CN212598589U - Automatic rolling binding machine for steel reinforcement cage - Google Patents

Abstract

The utility model discloses an automatic rolling binding machine for a reinforcement cage, which comprises two main shafts arranged in parallel, wherein at least one main shaft is driven to rotate by a driving device; each main shaft is coaxially sleeved with at least one rotating wheel which rotates along with the main shaft and can be in rolling contact with the peripheral surface of the reinforcement cage; the two parallel rotating wheels which are opposite in positive phase are in transmission link through a transmission chain; each main shaft penetrates through a plurality of fixing frames. This automatic steel reinforcement cage roll ligature machine passes through drive arrangement and drives and rotate the wheel rotation, make the steel reinforcement cage rotate according to certain direction and speed on rotating the wheel, thereby it fixes the automatic ligature of stirrup on the steel bar winding support on the steel reinforcement cage to drive one end, the rotation of steel reinforcement cage can assist constructor to accomplish steel reinforcement cage welding construction simultaneously, the tying up of steel reinforcement cage has been improved, welding construction speed, required time of steel reinforcement cage construction and labour's resource have been reduced, and steel reinforcement cage preparation quality has been improved.

Description

Automatic rolling binding machine for steel reinforcement cage

Technical Field

The utility model relates to an equipment technical field is used in the pile foundation construction, especially relates to a steel reinforcement cage preparation equipment.

Background

In the engineering construction process of bridge engineering, building construction engineering, industrial factory buildings and the like, along with the increase of bearing load, the bearing capacity of pile foundation engineering is required to be higher and higher, and the construction process of supporting the upper structure by adopting the bored pile foundation is widely applied.

In the construction process of the bored pile foundation, after the hole is formed by adopting mechanical equipment or manual hole digging and other modes, the steel reinforcement cage is hoisted and placed downwards. The manufacturing quality of the reinforcement cage determines the bearing capacity of the pile foundation, and plays a crucial role in the stability and safety of the structure. The traditional production mode of the steel reinforcement cage adopts manual fixing and binding construction of the fixed moulding bed frame, the construction mode wastes labor resources, and meanwhile, the construction efficiency is low, and the site construction progress is influenced. Therefore, the production and manufacturing processes of the reinforcement cage need to be improved on equipment, the construction process is simplified, and the construction progress of the reinforcement cage is accelerated.

Chinese patent publication No. CN102505681A discloses a reinforcement cage manufacturing apparatus, comprising: a rotating shaft, one end of which is provided with a fixed support, and the other end of the rotating shaft and the position close to the fixed support are provided with movable supports for supporting the rotating shaft, the surface of the rotating shaft is axially hinged with a plurality of movable support rods which are annularly arranged, and one end of the rotating shaft is connected with a driving device; the bar winding system comprises a track arranged on one axial side of the rotating shaft, a bar winding device walking along the track, and a traction device for drawing the bar winding device to reciprocate, wherein the bar winding device is provided with a pulley block for guiding the steel bars to pass through; the rotating shaft and the traction device are driven by the same driving device or different driving devices respectively. According to the technical scheme, one end of the main reinforcement in a cage shape is fixed on the traction device, the reinforcement is spirally wound on the main reinforcement while the main reinforcement is pulled and rotates, the intersection point of the spiral reinforcement and the main reinforcement is welded to form a reinforcement cage, then the reinforcement cage is rolled from the equipment frame and then the stiffening hoop is welded, the reinforcement cage needs to be pulled to simultaneously rotate and move in a translation mode during work, and therefore the equipment structure is complex and the manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic steel reinforcement cage roll ligature machine, it is slow that it has solved artifical preparation steel reinforcement cage construction speed, extravagant labour, influences the problem of site operation progress to should move steel reinforcement cage roll ligature machine simple structure, the cost is lower.

