CN221110470U - Be used for reinforcing bar net piece welded bed-jig - Google Patents

Abstract

The invention discloses a jig frame for welding reinforcing steel meshes, which comprises the following components: the placing rack is used for placing the reinforcing steel meshes to be welded; the placing base is connected with the placing rack at one side of the top of the placing base; the bracket is connected to the non-working end of the placing frame; wherein, place the base and incline to the support direction setting. The invention has novel and reasonable design and easily controlled welding quality, and can improve the production efficiency of the reinforcing steel bar net sheet; meanwhile, the vertical steel bar stacking rack and the transverse steel bar stacking rack are arranged at the placing rack, so that vertical steel bars and transverse steel bars can be stacked in a classified mode, and the working efficiency of installing meshes is improved.

Description

Be used for reinforcing bar net piece welded bed-jig

Technical Field

The utility model relates to a jig frame, in particular to a jig frame for welding reinforcing steel meshes, and belongs to the technical field of infrastructure construction.

Background

In tunnel construction, the reinforcing bar net piece is mainly used in the preliminary bracing, generally sets up the reinforcing bar net piece after the excavation face is just spouted 2cm concrete to hug closely the concrete face and hang and establish. The size of the reinforcing mesh is related to the excavation footage of each cycle of the tunnel, and the smaller the size of the reinforcing mesh processed in a factory is, the higher the cost and the long the transportation distance are; the welding machine is used for processing the steel bar meshes, a worker is at least required to put the steel bars in the longitudinal and transverse directions, only one mesh can be welded each time, the working efficiency is low, in addition, the welding spots of the welding machine are unstable, the occupied space of a working place is large, and the working place is disordered.

At present, the Chinese patent of the utility model with the bulletin number of CN205949755U discloses a reinforcing mesh processing and manufacturing platform, which comprises a placing rack for placing reinforcing meshes to be welded and a fixing frame connected with the placing rack and used for adjusting the placing angle of the placing rack, wherein the placing rack is provided with a placing part for supporting and placing the reinforcing meshes to be welded and a positioning part connected with the placing part and used for positioning and fixing the reinforcing meshes to be welded. However, in the process of welding the reinforcing mesh, the working efficiency of operators can be affected due to the fact that the arrangement of the arrangement parts is too many; because reinforcing bar net piece weight, area are great, and the reinforcing bar net piece that the rack put is limited, and the quantity that once can weld is limited, and it is big to place too much rack bearing pressure, can influence the stability of device.

Therefore, the key point for solving the technical problems is to develop a reinforcing mesh welding jig frame which is convenient to use and high in practicability.

Disclosure of Invention

Aiming at the defects and shortcomings in the background technology, the utility model improves and innovates the defects, and aims to provide the reinforcing steel bar net welding jig frame which is novel and reasonable in design and easy to control the welding quality, and the reinforcing steel bar net production efficiency is improved.

The vertical steel bar stacking frame and the transverse steel bar stacking frame are arranged at the placing frame, so that the vertical steel bars and the transverse steel bars can be stacked in a classified mode, and the work efficiency of installing the net piece is improved.

In order to solve the problems and achieve the above object, the utility model provides a jig for welding reinforcing mesh, which is realized by adopting the following design structure and the following technical scheme:

As an improvement of the jig frame for welding the reinforcing mesh,

Comprising the following steps:

the rack (1), the rack (1) is used for placing the steel bar net piece to be welded;

the placing base (2), the placing frame (1) is connected to one side of the top of the placing base (2);

The bracket (3) is connected to the non-working end of the placing frame (1);

wherein, place base (2) to support (3) direction slope setting.

As the improvement of the utility model, the utility model further comprises a vertical steel bar stacking frame (4), wherein the vertical steel bar stacking frame (4) is positioned at one end of the placing base (2), and the vertical steel bar stacking frame (4) is used for placing the vertical steel bars (5).

As a further improvement of the present utility model described above, the vertical reinforcement bar stacking rack (4) includes:

a vertical reinforcement stacking base (41);

the vertical reinforcement limiting stand columns (42) are vertically connected to four corners of the vertical reinforcement stacking base (41);

Wherein, the outer side of the upper part of one vertical reinforcement limit upright post (42) is also connected with a hook (43).

