CN218195119U - Steel bar stacking rack - Google Patents

Abstract

The application relates to a rod iron piling bin relates to tubular pile production technical field. The device comprises two parallel supporting beams and a plurality of upright posts which are connected to each supporting beam in a sliding way; the upright posts slide along the length direction of the supporting beam, the upright posts on the same supporting beam are distributed along the length direction of the supporting beam, any upright post on one supporting beam is arranged opposite to one upright post on the other supporting beam, and two adjacent upright posts on one supporting beam and two adjacent upright posts on the other supporting beam form a stacking cavity for stacking steel bars together; and each support beam is provided with an adjusting component for adjusting the distance between two adjacent upright posts and fixing the positions of the upright posts. This application has the effect that improves the piling bin suitability.

Description

Steel bar stacking rack

Technical Field

The application relates to the technical field of tubular pile production, in particular to a steel bar stacking rack.

Background

In the building construction, the pipe pile is mainly used for bearing the load of an upper-layer building and has the advantages of high strength, durability, low manufacturing cost and the like. In the production of the tubular pile, a steel bar is required, and the steel bar has the advantages of high strength and toughness, low looseness, strong concrete bond stress and the like. In order to facilitate the safe and orderly production of a workshop, the steel bars need to be classified and stacked by placing a stacking rack on the ground.

Patent document 201320192039.9 discloses a reinforcing bar piling bin, including boundary beam, a supporting beam, baffle, base, sign frame, fixedly connected with baffle on two boundary beams is fixed with a supporting beam between two boundary beams, and a supporting beam below is equipped with the base, the baffle on be fixed with the sign frame, be equipped with the sign groove on the sign frame.

In view of the above related technologies, the inventor thinks that the two baffles are respectively and fixedly connected with the two edge beams, so that the distance between the two baffles is fixed, the number of the steel bars which can be stacked by the stacking rack is fixed at most, and when the number of the steel bars which need to be stacked is larger than the number of the steel bars which can be stacked by the stacking rack at most, the defect that the steel bars cannot be stacked in the stacking rack is caused, and the applicability of the stacking rack is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the suitability of piling bin, this application provides a rod iron piling bin.

The application provides a rod iron piling bin adopts following technical scheme:

a steel bar stacking rack comprises two parallel supporting beams and a plurality of upright posts connected to each supporting beam in a sliding manner;

the upright posts slide along the length direction of the supporting beam, the upright posts on the same supporting beam are distributed along the length direction of the supporting beam, any upright post on one supporting beam is arranged opposite to one upright post on the other supporting beam, and two adjacent upright posts on one supporting beam and two adjacent upright posts on the other supporting beam form a stacking cavity for stacking steel bars together;

and each supporting beam is provided with an adjusting component used for adjusting the distance between two adjacent upright posts and fixing the positions of the upright posts.

By adopting the technical scheme, in the process of stacking a plurality of steel bars, when the volume of the stacking cavity is too small, the adjusting component is adjusted to enable the stand columns to slide on the supporting beam along the length direction of the supporting beam, the distance between two adjacent stand columns on the same supporting beam is adjusted, the volume of the stacking cavity is increased until the volume of the stacking cavity is enough for stacking the plurality of steel bars, the stand columns are fixed on the supporting beam under the action of the adjusting component, and then the steel bars are stacked in the stacking cavity; the rod iron piling bin of design has adjusted the interval of two adjacent stands on same a root supporting beam through adjusting part, can be according to depositing the volume in demand adjustment stack chamber, and the rod iron of being convenient for stacks, has improved the suitability of rod iron piling bin.

Optionally, the adjusting assembly includes a first sliding block fixedly connected to the bottom end of each of the upright posts, and a locking member disposed on each of the first sliding blocks;

the supporting beam is provided with a sliding groove for the sliding of the first sliding block, and the sliding groove is formed along the length direction of the supporting beam;

the locking piece is used for fixing the position of the first sliding block.

Through adopting above-mentioned technical scheme, the adjusting part of design when the interval of two adjacent stands on same a root supporting beam is adjusted to needs, promotes first slider and slides along the spout, and first slider drives the stand motion, is convenient for adjust the interval of two adjacent stands.

Optionally, the retaining member includes at least one locking bolt, the locking bolt with first slider threaded connection, just the locking bolt stretches into spout one end with spout inner wall butt.

