CN111571076A - Three-wire mesh welding machine - Google Patents

Abstract

The invention relates to a three-wire mesh welding machine which is sequentially provided with a first group of longitudinal wire hopper frames, a first group of longitudinal wire feeding mechanisms, a first group of wire beating trolley mechanisms, a first group of welding mechanisms, a transverse wire large hopper mechanism, a first group of wire pulling frame structures, a first group of wire pulling trolley mechanisms, a second group of longitudinal wire hopper frames, a second group of longitudinal wire feeding mechanisms, a second group of wire beating trolley mechanisms, a second group of welding mechanisms, a second group of wire pulling frames, a second group of wire pulling trolley mechanisms and a wire dropping mechanism along the mesh processing sequence. The invention completes welding in two steps, can process the mesh with special and complex requirements, meets the current development requirements of the reinforcing mesh processing industry, reduces the cost, shortens the processing time and improves the production efficiency.

Description

Three-wire mesh welding machine

Technical Field

The invention relates to the field of reinforcing mesh welding equipment, in particular to a three-wire mesh welding machine.

Background

The mesh welding machine is special equipment for welding the longitudinal steel bars and the transverse steel bars together through electrodes to form a standard mesh. The three-wire mesh sheet in the prior art is made of artificial monofilaments through multiple welding, is complex in work, slow in speed, poor in standard and low in efficiency, and cannot meet the current development trend.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a three-wire mesh welding machine which can automatically and integrally complete the welding of three-wire meshes.

The technical scheme adopted by the invention for solving the technical problems is as follows: the structure of the invention is as follows: the first group of vertical line hopper frame, the first group of vertical line feeding mechanism, the first group of silk beating trolley mechanism, the first group of welding mechanism, the horizontal line large hopper mechanism, the first group of net pulling frame structure, the first group of net pulling trolley mechanism, the second group of vertical line hopper frame, the second group of vertical line feeding mechanism, the second group of silk beating trolley mechanism, the second group of welding mechanism, the second group of net pulling frame, the second group of net pulling trolley mechanism and the net dropping mechanism are sequentially arranged along the net processing sequence.

The first group of longitudinal wire hopper frames are internally provided with profiles, longitudinal wire steel bar clamping grooves and a first longitudinal wire hopper rack, two adjustable-position profiles are arranged in a frame of the first group of longitudinal wire hopper frames, one profile is fixed on a frame square tube, the other profile is fixed on the first group of wire patting trolley mechanisms, the two profiles are provided with adjustable-position longitudinal wire steel bar clamping grooves, the first longitudinal wire hopper rack is welded above the first group of longitudinal wire hopper frames, and the first group of longitudinal wire hopper frames are used for the first group of longitudinal wire feeding mechanisms,

set up first layer and indulge a line reinforcing bar, first indulge the line and hold in the palm the charging tray, first lead a silk dish motor in the mouth of indulging in first set of indulging in line feeding mechanism, first set up first indulging the line and hold in the palm the charging tray in the rear side of a set of indulging line feeding mechanism, first indulge the line and hold in the palm and set up first layer and indulge a line reinforcing bar on the charging tray, first indulge the line and hold in the mouth of silk and set up first silk dish in the front of the charging tray, first lead a silk dish one side in the mouth of silk and get first layer and indulge a line reinforcing bar, first lead a silk dish one side in.

Set up first bat silk motor, first bat silk side wheel, bat silk side pipe in the first group of bat silk dolly mechanism, first group is indulged line feeding mechanism front lower place and is set up first bat silk motor, and first bat silk motor passes through the gear and claps silk side pipe and link to each other, claps silk side pipe both sides and sets up four first bat silk side wheels altogether for steady first group is clapped silk dolly mechanism, through clapping the position removal of silk side pipe, pushes away neat first layer and indulges the line reinforcing bar.

Set up first upper electrode, first bottom electrode, first host computer connection and draw net rack side pipe in the first set of welding mechanism, first upper electrode, first bottom electrode set up the position corresponding, and first upper electrode, first bottom electrode one side below set up first host computer connection and draw net rack side pipe, and first host computer connection draws net rack side pipe to be provided with the screw, and locating position and upper and lower fixed position about can adjusting, first set of welding mechanism is used for welding the first layer vertical line reinforcing bar that first set of bat silk dolly mechanism carried and comes and the horizontal line reinforcing bar that horizontal line big hopper mechanism placed.