As a further improvement of the utility model, the device also comprises a transverse steel bar stacking frame (6), wherein the transverse steel bar stacking frame (6) is positioned at the other end of the placing base (2), and the transverse steel bar stacking frame (6) is used for placing transverse steel bars (7).

As a further improvement of the present utility model described above, the transverse bar stacking rack (6) includes:

a transverse reinforcement stacking base (61);

The transverse reinforcement limiting stand columns (62) are vertically connected to four corners of the transverse reinforcement stacking base (61).

As a still further improvement of the present utility model described above, the rack (1) includes:

The transverse support rods (11) are connected with the inner side surface of the placement base (2) at equal intervals or unequal intervals at one ends of the transverse support rods (11);

The transverse placing columns (12) are connected to at least two transverse supporting rods (11) at equal intervals or at unequal intervals;

The bottom ends of the vertical supporting rods (13) are connected with one side of the top surface of the placement base (2) at equal intervals or unequal intervals;

The vertical placing columns (14) are connected to the vertical supporting rods (13) at equal intervals or at unequal intervals;

Wherein, a plurality of transverse supporting rods (11) and a plurality of vertical supporting rods (13) are connected to form a placing frame.

As a still further improvement of the utility model, the transverse placing column (12) is vertically and fixedly connected or movably connected on the transverse supporting rod (11);

the vertical placing column (14) is vertically and fixedly connected or movably connected to the vertical supporting rod (13).

As the utility model is still further improved, the transverse supporting rods (11) are also provided with transverse connecting holes which are in fit connection with the transverse placing columns (12) at equal intervals or unequal intervals;

Vertical connecting holes which are connected with the vertical placing columns (14) in an adaptive manner are formed in the vertical supporting rods (13) at equal intervals or at unequal intervals.

As a still further improvement of the above-described utility model, the placement base (2) includes:

The installation frame (21), the installation frame (21) is of an L-shaped structure as a whole;

The first supporting legs (22) are respectively and coaxially connected to the bottoms of the working end sides of the mounting frames (21) in the length direction;

The second supporting legs (23) are respectively and coaxially connected to the bottoms of the non-working end sides of the mounting frames (21) in the length direction;

Wherein, the outer side of the upper part of the mounting frame (21) is also connected with a holding frame (211); the first leg (22) is higher than the second leg (22).

As the utility model is further improved, the bracket (3) is fixedly connected or movably connected with the non-working end of the placing frame (1);

the bracket (3) comprises:

The top ends of the fixed supporting pieces (31) are respectively and fixedly connected with the corresponding vertical supporting rods (13) in an inclined manner or connected through rotating pieces;

And one end of the connecting rod (32) is fixedly connected or hinged with the lower part (31) of the fixed supporting piece, and the other end of the connecting rod (32) is fixedly connected with the joint of the lateral supporting rod (11) and the root vertical supporting rod (13) at the outer side of the lower part of the placing frame or connected through a clamping adjusting piece.

The working principle is as follows:

Firstly, an operator sequentially clings vertical steel bars (5) to a corresponding transverse placing column (12) and a placing column at the joint of a transverse supporting rod (11) and a root vertical supporting rod (13) from a vertical steel bar stacking rack (4) to form a vertical placing column (14), so that the bottom ends of the vertical steel bars (5) are in contact with the top plate of a mounting rack (21); then, operators sequentially and closely place the transverse steel bars (7) above the corresponding vertical placing columns (14) from the transverse steel bar stacking frames (6), and after one end of each transverse steel bar (7) is contacted with the inner side wall of the mounting frame (21), a piece of steel bar net sheet (9) is mounted; repeating the above procedures until the installation of 20 reinforcing steel meshes (9) is completed; then, an operator holds a handle of the electric welding machine (8), fires welding rods and then welds each reinforcing steel bar mesh (9) at the same position in sequence until 20 welding spot welding works at the position are completed at one time, and finally, the welding work of the nodes of the reinforcing steel bar mesh (9) is repeated until the welding of all the nodes of the reinforcing steel bar mesh (9) is completed.

After welding, an operator sequentially removes the completed 20 reinforcing steel bar meshes (9), stacks the reinforcing steel bar meshes, and then the next batch of reinforcing steel bar meshes (9) can be produced.

