CN219766656U - Processing device of mutual buckling type steel bar welding net - Google Patents

Abstract

The utility model discloses a processing device of a mutual buckling type steel bar welding net, and belongs to the technical field of steel bar net processing. The utility model comprises a stepping device and a steel bar feeding device, wherein the surface of the stepping device is provided with a threading hole which is divided into an upper layer and a lower layer and is arranged in a crossing way, and longitudinal steel bars are penetrated into the threading hole; a plurality of groups of electrode holders are arranged in the running direction of the longitudinal steel bars, each group of electrode holders comprises an upper electrode and a lower electrode, and steel bar feeding devices are respectively arranged on two sides of the upper electrode and the lower electrode and used for conveying transverse steel bars; the output end of the stepping device is also provided with a trawl device, one side of the trawl device is provided with a trawl hook, and the hook head end of the trawl hook is connected with the transverse reinforcing steel bar. According to the utility model, two net sheets are produced simultaneously, and net sheets of two pairs are directly processed, so that the reduction of packing height is realized, the later net turning operation is avoided, and the production of two net sheets is completed simultaneously at one time, so that the production efficiency is greatly improved.

Description

Processing device of mutual buckling type steel bar welding net

Technical Field

The utility model relates to the technical field of reinforcement mesh processing, in particular to a processing device of a mutual buckling type reinforcement welded mesh.

Background

The longitudinal steel bars and the transverse steel bars of the steel bar welding net are respectively arranged at a certain interval and form right angles, all the cross points are welded together by a resistance spot welding method, the processing of the steel bar welding net is completed by special equipment, the longitudinal steel bars are arranged according to the interval requirement and move step by step, the transverse steel bars fall into corresponding positions through a material distribution system and are pressed down to be welded by resistance welding, the production of one net sheet is generally completed once, the subsequent net sheets are stacked and packed after being produced, but the packing mode has smaller unit volume weight, and the subsequent transportation cannot be carried and carried due to the limitation of bearing height, so that the transportation cost is overhigh, and the net turning mode is adopted: one is just, opposite, two double-phase are detained, reduce the packing height, turn over the net and adopt the manual work also can adopt proprietary equipment, but all can increase corresponding processing cost, reduction in production efficiency.

Disclosure of Invention

1. Technical problem to be solved by the utility model

Aiming at the defects and shortcomings in the prior art, the utility model provides a processing device of a cross-buckling type steel bar welded mesh, which directly processes meshes two by two through simultaneous production of two meshes, realizes reduction of packing height, avoids later mesh turning operation, simultaneously completes the production of two meshes at one time, and can greatly improve production efficiency.

2. Technical proposal

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model relates to a processing device of a cross-buckling type steel bar welding net, which comprises a stepping device and a steel bar feeding device, wherein the stepping device comprises a steel bar welding net body and a steel bar welding net body, wherein the steel bar welding net body comprises a steel bar welding net body and a steel bar welding net body, the steel bar welding net body is arranged on the steel bar welding net body, and:

the surface of the stepping device is provided with a threading hole which is divided into an upper layer and a lower layer and is arranged in a crossing way, and a longitudinal steel bar is penetrated into the threading hole;

a plurality of groups of electrode holders are arranged in the running direction of the longitudinal steel bars, each group of electrode holders comprises an upper electrode and a lower electrode, and steel bar feeding devices are respectively arranged on two sides of the upper electrode and the lower electrode and used for conveying transverse steel bars;

the electrode holders are arranged front and back along the running direction of the longitudinal steel bars, and the electrode holders are staggered along the feeding direction of the steel bar feeding device;

the output end of the stepping device is also provided with a trawl device, one side of the trawl device is provided with a trawl hook, and the hook head end of the trawl hook is connected with the transverse reinforcing steel bar.

Further, the steel bar feeding device is provided with two groups of steel bars which are arranged at two sides of the running direction of the longitudinal steel bars at intervals, and the transverse steel bars conveyed by the two groups of steel bar feeding devices are arranged on the same horizontal line in parallel.

Further, the electrode holders are arranged at the intersection of the longitudinal steel bars and the transverse steel bars in a staggered mode, the upper electrode and the lower electrode of each electrode holder form a loop with a power supply system respectively, and the up-and-down movement of the upper electrode can be realized through a hydraulic cylinder or an air cylinder.

Furthermore, the stepping device can penetrate into the longitudinal steel bars of the two meshes, and the stepping movement of the stepping device is realized by driving the gear rack through the servo motor.

Further, the longitudinal steel bars are fixed-length straight bars, and the initial raw materials of the transverse steel bars are wire rods.