Through adopting above-mentioned technical scheme, the locking bolt of design is convenient for fix the position of first slider, and then is convenient for fix the position of stand.

Optionally, the adjusting assembly includes a screw, a second slider fixedly connected to the bottom end of each of the pillars, and a fixing member disposed on the screw;

the supporting beam is provided with a placing groove, and the placing groove is formed along the length direction of the supporting beam;

two ends of the screw rod are fixedly connected with the supporting beam, the screw rod is positioned in the placing groove, and the axial direction of the screw rod is parallel to the length direction of the supporting beam;

the second sliding blocks on the same supporting beam are connected with the screw in a sliding mode, the second sliding blocks are distributed along the axis direction of the screw, and the screw penetrates through the second sliding blocks;

the fixing piece is used for fixing the position of each second sliding block.

By adopting the technical scheme, the designed adjusting assembly pushes the second sliding block to move along the axis direction of the screw rod when the distance between two adjacent upright posts on the same supporting beam needs to be adjusted, and the second sliding block drives the upright posts to move, so that the distance between the two adjacent upright posts can be conveniently adjusted; and meanwhile, the screw rod plays a supporting role for the second sliding block.

Optionally, the fixing member includes a plurality of nuts threadedly coupled to the screw;

each second slider is all fixed through two the nut, just the second slider is located two between the nut, two the nut all with the both sides butt of second slider.

Through adopting above-mentioned technical scheme, the mounting of design is fixed a second slider through two nuts, is convenient for fix the position of second slider, and then is convenient for fix the position of stand.

Optionally, each of the pillars includes a fixed section, a sliding section, and a fastener disposed on each of the fixed sections;

the sliding section is connected with the fixed section in a sliding mode, the fixed section is sleeved on the sliding section, and one end, far away from the sliding section, of the fixed section is connected with the supporting beam in a sliding mode;

the fastener is used for fixing the sliding section on the fixed section.

Through adopting above-mentioned technical scheme, the stand of design through slip section and canned paragraph sliding connection, is convenient for adjust the height of whole root stand, uses the fastener to fix the position of slip section and canned paragraph, and the high fixed of the stand of being convenient for has increased the volume of stacking the chamber, and the piling bin of being convenient for stacks more rod irons, has further improved the suitability of piling bin.

Optionally, the fastening member includes at least one fastening bolt, the fastening bolt is in threaded connection with the fixed section, and one end of the fastening bolt extending into the fixed section abuts against the sliding section.

Through adopting above-mentioned technical scheme, the fastening bolt of design is convenient for fix the position of slip section and canned paragraph, and then is convenient for fix the height of whole root stand.

Optionally, a connecting rod is arranged between the two opposite sliding sections, and the end of the connecting rod is fixedly connected with the top ends of the two opposite sliding sections.

By adopting the technical scheme, the two opposite sliding sections are connected through the connecting rod by the designed connecting rod, so that the connection firmness of the two opposite upright posts is improved, and the possibility of the upright posts being inclined is reduced; meanwhile, the connecting rod is convenient for separating a plurality of stacking cavities, and steel bars with different specifications can be conveniently stacked in a classified manner.

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

1. according to the designed steel bar piling bin, the distance between two adjacent upright posts on the same supporting beam is adjusted through the adjusting assembly, the volume of the piling cavity can be adjusted according to the storage requirement, the steel bars can be piled conveniently, and the applicability of the steel bar piling bin is improved;

2. according to the designed steel bar stacking rack, the sliding section is connected with the fixed section in a sliding mode, so that the height of the whole upright column can be conveniently adjusted, the positions of the sliding section and the fixed section are fixed by using a fastening piece, the height of the upright column can be conveniently fixed, the volume of a stacking cavity is increased, more steel bars can be conveniently stacked by the stacking rack, and the applicability of the stacking rack is further improved;

3. according to the designed steel bar stacking rack, the two opposite sliding sections are connected through the connecting rod, so that the connection firmness of the two opposite upright columns is improved, and the possibility of the upright columns being inclined is reduced; meanwhile, the connecting rod is convenient for separating a plurality of stacking cavities, and steel bars of different specifications can be conveniently stacked in a classified manner.

Drawings

Fig. 1 is a schematic structural diagram of a steel bar stacking rack in embodiment 1 of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic structural diagram of a steel bar stacking rack in embodiment 2 of the present application.

