CN220942971U - Reinforcing steel bar processing device for building - Google Patents

Abstract

The application relates to the technical field of buildings, and discloses a steel bar processing device for a building, which comprises: the device comprises a processing machine table, a conveying structure, a straightening channel and a bending structure. The straightening channel is arranged on the processing machine table and is correspondingly arranged on one side of the conveying structure, and the straightening channel is matched with the steel bar to be processed; the bending structure comprises a bending plate and a fixing ring, the bending plate is rotationally connected with the top of the side wall of the processing machine table, the fixing ring is detachably arranged on the bending plate and corresponds to the straightening channel, and the fixing ring is used for fixing the reinforcing steel bars positioned on the bending plate. According to the application, the steel bar can be pretreated and then subjected to subsequent processing, so that the subsequent processing quality of the steel bar is effectively ensured, the processing effect of the steel bar is enhanced, the bending processing mode and operation of the steel bar are simple, the bending position and bending angle of the steel bar are easier to control, and the steel bar is subjected to finer and more accurate bending processing.

Description

Reinforcing steel bar processing device for building

Technical Field

The application relates to the technical field of buildings, in particular to a reinforcing steel bar processing device for a building.

Background

In the building construction process, a large number of reinforcing steel bars are needed to be used, and in the actual use process, the reinforcing steel bars are required to be bent according to the construction requirement, after the reinforcing steel bars are bent, the inner skin is contracted, the outer skin is extended, the axial length is unchanged, and the bending part forms an arc, so that the novel reinforced concrete structure can be better applied to building construction.

At present, the steel bar is directly placed on a bending machine, then the steel bar is bent at a position required to be bent according to construction requirements, and is taken down after the bending is completed, and the bending processing of the steel bar is continued.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

The steel bar itself is irregularly bent and deformed, so that the subsequent processing and the use of the steel bar are affected, the bending operation of the steel bar is complex, the bending position and the bending angle of the steel bar are not easy to accurately control, and the subsequent construction and the use are affected.

It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the application and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of utility model

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the disclosure provides a reinforcing bar processing apparatus for building, can carry out subsequent processing again after carrying out the preliminary treatment to the reinforcing bar, guaranteed the subsequent processingquality to the reinforcing bar effectively, the reinforcing is to the processing effect of reinforcing bar, and carry out bending processing's mode and operation to the reinforcing bar all comparatively simple, the bending position and the bending angle of easier control reinforcing bar carry out more meticulous accurate bending processing to the reinforcing bar.

In some embodiments, a rebar processing apparatus for a building includes: the device comprises a processing machine table, a conveying structure, a straightening channel and a bending structure. The conveying structure is arranged at one end of the upper table surface of the processing machine table and is used for conveying the steel bars to be processed; the straightening channel is arranged on the processing machine table and is correspondingly arranged on one side of the conveying structure, the straightening channel is matched with the steel bar to be processed, and the straightening channel is used for adjusting the form of the steel bar to be processed and/or limiting the moving direction of the steel bar to be processed; the bending structure comprises a bending plate and a fixing ring, the bending plate is rotationally connected with the top of the side wall of the processing machine table, the fixing ring is detachably arranged on the bending plate, the fixing ring (402) corresponds to the straightening channel, the fixing ring (402) is used for fixing reinforcing steel bars located on the bending plate, the conveying structure, the straightening channel and the bending plate are sequentially arranged on the processing machine table, and the upper side face of the bending plate and the upper table top of the processing machine table are in the same plane under the condition that the bending plate is in an initial state.

Optionally, a collecting box is installed on the upper table surface of the processing machine table, the straightening channel is arranged in the collecting box in a penetrating mode, and the side wall of the straightening channel is of a porous net-shaped structure.

Optionally, the inner side of the straightening channel is frosted.

Optionally, a plurality of conveying positions are formed on the conveying structure, and the straightening channels and the fixing rings are also provided in plurality, and each conveying position corresponds to one straightening channel and one fixing ring.