Further, the steel bar feeding device straightens and cuts the wire rod steel bars into transverse steel bars to fall into a welding position.

Further, after the longitudinal steel bars and the transverse steel bars are in place, the upper electrode which can move up and down is pressed down to be communicated with the intersection point of the fixed lower electrode and the longitudinal steel bars, and resistance heat is generated at the intersection point to melt metal into welding spots to enable the longitudinal steel bars to be connected.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

according to the utility model, two net sheets are produced simultaneously, and net sheets of two pairs are directly processed, so that the reduction of packing height is realized, the later net turning operation is avoided, and the production of two net sheets is completed simultaneously at one time, so that the production efficiency is greatly improved.

Drawings

FIG. 1 is a welding state diagram of the present utility model;

FIG. 2 is a cross-sectional view of the weld of the present utility model;

FIG. 3 is a block diagram of an electrode holder according to the present utility model;

fig. 4 is a block diagram of the stepping device of the present utility model.

In the figure: 1. a trawl device; 2. transverse steel bars; 3. a trawl hook; 4. an upper electrode; 5. a lower electrode; 6. longitudinal steel bars; 7. a stepping device; 71. a threading hole; 8. reinforcing bar material feeding unit.

Detailed Description

The utility model is further described below with reference to the accompanying drawings and examples:

example 1

As can be seen from fig. 1 to 4, a processing device for a cross-buckling type steel bar welded mesh of the present embodiment includes a stepping device 7 and a steel bar feeding device 8:

the surface of the stepping device 7 is provided with a threading hole 71, the threading hole 71 is divided into an upper layer and a lower layer and is arranged in a crossing way, and a longitudinal steel bar 6 is penetrated into the threading hole 71;

the stepping device 7 can penetrate into the longitudinal steel bars 6 of the two meshes, and the stepping movement of the stepping device 7 is realized by driving the gear rack by the servo motor;

a plurality of groups of electrode seats are arranged in the running direction of the longitudinal steel bars 6, each group of electrode seats comprises an upper electrode 4 and a lower electrode 5, steel bar feeding devices 8 are respectively arranged on two sides of the upper electrode 4 and the lower electrode 5, and the steel bar feeding devices 8 are used for conveying transverse steel bars 2;

the steel bar feeding devices 8 are provided with two groups of steel bars which are arranged at two sides of the running direction of the longitudinal steel bars 6 at intervals, and the transverse steel bars 2 conveyed by the two groups of steel bar feeding devices 8 are arranged on the same horizontal line in parallel.

The longitudinal steel bar 6 is a fixed-length straight bar, the initial raw material of the transverse steel bar 2 is a wire rod, and the wire rod steel bar is straightened, fixed-length and cut into the transverse steel bar 2 by the steel bar feeding device 8 and then falls into a welding position;

the electrode holders are arranged front and back along the running direction of the longitudinal steel bars 6, and the electrode holders are staggered along the feeding direction of the steel bar feeding device 8;

the upper electrodes 4 and the lower electrodes 5 of each group of electrode holders are respectively connected with a power supply system to form a loop, the up-and-down movement of the upper electrodes 4 can be realized through a hydraulic cylinder or an air cylinder, after the longitudinal steel bars 6 and the transverse steel bars 2 are in place, the upper electrodes 4 which can move up and down are pressed down to be communicated with the fixed lower electrodes 5 and the crossing points of the longitudinal steel bars and the transverse steel bars, and resistance heat is generated at the crossing points to melt metal into welding spots to enable the longitudinal steel bars and the transverse steel bars to be connected.

The output end of the stepping device 7 is also provided with a trawl device 1, one side of the trawl device 1 is provided with a trawl hook 3, and the hook end of the trawl hook 3 is connected with the transverse steel bar 2.

After the welding is finished, the stepping device 7 can drive the longitudinal steel bars 6 to move forwards for one grid interval to carry out the next welding, when the welding is carried out to a certain position, the stepping device 7 withdraws from the longitudinal steel bars 6, and the trawl hooks 3 on the trawl device 1 at the rear part of the device act to hang the welded net sheet to carry out the subsequent stepping movement until the whole net sheet is processed;

a processing method of a processing device of a mutual buckling type steel bar welding net comprises the following steps:

step one: the longitudinal steel bars 6 are straight bars with fixed length, the longitudinal steel bars 6 of two meshes are respectively staggered and then are vertically arranged and simultaneously penetrate into the threading holes 71 on the stepping device 7, and are sent to an initial position through the longitudinal movement of the stepping device 7, as shown in fig. 3;