Fig. 4 is an enlarged view of a portion B in fig. 3.

Reference numerals are as follows: 1. a support beam; 11. a chute; 12. a placement groove; 2. a column; 21. a fixed section; 22. a sliding section; 23. fastening a bolt; 24. a stacking chamber; 3. an adjustment assembly; 31. a first slider; 32. locking the bolt; 33. a screw; 34. a second slider; 35. a nut; 4. a ground surface; 5. a connecting rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses rod iron piling bin.

Example 1

Referring to fig. 1, a steel bar stacking rack comprises two parallel supporting beams 1, a plurality of upright posts 2 connected to each supporting beam 1 in a sliding manner, and an adjusting assembly 3 for adjusting the distance between two adjacent upright posts 2 on the same supporting beam 1 and fixing the positions of the upright posts 2; the two supporting beams 1 are fixed on the ground 4 in a bolt connection mode, the supporting beams 1 are horizontally arranged, the multiple upright columns 2 slide along the length direction of the supporting beams 1, the multiple upright columns 2 on the same supporting beam 1 are distributed along the length direction of the supporting beam 1, any one upright column 2 on one supporting beam 1 is arranged opposite to one upright column 2 on the other supporting beam 1, and two adjacent upright columns 2 on one supporting beam 1 and two adjacent upright columns 2 opposite to each other on the other supporting beam 1 form a stacking cavity 24 for stacking steel rods together; when the volume of the stacking cavity 24 is too small, the adjusting component 3 is adjusted, the upright posts 2 slide on the supporting beam 1 along the length direction of the supporting beam 1, the distance between two adjacent upright posts 2 on the same supporting beam 1 is increased, the volume of the stacking cavity 24 is increased until the volume of the stacking cavity 24 is enough for stacking a plurality of steel bars, then the adjusting component 3 is adjusted, the upright posts 2 are fixed on the supporting beam 1, and then the steel bars are stacked in the stacking cavity 24, so that the applicability of the steel bar stacking rack is improved.

Referring to fig. 1, in this application, the number of the stand columns 2 on the same supporting beam 1 may be two, may be five, may also be seven, but the realization is spacing and stack the rod iron, the number of the stand columns 2 on the same supporting beam 1 in this embodiment is seven, seven stand columns 2 all distribute along the length direction of the supporting beam 1, and seven stand columns 2 are all vertically arranged, the number of the stacking cavities 24 in this embodiment is six, so that the rod iron of one type is stacked in one stacking cavity 24, and the classified stacking of the rod iron is facilitated.

Referring to fig. 1 and 2, each upright column 2 includes a fixed section 21, a sliding section 22 and a fastener disposed on each fixed section 21, the sliding section 22 is slidably connected to the fixed section 21, the fixed section 21 is sleeved on the sliding section 22, the length direction of the sliding section 22 is parallel to the length direction of the fixed section 21, one end of the fixed section 21, which is far away from the sliding section 22, is slidably connected to the supporting beam 1, the fastener is used for fixing the sliding section 22 to the fixed section 21, and the fastener includes at least one fastening bolt 23, in this application, the number of the fastening bolts 23 may be one, may be two, or may be three, but it is sufficient to fix the sliding section 22 to the fixed section 21, in this embodiment, the number of the fastening bolts 23 is two, the two fastening bolts 23 are all in threaded connection with the fixed section 21, and one end of the fastening bolt 23, which extends into the fixed section 21, abuts against the sliding section 22, and the two fastening bolts 23 are disposed opposite to each other.

Referring to fig. 1 and 2, in order to improve the connection performance of two columns 2 and make the heights of two columns 2 opposite to each other the same, in this embodiment, a connecting rod 5 is arranged between two sliding sections 22 opposite to each other, the end portions of the connecting rod 5 are welded to the top ends of the two sliding sections 22 opposite to each other, and the connecting rod 5 is horizontally arranged; in order to facilitate the placement of the steel bar and prevent the top end of the sliding section 22 from scratching the working personnel, the top end of each sliding section 22 is arranged in a semicircular arc shape in the embodiment.