Optionally, during the conveying of the reinforcing steel bars, the corresponding conveying positions, the straightening channels and the fixing rings are on the same axis.

Optionally, the transport bit is disposed immediately adjacent to the straightening channel.

Optionally, the bending plate is connected with the processing machine through the pivot, and the bending structure still includes: a driving part. The driving part is arranged on the processing machine table and connected with the rotating shaft and used for driving the rotating shaft to drive the bending plate to rotate clockwise.

Optionally, the reinforcement bar processing device for a building further includes: and an auxiliary conveying structure. The auxiliary conveying structure is movably arranged on the processing machine and is positioned between the straightening channel and the bending structure, and the auxiliary conveying structure is configured to limit the movement of the reinforcing steel bars or the auxiliary conveying structure is used for conveying the reinforcing steel bars.

Optionally, the auxiliary transmission structure includes: lifting mounting frame, axis of rotation and drive wheel. The lifting mounting frame is movably arranged on the processing machine table and is positioned between the straightening channel and the bending structure; the rotating shaft is rotatably arranged on the lifting mounting frame; the driving wheel is fixedly sleeved on the rotating shaft, wherein a conveying position is defined between the driving wheel and the upper table surface of the processing machine table, and the conveying position corresponds to the straightening channel.

Optionally, the reinforcement bar processing device for a building further includes: and cutting the structure. The cutting structure is movably arranged on the processing machine table and is positioned between the straightening channel and the bending structure and used for cutting the reinforcing steel bars.

The embodiment of the disclosure provides a steel bar processing device for building, can realize following technical effect:

When the steel bar is processed, the steel bar to be processed is conveyed into the conveying structure, the conveying structure can convey the steel bar into the straightening channel, the form of the steel bar to be processed is adjusted by utilizing the straightening channel, and/or the moving direction of the steel bar to be processed is limited, wherein under the condition that the form of the steel bar to be processed is irregular, if deformation occurs, the deformed part of the steel bar can deform the steel bar by utilizing the thrust of the conveying structure and under the limiting effect of the straightening channel when entering the straightening channel, the straightness of the steel bar is adjusted, and under the condition that the form of the steel bar to be processed is regular, or the steel bar is regulated, the steel bar can move along the straightening channel, so that the steel bar is prevented from being shifted in the moving process, after the steel bar moves to the position of the bending plate, the steel bar on the bending plate is fixed by utilizing the fixing ring (402), and then bending rotation is controlled, and the bending processing can be performed on the steel bar, wherein the rotating angle of the bending plate is the bending angle of the steel bar.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which like reference numerals refer to similar elements, and in which:

Fig. 1 is a schematic structural view of a reinforcing bar processing apparatus for construction according to an embodiment of the present disclosure;

fig. 2 is a schematic structural view of another reinforcing bar processing apparatus for construction provided in an embodiment of the present disclosure;

FIG. 3 is a schematic structural view of an auxiliary conveying structure provided by an embodiment of the present disclosure;

FIG. 4 is a schematic view of a structure providing a cutting structure according to an embodiment of the present disclosure;

Fig. 5 is a schematic structural view of another reinforcing bar processing apparatus for construction provided in an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of a receiving groove according to an embodiment of the present disclosure.

Reference numerals:

100. A processing machine; 101. a receiving groove; 200. a conveying structure; 201. a transport station; 202. a mounting frame body; 203. a conveying roller; 204. a driving motor; 205. a limit baffle; 300. straightening the channel; 301. a flaring structure; 400. a bending structure; 401. a bending plate; 402. a fixing ring; 403. a rotating shaft; 404. a driving section; 500. a collection box; 600. an auxiliary conveying structure; 601. lifting the mounting frame; 602. a rotating shaft; 603. a driving wheel; 604. an annular groove; 700. cutting the structure; 701. a mounting bracket; 702. a driving cylinder; 703. a cutter body; 800. a collection box; 900. and a support table.