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

1. The placing rack is vertically connected above the placing base, and the placing base is obliquely arranged in the direction of the bracket, so that the placing rack faces the direction of the bracket, and the processing and manufacturing of the reinforcing steel bar meshes by operators are greatly facilitated;

2. The non-working end of the placing base is also connected with the bracket, so that the risk of overturning or toppling of the device in the use process is avoided, the safety and stability of the device are improved, and meanwhile, the working reliability is also ensured;

3. The vertical steel bar stacking frame is arranged, so that the vertical steel bars are convenient to store and stack, the neatness of a working place is ensured, the working efficiency of installing meshes is improved, and the vertical steel bar stacking frame is also provided with the hooks, so that the electric welding connecting wires are convenient to put;

4. The transverse steel bar stacking frame is arranged, so that the transverse steel bars can be conveniently stored and stacked, the neatness of a working site is ensured, and the working efficiency of installing the net sheets is improved;

5. The utility model has reasonable structure, novel design and easy control of welding quality, the placing frame is connected on the L-shaped mounting frame, the vertical steel bars and the transverse steel bars can be aligned rapidly, and the mounting efficiency is improved greatly;

6. The rack is obliquely arranged towards the direction of the bracket, each welding rod can finish the welding work of a plurality of welding spots at one time at the same position after striking fire, the welding time is short, the welding efficiency is high, the welding is flat welding, and the welding quality is easy to control;

7. The utility model has strong adaptability, and the positions of the transverse placing column, the vertical placing column, the transverse supporting rod and the vertical supporting rod can be adjusted according to the grid size of the actual requirement so as to meet the mesh size requirement of the reinforcing mesh;

8. According to the utility model, the moving devices are arranged at the bottoms of the base, the bracket, the vertical steel bar stacking rack and the transverse steel bar stacking rack, and the brake devices matched with the moving devices are arranged on the moving devices, so that the moving of all parts can be better facilitated;

9. The utility model has ingenious design, the transverse placing column is connected to at least two transverse supporting rods for use, and the welding work is convenient while the material is saved.

Drawings

The utility model is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is one of the usage patterns of the present utility model;

FIG. 2 is a second view of the present utility model;

FIG. 3 is a schematic view of the overall structure of the present utility model;

FIG. 4 is a right side view of the present utility model;

FIG. 5 is a left side view of the present utility model;

FIG. 6 is a front view of the present utility model;

FIG. 7 is a top view of the present utility model;

FIG. 8 is a view showing the use of another design of the present utility model;

fig. 9 is a view showing the state of use of the components of the vertical reinforcing bar stacking rack (4) of the present utility model;

Fig. 10 is a view showing the state of use of the components of the transverse bar stacking rack (6) of the present utility model;

FIG. 11 is a schematic view of the overall structure of another design of the present utility model;

Fig. 12 is a schematic view of the overall structure of the components of the vertical reinforcement bar stacking rack (4) of the present utility model;

fig. 13 is a right side view of the components of the vertical rebar stacking (4) of the present utility model;

Fig. 14 is a front view of the components of the vertical rebar stacking (4) of the present utility model;

fig. 15 is a schematic view of the overall structure of the components of the transverse bar stacking rack (6) of the present utility model;

Fig. 16 is a front view of the components of the transverse bar stacking rack (6) of the present utility model;

Fig. 17 is a right side view of the components of the transverse bar stacking rack (6) of the present utility model;

wherein, the reference numerals in the figures: 1-a placing frame, 11-a transverse supporting rod (11), 12-a transverse placing column, 13-a vertical supporting rod (13), 14-a vertical placing column,

2-A placing base, 21-a mounting rack, 22-a first supporting leg, 23-a second supporting leg and 211-a containing rack;

3-bracket, 31-fixed support piece, 32-connecting rod;

4-vertical steel bar stacking frames, 41-vertical steel bar stacking bases, 42-vertical steel bar limiting upright posts and 43-hooks;

5-vertical steel bars;

6, a transverse steel bar stacking rack, 61, a transverse steel bar stacking base and 62, a transverse steel bar limiting upright post;

7, transverse reinforcing steel bars;

8, an electric welding machine;

9-transverse reinforcing steel bar net sheet.

