CN218092105U - Reinforcing bar mechanism and reinforcing bar device of arranging - Google Patents

Abstract

The utility model discloses a reinforcing bar mechanism of arranging and reinforcing bar device of arranging, include: the adjusting frames are sequentially connected and are in a linkage structure, and each adjusting frame is provided with an adjusting groove for supporting a steel bar; when the multiple groups of adjusting frames are linked, the positions of the adjusting grooves of the multiple groups of adjusting frames are synchronously changed. According to the utility model discloses reinforcing bar mechanism of arranging, through the equal same adjustment frame of multiunit big small construction and the reinforcing bar mechanism of arranging that forms not only realize the even interval distribution of reinforcing bar, avoid the crack risk, improve production efficiency, still can make the adjustment frame around, about and the ascending change in upper and lower side and make the reinforcing bar can take place the position change thereupon, can adjust the interval of reinforcing bar, reach the requirement of arranging.

Description

Reinforcing bar mechanism and reinforcing bar device of arranging

Technical Field

The utility model belongs to the technical field of the construction machinery manufacturing technique and specifically relates to a reinforcing bar mechanism of arranging and have reinforcing bar device of arranging of this reinforcing bar mechanism are related to.

Background

The steel bar engineering is the important factor in building construction, and the quality of arrangement of steel bars is one of the key factors of the quality of a building structure. At present, the steel bars are arranged manually, and on one hand, the arranged steel bars have uneven intervals, so that cracks are generated due to uneven stress; on the other hand, due to manual arrangement, time and labor are wasted during binding, and standardization cannot be guaranteed, so that the working efficiency is seriously influenced. Therefore, there is room for improvement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a reinforcing bar mechanism of arranging can adjust the reinforcing bar interval uniformly, does benefit to and improves work efficiency.

According to the utility model discloses reinforcing bar mechanism of arranging, include: the adjusting frames are sequentially connected and are of a linkage structure, and each adjusting frame is provided with an adjusting groove for supporting a steel bar; when the multiple groups of adjusting frames are linked, the positions of the adjusting grooves of the multiple groups of adjusting frames are synchronously changed.

According to the utility model discloses reinforcing bar mechanism of arranging, through the equal same adjustment frame of multiunit big small construction and the reinforcing bar mechanism of arranging that forms not only realize the even interval distribution of reinforcing bar, avoid the crack risk, improve production efficiency, still can make the adjustment frame around, about and the ascending change in upper and lower side and make the reinforcing bar can take place the position change thereupon, can adjust the interval of reinforcing bar, reach the requirement of arranging.

According to the reinforcing bar arrangement mechanism of the embodiment of the utility model, the adjusting frame comprises two driving rods which are distributed in a crossed way and are rotatably connected; in two adjacent groups of adjusting frames, two driving rods of one group of adjusting frame are respectively and rotatably connected with two driving rods of the other group of adjusting frame.

According to the utility model discloses reinforcing bar mechanism of arranging, arbitrary two sets of the axis of rotation of the actuating lever of adjustment frame's highly the same.

According to the utility model discloses reinforcing bar mechanism of arranging, the axis of rotation of actuating lever arrives the length at the both ends of actuating lever is the same.

According to the utility model discloses reinforcing bar mechanism of arranging still includes: the connecting shaft sequentially penetrates through the two driving rods, and the axis of the connecting shaft is the rotation axis of the driving rods.

According to the utility model discloses reinforcing bar mechanism of arranging, every group the length of two actuating levers of adjustment frame is the same.

According to the utility model discloses reinforcing bar mechanism of arranging, every group the lower tip of two actuating levers of adjustment frame all supports in placing the face, and two inject between the upper end of actuating lever and prescribe a limit to the adjustment tank.

According to the utility model discloses reinforcing bar mechanism of arranging still includes: and the controller is used for controlling the linkage of the plurality of groups of adjusting frames.

According to the utility model discloses reinforcing bar mechanism of arranging, the multiunit lie in a set of most tip in the alignment jig is connected with the actuating handle who is suitable for the user to grip, actuating handle is used for promoting the multiunit the alignment jig linkage.

The utility model also provides a reinforcing steel bar arranging device,

according to the utility model discloses reinforcing bar device of arranging is provided with any one of the aforesaid reinforcing bar mechanism of arranging, the reinforcing bar mechanism of arranging is two sets of, and is a set of reinforcing bar mechanism of arranging is used for arranging reinforcing bar and another group along the first direction the reinforcing bar mechanism of arranging is used for arranging the reinforcing bar along the second direction.