Set up the traverse line reinforcing bar in the large hopper mechanism of traverse line, the traverse line holds in the palm the charging tray, the traverse line hopper holds in the hands the silk dish motor, the back top of the large hopper mechanism of traverse line sets up the traverse line and holds in the palm the charging tray, and the traverse line holds in the palm the charging tray and is equipped with the traverse line reinforcing bar, sets up the traverse line hopper between the large hopper mechanism support of traverse line and holds in the hands the silk dish, and the traverse line hopper holds in the hands and is equipped with on the silk dish and hold in the hands silk mouth, and the traverse line hopper holds in the hands silk dish one side and sets up the traverse line hopper and hold in the hands the silk dish motor, and.

The utility model discloses a net rack, including first group draw the truss structure, set up in the first group and draw the net rack front connection side pipe, draw the net rack, draw the net rack front connection side pipe to be connected with first host computer and draw the net rack side pipe to adjust about well, through bolt-up connection, draw the net rack of welding under the net rack both sides angle bar, first group draws the truss structure to be used for providing the track for first group draws net dolly mechanism to support semi-manufactured goods net piece.

The net pulling trolley mechanism comprises a first group of net pulling trolley mechanisms, and is characterized in that pneumatic hooks, hook cylinders, hook swallow-tailed beams, swallow-tailed beam cylinders and a net pulling trolley motor are arranged in the first group of net pulling trolley mechanisms, pneumatic hooks are arranged in the first group of net pulling trolley mechanisms, the tail end of each pneumatic hook is provided with the hook cylinder, the stretching of the hook cylinders represents clamping of semi-finished net pieces and loosening of the semi-finished net pieces, the pneumatic hooks are mounted on the hook swallow-tailed beams, the swallow-tailed beam cylinders are arranged below the hook swallow-tailed beams, the stretching of the swallow-tailed beam cylinders represents lifting and descending of the hooks, the net pulling trolley motor is connected with gears, the gears rotate to drive the first group of net pulling trolley mechanisms to move back and forth, the first group of net pulling trolley mechanisms are used for pulling the semi-finished.

Set up draw-in groove, draw-in groove side pipe, second in the second group indulges the line hopper rack, the second group indulges the line hopper rack and is used for adding the line reinforcing bar that indulges in the second floor for semi-manufactured goods net piece, draw-in groove side pipe top sets up the draw-in groove, and draw-in groove side pipe can reciprocate around carrying out according to different actual conditions, and the second group indulges line hopper rack, and the line feeding mechanism provides the movement track for the second group indulges.

Set up second layer vertical line reinforcing bar, second vertical line support charging tray, second in the second group vertical line feeding mechanism and hold the silk dish, the second holds the silk dish motor in the mouth, the second group vertical line feeding mechanism rear sets up the second vertical line and holds the charging tray, and the second vertical line holds and sets up the second layer vertical line reinforcing bar in the charging tray, and the second group vertical line feeding mechanism sets up the second between holding the silk dish, and the second holds silk dish one side and holds the silk dish motor through the gear connection second, and the second holds the silk dish and drives the rotation through the second silk dish motor in the mouth, sends into single raw and other materials second layer vertical line reinforcing bar to the draw-in groove department of second group vertical line hopper frame in proper order.

The second group is beaten and is set up second in the silk dolly mechanism and clap silk motor, second and clap silk side wheel, clap the silk board, the second claps and sets up between the silk side wheel and claps the silk board, and the second is clapped the silk motor and is passed through the gear and link to each other with clapping the silk board, claps a silk board both sides common second and claps silk side wheel for steady second group beats silk dolly mechanism, pushes away neat second layer vertical line reinforcing bar through clapping the silk board removal.

Set up second upper electrode, second bottom electrode, host computer horn mouth, second host computer connection among the welding mechanism of second group and draw net rack side pipe, fixed host computer horn mouth on the support between second upper electrode and the second bottom electrode, host computer horn mouth is used for correcting, aligns second layer longitudinal line reinforcing bar, sets up the second host computer connection on the welding mechanism of second group and draws net rack side pipe, and the second host computer is connected and is drawn net rack side pipe and be equipped with the screw, can adjust about the locating place and upper and lower fixed position.

The second group of net pulling frames are used for providing a track for the second group of net pulling trolley mechanisms and supporting finished product three-wire net pieces, and the second group of net pulling frames are identical to the first group of net pulling frames in structure.