Detailed Description

In order to make the technical means, the inventive features, the achieved objects and the effects of the present utility model easy to understand, the technical solution of the present utility model will be described in further detail below with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments of the present utility model and the features of the embodiments can be combined without conflict. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

A jig for welding reinforcing mesh, comprising:

The rack 1 is used for placing the steel bar meshes to be welded;

the placing base 2, the placing frame 1 is connected to one side of the top of the placing base 2;

The bracket 3 is connected to the non-working end of the placing frame 1;

Wherein, place base 2 to support 3 direction slope setting.

In the present utility model, the placement base 2 is inclined by 7 degrees toward the bracket 3.

Further, still include vertical reinforcing bar stacking rack 4, vertical reinforcing bar stacking rack 4 is located and places base 2 one end, and vertical reinforcing bar stacking rack 4 is used for putting vertical reinforcing bar 5.

Further, the vertical reinforcement stacking rack 4 includes:

A vertical reinforcement stacking base 41;

The vertical steel bar limiting upright posts 42 are vertically connected to four corners of the vertical steel bar stacking base 41;

Wherein, a hook 43 is also connected to the outer side of the upper part of one of the vertical reinforcement limiting columns 42.

In the utility model, the vertical steel bar stacking frame 4 consists of two I-shaped steel bars of I14 and four steel barsIs welded by steel bars, the length of a single I14I-steel is 600mm, two I14I-steels are bases, and four I/I areThe steel bars of (2) are welded on the I-steel base, the height is 800mm, and the U-shaped steel bar is welded on the top of one steel bar to be used as a wire hanging hook for hanging a cable of the electric welding machine 8.

Further, the device further comprises a transverse steel bar stacking frame 6, wherein the transverse steel bar stacking frame 6 is positioned at the other end of the placing base 2, and the transverse steel bar stacking frame 6 is used for placing transverse steel bars 7.

Further, the transverse reinforcement bar stacking rack 6 includes:

a transverse reinforcement stacking base 61;

The transverse reinforcement bar limiting upright posts 62, and the transverse reinforcement bar limiting upright posts 62 are vertically connected at four corners of the transverse reinforcement bar stacking base 61.

In the present utility model, the transverse bar stacking frame 6 is composed of two I-bars of I14 and four I-barsIs welded by steel bars, the length of a single I14I-steel is 600mm, two I14I-steels are bases, and four I/I areThe steel bars are welded on the I-steel base, and the height is 500mm.

Further, the placement frame 1 includes:

The plurality of transverse supporting rods 11, and one ends of the plurality of transverse supporting rods 11 are connected with the inner side surface of the placement base 2 at equal intervals or unequal intervals;

the transverse placing columns 12 are connected to at least two transverse supporting rods 11 at equal intervals or at unequal intervals;

the bottom ends of the vertical supporting rods 13 are connected with one side of the top surface of the placement base 2 at equal intervals or unequal intervals;

The vertical placing columns 14 are connected to the vertical supporting rods 13 at equal intervals or unequal intervals;

Wherein, a plurality of transverse supporting rods 11 and a plurality of vertical supporting rods 13 are connected to form a placing frame.

In the utility model, the mesh length is the length of the welding electrode plus the electrode holder; the vertical placing column 14 is arranged at the joint of the transverse supporting rod 11 and the vertical supporting rod 13, and the vertical placing column 14 at the joint is used for placing the vertical steel bars 5 and/or the transverse steel bars 7;

The plurality of transverse supporting rods 11 and the plurality of vertical supporting rods 12 are connected to form a square frame structure positioned on the same horizontal plane; the transverse opening end of the square frame structure is connected with the inner side surface of the placement base 2, and the vertical opening side of the square frame structure is connected with one side of the top surface of the placement base 2.

In the present utility model, the transverse strut 12 is connected to the second and fifth transverse struts 11.

Further, the transverse placing column 12 is vertically and fixedly connected or movably connected to the transverse supporting rod 11;

The vertical placing column 14 is vertically and fixedly connected or movably connected to the vertical supporting rod 13.

In the utility model, the fixed connection is welded connection; the movable connection is threaded connection or sleeve connection or clamping connection; the transverse placing column 12 and the vertical placing column 14 are both rod-shaped structures, or rod-shaped structures with external threads at one end or rod-shaped structures with clamping structures at the outer wall at one end.