Detailed Description

So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present disclosure. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are used primarily to better describe embodiments of the present disclosure and embodiments thereof and are not intended to limit the indicated device, element, or component to a particular orientation or to be constructed and operated in a particular orientation. Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the embodiments of the present disclosure will be understood by those of ordinary skill in the art in view of the specific circumstances.

In addition, the terms "disposed," "connected," "secured" and "affixed" are to be construed broadly. For example, "connected" may be in a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the embodiments of the present disclosure may be understood by those of ordinary skill in the art according to specific circumstances.

The term "plurality" means two or more, unless otherwise indicated.

In the embodiment of the present disclosure, the character "/" indicates that the front and rear objects are an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes an object, meaning that there may be three relationships. For example, a and/or B, represent: a or B, or, A and B.

It should be noted that, without conflict, the embodiments of the present disclosure and features of the embodiments may be combined with each other.

Referring to fig. 1-2, an embodiment of the present disclosure provides a reinforcement processing apparatus for a building, including: a processing tool 100, a conveying structure 200, a straightening channel 300 and a bending structure 400. The conveying structure 200 is arranged at one end of the upper table surface of the processing machine 100 and is used for conveying the steel bars to be processed; the straightening channel 300 is installed on the processing machine 100 and is correspondingly arranged on one side of the conveying structure 200, the straightening channel 300 is matched with the steel bar to be processed, and the straightening channel 300 is used for adjusting the shape of the steel bar to be processed and/or limiting the moving direction of the steel bar to be processed; the bending structure 400 comprises a bending plate 401 and a fixing ring 402, the bending plate 401 is rotationally connected with the top of the side wall of the processing machine 100, the fixing ring 402 is detachably arranged on the bending plate 401, the fixing ring (402) corresponds to the straightening channel 300, the fixing ring (402) is used for fixing reinforcing steel bars positioned on the bending plate 401, the conveying structure 200, the straightening channel 300 and the bending plate 401 are sequentially arranged on the processing machine 100, and the upper side surface of the bending plate 401 and the upper table surface of the processing machine 100 are in the same plane under the condition that the bending plate 401 is in an initial state.

Adopt this embodiment of the present disclosure to provide a reinforcing bar processing apparatus for building, when carrying out the processing to the reinforcing bar, carry the reinforcing bar that will wait to process into conveying structure 200, conveying structure 200 can send the reinforcing bar into straightening passageway 300 in, utilize straightening passageway 300 to adjust the form of reinforcing bar that will wait to process and/or restriction to wait to process the direction of movement of reinforcing bar, wherein, under the irregular circumstances of form of waiting to process the reinforcing bar, if deformation has taken place, the deformation position of reinforcing bar is when getting into straightening passageway 300 this moment, utilize conveying structure 200's thrust and under straightening passageway 300's restriction effect, can make the reinforcing bar take place deformation, adjust the straightness of reinforcing bar, and comparatively regular at the form of waiting to process the reinforcing bar, or the reinforcing bar has been by the regulation under the condition of regulation, prevent that the reinforcing bar from taking place the position offset in the removal process, after the reinforcing bar moves to the position department of bending plate 401, then control bending plate 401 rotates, can carry out the processing to the reinforcing bar, wherein bending 401's rotation angle is the bending angle promptly, thereby utilize this application can carry out the bending operation to carry out the subsequent bending to the reinforcing bar, the subsequent processing to the reinforcing bar, the reinforcing bar is more accurate, and the subsequent processing is carried out the reinforcing bar is more accurate to the subsequent processing to the reinforcing bar, the reinforcing bar has been more guaranteed.