The advantages of the steel bar arranging device and the steel bar arranging mechanism are the same compared with the prior art, and the detailed description is omitted.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a reinforcing bar arrangement mechanism and a reinforcing bar structure according to an embodiment of the present invention;

fig. 2 is a schematic view of an extending structure of a reinforcing bar arranging mechanism according to an embodiment of the present invention;

fig. 3 is a schematic view of a contraction structure of a steel bar arrangement mechanism according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an adjusting bracket of the steel bar arranging mechanism according to the embodiment of the present invention;

fig. 5 is a reinforcing bar layout according to the embodiment of the present invention.

Reference numerals:

the reinforcing bar arranging mechanism 100 is provided with,

an adjusting frame 1, an adjusting groove 11, a driving rod 12, a connecting shaft 13, a fixed shaft 14, a controller 2, a connecting bracket 3, a strip-shaped rod 31,

reinforcing steel bars 200 and a placing surface 300.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The front-rear direction in this application is, unless otherwise specified, the longitudinal direction of the mounting surface, i.e. the first direction; the left-right direction is transverse to the placing surface, namely the second direction; the up-down direction is a vertical direction of the placement surface, i.e., the third direction. The first direction is a Y direction, the second direction is an X direction, and the third direction is a Z direction.

A bar arranging mechanism 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 5, including: a plurality of groups of adjusting frames 1. It should be noted that, as shown in fig. 2, the multiple groups of adjusting frames 1 are sequentially connected and have a linkage structure, that is, the steel bar arranging mechanism 100 includes the multiple groups of adjusting frames 1, each group of adjusting frames 1 can bear one steel bar 200, and the multiple groups of adjusting frames 1 are sequentially connected, so that one steel bar arranging mechanism 100 can drive the multiple steel bars 200 at the same time, that is, the steel bars 200 can be changed in position under the action of the adjusting frames 1. Wherein each set of the adjustable frames 1 has an adjusting slot 11 for supporting the reinforcing bar 200, it can be understood that the reinforcing bar 200 can be changed in position in the adjusting slot 11 of the adjustable frame 1. That is, the reinforcing bars 200 are placed in the adjustment grooves 11 and changed according to the movement track of the adjustment grooves 11.

The plurality of sets of adjusting frames 1 are structurally connected end to end in sequence to form a linkage structure, that is, when one set of adjusting frame 1 is subjected to a driving force to change, the other set of adjusting frame 1 connected with the adjusting frame is subjected to the driving force from the adjacent adjusting frame 1 to move. Therefore, each group of adjusting frames 1 affects one adjacent group of adjusting frames 1, so that all the adjusting frames 1 of the whole steel bar arranging mechanism 100 can move simultaneously, wherein when the groups of adjusting frames 1 are linked, the adjusting grooves 11 on the groups of adjusting frames 1 are changed accordingly.

It is understood that, when the reinforcing bar arrangement mechanism 100 is placed along the longitudinal direction of the placement surface, the adjustment groove 11 may be changed in position in the first direction and the third direction along with the change in position of the adjustment frame 1, and when the reinforcing bar arrangement mechanism 100 is placed along the lateral direction of the placement surface, the adjustment groove 11 may be changed in position in the second direction and the third direction along with the change in position of the adjustment frame 1. And the multiple groups of adjusting frames 1 are connected in series and are set into a linkage structure. Therefore, the positions of the adjusting grooves 11 on the multiple groups of adjusting frames 1 are changed at the same time, so that the reinforcing steel bars 200 on the adjusting grooves 11 can be changed at the same time. It should be noted that the present invention is described by taking the longitudinal placement of the reinforcing bar arranging mechanism 100 along the placement surface as an example.

It should be noted that each set of the adjustable frame 1 can be configured to be identical in structure, and therefore, the size and shape of the adjusting slot 11 formed on the adjustable frame 1 are also identical. Therefore, no matter whether the positions of the adjusting grooves 11 are changed or not, the relative positions of any two reinforcing steel bars 200 on the adjusting grooves 11 are the same, so that the equal distance between the reinforcing steel bars 200 and the reinforcing steel bars 200 is ensured, the standardized operation is realized, and the working efficiency is greatly improved.