The structure of the second group of net pulling trolley mechanisms is the same as that of the first group of net pulling trolley mechanisms, and the second group of net pulling trolley mechanisms are used for pulling the finished product three-wire net sheet to the net dropping mechanism.

The three-wire mesh falling mechanism is characterized in that a falling cylinder and a supporting plate are arranged in the falling mechanism, the falling cylinder is arranged at the bottom of a support of the falling mechanism, the supporting plate is connected between the falling cylinders, the falling cylinders on two sides contract, the supporting plates on two sides incline, and a finished three-wire mesh falls.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, through the arrangement of the mechanisms, the feeding, welding and stacking of the meshes can be automatically and integrally completed. The current development requirements of the three-wire mesh processing industry are effectively met, and the production efficiency of the three-wire mesh is improved.

Drawings

Fig. 1 is a front view of a three-wire mesh sheet bonding machine according to an embodiment of the present invention.

Fig. 2 is a top view of a three wire mesh sheet bonding machine in accordance with an embodiment of the present invention.

Fig. 3 is a schematic structural view of a first group of vertical line hopper structures according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a first set of welding mechanisms in accordance with an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a transverse line large hopper mechanism according to an embodiment of the invention.

Fig. 6 is a schematic structural view of a first group of pull net frame structures according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a first group of net pulling trolley mechanisms in the embodiment of the invention.

Fig. 8 is a schematic structural view of a second group of vertical line hopper structures according to an embodiment of the invention.

FIG. 9 is a front view of a second set of vertical bins of an embodiment of the invention.

FIG. 10 is a schematic diagram of a second set of welding mechanisms in accordance with an embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a dropping mechanism according to an embodiment of the present invention.

In the figure: a first group of longitudinal wire hopper frame 1, a section bar 11, a longitudinal wire reinforcing steel bar clamping groove 12, a first longitudinal wire hopper rack 13, a first group of longitudinal wire feeding mechanisms 2, a first layer of longitudinal wire reinforcing steel bars 21, a first longitudinal wire supporting tray 22, a first wire holding tray 23, a first wire holding tray motor 24, a first group of wire patting trolley mechanisms 3, a first wire patting motor 31, a first wire patting side wheel 32, a wire patting square tube 33, a first group of welding mechanisms 4, a first upper electrode 41, a first lower electrode 42, a first host connecting wire drawing frame square tube 43, a transverse wire large hopper mechanism 5, a transverse wire reinforcing steel bar, a transverse wire supporting tray 52, a transverse wire hopper wire holding tray 53, a transverse wire hopper wire holding tray motor 54, a first group of wire drawing frame structures 6, a front connecting square tube 61 of a wire drawing frame, a wire drawing frame rack, a first group of wire drawing trolley mechanisms 7, a pneumatic hook 71, a hook 72 cylinder, a hook 72, a transverse wire hopper, a transverse, The wire-drawing trolley comprises a hook dovetail beam 73, a dovetail beam air cylinder 74, a wire-drawing trolley motor, a second group of longitudinal wire hopper frames 8, a clamping groove 81, a clamping groove square tube 82, a second longitudinal wire hopper rack 83, a second group of longitudinal wire feeding mechanisms 9, a second layer of longitudinal wire steel bars 91, a second longitudinal wire supporting plate 92, a second wire holding plate 93, a second wire holding plate motor 94, a second group of wire-shooting trolley mechanisms 10, a second wire-shooting motor 101, a second wire-shooting side wheel 102, a wire-shooting plate 103, a second group of welding mechanisms 11, a second electrode 111, a second lower electrode 112, a main machine bell mouth 113, a second main machine connecting wire-drawing square tube 114, a second group wire-drawing frame 12, a second group of wire-drawing trolley mechanisms 13, a wire-dropping mechanism 14, a wire-dropping air cylinder 141 and a wire supporting plate 142.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the invention, referring to fig. 1, the first group of longitudinal wire hopper frame 1 is used for supporting a first group of longitudinal wire feeding mechanisms 2, two position-adjustable section bars 11 are arranged in a frame, one section bar is fixed on a square tube of the frame, the other section bar is fixed on a first group of wire patting trolley mechanisms 3, position-adjustable longitudinal wire steel bar clamping grooves 12 are arranged on the two section bars 11, and a first longitudinal wire hopper rack 13 is welded above the first group of longitudinal wire hopper frame 1 to provide a movement track for the first group of longitudinal wire feeding mechanisms 2;