In order to achieve the above object, the present invention provides the following technical solutions:

an automatic rolling binding machine for a reinforcement cage comprises two main shafts arranged in parallel, wherein at least one main shaft is driven to rotate by a driving device; each main shaft is coaxially sleeved with at least one rotating wheel which rotates along with the main shaft and can be in rolling contact with the peripheral surface of the reinforcement cage; the two parallel rotating wheels which are opposite in positive phase are in transmission link through a transmission chain; each main shaft penetrates through a plurality of fixing frames.

Furthermore, the main shaft is composed of a driving rotating shaft and a transmission rotating shaft which are coaxially connected, and the rotating wheel is coaxially sleeved on each driving rotating shaft and each transmission rotating shaft.

Furthermore, the driving rotating shaft and the transmission rotating shaft which form the main shaft penetrate through the plurality of fixing frames, and each rotating wheel is positioned between the two adjacent fixing frames.

Furthermore, the driving device comprises a driving motor, and an output shaft of the driving motor is in coaxial transmission connection with the driving rotating shaft.

Furthermore, the driving device also comprises a driving motor fixing frame, and the driving motor is arranged on the driving motor fixing frame.

Furthermore, the driving device also comprises a driving motor support, and the driving motor fixing frame is fixed on the driving motor support.

Furthermore, the fixing frame is fixed on the transverse support.

Furthermore, a plurality of positioning bolts which can be screwed into the ground are arranged on the transverse support.

The utility model provides an automatic steel reinforcement cage roll ligature machine, it rotates through drive arrangement drive rotation wheel, make the steel reinforcement cage rotate according to certain direction and speed on rotating the wheel, thereby it fixes the automatic ligature of stirrup on the steel reinforcement winding support to drive one end, the rotation of steel reinforcement cage can assist constructor to accomplish steel reinforcement cage welding construction simultaneously, the tying up of steel reinforcement cage has been improved, welding construction speed, required time of steel reinforcement cage construction and labour's resource have been reduced, and steel reinforcement cage preparation quality has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a front view of an automatic reinforcement cage rolling binding machine provided by an embodiment of the present invention;

fig. 2 is a side view of an automatic rolling and binding machine for a reinforcement cage according to an embodiment of the present invention;

fig. 3 is a top view of the automatic rolling and binding machine for steel reinforcement cage according to the embodiment of the present invention;

fig. 4 is a use state diagram of the automatic reinforcement cage rolling binding machine provided by the embodiment of the present invention.

Description of reference numerals:

1. a drive motor; 11. a drive motor support; 12. a driving motor fixing frame; 2. a driving rotating shaft; 3. a rotating wheel; 31. a transmission rotating shaft; 32. a drive chain; 4. a fixed mount; 41. positioning the bolt; 42. a transverse support; 5. a reinforcement cage; 51. a reinforcement cage stirrup; 52. a main reinforcement of a reinforcement cage; 6. a stirrup conveying device; 61. a stirrup conveying device bracket; 62. a center shaft of the stirrup conveying device; 63. stirrup conveyor walking wheel.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, an automatic rolling binding machine for a reinforcement cage includes two main shafts disposed in parallel, wherein at least one of the main shafts is driven by a driving device; each main shaft is coaxially sleeved with at least one rotating wheel 3 which rotates along with the main shaft and can be in rolling contact with the peripheral surface of the reinforcement cage 5; the two rotating wheels 3 which are parallel to each other and are opposite in positive phase are in transmission linkage through a transmission chain 32; each main shaft penetrates through a plurality of fixing frames 4.

The main shaft is composed of a driving rotating shaft 2 and a transmission rotating shaft 31 which are coaxially connected, and the rotating wheel 3 is coaxially sleeved on each driving rotating shaft 2 and each transmission rotating shaft 31. The driving rotating shaft 2 and the transmission rotating shaft 31 which form the main shaft penetrate through the plurality of fixing frames 4, and each rotating wheel 3 is positioned between two adjacent fixing frames 4.

The driving device comprises a driving motor 1, a driving motor support 11 and a driving motor fixing frame 12, wherein the driving motor fixing frame 12 is fixed on the driving motor support 11, the driving motor 1 is arranged on the driving motor fixing frame 12, and an output shaft of the driving motor 1 is in coaxial transmission connection with the driving rotating shaft 2.

