CN215368935U - Automatic reinforcing steel bar processing field capable of being repeatedly circulated - Google Patents

Abstract

The utility model discloses an automatic steel bar processing field capable of being repeatedly circulated, which comprises a processing ground and a processing shed arranged on the processing ground; the processing shed comprises a plurality of rows of supporting frames, longitudinal beams which sequentially connect the plurality of rows of supporting frames, and ceilings which are laid at the top ends of the plurality of rows of supporting frames; the bottom ends of the plurality of rows of supporting frames are detachably connected with embedded parts arranged in the machining site; the ceiling comprises a mother shed and sub-sheds which are respectively arranged on two sides of the mother shed, and the two sub-sheds can be close to or far away from the mother shed; and a travelling crane rail for a travelling crane to slide is arranged on the plurality of rows of supporting frames along the length direction of the main beam. Through the mode, the combined shed capable of sliding relatively is arranged, the hoisting track is arranged in the middle of the support frame, the automation of the ceiling and hoisting of the steel bar processing shed is realized, and the support frame is detachably connected with the embedded part, so that the whole processing field can be detached and reused.

Description

Automatic reinforcing steel bar processing field capable of being repeatedly circulated

Technical Field

The utility model relates to the field of large-scale construction temporary facilities, in particular to an automatic steel bar processing field capable of being repeatedly circulated.

Background

The steel bar processing field is an important component part in construction site temporary construction, and the steel bar processing shed with the specification, automation and high standardization has positive significance for improving the production efficiency, ensuring the quality control and establishing a civilized construction site. The steel bar processing canopy degree of automation of traditional construction enterprise is low, adopts steel pipe + shaped steel + various steel sheet simply to make up more and forms, appears semi-manufactured goods and former material even and stacks mixed and disorderly, the unable condition of operation in sleet weather. The processing shed with the structure is not convenient to manage in the modern construction process of standardized management.

The traditional steel bar processing shed faces a plurality of difficulties in the use process, and comprises the advantages that the used section is light and thin, the wind resistance is low, manual pushing is needed for movement, the automation degree is low, and the safety risk is extremely high while a large amount of labor and time are needed; the secondary circulation utilization is difficult to realize, the use cost is high, the influence on the environment is relatively large, and the development of safe and civilized construction is not facilitated; due to the general size limitations of processing sheds, raw materials and finished products are difficult to stack in the same yard.

The prior art provides a can use pin-connected panel reinforcing bar processing field of week, including reinforcing bar processing ground and reinforcing bar processing canopy. The steel bar processing ground comprises a plurality of prefabricated parts A and a plurality of prefabricated parts B, the prefabricated parts A and the prefabricated parts B are both formed by pouring concrete, the prefabricated parts B are provided with embedded parts used for fixing the steel bar processing shed, and the prefabricated parts A and the prefabricated parts B are assembled as required; the steel bar processing shed comprises a plurality of groups of T-shaped support body structures and shed covers, wherein each group of T-shaped support body structure comprises two vertical support columns, a cross beam, two trusses and two first diagonal draw bars; the vertical supporting upright posts are connected with the cross beams, the cross beams are connected with the trusses, and the first diagonal draw bars are connected with the vertical supporting upright posts and the cross beams to form a T-shaped supporting body structure; the T-shaped support structures are connected with the second diagonal draw bars through bolts, and the shed cover is laid on the truss; the vertical supporting upright posts of each group of T-shaped supporting body structures are fixed on the steel bar processing ground by means of embedded parts arranged on the prefabricated parts B.

Although the turnover of reinforcing bar processing canopy has been realized to this kind of technique, can install and dismantle, this technique only possesses the function of dismouting turnover, and whole functional is not strong, needs artifical propelling movement steel, and processing canopy degree of automation is low.

Therefore, it is necessary to design an automatic steel bar processing field which can be repeatedly circulated, has high automation degree and can be used for adjusting a ceiling.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems, the utility model provides an automatic steel bar processing field capable of being repeatedly circulated, the ceiling and the hoisting automation of the steel bar processing shed are realized by arranging the primary and secondary sheds capable of sliding relatively and arranging the hoisting track in the middle of the supporting frame, and the supporting frame is detachably connected with the embedded part, so that the whole processing field can be detached and repeatedly used, the labor and the time are greatly saved, the safety risk can be reduced by optimizing materials and structures, the steel bar manufacturing efficiency can be improved, the required field is reduced, and the utility model has positive promotion effect on project civilization construction and modernized construction.