the first group of longitudinal line feeding mechanisms 2 are used for providing a first layer of longitudinal line reinforcing steel bars 21 of raw materials, referring to fig. 3, a worker puts the first layer of longitudinal line reinforcing steel bars 21 of raw materials on a first longitudinal line material supporting disc 22, a first wire holding disc 23 is driven to rotate by a first wire holding disc motor 24, and the first layer of longitudinal line reinforcing steel bars 21 of single raw materials are sequentially fed to a longitudinal line reinforcing steel bar clamping groove 12;

the first group of wire-shooting trolley mechanisms 3 are used for shooting the first layer of longitudinal wire steel bars 21 to be neat, and sending the first layer of longitudinal wire steel bars into the first group of welding mechanisms 4, refer to fig. 3, the first wire-shooting motor 31 drives gear transmission, 4 first wire-shooting side wheels 32 on two sides are used for stabilizing the first group of wire-shooting trolley mechanisms 3, the wire-shooting trolley mechanisms 3 move through the first group of wire-shooting trolley mechanisms 3, the wire-shooting square pipes 33 push the first layer of longitudinal wire steel bars 21 to be neat, after welding once, the first wire-shooting motor 31 continues to operate at corresponding revolution number according to the parameters of a plc control system, the wire-shooting trolley mechanisms 3 move corresponding distance, the re-welding machine carries out the second time, and so on, the semi-finished mesh sheet with one layer of longitudinal wire.

The first group of welding mechanisms 4 are used for welding the first layer of longitudinal line steel bars 21 conveyed by the first group of wire beating trolley mechanisms 3 with the first layer of transverse line steel bars placed in the transverse line large hopper mechanism 5, the welding mode is that the first upper electrode 41 is in contact with the first lower electrode 42 to achieve the purpose of welding, and referring to fig. 4, the first host is connected with the net pulling frame square pipe 43, and the screw can be used for adjusting left and right placing positions and up and down fixing positions.

The large transverse wire hopper mechanism 5 is used for providing transverse wire reinforcing steel bars of raw materials, referring to fig. 5, a worker places the transverse wire reinforcing steel bars of the raw materials on a transverse wire supporting tray 52, a transverse wire hopper wire holding tray 53 drives a wire holding tray motor 54 to rotate through the transverse wire hopper, and the transverse wire reinforcing steel bars of the single raw material are sequentially sent to a first group of welding mechanisms 4.

The first group of net pulling frame structures 6 are used for providing a track for the first group of net pulling trolley mechanisms 7 and supporting semi-finished net pieces, referring to fig. 6, the net pulling frame front connecting square pipes 61 and the first host are connected with the net pulling frame square pipes 43, the upper and lower and left and right positions are adjusted and then are connected through bolts in a fastening mode, and net pulling frame racks are welded under angle irons on two sides of the net pulling frame to provide a moving track for the first group of net pulling trolley mechanisms 7.

The first group of net pulling trolley mechanisms 7 are used for pulling a semi-finished net piece which is welded by a layer of longitudinal line reinforcing steel bars and a layer of transverse line reinforcing steel bars, and pulling the semi-finished net piece to the second group of longitudinal line hopper frame structures 8; referring to fig. 7, the first set of net-pulling trolley mechanisms 7 are provided with pneumatic hooks 71, each pneumatic hook 71 is provided with a hook cylinder 72, the expansion and contraction of the hook cylinder 72 represent the clamping and loosening of the semi-finished net, and the pneumatic hooks 71 are mounted on a hook dovetail beam 73, a dovetail beam cylinder 74 is provided below the hook dovetail beam 73, and the expansion and contraction of the dovetail beam cylinder 74 represent the lifting and lowering of the hooks. The net pulling trolley motor drives the first group of net pulling trolley mechanisms 7 to move back and forth; the whole movement process is that the dovetail beam cylinder 74 extends, the hook dovetail beam 73 is lifted, the pneumatic hook 71 is lifted, the hook cylinder 72 extends, the semi-finished mesh is clamped, the mesh pulling trolley motor rotates to drive the gear to rotate, and the whole first group of mesh pulling trolley mechanisms 7 and the semi-finished mesh are driven to finish moving.