Each of the fixing frames 4 is fixed on a transverse support 42, and each of the transverse supports 42 is provided with a plurality of positioning bolts 41 which can be screwed into the ground.

Specifically, the first embodiment

As shown in fig. 1 to 3, an automatic rolling binding machine for reinforcement cages comprises two main shafts arranged in parallel, wherein the main shafts are composed of a driving rotating shaft 2 and a transmission rotating shaft 31 which are coaxially connected. That is, two sets of the driving shafts 2 and the driving shafts 31 which are coaxially connected are parallel to each other, the two driving shafts 2 are parallel to each other, and the two driving shafts 31 are parallel to each other.

Every initiative pivot 2 is gone up all to be equipped with one and is rotated wheel 3, and initiative pivot 2 and the epaxial rotation wheel 3 coaxial setting of rotation and the two can rotate simultaneously. The rotating wheels 3 on the two driving rotating shafts 2 are parallel and opposite to each other, and the rotating wheels 3 on the two driving rotating shafts 2 are in transmission connection through a transmission chain 32.

Every transmission shaft 31 all is equipped with a runner 3 on the cover, and transmission shaft 31 and the runner 3 coaxial arrangement on it and the two can rotate simultaneously. The rotating wheels 3 on the two transmission shafts 31 are parallel and opposite to each other, and the rotating wheels 3 on the two transmission shafts 31 are in transmission connection through a transmission chain 32.

As shown in fig. 1 and 3, each spindle passes through three holders 4. One end of a main shaft, which is not connected with the transmission shaft 31, of the driving rotating shaft 2 penetrates out of a fixing frame 4 and then is in coaxial transmission connection with an output shaft of a driving motor 1, one end of the main shaft, which is not connected with the driving rotating shaft 2, of the transmission shaft 31 is rotatably arranged in the fixing frame 4, and the fixing frame 4 is sleeved at the connection part of the driving rotating shaft 2 and the transmission shaft 31. The driving rotating shaft 2 and the transmission shaft 31 can be rotatably connected with each fixed frame 4 through bearings. Each rotating wheel 3 is positioned between two adjacent fixed frames 4.

One end of the driving rotating shaft 2 in the other main shaft, which is not connected with the transmission shaft 31, penetrates out of a fixing frame 4 and then is in coaxial transmission connection with an output shaft of a driving motor 1, one end of the transmission shaft 31 in the main shaft, which is not connected with the driving rotating shaft 2, is rotatably arranged in the fixing frame 4, and the fixing frame 4 is sleeved at the connection part of the driving rotating shaft 2 and the transmission shaft 31. The driving rotating shaft 2 and the transmission shaft 31 can be rotatably connected with each fixed frame 4 through bearings. Each rotating wheel 3 is positioned between two adjacent fixed frames 4.

The outer circumferential surface of each of the rotating wheels 3 extends beyond each of the fixing frames 4 so that the outer circumferential surface of the rotating wheel 3 is in rolling contact with the outer circumferential surface of the reinforcement cage 5. Each fixing frame 4 plays a role of a shaft seat and enables the whole automatic steel reinforcement cage rolling binding machine to be more stable.

Example two

As shown in fig. 1 to 3, an automatic rolling binding machine for reinforcement cages comprises two main shafts arranged in parallel, wherein the main shafts are composed of a driving rotating shaft 2 and a transmission rotating shaft 31 which are coaxially connected. That is, two sets of the driving shafts 2 and the driving shafts 31 which are coaxially connected are parallel to each other, the two driving shafts 2 are parallel to each other, and the two driving shafts 31 are parallel to each other.

Every initiative pivot 2 is gone up all to be equipped with one and is rotated wheel 3, and initiative pivot 2 and the epaxial rotation wheel 3 coaxial setting of rotation and the two can rotate simultaneously. The rotating wheels 3 on the two driving rotating shafts 2 are parallel and opposite to each other, and the rotating wheels 3 on the two driving rotating shafts 2 are in transmission connection through a transmission chain 32.