In order to achieve the purpose, the utility model adopts the technical scheme that:

an automatic reinforcing steel bar processing field capable of being repeatedly circulated comprises a processing ground and a processing shed arranged on the processing ground; the processing shed comprises a plurality of rows of supporting frames, longitudinal beams which sequentially connect the plurality of rows of supporting frames, and ceilings which are laid at the top ends of the plurality of rows of supporting frames;

the bottom ends of the plurality of rows of supporting frames are detachably connected with embedded parts arranged in the machining site;

the ceiling comprises a mother shed and sub-sheds which are respectively arranged on two sides of the mother shed, and the two sub-sheds can be close to or far away from the mother shed;

and a traveling crane rail for the traveling crane to slide is arranged on the plurality of rows of supporting frames along the length direction of the longitudinal beam.

Further, the support frame includes along the stand that horizontal symmetry set up and with two the girder that the top of stand is connected, the longeron will be respectively along same vertical arranging the stand connects gradually.

Further, the left and right sides on the top of stand all is provided with first bracket, arranges along same vertical be provided with the I-steel slide rail on the first bracket, two both ends respectively with the left and right sides of sub-canopy I-steel slide rail sliding connection.

Furthermore, the mother shed is arranged in the middle of the rows of support frames and fixed at the tops of the upright posts.

Further, the height of each mother shed is lower than that of each of the two sub sheds; the length of the overlapping area of the sub shed and the mother shed is 1m when the sub shed is completely unfolded.

Further, a second bracket is arranged on the upright post and is positioned below the first bracket; the second brackets are arranged along the same longitudinal direction and are provided with the travelling crane rails, and the travelling crane rails are connected with the travelling crane in a sliding mode.

Further, the height difference between the second bracket and the first bracket is 2 m.

Furthermore, the embedded part comprises an embedded steel plate and ground anchor steel bars, and the embedded steel plate and the ground anchor steel bars are formed by pouring concrete.

Furthermore, the bottom of stand all be provided with the same connecting steel plate of pre-buried steel sheet size, connecting steel plate with pre-buried steel sheet passes through rag bolt and connects, the earth anchor reinforcing bar along vertical direction pass set up in the connecting hole of stand bottom.

Furthermore, the embedded steel plate is a square steel plate with the thickness of 400mm multiplied by 600mm multiplied by 16mm, and the foundation bolts are respectively arranged at four corners of the embedded steel plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the reusable automatic steel bar processing field, the primary and secondary sheds capable of sliding relatively are arranged, the traveling crane rail is arranged in the middle of the support frame and is used for sliding of the traveling crane, steel can be conveyed quickly, steel bar processing shed ceilings and lifting automation are achieved, labor is greatly saved, and time is saved. And, can dismantle the connection with support frame and built-in fitting for used repeatedly can be dismantled in whole processing field, can reduce the safe risk through optimizing material and structure moreover, can also improve reinforcing bar preparation efficiency simultaneously, reduce the demand place, have positive impetus to project civilization construction and modernization construction.

2. According to the automatic steel bar processing field capable of being repeatedly circulated, the first bracket and the second bracket are arranged on the stand column, the I-shaped steel slide rail is arranged on the first bracket and serves as the slide rail of the sub-shed, so that the sub-shed can be quickly slid according to actual production requirements, the automation degree is high, the I-shaped steel slide rail is arranged on the second bracket and serves as the slide rail of the crane, steel is conveniently carried, the labor intensity of operating personnel is reduced, the operating time is shortened, the steel bar processing efficiency is greatly improved, the operating risk and the use cost are reduced, and the automatic steel bar processing field has a positive promoting effect on project civilization construction and modernized construction.