The second group of vertical line hopper frame structures 8 are used for adding a second layer of vertical line reinforcing steel bars 91 to the semi-finished mesh; referring to fig. 8, the movable clamping groove 81 is installed above the semi-finished mesh sheet, the second layer of longitudinal wire steel bars 91 enter the corresponding clamping groove 81, the movable clamping groove 81 is installed on the clamping groove square tube 82, and the clamping groove square tube 82 can move up and down back and forth according to different practical conditions, so that the semi-finished mesh sheet is convenient and practical; a second vertical line hopper rack 83 is welded above the second group of vertical line hopper frame structure 8 to provide a motion track for the second group of vertical line feeding mechanism 9.

The second group of longitudinal wire feeding mechanisms 9 is used for providing a raw material second layer longitudinal wire reinforcing steel bar 91, referring to fig. 8, a worker places the raw material second layer longitudinal wire reinforcing steel bar 91 on a second longitudinal wire supporting disc 92, and a second wire supporting disc 93 is driven to rotate by a second wire supporting disc motor 94 to sequentially feed the single raw material second layer longitudinal wire reinforcing steel bar 91 to a longitudinal wire reinforcing steel bar clamping groove 81.

The second group of wire-beating trolley mechanisms 10 are used for beating wires and aligning, the second layer of longitudinal wire reinforcing steel bars 91 are conveyed to a second group of welding mechanisms 11, referring to fig. 8, the second wire-beating motor 101 drives gear transmission, 4 second wire-beating side wheels 102 on two sides are used for stabilizing the second group of wire-beating trolley mechanisms 10, the second group of wire-beating trolley mechanisms 10 move, the wire-beating plates 103 fixed on the second group of wire-beating trolley mechanisms 10 push the second layer of longitudinal wire reinforcing steel bars 91 uniformly, after welding is performed for one time, according to parameters of a PLC control system, the second wire-beating motor 101 continues to operate to correspond to the number of revolutions, the second group of wire-beating trolley mechanisms 10 move to correspond to the distance, the re-welding machine is performed for the second time, and the rest on the way, and finished product.

The second group of welding mechanisms 11 are used for welding the semi-finished mesh sheets conveyed by the second group of wire beating trolley mechanisms 10 with the second layer of longitudinal wire reinforcing steel bars 91 in a welding mode that the second upper electrode 111 is in contact with the second lower electrode 112 to achieve the purpose of welding. Referring to fig. 10, the adjustable position host flare 113 is used for straightening, aligning the second layer of longitudinal rebars 91; the second host computer is connected with the net pulling frame square pipe 114 and is provided with screws for adjusting the left and right placing positions and the upper and lower fixing positions.

The second set of net-pulling frames 12 is used for providing a track for the second set of net-pulling trolley mechanisms 13 and supporting the finished three-wire net sheet, and referring to fig. 6, the structure is the same as that of the first set of net-pulling frame structures 6.

The second group of net-pulling trolley mechanisms 13 are used for pulling the finished product three-wire net sheet to the net-dropping mechanism 14, and refer to fig. 7, the structure is the same as that of the first group of net-pulling trolley mechanisms 7.

The dropping mechanism 14 is used for stacking finished three-wire mesh sheets, and referring to fig. 11, after the finished three-wire mesh sheets are transported by the second group of net-pulling trolley mechanisms 13, the two-side dropping cylinders 141 contract, the two-side net-supporting plates 142 incline, and the finished three-wire mesh sheets drop.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. The three-wire mesh welding machine is characterized in that a first group of longitudinal wire hopper frame (1), a first group of longitudinal wire feeding mechanism (2), a first group of wire patting trolley mechanism (3), a first group of welding mechanism (4), a transverse wire large hopper mechanism (5), a first group of wire drawing frame structure (6), a first group of wire drawing trolley mechanism (7), a second group of longitudinal wire hopper frame (8), a second group of longitudinal wire feeding mechanism (9), a second group of wire patting trolley mechanism (10), a second group of welding mechanism (11), a second group of wire drawing frame (12), a second group of wire drawing trolley mechanism (13) and a wire falling mechanism (14) are sequentially arranged along the mesh processing sequence.