Optionally, a collecting box 500 is mounted on the upper surface of the processing machine 100, the straightening channel 300 is penetrated in the collecting box 500, and the side wall of the straightening channel 300 is of a porous net structure. Like this, because the reinforcing bar can produce the rust when placing, consequently when carrying out the pretreatment of straightening to the reinforcing bar and the reinforcing bar removes in the passageway 300 of straightening, the rust can drop, consequently the passageway 300 lateral wall of straightening is porous network structure, can make the rust that drops get into in the collecting box 500, avoid straightening passageway 300 because of long-time accumulation rust and take place to block up, or the rust drops the condition that causes the pollution at the last mesa of processing board 100 under the promotion of reinforcing bar, guarantee that rust cleaning is more environmental protection simultaneously, and rust cleaning is carried out to the reinforcing bar, can protect the reinforcing bar not receive the infringement of corrosion, reinforcing bar intensity and extension reinforcing bar's life.

Optionally, the collecting chamber is defined inside the collecting box 500, the straightening channel 300 is communicated with the collecting chamber through a hole on a side wall of the straightening channel, and two ends of the straightening channel 300 are detachably connected with two opposite side walls of the collecting box 500, preferably, two ends of the straightening channel 300 are buckled with two opposite side walls of the collecting box 500. Thus, rust can be collected intensively by the collecting chamber, and the detachable mounting mode of the straightening channel 300 is convenient for dismounting, overhauling or replacing the straightening channel 300.

Alternatively, the straightening channel 300 is made of a steel plate, and the thickness of the sidewall thereof is greater than or equal to 5cm and less than or equal to 10cm. Like this, make straightening passageway 300 possess stronger structural strength and stability, when the reinforcing bar of warp gets into straightening passageway 300, its lateral wall can extrude the reinforcing bar, makes the reinforcing bar take place deformation, avoids leading to straightening passageway 300 to take place the condition of deformation under the effect of reinforcing bar, guarantees the stability of reinforcing bar adjustment process.

Alternatively, the diameter of the hole in the sidewall of straightening channel 300 is greater than or equal to 1cm and less than or equal to 3cm. Thus, when the rust can fall into the collecting chamber smoothly, the influence of the holes on the moving process of the steel bars in the straightening channel 300 is reduced, the situation that the irregularly bent steel bars cannot move due to the obstruction of the holes is avoided, and the steel bars can move smoothly and stably in the straightening channel 300 is ensured.

Optionally, the inner side of the straightening channel 300 is frosted. Like this, when the reinforcing bar removes in straightening passageway 300, the reinforcing bar contacts with the medial surface of straightening passageway 300, can utilize the dull polish to the surface of reinforcing bar to can clear away rust and debris on reinforcing bar surface, further strengthen the treatment effect to the reinforcing bar.

It can be understood that the frosted surface is a frosted paper layer, and the friction between the frosted paper and the steel bar is used for derusting the surface of the steel bar, which is not described herein.

Optionally, a plurality of conveying positions 201 are formed on the conveying structure 200, and the straightening channel 300 and the fixing ring 402 are also provided in plurality, and each conveying position 201 corresponds to one straightening channel 300 and one fixing ring 402. Therefore, the processing capacity of the steel bars is improved, the processing of a plurality of steel bars can be completed at one time, the steel bars do not need to be processed one by one, the time is saved, the construction period is shortened, and the processing efficiency of the steel bars is improved.

Optionally, the conveying structure 200 includes a mounting frame body 202, conveying rollers 203 and a driving motor 204, the mounting frame body 202 is in an inverted U-shaped structure, the conveying rollers 203 are arranged in pairs, two ends of the paired conveying rollers 203 are movably connected to two opposite side walls of the mounting frame body 202, a conveying position 201 is formed between the paired conveying rollers 203, and the driving motor 204 is connected with the conveying rollers 203 and is used for driving the conveying rollers 203 to rotate. Like this, utilize paired conveying roller 203, can accomplish the transportation of reinforcing bar automatically, need not manual operation, reduce artifical intensity of labour, and mechanical drive's mode is more stable, promotes reinforcing bar transportation's stability and efficiency.