3. According to the reusable automatic steel bar processing field, the embedded steel plates and the ground anchor steel bars are arranged during ground pouring, the connecting steel plates are arranged at the bottom ends of the stand columns, and the connecting steel plates and the embedded steel plates can be connected in an aligned mode through the foundation bolts, so that the stand columns are convenient to disassemble and assemble, and the processing shed is reusable.

Drawings

FIG. 1 is a schematic elevation view of a reusable automated rebar machining plant of the present invention;

FIG. 2 is a schematic longitudinal sectional view of the reusable automated rebar machining plant of the present invention;

FIG. 3 is a schematic diagram of a construction column configuration for a repeatable automated rebar fabrication plant of the present invention;

FIG. 4 is a schematic cross-sectional view taken along A-A of FIG. 3;

FIG. 5 is a schematic cross-sectional view taken along the line B-B in FIG. 3;

FIG. 6 is a schematic cross-sectional view taken along the direction C-C in FIG. 3;

FIG. 7 is a schematic cross-sectional view taken along the direction D-D in FIG. 3;

FIG. 8 is a schematic structural diagram of an embedded steel plate of the reusable automated steel bar processing yard according to the present invention;

FIG. 9 is a schematic illustration of the connection of embedments of the repeatable automated rebar machining plant of the present invention;

the parts in the drawings are numbered as follows: 110. a column; 111. connecting steel plates; 120. a main beam; 130. a first corbel; 140. an I-steel slide rail; 150. a mother shed; 160. a sub-shed; 170. a second corbel; 180. a traveling crane rail; 190. pre-burying a steel plate; 191. a through hole; 192. ground anchor steel bars; 193. and (7) anchor bolts.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the utility model. It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

Example 1

As shown in fig. 1 to 2, an automated rebar machining plant capable of repeated turnover comprises a machining ground and a machining shed arranged on the machining ground. The processing shed comprises a plurality of rows of supporting frames, longitudinal beams which sequentially connect the plurality of rows of supporting frames, and a ceiling which is laid on the top ends of the plurality of rows of supporting frames. The longitudinal beams are longitudinally arranged at the upper ends of the support frames and are connected with the support frames through bolts so as to connect the support frames in a plurality of rows with each other, and therefore the ceiling can be paved. It is worth noting that the longitudinal beam is connected with the support frame through the bolt, so that the longitudinal beam and the support frame can be rapidly disassembled and assembled conveniently, welding connection is not needed, and construction is simple and pollution-free. The bottom of a plurality of rows of support frames can be dismantled with the built-in fitting that sets up in the processing site and be connected for the support frame can be dismantled with processing ground, and the support frame can reuse, thereby makes whole processing field realize the turnover and use. And a traveling crane rail 180 for the traveling crane to slide is arranged on the plurality of rows of support frames along the length direction of the longitudinal beam. The crane rail 180 is arranged along the longitudinal direction, and the crane can slide back and forth along the longitudinal direction in the crane rail 180, so that steel in a processing yard can be conveniently carried, and the labor intensity and the operation time of operators are reduced. The ceiling comprises a mother shed 150 and sub-sheds 160 which are respectively arranged on two sides of the mother shed 150, and the two sub-sheds 160 can be close to or far away from the mother shed 150, so that the laying area of the ceiling can be automatically changed according to the actual processing condition.

So set up, but the processing field sets up relative slip's primary and secondary canopy 150, can change the expansion region of ceiling according to actual need to set up line and hang track 180 in the middle part of the support frame, the line hangs track 180 and supplies the driving to hang the slip, and the quick transport of the steel of being convenient for has realized steel bar processing canopy ceiling and hoist and mount automation, saves artifical, save time greatly. And, can dismantle the support frame with the built-in fitting and be connected, pass through bolted connection with support frame and longeron for used repeatedly can be dismantled in whole processing field, can also improve reinforcing bar preparation efficiency simultaneously through optimizing material and structure reduction safe risk moreover, reduce the demand place, have positive impetus to project civilization construction and modernization construction.