Further, the transverse supporting rods 11 are also provided with transverse connecting holes which are in fit connection with the transverse placing columns 12 at equal intervals or unequal intervals;

Vertical connecting holes which are connected with the vertical placing columns 14 in an adaptive manner are formed in the vertical supporting rods 13 at equal intervals or unequal intervals.

In the utility model, the transverse connecting hole and the vertical connecting hole are through holes or connecting holes with thread sections on the inner wall; if during welding work, operating personnel can carry out shutoff protection to the transverse connection hole that is not installed and the vertical connection hole that is not installed through the shutoff piece, prevent by damage structure.

Further, the placement base 2 includes:

The installation frame 21, the installation frame 21 is of an L-shaped structure as a whole;

The first support legs 22, the first support legs 22 are respectively and coaxially connected to the bottom of the working end side of the mounting frame 21 in the length direction;

The second supporting legs 23, the second supporting legs 23 are respectively and coaxially connected to the bottom of the non-working end side of the mounting frame 21 in the length direction;

wherein, the upper outer side of the mounting frame 21 is also connected with a holding frame 211; the first leg 22 is higher than the second leg 22.

In the present utility model, the number of the first supporting legs 22 and the second supporting legs 23 is at least two, and the number can be increased according to the size and the bearing condition of the mounting frame 21; the height of the second supporting leg 23 is designed according to a specific inclination angle, or the first supporting leg 22 and the second supporting leg 23 are supporting legs with the function of adjusting the height; the holding frame 211 is used for holding welding rods. The mounting frame 21 is welded into an L shape by two steel plates.

Further, the bracket 3 is fixedly connected or movably connected with the non-working end of the placement frame 1;

The bracket 3 includes:

the top ends of the fixed supporting pieces 31 are respectively and fixedly connected with the corresponding vertical supporting rods 13 in an inclined manner or connected through rotating pieces;

And one end of the connecting rod 32 is fixedly connected or hinged with the lower part 31 of the fixed supporting piece, and the other end of the connecting rod 32 is fixedly connected with the joint of the lateral supporting rod 11 and the vertical supporting rod 13 at the outer side of the lower part of the placing frame or connected through a clamping adjusting piece.

In the utility model, the top end connection points of the fixed support pieces 31 are respectively and fixedly connected with the corresponding vertical support rods 13 in an inclined way; one end of the connecting rod 32 is fixedly connected with the lower part 31 of the fixed supporting piece, and the other end of the connecting rod 32 is fixedly connected with the joint of the lateral supporting rod 11 and the vertical supporting rod 13 at the outer side of the lower part of the placing frame.

According to the utility model, the moving devices are arranged at the bottoms of the base, the support, the vertical steel bar stacking rack and the transverse steel bar stacking rack, and the moving devices are matched with the brake devices, so that the moving of each part can be better facilitated.

In summary, more specific embodiments of the present utility model are:

one of the above-mentioned designs is used for reinforcing bar net piece welded bed-jig, before using, need install it as reserve.

The specific installation steps are as follows:

Mounting of the placing frame 1 and the placing base 2: after an operator forms a square frame structure on the same horizontal plane by welding and connecting a plurality of transverse supporting rods 11 and a plurality of vertical supporting rods 12, the side of the vertical opening of the square frame structure is welded and connected with the inner side surface of the placement base 2, and the side of the vertical opening of the square frame structure is welded and connected with the top surface of the placement base 2.

Installation of the transverse supporting rods 11 and the vertical placing columns 14: if the transverse placing column 12 and the vertical placing column 14 are respectively and vertically fixedly connected to the corresponding transverse supporting rod 11 and the corresponding vertical supporting rod 13, an operator welds the transverse placing column 12 and the vertical placing column 14 by a welding tool after contacting the connecting points of the corresponding transverse supporting rod 11 and the corresponding vertical supporting rod 13 according to installation requirements, and the installation work of installing the transverse supporting rod 11 and the vertical placing column 14 is completed after all the transverse supporting rods 11 and the vertical supporting rods 13 are welded;