Alternatively, a plurality of limit stops 205 are provided on the conveying roller 203, and the conveying position 201 is formed between two adjacent limit stops 205 and the pair of conveying rollers 203. Thus, the limit baffle 205 can limit the moving direction of the steel bar, so that the situation that the steel bar is shifted on the conveying roller 203 is avoided, the steel bar can always move along the conveying direction, and the conveying stability of the steel bar is improved.

Alternatively, the diameters of the plurality of straightening channels 300 and the plurality of retaining rings 402 are different, wherein the corresponding straightening channels 300 and retaining rings 402 are the same diameter. Therefore, the steel bars with different diameters can be processed, and the application range is improved.

Optionally, during rebar transportation, the corresponding transportation site 201, straightening channel 300, and retaining ring 402 are on the same axis. In this way, under the action of the conveying structure 200, the steel bar on the conveying position 201 can smoothly move into the straightening channel 300, after pretreatment in the straightening channel 300, the steel bar can continuously move to the position of the bending plate 401 until one end of the steel bar smoothly penetrates into the fixing ring 402, and after the steel bar is fixed by the fixing ring 402, the steel bar bending processing is performed, so that the steel bar processing can be orderly performed.

Optionally, the transport bits 201 are disposed immediately adjacent to the straightening channel 300. Like this, because the reinforcing bar possesses elasticity, consequently both if the distance is farther, can't guarantee that the reinforcing bar gets into straightening passageway 300 smoothly, needs manual work to assist, consequently carry position 201 next-door neighbour straightening passageway 300 setting, can make the reinforcing bar smoothly and stably direct entering straightening passageway 300, guarantee the stability that the reinforcing bar was carried.

Optionally, a flare structure 301 is disposed at an end of the straightening channel 300 near the conveying position 201, and the flare structure 301 and the straightening channel 300 form a flare structure. In this way, the flared structure 301 can guide the movement of the reinforcing steel bar, so that the reinforcing steel bar can smoothly enter the straightening channel 300, and the situation that the reinforcing steel bar cannot enter the straightening channel 300 to affect the processing of the reinforcing steel bar due to slight position deviation is avoided.

Optionally, the straightening channel 300 is flush with the upper table top of the processing machine 100, and preferably, the bottom of the inner side surface of the straightening channel 300, which is horizontally arranged, is located in the plane of the upper table top of the processing machine 100. In this way, the steel bar can be attached to the upper table surface of the processing machine 100 all the time, and the situation that the steel bar is inclined and the subsequent bending quality is affected due to the overhigh setting of the straightening channel 300 is avoided.

It can be appreciated that, in order to ensure the quality of bending the reinforcing steel bar, it is required to ensure that the reinforcing steel bar is always attached to the upper table surface of the processing machine 100 to move, so as to avoid the situation that the bending quality of the reinforcing steel bar is affected due to the height difference between the reinforcing steel bar and the upper table surface of the processing machine 100, and therefore, the table surface on which the straightening channel 300 and the bending structure 400 are mounted is higher than the table surface on which the conveying structure 200 is mounted, so that the straightening channel 300 is flush with the upper table surface of the processing machine 100, and the reinforcing steel bar can always move along the upper table surface of the processing machine 100 to the bending structure 400 after passing through the straightening channel 300.

Optionally, the bending plate 401 is connected to the processing machine 100 through a rotating shaft 403, and the bending structure 400 further includes: a driving section 404. The driving portion 404 is disposed on the processing machine 100 and connected to the rotating shaft 403, and is used for driving the rotating shaft 403 to drive the bending plate 401 to rotate clockwise. Like this, mechanical drive's mode makes the reinforcing bar bending process automatic, promotes the efficiency and the stability that the reinforcing bar was buckled, helps high-efficient swiftly to accomplish the bending process to the reinforcing bar, and the mode of bending plate 401 and reinforcing bar linkage, but the angle of buckling of control reinforcing bar better makes the reinforcing bar of buckling satisfy the user demand, guarantees the quality to the reinforcing bar bending process.