According to the utility model discloses reinforcing bar mechanism 100 of arranging, through the equal the same adjustment frame of multiunit size structure 1 and the reinforcing bar mechanism 100 of arranging that forms not only can realize the even interval distribution of reinforcing bar 200 to avoid the crack risk, improve production efficiency, still because multiunit adjustment frame 1 can be around, about and the ascending change in upper and lower side makes a plurality of reinforcing bars 200 that are in on adjustment frame 1 can take place the position change, can adjust reinforcing bar 200's interval, reach the requirement of arranging.

In some embodiments, the adjustment frame 1 comprises two drive rods 12, i.e. a set of adjustment frames 1 is formed by two drive rods 12, and the two drive rods 12 can be configured as diamond-shaped rods with the same size and structure. And, two driving rods 12 are distributed crosswise and rotatably connected. It should be noted that, as shown in fig. 1, the driving rods 12 on the adjusting frame 1 at the end of the bar arranging mechanism 100 move under the driving force, and the two driving rods 12 on the end adjusting frame 1 are subjected to different directions of force, so as to rotate in opposite directions. If one of the drive rods 12 is allowed to move clockwise, the other drive rod 12 is allowed to move counterclockwise. Thus, the two driving rods 12 can rotate in opposite directions at the same time.

And in two adjacent groups of adjusting frames 1, the two driving rods 12 of one group of adjusting frames 1 are respectively and rotatably connected with the two driving rods 12 of the other group of adjusting frames 1. It should be noted that, as shown in fig. 1, the two driving rods 12 of each set of adjusting frame 1 are connected with the two driving rods 12 of the other set of adjusting frame 1 at the ends of their rod members, so as to realize the transmission of force, thereby rotating the adjacent driving rods 12. When the plurality of adjustment frames 1 are connected by the above method, the linkage effect of the steel bar arrangement mechanism 100 can be realized.

After one driving rod 12 of one set of adjusting frame 1 is connected to one driving rod 12 of the other set of adjusting frame 1, if one of the driving rods 12 rotates, the other driving rod 12 connected thereto rotates in the opposite direction. It will be appreciated that, as shown in fig. 1, two connected driving rods 12 rotate in opposite directions, while any two driving rods 12 which are spaced apart and in parallel position rotate in the same direction.

Therefore, the two driving rods 12 in each set of adjusting frame 1 rotate in opposite directions, so that the size of the adjusting groove 11 can be ensured to be changed, and a supporting force is provided for the change of the position of the steel bar 200.

In some embodiments, the heights of the rotation axes of the driving rods 12 of any two sets of the adjustment frames 1 are the same. It can be understood that each set of adjusting frames 1 is identical in size and structure, and is connected end to end at the same relative position of the end of the driving rod 12 in each set of adjusting frames 1. From this, in the reinforcing bar mechanism 100 of arranging that forms by the equipment of a plurality of alignment jig 1, the tie point between two actuating levers 12 in two adjacent sets of alignment jig 1 all distributes symmetrically, therefore, the crossing point of two actuating levers 12 in arbitrary one set of alignment jig 1 and the crossing point of two actuating levers 12 in arbitrary other set of alignment jig 1 all can present parallel and the arrangement of symmetric distribution, and the crossing point is the axis of rotation, the height of the axis of rotation of the actuating lever 12 of arbitrary two sets of alignment jig 1 is all the same, thereby when guaranteeing that reinforcing bar 200 moves on alignment jig 1, every reinforcing bar 200 is the same in the position change of third direction, guarantee that reinforcing bar 200's atress is even.

In some embodiments, the length of the axis of rotation of the drive rod 12 to both ends of the drive rod 12 is the same. It will be appreciated that the drive rod 12 is rotationally movable about an axis of rotation under the influence of a driving force. Therefore, the length that this embodiment set up the rotation axis of actuating lever 12 to the both ends of actuating lever 12 is the same can guarantee that the rotation axis is located the central point of actuating lever 12 and puts, can make the space that forms between two sets of adjacent adjustment framves 1 be the parallelogram to utilize the unstable characteristic principle of parallelogram to realize the concertina movement of adjustment frame 1, and can guarantee that the flexible stroke under this shape is the biggest, thereby can improve the change degree of reinforcing bar 200 position. And, the design axis of rotation can also eliminate the influence of the dead weight of the driving rod 12 on the whole structure at the central position of the driving rod 12, namely the axis of rotation coincides with the center of gravity of the driving rod 12, namely the arm of force of the gravity of the driving rod 12 is zero, thereby reducing the output of the driving force.