If the horizontal placing column 12 and the vertical placing column 14 are in a rod-shaped structure, the horizontal connecting hole and the vertical connecting hole are through holes, an operator can connect and insert the horizontal placing column 12 and the vertical placing column 14 into the corresponding horizontal connecting hole and the corresponding vertical connecting hole according to the installation requirement, or after connecting, the horizontal placing column 12 and the vertical placing column 14 are welded and fixed at the corresponding horizontal connecting hole and the corresponding vertical connecting hole through a welding tool;

if the transverse placing column 12 and the vertical placing column 14 are rod-shaped structures with clamping structures arranged on the outer walls of one ends, the transverse connecting holes and the vertical connecting holes are through holes, and an operator can clamp and connect the transverse placing column 12 and the vertical placing column 14 in the corresponding transverse connecting holes and the corresponding vertical connecting holes according to installation requirements;

If the transverse placing column 12 and the vertical placing column 14 are of a rod-shaped structure with external threads at one end, the transverse connecting holes and the vertical connecting holes are connecting holes with threaded sections on the inner wall, and an operator can place the transverse placing column 12 and the vertical placing column 14 in the corresponding transverse connecting holes and the corresponding vertical connecting holes according to installation requirements in a threaded manner, so that installation of the placing frame 1 is completed.

If the horizontal placing column 12 and the vertical placing column 14 are respectively and movably connected to the corresponding horizontal supporting rod 11 and the corresponding vertical supporting rod 13, an operator can adjust the distance between the horizontal placing column 12 and the vertical placing column 14 according to the size of a specific reinforcing steel mesh to meet the mesh size requirement of the reinforcing steel mesh.

Mounting of the bracket 3: the top ends of the fixed supporting pieces 31 are respectively connected with the corresponding vertical supporting rods 13 by the inclined welding of operators; an operator is in welded connection with one end of a connecting rod 32 and the lower part 31 of the fixed supporting piece, and the other end of the connecting rod 32 is welded together with the joint of the transverse supporting rod 11 and the vertical supporting rod 13 at the outer side of the lower part of the placing frame.

Installation of the vertical steel bar stacking rack 4: the operator moves the vertical bar stacking rack 4 to one end of the base 2.

Mounting of the transverse steel bar stacking rack 6: the operator moves the transverse bar stacking rack 6 to the other end of the base 2.

The specific using steps are as follows:

Before use, first, the operator moves the various components of the present utility model to a processing site; then, an operator checks the placing requirement of the device, checks whether the placing base 2 reaches the inclination angle towards the direction of the bracket 3, and immediately after the placing base reaches the requirement, the operator places the electric welding machine 8 beside the vertical steel bar stacking rack 4, and turns on a power supply for standby;

In the use process, the water-soluble fiber is prepared,

Firstly, an operator sequentially clings vertical steel bars 5 to a corresponding horizontal placing column 12 and a placing column at the joint of the horizontal supporting rod 11 and the root vertical supporting rod 13 from the vertical steel bar stacking frame 4 to form a vertical placing column 14, so that the bottom ends of the vertical steel bars 5 are contacted with the top plate of the mounting frame 21; then, operators sequentially and closely place the transverse steel bars 7 above the corresponding vertical placing columns 14 from the transverse steel bar stacking frames 6, and after one end of each transverse steel bar 7 is contacted with the inner side wall of the mounting frame 21, a piece of steel bar net sheet 9 is mounted; next, repeating the above procedures until the installation of 20 reinforcing steel meshes 9 is completed; then, an operator holds the handle of the electric welding machine 8, fires the welding rods and then sequentially welds each reinforcing steel bar mesh 9 at the same position until 20 welding spots at the position are welded at one time, and finally, the welding work of the nodes of the reinforcing steel bar mesh 9 is repeated until the welding of all the nodes of the reinforcing steel bar mesh 9 is completed.

After the welding is finished, the operator sequentially removes the finished 20 reinforcing steel bar meshes 9, stacks the reinforcing steel bar meshes, and then the next batch of reinforcing steel bar meshes 9 can be produced.

Finally, it should be noted that the above-mentioned embodiments illustrate rather than limit the utility model in any way, and that those skilled in the art will be able to utilize the above-mentioned embodiments and modifications of the utility model as well as equivalent embodiments. However, any simple modification, equivalent variation and variation of the above embodiments according to the technical substance of the present utility model still fall within the protection scope of the technical solution of the present utility model.

