the rotating shaft (41) and a driving gear (422) sleeved on the rotating shaft (41); drive gear (422) and rotation axis (41) fixed connection, rack (421) one end and handle (1) fixed connection, the other end slide with telescopic link (2) and be connected, drive gear (422) and rack (421) intermeshing.

4. The apparatus for automatically binding reinforcing bars according to claim 2, wherein: the linkage assembly (43) comprises a driving bevel gear (431) sleeved on the rotating shaft (41) and a driven bevel gear (432) sleeved on the hook (3); the driving bevel gear (431) is fixedly connected with the rotating shaft (41), the driven bevel gear (432) is fixedly connected with the hook (3), and the driving bevel gear (431) and the driven bevel gear (432) are meshed with each other.

5. The apparatus for automatically binding reinforcing bars according to claim 1, wherein: the rebounding mechanism (5) comprises a supporting seat (51) fixedly arranged on the handle (1), a connecting seat (52) fixedly arranged on the telescopic rod (2), and a spring (53) arranged between the supporting seat (51) and the connecting seat (52) and used for enabling the supporting seat and the connecting seat to be close to each other; two ends of the spring (53) are respectively connected with the supporting seat (51) and the connecting seat (52).

6. The apparatus for automatically binding reinforcing bars according to claim 5, wherein: two ends of the spring (53) are respectively detachably connected with the supporting seat (51) and the connecting seat (52).

7. The apparatus for automatically binding reinforcing bars according to claim 1, wherein: reinforcing mechanism (6) include a plurality of support frames (61) of setting between handle (1) and telescopic link (2), support frame (61) one end and telescopic link (2) fixed connection, the other end slide with handle (1) and be connected, be provided with between support frame (61) and handle (1) and be used for reducing the decrease piece that wearing and tearing when support frame (61) slide.

8. The apparatus for automatically binding reinforcing bars according to claim 7, wherein: the damage reducing part is a roller (62) which is rotatably connected to the support frame (61); a guide groove (11) is formed in the outer side wall of the handle (1) along the length direction of the handle, and the roller (62) is located in the guide groove (11) and slides.

9. The apparatus for automatically binding reinforcing bars according to claim 1, wherein: the outer side wall of the handle (1) is paved with a rubber layer.

10. A control method for implementing the automatic steel bar binding of the claims 1-9, comprising the following construction steps:

s1, bending the steel wire: bending the steel wire pair;

s2, hooking steel wires: one end of the steel wire which is folded in half penetrates through the intersection of the steel bars, then the hook (3) is hooked on one end of the steel wire which is folded in half, and the two ends of the steel wire are simultaneously abutted against the hook (3);

s3, binding the steel bar intersections: the handle (1) is dragged upwards, the handle (1) controls the rotating mechanism (4) to drive the hook (3) to rotate, so that two ends of the steel wire are wound, two ends of the steel wire are tied up, and the intersection of the two steel bars is tied up;

s4, resetting the handle (1): after the reinforcing steel bars are bound, the handle (1) is loosened, and the rebounding mechanism (5) drives the handle (1) to move towards one side close to the telescopic rod (2), so that the handle (1) is reset;

and S5, the hook (3) is taken down, and the next steel bar crossing part is bundled.

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