In some embodiments, the bar arranging mechanism 100 further comprises: the connecting shaft 13 and the connecting shaft 13 sequentially penetrate through the two driving rods 12, and the axis of the connecting shaft 13 is the rotation axis of the driving rods 12. That is, the two driving rods 12 in each set of adjusting frames 1 are rotatably connected by the connecting shaft 13 when being connected, i.e. the axis of the connecting shaft 13 coincides with the rotation axis. As shown in fig. 4, a connecting shaft 13 is provided on one driving lever 12, and is provided at the center of the driving lever 12.

And the reinforcing bar arrangement mechanism 100 is further provided with a fixing shaft 14, the fixing shaft 14 sequentially penetrates through the driving rods 12 of the two non-identical group adjusting frames 1, and the fixing shaft 14 is arranged at two ends of any one of the driving rods 12. That is to say, when the driving rods 12 in any two connected sets of adjusting frames 1 are connected, they are rotatably connected by the action of the fixed shaft 14, that is, under the action of the fixed shaft 14, a plurality of adjusting frames 1 are sequentially connected end to form the bar arranging mechanism 1000.

In the embodiment, the position of the connecting shaft 13 at the central portion changes with the change of the driving rod 12, that is, the connecting shaft 13 and the driving rod 12 can change the positions in the front-back direction and the up-down direction, and when the reinforcing steel bar 200 is placed on the adjusting frame 1, the positions in the front-back direction and the up-down direction can be changed by changing the movement tracks of the connecting shaft 13 and the driving rod 12.

In some embodiments, the end of the reinforcement bar arrangement mechanism 100 is further provided with a connecting bracket 3, and the connecting bracket 3 is formed by two bar-shaped rods 31. It should be noted that the ends of the two bar-shaped rods 31 are rotatably connected by the fixed shaft 14, and the other ends of the two bar-shaped rods 31 are rotatably connected with the driving rod 12 at the ends by the fixed shaft 14.

It will be appreciated that the connecting bracket 3 serves to connect the two drive rods 12 of the end trim bracket 1, so that the stability of the end trim bracket 1 is increased.

In some embodiments, the two drive bars 12 of each set of alignment brackets 1 are of the same length. It can be understood that the two driving rods 12 included in each set of adjusting frame 1 have the same length, so as to ensure that the movement tracks of the two driving rods 12 are the same, and ensure that the system stress of the adjusting frame 1 is balanced. Namely, the force arms of the two driving rods 12 of the end adjusting frame 1 are the same, so that the magnitude of the received driving force is the same, and the driving rods 12 of the two adjacent adjusting frames 1 can also rotate when being connected. And, the two driving rods 12 of the adjusting frame 1 have the same length, which can ensure that the force applied by the adjusting frame 1 to the reinforcing steel bar 200 is relatively uniform, thereby ensuring that the reinforcing steel bar 200 can stably change position.

In some embodiments, the lower end portions of the two driving rods 12 of each set of the adjustable frame 1 are supported on the placing surface 300, and the upper end portions of the two driving rods 12 define the adjusting slot 11 therebetween. That is, as shown in fig. 1, the bar arranging mechanism 100 may be laid flat on the placing surface 300. That is, the lower end portions of all the driving rods 12 in the bar arranging mechanism 100 are supported on the placing surface 300, so that each set of the adjustment brackets 1 can form symmetrical moving spaces on the upper and lower sides of the rotation axis. Wherein, the space defined between the upper end portions of the two driving rods 12 is the adjustment groove 11, and the support point can be provided to the reinforcing bar 200 at the end of the adjustment groove 11, i.e., the intersection point of the two driving rods 12. It is understood that when the reinforcing bar 200 is placed at the adjustment groove 11, the reinforcing bar 200 may be supported by the support force from the two driving rods 12 so as to be stationary in the adjustment groove 11.