Claims (10)

1. A jig for welding reinforcing mesh, comprising:

the rack (1), the rack (1) is used for placing the steel bar net piece to be welded;

The placing base (2), the placing frame (1) is connected to one side of the top of the placing base (2);

the bracket (3) is connected to the non-working end of the placing frame (1);

wherein, place base (2) to support (3) direction slope setting.

2. The jig frame for welding reinforcing mesh according to claim 1, further comprising a vertical reinforcing bar stacking frame (4), wherein the vertical reinforcing bar stacking frame (4) is located at one end of the placement base (2), and the vertical reinforcing bar stacking frame (4) is used for placing vertical reinforcing bars (5).

3. A jig frame for welding reinforcing mesh according to claim 2, characterized in that the vertical reinforcing bar stacking frame (4) comprises:

a vertical reinforcement stacking base (41);

The vertical reinforcement limiting stand columns (42) are vertically connected to four corners of the vertical reinforcement stacking base (41);

Wherein, the outer side of the upper part of one vertical reinforcement limit upright post (42) is also connected with a hook (43).

4. A jig frame for welding reinforcement mesh according to claim 1, further comprising a transverse reinforcement stack (6), the transverse reinforcement stack (6) being located at the other end of the placement base (2), the transverse reinforcement stack (6) being for placing transverse reinforcement (7).

5. A jig frame for welding reinforcing mesh according to claim 4, characterized in that the transverse reinforcing bar stacking frame (6) comprises:

a transverse reinforcement stacking base (61);

The transverse reinforcement limiting stand columns (62) are vertically connected to four corners of the transverse reinforcement stacking base (61).

6. A jig frame for welding reinforcing mesh according to claim 1, characterized in that the placement frame (1) comprises:

The transverse support rods (11) are connected with the inner side surface of the placement base (2) at equal intervals or unequal intervals at one ends of the transverse support rods (11);

the transverse placing columns (12) are connected to at least two transverse supporting rods (11) at equal intervals or at unequal intervals;

The bottom ends of the vertical supporting rods (13) are connected with one side of the top surface of the placement base (2) at equal intervals or unequal intervals;

The vertical placing columns (14) are connected to the vertical supporting rods (13) at equal intervals or at unequal intervals;

Wherein, a plurality of transverse supporting rods (11) and a plurality of vertical supporting rods (13) are connected to form a placing frame.

7. A jig frame for welding reinforcing mesh according to claim 6, wherein the transverse placing column (12) is fixedly connected or movably connected to the transverse supporting rod (11) vertically;

the vertical placing column (14) is vertically and fixedly connected or movably connected to the vertical supporting rod (13).

8. The jig frame for welding reinforcing mesh according to claim 6, wherein the transverse supporting rods (11) are also provided with transverse connecting holes which are in fit connection with the transverse placing columns (12) at equal intervals or unequal intervals;

Vertical connecting holes which are connected with the vertical placing columns (14) in an adaptive manner are formed in the vertical supporting rods (13) at equal intervals or at unequal intervals.

9. A jig frame for welding reinforcing mesh according to claim 1, wherein the placement base (2) comprises:

The installation frame (21), the installation frame (21) is of an L-shaped structure as a whole;

The first supporting legs (22) are respectively and coaxially connected to the bottoms of the working end sides of the mounting frames (21) in the length direction;

The second supporting legs (23) are respectively and coaxially connected to the bottoms of the non-working end sides of the mounting frames (21) in the length direction;

Wherein, the outer side of the upper part of the mounting frame (21) is also connected with a holding frame (211); the first leg (22) is higher than the second leg (22).

10. A jig frame for welding reinforcement meshes according to claim 1, wherein the bracket (3) is fixedly or movably connected to the non-working end of the placement frame (1);

the bracket (3) comprises:

The top ends of the fixed supporting pieces (31) are respectively and fixedly connected with the corresponding vertical supporting rods (13) in an inclined manner or connected through rotating pieces;

The connecting rod (32), one end of connecting rod (32) is connected with fixed support piece (31) lower part fixed connection or articulated, and the other end of connecting rod (32) is connected with the department of meeting of placing frame lower part outside horizontal bracing piece (11) and root vertical bracing piece (13) fixed connection or is connected through block regulating part.