Optionally, the rotation angle of the bending plate 401 is greater than 0 degrees and less than or equal to 90 degrees. In this way, the rotation angle of the bending plate 401 is in a reasonable range, and the rotation angle of the bending plate 401 is the bending angle of the reinforcing steel bar, so that the reinforcing steel bar can be bent in a range of 90 degrees, and the bending plate has various bending angles and is more practical.

Optionally, the height of the processing machine 100 is greater than the width of the bending plate 401, and preferably the height of the processing machine 100 is three times the width of the bending plate 401. In this way, the rotation range of the bending plate 401 can be enlarged, and the condition that the rotation of the bending plate 401 is influenced due to the lower height of the processing machine 100 is avoided, so that the height of the processing machine 100 is larger than the width of the bending plate 401, the bending plate 401 can stably rotate within the range of 0-90 degrees, the bending position of the reinforcing steel bar can be better adjusted, and the bending processing can be conveniently carried out at any position of the reinforcing steel bar.

In other embodiments, a fixing plate is disposed on the bending plate 401, one end of the fixing plate is rotationally connected with the bending plate 401, and the other end of the fixing plate is buckled and connected, wherein the fixing ring 402 is a semicircular groove structure formed on the fixing plate, and under the condition that the fixing plate is buckled and connected with the bending plate 401, the fixing ring 402 is buckled on the steel bar on the bending plate 401. In this way, when the reinforcing steel bar is bent, the fixing plate is buckled with the bending plate 401, so that the fixing ring 402 is positioned on the bending plate 401, one end of the reinforcing steel bar can smoothly pass through the fixing ring 402, and the reinforcing steel bar is fixed by the fixing ring 402 for bending; after the bending process, the end of the buckling connection of the two is disassembled, and then the fixing plate is rotated, so that the fixing ring 402 can be separated from the reinforcing steel bar, and the reinforcing steel bar after the bending process can be taken out smoothly.

As shown in fig. 3, the reinforcing bar processing apparatus for construction may further include: auxiliary conveying structure 600. The auxiliary conveying structure 600 is movably disposed on the processing machine 100 and between the straightening channel 300 and the bending structure 400, and the auxiliary conveying structure 600 is configured to limit movement of the reinforcing bars or the auxiliary conveying structure 200 conveys the reinforcing bars. Thus, the auxiliary conveying structure 600 is utilized to limit the movement of the reinforcing steel bars, so that the bending plate 401 is facilitated to bend the reinforcing steel bars more stably, the condition that bending is affected due to the movement of the reinforcing steel bars in the bending process is avoided, and after the reinforcing steel bars are bent, the auxiliary conveying structure 600 is utilized to convey the reinforcing steel bars, so that the reinforcing steel bars after bending can be smoothly separated from the processing table top, and the subsequent bending processing of the reinforcing steel bars can be conveniently performed.

Optionally, the auxiliary transmission structure 600 includes: a lifting mounting frame 601, a rotation shaft 602 and a driving wheel 603. The lifting mounting frame 601 is movably disposed on the processing machine 100 and located between the straightening channel 300 and the bending structure 400; the rotating shaft 602 is rotatably arranged on the lifting mounting frame 601; the driving wheel 603 is fixedly sleeved on the rotating shaft 602, wherein a transmission position is defined between the driving wheel 603 and the upper table surface of the processing machine 100, and the transmission position corresponds to the straightening channel 300. In this way, in the process of conveying the reinforcing steel bars, when the tail end of the reinforcing steel bar is separated from the conveying structure 200 and the head end of the reinforcing steel bar moves below the driving wheel 603, at this time, the lifting mounting frame 601 moves downwards to enable the driving wheel 603 to be in contact with the reinforcing steel bar, the driving wheel 603 is started, the shorter reinforcing steel bar can be continuously conveyed by using the driving wheel 603, and the shorter reinforcing steel bar can be stably conveyed to the position of the bending plate 401, so that reinforcing steel bars with various lengths can be processed, and the adaptability and the capability of processing the reinforcing steel bars are improved; and when bending the reinforcing bar, control drive wheel 603 stops rotating, and lift mounting bracket 601 moves down, utilizes drive wheel 603 to provide vertical decurrent pressure for the reinforcing bar, fixes the reinforcing bar, restricts the removal of reinforcing bar to avoid the reinforcing bar when buckling, influence the condition of buckling because of the removal of reinforcing bar, guarantee the stability and the effect of buckling of reinforcing bar bending process.