As shown in fig. 1 to 2, in some embodiments, the support frame includes upright columns 110 symmetrically arranged in a transverse direction, and a main beam 120 connecting top ends of the two upright columns 110. The whole door column structure setting that is of support frame, two stands 110 adopt bolted connection with girder 120 for the support frame comprises the component of dismantling, makes things convenient for the dismouting. Specifically, the columns 110 are arranged in a rectangular shape, the cross beams connect two columns 110 arranged in the same transverse direction, and the longitudinal beams connect a plurality of columns 110 arranged in the same longitudinal direction, so as to form a basic framework of the whole processing field. Moreover, the upright columns 110, the longitudinal beams and the main beams 120 are connected through bolts, so that the upright columns, the longitudinal beams and the main beams are conveniently and directly assembled in a processing field without electric welding connection, the pollution caused by electric welding is reduced, and the assembling time is greatly reduced.

In particular, the structural columns formed by the vertical columns 110 are connected by bolts, as shown in fig. 3 to 7.

As shown in fig. 1 to 2, in some embodiments, the first brackets 130 are disposed on both left and right sides of the top end of the upright 110, that is, the first brackets 130 arranged along the same longitudinal direction have four longitudinal rows. Wherein, the two wale first brackets 130 are respectively arranged at the opposite sides of the two wale vertical columns 110, and are provided with an i-beam slide rail 140 for one of the sub-sheds 160 to slide; the other two longitudinal first corbels 130 are respectively arranged on the opposite sides of the two longitudinal upright posts 110, and are provided with an i-steel slide rail 140 for the other shed 160 to slide.

Specifically, the mother shelter 150 is installed at the middle of the rows of support frames and fixed to the top of the vertical columns 110. One of the sub-sheds 160 is higher than the main shed 150 and is slidably connected to the i-steel slide rails 140 on the opposite sides of the two wale columns 110 so as to slide back and forth below the main shed 150; the other sub-shed 160 is also higher than the main shed 150 and is slidably connected to the i-steel slide rail 140 on the opposite side of the two longitudinal columns 110 to slide back and forth above the main shed 150. The length of the overlapping area of the two sub-booths 160 with the mother booth 150 when fully unfolded is 1 m.

As shown in fig. 1-2, in some embodiments, a second bracket 170 is disposed on the upright 110, and the second bracket 170 is disposed on an opposite side of the two longitudinal rows of uprights 110. The second bracket 170 is positioned below the first bracket 130, and the height difference between the second bracket 170 and the first bracket 130 is set to 2 m. The second brackets 170 arranged along the same longitudinal direction are provided with traveling crane rails 180, and the traveling crane rails 180 are connected with traveling cranes in a sliding manner. The crane slides back and forth along the crane track 180, so that steel products in a processing yard can be transported, manpower is greatly saved, transportation time is shortened, and automatic transportation is realized.

As shown in fig. 8 to 9 and referring to fig. 1, in some embodiments, the embedded part includes embedded steel plates 190 and ground anchor bars 192, and the embedded steel plates 190 and the ground anchor bars 192 are formed by casting concrete, so that the firmness of the embedded steel plates 190 and the ground anchor bars 192 is improved, and the stability of the foundation is ensured.

The bottom of stand 110 all is provided with the connecting steel plate 111 the same with embedded steel sheet 190 size, and connecting steel plate 111 passes through rag bolt 193 with embedded steel sheet 190 and is connected, and ground anchor reinforcing bar 192 passes the connecting hole that sets up in the stand 110 bottom along vertical direction to through the bolt-up, guarantee the steadiness that connecting steel plate 111 is connected with embedded steel sheet 190. So set up, the connection steel sheet 111 through stand 110 is connected with the counterpoint of built-in fitting, realizes being connected dismantled on stand 110 and the processing ground, makes things convenient for the dismouting of stand 110, realizes the reuse of processing canopy.

Specifically, the embedded steel plate 190 is a square steel plate 400mm × 600mm × 16mm, and the anchor bolts 193 are disposed at four corners of the embedded steel plate 190. Through holes 191 for installing foundation bolts 193 are formed in four corners of the embedded steel plate 190, and the distance between the through holes 191 and two adjacent edges of the embedded steel plate 190 is 50 mm.