Every transmission shaft 31 all is equipped with a runner 3 on the cover, and transmission shaft 31 and the runner 3 coaxial arrangement on it and the two can rotate simultaneously. The rotating wheels 3 on the two transmission shafts 31 are parallel and opposite to each other, and the rotating wheels 3 on the two transmission shafts 31 are in transmission connection through a transmission chain 32.

As shown in fig. 1 and 3, each spindle passes through three holders 4. One end of a main shaft, which is not connected with the transmission shaft 31, of the driving rotating shaft 2 penetrates out of a fixing frame 4 and then is in coaxial transmission connection with an output shaft of a driving motor 1, one end of the main shaft, which is not connected with the driving rotating shaft 2, of the transmission shaft 31 is rotatably arranged in the fixing frame 4, and the fixing frame 4 is sleeved at the connection part of the driving rotating shaft 2 and the transmission shaft 31. The driving rotating shaft 2 and the transmission shaft 31 can be rotatably connected with each fixed frame 4 through bearings. Each rotating wheel 3 is positioned between two adjacent fixed frames 4.

One end of the driving rotating shaft 2 in the other main shaft, which is not connected with the transmission shaft 31, penetrates out of a fixing frame 4 and then is in coaxial transmission connection with an output shaft of a driving motor 1, one end of the transmission shaft 31 in the main shaft, which is not connected with the driving rotating shaft 2, is rotatably arranged in the fixing frame 4, and the fixing frame 4 is sleeved at the connection part of the driving rotating shaft 2 and the transmission shaft 31. The driving rotating shaft 2 and the transmission shaft 31 can be rotatably connected with each fixed frame 4 through bearings. Each rotating wheel 3 is positioned between two adjacent fixed frames 4.

The outer circumferential surface of each of the rotating wheels 3 extends beyond each of the fixing frames 4 so that the outer circumferential surface of the rotating wheel 3 is in rolling contact with the outer circumferential surface of the reinforcement cage 5. Each fixing frame 4 plays a role of a shaft seat and enables the whole automatic steel reinforcement cage rolling binding machine to be more stable.

As shown in fig. 1, each of the driving motors 1 is mounted on a driving motor holder 12, and the driving motor holder 12 is fixed to the driving motor support 11 by welding. The driving motor 1, the driving motor support 11 and the driving motor fixing frame 12 jointly form a driving device. The driving motor 1 is more stable in the operation process due to the driving motor support 11 and the driving motor fixing frame 12, and is not easy to shake, so that the adverse effect of driving the main shaft to rotate is avoided.

In order to make the automatic rolling binding machine for the reinforcement cage more stable in the operation process, each fixing frame 4 is fixed on a transverse support 42 in a welding mode, the fixing frames 4 correspond to the transverse supports 42 one by one, and each transverse support 42 is provided with a plurality of positioning bolts 41 which can be screwed into the ground.

When actually manufacturing the steel reinforcement cage, the whole set of automatic steel reinforcement cage rolling binding machine is firstly installed, the driving motor support 11 is installed at a flat position in the steel reinforcement processing field, the driving motor 1 is fixed in the driving motor fixing frame 12, and the driving rotating shaft 2 connected with the driving motor 1 is inserted into the fixing frame 4 and is tightly connected with the transmission rotating shaft 31 on the rotating wheel 3 so as to drive the whole rotating wheel 3 to rotate.

The number of the rotating wheels 3 is determined according to the length of the reinforcement cage 5 (as shown in fig. 3, the number of the rotating wheels 3 is four in the embodiment, and the specific structure is as described above), the transmission rotating shaft 31 on the rotating wheels 3 is inserted into the fixed frame 4, and the positioning bolt 41 is screwed on the transverse support 42, so that the automatic reinforcement cage rolling binding machine is ensured not to be displaced in the construction process.