Optionally, the bottom of the lift mount 601 is mounted to the processing station 100 by an electric telescopic rod. Like this, the lifting mode is simplified, easily adjusts the relative position between drive wheel 603 and the reinforcing bar through electric telescopic handle according to the processing demand to the reinforcing bar, promotes the convenience of adjusting.

Optionally, the driving wheels 603 have a plurality of annular grooves 604 recessed along the radial direction of each driving wheel 603, and the annular grooves 604 are matched with the reinforcing steel bars, wherein each driving wheel 603 corresponds to one straightening channel 300. Thus, when bending processing of a plurality of reinforcing bars is performed simultaneously, by arranging a plurality of driving wheels 603 with annular grooves 604, each driving wheel 603 can stably act on one reinforcing bar, so that not only can the bending stability of the reinforcing bar be ensured, but also the reinforcing bar can be stably moved and conveyed, and after the processing is finished, the bent reinforcing bar is not required to be manually taken down, and the unloading can be automatically finished.

As shown in fig. 4, the reinforcing bar processing apparatus for construction may further include: cutting structure 700. The cutting structure 700 is movably disposed on the processing machine 100 and located between the straightening channel 300 and the bending structure 400 for cutting the steel bar. Like this, can utilize cutting structure 700 to cut the reinforcing bar according to the demand to reinforcing bar length of use to adjust length, can accomplish the processing of multiple form to the reinforcing bar, the function is diversified, satisfies construction and to the user demand of reinforcing bar diversification.

Alternatively, the cutting structure 700 includes a mounting bracket 701, a driving cylinder 702 and a cutting blade body 703, the mounting bracket 701 is in an inverted U-shaped structure, and two opposite side walls are slidably connected with the processing machine 100, the driving cylinder 702 is disposed on the top of the mounting bracket 701 in a penetrating manner, and the cutting blade body 703 is mounted on the bottom of the driving cylinder 702. Therefore, the cutting mode is simplified, the operation is convenient, and the cutting of the reinforcing steel bars can be efficiently and stably completed.

It should be understood that, since the present application can process a plurality of reinforcing bars at the same time, a plurality of cutter bodies 703 can be installed, and thus, a detailed description thereof will be omitted.

As shown in fig. 5 to 6, optionally, the bottom of the processing machine 100 is provided with a receiving groove 101, and the reinforcing steel bar processing apparatus for construction further includes a collecting box 800, where the collecting box 800 is slidably disposed in the receiving groove 101, and the collecting box 800 is configured to be located below the bending plate 401 in a case of sliding out of the receiving groove 101. Therefore, the processed reinforcing steel bars can be collected in a concentrated mode and transferred in a concentrated mode, and the procedure of arranging the reinforcing steel bars is reduced.

Optionally, the reinforcement bar processing apparatus for a building further includes a support stand 900. The supporting table 900 is disposed on the other side of the processing machine 100 and is slidably connected to a side wall of the processing machine 100, where the supporting table 900 corresponds to the conveying structure 200, and the supporting table 900 is used for supporting the reinforcing steel bar when the conveying structure 200 conveys the reinforcing steel bar. Like this, utilize brace table 900 can support the reinforcing bar, avoid the condition that one end of reinforcing bar takes place to buckle, guaranteed the stability that the reinforcing bar was carried.