2. The three-wire mesh sheet mesh welding machine according to claim 1, characterized in that a first group of longitudinal wire hopper frame (1) is provided with a section bar (11), a longitudinal wire steel bar clamping groove (12) and a first longitudinal wire hopper rack (13), the frame of the first group of longitudinal wire hopper frame (1) is provided with two position-adjustable section bars (11), one of the two position-adjustable section bars is fixed on a frame square tube, the other one of the two position-adjustable section bars is fixed on the first group of wire patting trolley mechanism (3), the two section bars (11) are provided with position-adjustable longitudinal wire steel bar clamping grooves (12), the first longitudinal wire hopper rack (13) is welded above the first group of longitudinal wire hopper frame (1), and the first group of longitudinal wire hopper frame (1) is used for the first group of longitudinal wire feeding mechanism (2;

the automatic wire feeding device is characterized in that a first layer of longitudinal wire reinforcing steel bars (21), a first longitudinal wire supporting tray (22), a first wire holding tray (23) and a first wire holding tray motor (24) are arranged in the first group of longitudinal wire feeding mechanism (2), the first longitudinal wire supporting tray (22) is arranged on the rear side of the first group of longitudinal wire feeding mechanism (2), the first layer of longitudinal wire reinforcing steel bars (21) are arranged on the first longitudinal wire supporting tray (22), the first wire holding tray (23) is arranged in front of the first longitudinal wire supporting tray (22), a wire holding port is formed in the first wire holding tray (23), the first layer of longitudinal wire reinforcing steel bars (21) are held in the wire holding port, and one side of the first wire holding tray (23) is connected with the first wire holding tray motor (24) through a gear;

the first group of silk-shooting trolley mechanisms (3) are internally provided with a first silk-shooting motor (31), first silk-shooting side wheels (32) and a silk-shooting square tube (33), the first silk-shooting motor (31) is arranged below the front part of the first group of longitudinal line feeding mechanisms (2), the first silk-shooting motor (31) is connected with the silk-shooting square tube (33) through a gear, and the two sides of the silk-shooting square tube (33) are respectively provided with four first silk-shooting side wheels (32) for stabilizing the first group of silk-shooting trolley mechanisms (3), and the first layer of longitudinal line reinforcing steel bars (21) are pushed to be aligned through the position movement of the silk-shooting square tube (33);

the first group of welding mechanisms (4) are internally provided with a first upper electrode (41), a first lower electrode (42) and a first host connection net-pulling frame square pipe (43), the first upper electrode (41) and the first lower electrode (42) are arranged at corresponding positions, the first host connection net-pulling frame square pipe (43) is arranged below one side of the first upper electrode (41) and the first lower electrode (42), the first host connection net-pulling frame square pipe (43) is provided with screws which can adjust left and right placing positions and upper and lower fixing positions, and the first group of welding mechanisms (4) are used for welding a first layer of longitudinal steel bars (21) conveyed by the first group of silk-shooting trolley mechanisms (3) with transverse steel bars placed by the transverse wire large hopper mechanism (5);

the transverse wire large hopper mechanism (5) is internally provided with a transverse wire reinforcing steel bar, a transverse wire holding tray (52), a transverse wire hopper wire holding tray (53) and a transverse wire hopper wire holding tray motor (54), the transverse wire holding tray (52) is arranged above the rear part of the transverse wire large hopper mechanism (5), the transverse wire holding tray (52) is provided with the transverse wire reinforcing steel bar, the transverse wire hopper wire holding tray (53) is arranged between supports of the transverse wire large hopper mechanism (5), a wire holding port is arranged on the transverse wire hopper wire holding tray (53), one side of the transverse wire hopper wire holding tray (53) is provided with the transverse wire hopper wire holding tray motor (54), and the transverse wire hopper wire holding tray (53) is driven to rotate by the transverse wire hopper wire holding tray motor (54);

the first group of net-pulling frame structures (6) are internally provided with net-pulling frame front connecting square pipes (61) and net-pulling frame racks, the net-pulling frame front connecting square pipes (61) and a first host machine connecting net-pulling frame square pipes (43) are well adjusted in the vertical and left and right positions and are tightly connected through bolts, the net-pulling frame racks are welded under angle irons on two sides of the net-pulling frame, and the first group of net-pulling frame structures (6) are used for providing tracks for the first group of net-pulling trolley mechanisms (7) and supporting semi-finished net sheets;