In some embodiments, further comprising: and the controller 2 is used for controlling the linkage of the multiple groups of adjusting frames 1. That is, the controller 2 is connected to the two driving rods 12 in the adjusting bracket 1 at the end of the bar arranging mechanism 100, and the driving motor is provided in the controller 2. That is, the controller 2 can stably provide a circumferential force to the driving rod 12 so that the driving rod 12 can make a rotational movement, and the driving rod 12 of each set of adjusting bracket 1 is connected with the driving rod 12 of the adjacent adjusting bracket 1. That is to say, when the controller 2 provides driving force to the driving rod 12 of the end adjustment frame 1 and makes it rotate, the driving rod 12 connected to the driving rod 12 can rotate therewith, so as to achieve that all the driving rods 12 in the whole steel bar arrangement mechanism 100 rotate, that is, the controller 2 controls multiple groups of adjustment frames 1 to achieve the linkage effect.

It can be understood that the controller 2 is used for controlling the plurality of groups of adjusting frames 1 to be linked, and the linkage device is applicable to automatic production, namely, a control program can be set in the controller 2, so that the telescopic size of the driving rod 12 can be accurately controlled, and the problems of low production efficiency, low quality and the like are solved.

In other embodiments, the adjusting frame 1 at the end of the adjusting frames 1 is connected with a driving handle suitable for being held by a user, and the driving handle is used for pushing the adjusting frames 1 to be linked. That is to say, a driving handle may be disposed at the end portion adjusting frame 1 of the steel bar arranging mechanism 100 of the present embodiment, the driving handle is connected to the two driving rods 12 in the adjusting frame 1, and when it is necessary to make the multiple groups of adjusting frames 1 perform the telescopic movement, the user transmits the driving force to the adjacent adjusting frames 1 under the transmission of the driving handle. And then the synchronism of motion is realized through the linkage effect between the multiunit alignment jig 1 each other, realizes the adjustment interval.

It is understood that the present embodiment provides a bar arrangement mechanism 100 that is different from the bar arrangement mechanism 100 described above, including the controller 2. The reinforcing bar arrangement mechanism 100 of the embodiment can be used in the situations that the operation surface is small, the arrangement specification of the reinforcing bars 200 is not large, and the like, and has the characteristics of simple structure, convenience in operation and the like.

Referring now to the bar arranging mechanism 100 of fig. 2-3, when it is desired to set the pitch of the bars 200 from small to large. That is, the bar arranging mechanism 100 changes from the shape of fig. 3 to the shape of fig. 2. At this time, the opening angle of the adjustment groove 11 is minimized, the plurality of reinforcing bars 200 are positioned at the highest position in the third direction, and the distance between the plurality of reinforcing bars 200 in the first direction is minimized. The controller 2 applies a pushing force to the driving rod 12 of the end adjustment frame 1, and no position change occurs in the first direction due to the end of the driving rod 12 connected to the controller 2. Thereby, the driving rod 12 rotates in a direction away from the controller 2 and the rotation axis translates to the left. As can be seen from the linkage effect, all the driving rods 12 rotate in the direction away from the controller 2, and the rotation axis moves in the leftward translation.

And when the space between the steel bars 200 needs to be set from large to small. I.e., the bar arranging mechanism 100 is changed from the shape of fig. 2 to the shape of fig. 3. At this time, the opening angle of the adjustment groove 11 is maximized, the plurality of reinforcing bars 200 are at the lowest position in the third direction, and the distance between the plurality of reinforcing bars 200 in the first direction is at the maximum. As the controller 2 applies a pulling force to the driving rod 12 of the end-adjusting carriage 1, no position change occurs in the first direction due to the end of the driving rod 12 connected to the controller 2. Thereby, the driving rod 12 is rotated in a direction toward the controller 2 and the rotation axis is translated to the right. As can be seen from the linkage effect, all the driving rods 12 rotate in the direction away from the controller 2, and the rotation axes translate to the right.

It can be understood that when the rotation axis is translated to the left, the opening angle of each adjustment slot 11 becomes gradually larger, so that the angle between the supporting force of the two driving rods 12 to the reinforcing bar 200 and the horizontal plane becomes gradually larger, and the height of the reinforcing bar 200 in the adjustment slot 11 decreases. When the rotation axis is translated to the right, the opening angle of each adjustment groove 11 gradually decreases, so that the angle between the supporting force of the two driving rods 12 to the steel bar 200 and the horizontal plane gradually decreases, and the height of the steel bar 200 in the adjustment groove 11 increases. Thereby, the reinforcing bars 200 seated on the adjustment grooves 11 can realize the pitch variation in the first direction as the rotation axis is varied. And, the height of the reinforcing bars 200 in the third direction may be changed as the opening angle of the adjustment grooves 11 is changed.