As shown in fig. 4, the reinforcement cage 5 is placed on the rotating wheel 3, and the left driving motor 1 is started to rotate the rotating wheel 3 under the driving of the driving device, so as to drive the reinforcement wheel to rotate. And winding the steel bars on the stirrup conveying device 6 on the steel bar cage main bars 52. In whole work progress, install stirrup conveyor walking wheel 63 on stirrup conveyor support 61 and advance forward along the direction of construction, guarantee that the reinforcing bar on stirrup conveyor 6 can arrange according to the design, even winding is on steel reinforcement cage owner muscle 52 to guarantee that steel reinforcement cage's construction quality accords with design and standard requirement.

In each embodiment, the motor 1, the driving motor support 11, the driving motor fixing frame 12, the driving rotating shaft 2, the transmission rotating shaft 31, the transmission chain 32, the fixing frame 4, the positioning bolt 41 and the transverse support 42 of the automatic reinforcement cage rolling binding machine are standard parts which are available in the market and are adaptive.

Automatic steel reinforcement cage roll binding machine in above-mentioned each embodiment, it rotates the wheel through drive arrangement drive and rotates, make the steel reinforcement cage rotate according to certain direction and speed on rotating the wheel, thereby it fixes the automatic ligature of stirrup on the reinforcing bar winding support on the steel reinforcement cage to drive one end, the rotation of steel reinforcement cage can assist constructor to accomplish steel reinforcement cage welding construction simultaneously, the tying up of steel reinforcement cage has been improved, welding construction speed, the required time of steel reinforcement cage construction and labour's resource have been reduced, and steel reinforcement cage preparation quality has been improved.

Above-mentioned automatic steel reinforcement cage rolls ligature machine is the improvement to steel reinforcement cage production facility in the pile foundation engineering among the civil engineering, the steel reinforcement cage construction is used fixed fetal membrane to carry out the ligature in having solved traditional production process, the construction progress is slow, the problem of extravagant labour resource, the construction progress has been accelerated, the construction quality of steel reinforcement cage is guaranteed, this automatic steel reinforcement cage rolls ligature machine is a very big improvement to traditional construction technology, and this automatic steel reinforcement cage rolls ligature machine simple structure, be convenient for draw materials and assemble, thereby make its cost lower, do benefit to widely used.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (8)

1. An automatic rolling binding machine for a reinforcement cage is characterized by comprising two main shafts arranged in parallel, wherein at least one main shaft is driven to rotate by a driving device; each main shaft is coaxially sleeved with at least one rotating wheel which rotates along with the main shaft and can be in rolling contact with the peripheral surface of the reinforcement cage; the two parallel rotating wheels which are opposite in positive phase are in transmission link through a transmission chain; each main shaft penetrates through a plurality of fixing frames.

2. The automatic rolling and binding machine for the reinforcement cage according to claim 1, wherein the main shaft is composed of a driving shaft and a driving shaft which are coaxially connected, and each of the driving shaft and the driving shaft is coaxially sleeved with a rotating wheel.

3. The automatic rolling and binding machine for reinforcement cages according to claim 2, wherein the driving shaft and the driving shaft constituting the main shaft are passed through a plurality of fixed frames, and each rotating wheel is located between two adjacent fixed frames.

4. The automatic rolling and binding machine for the reinforcement cage according to claim 2, wherein the driving means comprises a driving motor, an output shaft of which is in coaxial transmission connection with the driving rotating shaft.

5. The automatic reinforcement cage rolling binding machine according to claim 4, wherein the driving means further comprises a driving motor fixing bracket on which the driving motor is mounted.

6. The automatic rolling and binding machine for steel reinforcement cages according to claim 5, wherein the driving device further comprises a driving motor support, and the driving motor fixing frame is fixed on the driving motor support.

7. The automatic reinforcement cage rolling binding machine according to any one of claims 1 to 6, wherein the fixing frame is fixed to a lateral support.

8. The automatic rolling and binding machine for steel reinforcement cages according to claim 7, wherein a plurality of positioning bolts are provided on the lateral support to be screwed into the ground.

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