The following description of specific embodiments of the present invention is provided:

the connecting steel plates 111 at the bottom ends of the upright columns 110 are aligned with the embedded steel plates 190 and connected with the foundation bolts 193 through the ground anchor steel bars 192. Subsequently, the top ends of the columns 110 in the same horizontal row are connected by the main beams 120, and the top ends of the columns 110 in the same vertical row are connected by the longitudinal beams. Then, the first brackets 130 are installed at the left and right sides of the top end of the upright 110 by bolts, and the i-beam slide rails 140 are installed on the first brackets 130. The mother shed 150 is erected on the top end of the upright post 110 at the middle position, and the two subsidiary sheds 160 are respectively installed on both sides of the mother shed 150 and slidably connected with the i-steel slide rail 140. Finally, a second bracket 170 is mounted on the column 110, and a hoist rail 180 is mounted on the second bracket 170.

The above description is only for the purpose of illustrating the technical solutions of the present invention and is not intended to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; all the equivalent structures or equivalent processes performed by using the contents of the specification and the drawings of the utility model, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An automatic reinforcing steel bar processing field capable of being repeatedly circulated comprises a processing ground and a processing shed arranged on the processing ground; the processing shed is characterized by comprising a plurality of rows of supporting frames, longitudinal beams which sequentially connect the plurality of rows of supporting frames, and ceilings which are laid at the top ends of the plurality of rows of supporting frames;

the bottom ends of the plurality of rows of supporting frames are detachably connected with embedded parts arranged in the machining site;

the ceiling comprises a mother shed (150) and sub sheds (160) which are respectively arranged on two sides of the mother shed (150), and the two sub sheds (160) can be close to or far away from the mother shed (150);

and a traveling crane rail (180) for the traveling crane to slide is arranged on the plurality of rows of supporting frames along the length direction of the longitudinal beam.

2. A reusable automated steel bar processing yard according to claim 1, wherein the supporting frame comprises columns (110) symmetrically arranged in the transverse direction, and main beams (120) connecting the top ends of the two columns (110), and the longitudinal beams respectively connect the columns (110) arranged in the same longitudinal direction in sequence.

3. The reusable automated steel bar processing field according to claim 2, wherein the left side and the right side of the top end of the upright column (110) are provided with first brackets (130), the first brackets (130) arranged along the same longitudinal direction are provided with I-shaped steel slide rails (140), and the left end and the right end of each of the two sub-sheds (160) are respectively connected with the I-shaped steel slide rails (140) in a sliding manner.

4. A reusable automated steel bar processing yard according to claim 3, wherein the mother shed (150) is provided at a middle position of the rows of support frames and fixed to the top of the columns (110).

5. A returnable automated rebar machining plant according to claim 4, wherein the height of the parent shed (150) is lower than both of the child sheds (160); the length of the overlapping area of the sub shed (160) and the mother shed (150) when the sub shed is completely unfolded is 1 m.

6. A reusable automated steel bar processing yard according to claim 3, characterized in that a second bracket (170) is provided on the column (110), the second bracket (170) being located below the first bracket (130); the second brackets (170) which are arranged along the same longitudinal direction are provided with the travelling crane rails (180), and the travelling crane rails (180) are connected with the travelling crane in a sliding manner.

7. A reusable automated bar processing plant according to claim 6, characterized in that the difference in height of the second bracket (170) and the first bracket (130) is 2 m.

8. The reusable automated rebar machining plant according to claim 2, wherein the embedded parts comprise embedded steel plates (190) and ground anchor bars (192), and the embedded steel plates (190) and the ground anchor bars (192) are formed by pouring concrete.

9. The reusable automated steel bar processing field according to claim 8, wherein the bottom ends of the vertical columns (110) are provided with connecting steel plates (111) with the same size as the embedded steel plates (190), the connecting steel plates (111) and the embedded steel plates (190) are connected through foundation bolts (193), and the ground anchor steel bars (192) penetrate through connecting holes formed in the bottom ends of the vertical columns (110) in the vertical direction.

10. The reusable automated steel bar processing yard according to claim 9, wherein the pre-buried steel plate (190) is a square steel plate of 400mm x 600mm x 16mm, and the anchor bolts (193) are disposed at four corners of the pre-buried steel plate (190).

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