The utility model also provides a reinforcing bar device of arranging.

According to the utility model discloses reinforcing bar device of arranging, including the reinforcing bar mechanism 100 of arranging of any of the above-mentioned, reinforcing bar mechanism 100 of arranging is two sets of, and a set of reinforcing bar mechanism 100 of arranging is used for arranging reinforcing bar 200 and another group's reinforcing bar mechanism 100 of arranging along the first direction and is used for arranging reinforcing bar 200 along the second direction. That is, as shown in fig. 5, the steel bar arrangement apparatus includes two sets of steel bar arrangement mechanisms 100, one set of steel bar arrangement mechanisms 100 is used for realizing the position change of the steel bars 200 in the first direction and the third direction, and the other set of steel bar arrangement mechanisms 100 is used for realizing the position change of the steel bars 200 in the second direction and the third direction. The two sets of bar arranging mechanisms 100 are in cross fit with each other and can be welded finally. The other set of steel bar arrangement mechanism 100 is identical to the steel bar arrangement mechanism 100 in structure, and is not described herein again.

From this, according to the utility model discloses two sets of reinforcing bar mechanisms 100 of arranging, the change in first direction, second direction and third direction of multiunit alignment jig 1 in the accessible reinforcing bar mechanism 100 of arranging realizes that reinforcing bar 200 is at horizontal, fore-and-aft interval change. The free change of reinforcing bar 200 position when arranging has been satisfied promptly, can be nimble carry out the adjustment interval according to the regulation of drawing, and the adjustment frame 1 that the big small structure of multiunit is the same evenly sets up on reinforcing bar arrangement mechanism 100 for the atress of a plurality of reinforcing bars 200 on multiunit adjustment frame 1 is all even, has reduced crack risk scheduling problem. And, not only can provide drive power and more accurate realization interval change for arranging of reinforcing bar 200 through instruments such as controller 2, reach the design requirement, still saved a large amount of manual works, improved the efficiency of work.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. The utility model provides a reinforcing bar mechanism of arranging which characterized in that includes:

the steel bar support device comprises a plurality of groups of adjusting frames (1), wherein the adjusting frames (1) are sequentially connected and are in a linkage structure, and each group of adjusting frames (1) is provided with an adjusting groove (11) for supporting a steel bar (200);

when the multiple groups of adjusting frames (1) are linked, the positions of the adjusting grooves (11) of the multiple groups of adjusting frames (1) are changed synchronously.

2. A bar arranging mechanism according to claim 1, wherein the adjusting bracket (1) comprises two driving rods (12), and the two driving rods (12) are distributed across and rotatably connected with each other;

in two adjacent groups of the adjusting frames (1), two driving rods (12) of one group of the adjusting frames (1) are respectively and rotatably connected with two driving rods (12) of the other group of the adjusting frames (1).

3. A bar arrangement according to claim 2, wherein the axes of rotation of the drive rods (12) of any two sets of the alignment brackets (1) are of the same height.

4. A bar arranging mechanism according to claim 2, wherein the length of the axis of rotation of the drive rod (12) to both ends of the drive rod (12) is the same.

5. The rebar organiser of claim 2, further comprising: the connecting shaft (13), connecting shaft (13) wear to locate two in proper order actuating lever (12), just the axis of connecting shaft (13) is the axis of rotation of actuating lever (12).

6. A bar arranging mechanism according to claim 2, wherein the two drive rods (12) of each set of the adjustment brackets (1) are of the same length.

7. A bar arranging mechanism according to claim 2, wherein the lower end portions of the two driving rods (12) of each set of the adjustment brackets (1) are supported on a placing surface (300), and the upper end portions of the two driving rods (12) define the adjustment groove (11) therebetween.

8. The rebar alignment mechanism of claim 1, further comprising: the controller (2), the controller (2) is used for controlling the linkage of a plurality of groups of adjusting frames (1).

9. A reinforcement bar arrangement mechanism according to claim 1, characterized in that the group of the adjustment frames (1) located at the most end of the plurality of groups of the adjustment frames (1) is connected with a driving handle suitable for being held by a user, and the driving handle is used for pushing the plurality of groups of the adjustment frames (1) to be linked.

10. A rebar alignment apparatus comprising rebar alignment mechanisms of any one of claims 1-9 in two groups, one for aligning rebar (200) in a first direction and another for aligning rebar (200) in a second direction.

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