Referring to fig. 1 and 2, the adjusting assembly 3 includes first sliders 31 welded to the bottom end of each fixing section 21 and locking members disposed on each first slider 31, a sliding slot 11 for the first slider 31 to slide is formed in the top wall of the support beam 1, the sliding slot 11 is formed along the length direction of the support beam 1, the locking members are used for fixing the position of each first slider 31 on the support beam 1, and each locking member includes at least one locking bolt 32, in this embodiment, the number of the locking bolts 32 on one first slider 31 is two, in this application, the number of the locking bolts 32 on one first slider 31 is not limited to two, but it is only necessary to fix the position of the first slider 31, the two locking bolts 32 are both in threaded connection with the first slider 31, and one end of the locking bolt 32 extending into the sliding slot 11 abuts against the wall of the sliding slot 11, and the two locking bolts 32 are symmetrically disposed about the fixing section 21; in order to prevent the first slider 31 from separating from the chute 11, the first slider 31 is disposed in a convex shape in cross section in this embodiment.

The implementation principle of this application embodiment 1 a rod iron piling bin does: when the volume of one of the stacking cavities 24 is too small, the locking bolt 32 on the first sliding block 31 facing the bottom ends of the two upright posts 2 is adjusted, the first sliding block 31 is pushed to slide along the sliding groove 11, the first sliding block 31 drives the upright posts 2 to move, under the action of the connecting rod 5, the two facing upright posts 2 synchronously move, and then the two facing first sliding blocks 31 synchronously slide, so that the distance between the two adjacent upright posts 2 on the same supporting beam 1 is increased, the volume of the stacking cavity 24 is increased until the volume of the stacking cavity 24 is enough for stacking a plurality of steel bars, then the locking bolt 32 is adjusted, the first sliding block 31 is fixed on the supporting beam 1, so that the upright posts 2 are fixed on the supporting beam 1, meanwhile, the two fastening bolts 23 facing the upright posts 2 are adjusted, the sliding section 22 is pushed to slide upwards, under the action of the connecting rod 5, the heights of the two facing upright posts 2 are synchronously adjusted, the volume of the stacking cavity 24 is further increased, then the fastening bolts 23 are adjusted, the sliding section 22 is fixed on the fixed section 21, the steel bars are stacked in the stacking cavity 24, and the applicability of the steel bar stacking rack is improved.

Example 2

Referring to fig. 3 and 4, a difference between the present embodiment 2 and the embodiment 1 is that the adjusting assembly 3 includes a screw 33, a second slider 34 welded to the bottom end of each fixing section 21, and a fixing member disposed on the screw 33, a placing groove 12 is formed on the supporting beam 1, the placing groove 12 is formed along the length direction of the supporting beam 1, both ends of the screw 33 are welded to the supporting beam 1, the screw 33 is located in the placing groove 12, the axial direction of the screw 33 is parallel to the length direction of the supporting beam 1, in the present embodiment, seven vertical columns 2 are slidably connected to the same supporting beam 1, therefore, the number of the sliders on the same supporting beam 1 is seven, the seven second sliders 34 on the same supporting beam 1 are slidably connected to the screw 33, the seven second sliders 34 are distributed along the axial direction of the screw 33, the screw 33 penetrates through the second slider 34, in the present embodiment, the second slider 34 slides along the placing groove 12, the fixing member is used for fixing the position of each second slider 34, the fixing member includes a plurality of nuts 35 threadedly connected to the screw 33, in the fixing member may include four nuts 35 on the same screw 33, the same number of the ten sliders 35, but two nuts 35 are abutted to the two second sliders 34, and the nuts 35 of the two nuts 34 in the fixing member 34, and the fourteen nuts 35 are located on both sides of the same screw 33.

This application embodiment 2 an implementation principle of rod iron piling bin does: when the volume of one of the stacking cavities 24 is too small, the nuts 35 on the side walls of the second sliding blocks 34 facing the bottom ends of the two upright posts 2 are adjusted, the second sliding blocks 34 are pushed to slide along the placing grooves 12, the second sliding blocks 34 drive the upright posts 2 to move, under the action of the connecting rod 5, the two upright posts 2 facing each other synchronously move, the two second sliding blocks 34 facing each other synchronously slide, the distance between the two adjacent upright posts 2 on the same supporting beam 1 is increased, the volume of the stacking cavity 24 is increased until the volume of the stacking cavity 24 is enough for stacking a plurality of steel bars, then the nuts 35 are adjusted, the second sliding blocks 34 are fixed on the screw rods 33, the upright posts 2 are fixed on the supporting beam 1, meanwhile, the fastening bolts 23 on the two upright posts 2 facing each other are adjusted, the sliding sections 22 are pushed to slide upwards, the heights of the two upright posts 2 are synchronously adjusted under the action of the connecting rod 5, the volume of the stacking cavities 24 are further increased, then the fastening bolts 23 are adjusted, the sliding sections 22 are fixed on the fixed sections 21, the steel bars are stacked in the stacking cavities 24, and the applicability of the steel bar stacking rack is improved.