It can be understood that, in the present application, the driving manner of the bending plate 401 and the structure for controlling the rotation of the driving wheel 603 are all driven by a motor, which is not described in detail herein, and the manner of slidably connecting the collecting box 800 and the supporting table 900 with the processing machine 100 is all configured by the conventional structure of matching the sliding chute with the sliding block, and the detailed structure is not described in detail herein.

The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may include structural and other modifications. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A rebar machining device for a building, comprising:

a processing machine (100);

the conveying structure (200) is arranged at one end of the upper table surface of the processing machine table (100) and is used for conveying the steel bars to be processed;

The straightening channel (300) is arranged on the processing machine table (100) and is correspondingly arranged on one side of the conveying structure (200), the straightening channel (300) is matched with the steel bar to be processed, and the straightening channel (300) is used for adjusting the shape of the steel bar to be processed and/or limiting the moving direction of the steel bar to be processed;

the utility model provides a buckling structure (400), including bending plate (401) and solid fixed ring (402), bending plate (401) rotate with the lateral wall top of processing board (100) and are connected, gu fixed ring (402) detachably sets up on bending plate (401), and gu fixed ring (402) are corresponding with alignment passageway (300), gu fixed ring (402) are used for fixing the reinforcing bar that is located bending plate (401), wherein, conveying structure (200), alignment passageway (300) and bending plate (401) set gradually on processing board (100), under the condition that bending plate (401) are in initial state, the upside of bending plate (401) is in the coplanar with the last mesa of processing board (100).

2. The reinforcing bar processing apparatus for construction according to claim 1, wherein the collecting box (500) is installed at the upper table surface of the processing machine (100), the straightening channel (300) is penetrated in the collecting box (500), and the side wall of the straightening channel (300) is of a porous net structure.

3. The reinforcing bar processing apparatus for construction of claim 2, wherein the inner side of the straightening channel (300) is a frosted surface.

4. The reinforcing bar processing apparatus for construction of claim 1, wherein the conveying structure (200) is formed with a plurality of conveying positions (201), and the straightening channel (300) and the fixing ring (402) are also formed with a plurality of conveying positions (201) corresponding to a straightening channel (300) and a fixing ring (402).

5. The reinforcing bar processing apparatus for construction according to claim 4, wherein the corresponding conveying position (201), straightening channel (300) and fixing ring (402) are on the same axis during the conveying of the reinforcing bar.

6. The rebar processing apparatus for construction according to claim 4, wherein the transfer station (201) is disposed proximate to the straightening channel (300).

7. The reinforcing bar processing apparatus for construction according to any one of claims 1 to 6, wherein the bending plate (401) is connected to the processing machine (100) through a rotation shaft (403), and the bending structure (400) further comprises:

The driving part (404) is arranged on the processing machine (100) and connected with the rotating shaft (403) and is used for driving the rotating shaft (403) to drive the bending plate (401) to rotate clockwise.

8. The reinforcing bar processing apparatus for construction according to any one of claims 1 to 6, further comprising:

The auxiliary conveying structure (600) is movably arranged on the processing machine table (100) and is positioned between the straightening channel (300) and the bending structure (400), and the auxiliary conveying structure (600) is configured to limit the movement of the reinforcing steel bars or the auxiliary conveying structure (200) is configured to convey the reinforcing steel bars.

9. The reinforcing bar processing apparatus for construction of claim 8, wherein the auxiliary transmission structure (600) comprises:

the lifting mounting frame (601) is movably arranged on the processing machine table (100) and is positioned between the straightening channel (300) and the bending structure (400);

A rotation shaft (602) rotatably provided on the lifting mounting frame (601);

The driving wheel (603) is fixedly sleeved on the rotating shaft (602), wherein a transmission position is defined between the driving wheel (603) and the upper table top of the processing machine table (100), and the transmission position corresponds to the straightening channel (300).

10. The reinforcing bar processing apparatus for construction according to any one of claims 1 to 6, further comprising:

The cutting structure (700) is movably arranged on the processing machine table (100) and is positioned between the straightening channel (300) and the bending structure (400) for cutting the reinforcing steel bars.