step two: the initial raw materials of the transverse steel bars 2 are wire rods, the wire rods are fed from the left side and the right side of the longitudinal steel bars 6 through the steel bar feeding device 8, the positions are staggered front and back, and the wire rods are cut off after reaching the set positions;

step three: the front and rear two rows of welding electrodes along the running direction of the longitudinal steel bars 6 are respectively welded corresponding to two meshes, one row of electrode holders comprises a plurality of groups of independent electrode holders, each group of electrode holders comprises an upper electrode 4 and a lower electrode 5, the upper electrode 4 can move up and down, the lower electrode 5 is fixed, and when the longitudinal steel bars 6 and the transverse steel bars 2 are in place, the upper electrode 4 is pressed down to be conducted with the lower electrode 5 and then is subjected to resistance welding;

step four: after the welding is finished, the stepping device 7 drives the longitudinal steel bars 6 and the welded transverse steel bars 2 to move by a grid interval distance; as shown in fig. 1

Step five: repeating the steps until the whole net sheet is welded;

step six: the trawl hook 3 on the trawl device 1 drags out two net sheets after welding, the production of the two net sheets is completed, the shaded part in the figure refers to the lower net sheet, at the moment, the two net sheets are buckled up and down, the reduction of the packing height is realized, and the production efficiency is greatly improved because the simultaneous production of the two net sheets can be completed at one time.

According to the utility model, two net sheets are produced simultaneously, and net sheets of two pairs are directly processed, so that the reduction of packing height is realized, the later net turning operation is avoided, and the production of two net sheets is completed simultaneously at one time, so that the production efficiency is greatly improved.

The utility model and its embodiments have been described above by way of illustration and not limitation, and the utility model is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present utility model.

Claims (7)

1. The utility model provides a processingequipment of mutual knot formula steel bar welded mesh, includes step device (7) and reinforcing bar material feeding unit (8), its characterized in that:

the surface of the stepping device (7) is provided with a threading hole (71), the threading hole (71) is divided into an upper layer and a lower layer and is arranged in a crossing way, and a longitudinal steel bar (6) is penetrated into the threading hole (71);

a plurality of groups of electrode seats are arranged in the running direction of the longitudinal steel bars (6), each group of electrode seats comprises an upper electrode (4) and a lower electrode (5), steel bar feeding devices (8) are respectively arranged on two sides of the upper electrode (4) and the lower electrode (5), and the steel bar feeding devices (8) are used for conveying transverse steel bars (2);

the electrode holders are arranged front and back along the running direction of the longitudinal steel bars (6), and the electrode holders are staggered along the feeding direction of the steel bar feeding device (8);

the output end of the stepping device (7) is also provided with a trawl device (1), one side of the trawl device (1) is provided with a trawl hook (3), and the hook end of the trawl hook (3) is connected with the transverse steel bar (2).

2. The processing device for the interlocking rebar welded mesh according to claim 1, wherein: the steel bar feeding device (8) is provided with two groups of steel bars which are arranged at two sides of the running direction of the longitudinal steel bars (6) at intervals, and the transverse steel bars (2) conveyed by the two groups of steel bar feeding device (8) are arranged on the same horizontal line in parallel.

3. The processing device for the interlocking rebar welded mesh according to claim 1, wherein: the electrode holders are arranged at the intersection of the longitudinal steel bars (6) and the transverse steel bars (2) in a staggered mode, the upper electrode (4) and the lower electrode (5) of each electrode holder form a loop with a power supply system respectively, and the up-and-down movement of the upper electrode (4) can be realized through a hydraulic cylinder or an air cylinder.

4. The processing device for the interlocking rebar welded mesh according to claim 1, wherein: the stepping device (7) can penetrate into the longitudinal steel bars (6) of the two meshes, and the stepping movement of the stepping device (7) is realized by driving the gear rack through the servo motor.

5. The processing device for the interlocking rebar welded mesh according to claim 1, wherein: the longitudinal steel bar (6) is a fixed-length straight bar, and the initial raw material of the transverse steel bar (2) is a wire rod.

6. The processing device for the interlocking rebar welded mesh of claim 5, wherein: the steel bar feeding device (8) straightens and cuts the wire rod steel bar into transverse steel bars (2) to fall into a welding position.

7. The apparatus for manufacturing a welded mesh of interlocking rebar according to claim 6, wherein: after the longitudinal steel bars (6) and the transverse steel bars (2) are in place, the upper electrode (4) capable of moving up and down is pressed down to be communicated with the fixed lower electrode (5) and the crossing points of the longitudinal steel bars, and resistance heat is generated at the crossing points to melt metal into welding spots to enable the longitudinal steel bars to be connected.