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

Claims (8)

1. The utility model provides a rod iron piling bin which characterized in that: the device comprises two parallel supporting beams (1) and a plurality of upright posts (2) which are connected to each supporting beam (1) in a sliding manner;

the multiple upright posts (2) slide along the length direction of the supporting beam (1), the multiple upright posts (2) on the same supporting beam (1) are distributed along the length direction of the supporting beam (1), any upright post (2) on one supporting beam (1) and one upright post (2) on the other supporting beam (1) are arranged just opposite to each other, and two adjacent upright posts (2) on one supporting beam (1) and two adjacent upright posts (2) on the other supporting beam (1) just opposite to each other form a stacking cavity (24) for stacking steel bars together;

each supporting beam (1) is provided with an adjusting component (3) which is used for adjusting the distance between two adjacent upright columns (2) and fixing the positions of the upright columns (2).

2. The steel bar stacking rack according to claim 1, wherein: the adjusting assembly (3) comprises first sliding blocks (31) fixedly connected to the bottom end of each upright post (2) and locking pieces arranged on the first sliding blocks (31);

the supporting beam (1) is provided with a sliding groove (11) for the sliding of the first sliding block (31), and the sliding groove (11) is formed along the length direction of the supporting beam (1);

the locking piece is used for fixing the position of the first sliding block (31).

3. The steel bar stacking rack according to claim 2, wherein: the retaining member includes at least one locking bolt (32), locking bolt (32) with first slider (31) threaded connection, just locking bolt (32) stretch into spout (11) one end with spout (11) inner wall butt.

4. A steel bar stacking rack according to claim 1, wherein: the adjusting assembly (3) comprises a screw rod (33), a second sliding block (34) fixedly connected to the bottom end of each upright post (2) and a fixing piece arranged on the screw rod (33);

the supporting beam (1) is provided with a placing groove (12), and the placing groove (12) is formed along the length direction of the supporting beam (1);

both ends of the screw rod (33) are fixedly connected with the supporting beam (1), the screw rod (33) is positioned in the placing groove (12), and the axial direction of the screw rod (33) is parallel to the length direction of the supporting beam (1);

the second sliding blocks (34) on the same supporting beam (1) are connected with the screw rod (33) in a sliding mode, the second sliding blocks (34) are distributed along the axial direction of the screw rod (33), and the screw rod (33) penetrates through the second sliding blocks (34);

the fixing piece is used for fixing the position of each second sliding block (34).

5. A steel bar stacking rack according to claim 4, wherein: the fixing member comprises a plurality of nuts (35) which are in threaded connection with the screw (33);

each second sliding block (34) is fixed through two nuts (35), the second sliding blocks (34) are located between the two nuts (35), and the two nuts (35) are abutted to the two sides of the second sliding blocks (34).

6. A steel bar stacking rack according to claim 1, wherein: each upright post (2) comprises a fixed section (21), a sliding section (22) and a fastener arranged on each fixed section (21);

the sliding section (22) is connected with the fixed section (21) in a sliding mode, the fixed section (21) is sleeved on the sliding section (22), and one end, far away from the sliding section (22), of the fixed section (21) is connected with the supporting beam (1) in a sliding mode;

the fastening element is used for fixing the sliding section (22) on the fixed section (21).

7. A steel bar stacking rack according to claim 6, wherein: the fastener comprises at least one fastening bolt (23), the fastening bolt (23) is in threaded connection with the fixed section (21), and one end, extending into the fixed section (21), of the fastening bolt (23) abuts against the sliding section (22).

8. A steel bar stacking rack according to claim 6, wherein: a connecting rod (5) is arranged between the two opposite sliding sections (22), and the end parts of the connecting rod (5) are fixedly connected with the top ends of the two opposite sliding sections (22).

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