the net pulling trolley mechanism comprises a first group of net pulling trolley mechanisms (7), wherein a pneumatic hook (71), a hook cylinder (72), a hook dovetail beam (73), a dovetail beam cylinder (74) and a net pulling trolley motor are arranged in the first group of net pulling trolley mechanisms (7), a hook cylinder (72) is arranged at the tail end of each pneumatic hook (71), the expansion of the hook cylinder (72) represents clamping and loosening of semi-finished net sheets, the pneumatic hook (71) is installed on the hook dovetail beam (73), a dovetail beam cylinder (74) is arranged below the hook dovetail beam (73), the expansion of the dovetail beam cylinder (74) represents lifting and falling of a hook, the net pulling trolley motor is connected with a gear, the gear rotates to drive the first group of net pulling trolley mechanisms (7) to move back and forth, the first group of net pulling trolley mechanisms (7) are used for pulling a semi-finished net sheet which is welded by a layer of longitudinal lines and a layer of transverse lines of steel bars, pulling the semi-finished mesh to a second group of vertical line hopper racks (8);

the second group of longitudinal line hopper frames (8) are internally provided with a clamping groove (81), a clamping groove square tube (82) and a second longitudinal line hopper rack (83), the second group of longitudinal line hopper frames (8) are used for adding a second layer of longitudinal line steel bars (91) to a semi-finished mesh, the clamping groove (81) is arranged above the clamping groove square tube (82), the clamping groove square tube (82) can move up and down back and forth according to different actual conditions, and the second longitudinal line hopper racks (83) are welded at the tops of two sides of the second group of longitudinal line hopper frames (8) to provide a motion track for the second group of longitudinal line feeding mechanisms (9);

the second group of longitudinal line feeding mechanisms (9) are internally provided with a second layer of longitudinal line steel bars (91), a second longitudinal line supporting tray (92), a second wire holding tray (93) and a second wire holding tray motor (94), the second group of longitudinal line feeding mechanisms (9) is arranged behind the second longitudinal line supporting tray (92), the second layer of longitudinal line steel bars (91) are arranged in the second longitudinal line supporting tray (92), the second wire holding tray (93) is arranged between the second group of longitudinal line feeding mechanisms (9), one side of the second wire holding tray (93) is connected with the second wire holding tray motor (94) through a gear, the second wire holding tray (93) is driven to rotate through the second wire holding tray motor (94), and a single raw material second layer of longitudinal lines (91) is sequentially fed into clamping grooves (81) of the second group of longitudinal line hopper frame (8);

a second silk beating motor (101), second silk beating side wheels (102) and a silk beating plate (103) are arranged in the second group of silk beating trolley mechanisms (10), the silk beating plate (103) is arranged between the second silk beating side wheels (102), the second silk beating motor (101) is connected with the silk beating plate (103) through gears, 4 second silk beating side wheels (102) are arranged on two sides of the silk beating plate (103) in total and used for stabilizing the second group of silk beating trolley mechanisms (10), and the second layer of longitudinal line reinforcing steel bars (91) are pushed to be flush through the movement of the silk beating plate (103);

a second upper electrode (111), a second lower electrode (112), a host horn mouth (113) and a second host connection grid-pulling square pipe (114) are arranged in the second group of welding mechanisms (11), the host horn mouth (113) is fixed on a support between the second upper electrode (111) and the second lower electrode (112), the host horn mouth (113) is used for correcting and aligning a second layer of longitudinal line steel bars (91), the second group of welding mechanisms (11) are provided with the second host connection grid-pulling square pipe (114), the second host connection grid-pulling square pipe (114) is provided with screws, and left and right placement positions and upper and lower fixing positions can be adjusted;

the second group of net pulling frames (12), the second group of net pulling frames (12) are used for providing tracks for the second group of net pulling trolley mechanisms (13) and supporting finished product three-wire net sheets, and the structure of the second group of net pulling frames (12) is the same as that of the first group of net pulling frame structures (6);

the structure of the second group of net pulling trolley mechanisms (13) is the same as that of the first group of net pulling trolley mechanisms (7), and the second group of net pulling trolley mechanisms (13) are used for pulling finished product three-wire net sheets to the net dropping mechanism (14);

the three-wire mesh falling mechanism is characterized in that a falling cylinder (141) and a mesh supporting plate (142) are arranged in the mesh falling mechanism (14), the falling cylinder (141) is arranged at the bottom of a support of the mesh falling mechanism (14), the mesh supporting plate (142) is connected between the falling cylinders (141), the falling cylinders (141) on two sides shrink, the mesh supporting plates (142) on two sides incline, and a finished three-wire mesh falls.

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