CN209830874U - Vertical steel wire net rack welding production line - Google Patents

Abstract

The utility model discloses a vertical steel wire net frame welding production line, including main frame and subframe, be equipped with the passageway that can supply the steel wire net core board to pass through between main frame and the subframe, be provided with the synchronous motion mechanism that can drive the steel wire net core board and move in the passageway on the subframe, one side of main frame rotates and is connected with the rotation support, be provided with the alignment cut-off machine of inserting wire on the rotation support, still be provided with the pre-slotting machine that can carry out the pre-slotting operation to the steel wire net core board in the passageway on the subframe, one side of pre-slotting machine is provided with and can send into the steel wire net core board after cutting off to the pre-slotting machine of inserting wire net core board and carry out the welded steel wire net frame welding machine with the steel wire net on the; one side of the auxiliary frame is provided with a driving mechanism which can drive the auxiliary frame to move. The utility model discloses following beneficial effect has: the production line can be suitable for the production and the manufacture of the multi-specification steel wire mesh frame sandwich boards and has the advantages of high quality and high yield.

Description

Vertical steel wire net rack welding production line

Technical Field

The utility model relates to a wire net frame production facility, in particular to vertical wire net frame welding production line.

Background

The steel wire mesh frame sandwich board as a wall material appears at the end of the last 80 s of the last century, and is widely used as a partition of a non-bearing outer wall and an inner wall in the building field in the beginning of the 90 s. The external heat preservation and self-heat preservation system of the outer wall is applied at the beginning of the century. With the continuous improvement of national building energy-saving requirements and the requirement of integration of structure and heat preservation, the application range of the steel wire mesh frame sandwich board (containing empty mesh cage) as a building material is wider and wider. At present, the equipment produced at home and abroad is divided into two types from the forming mode, one type is a horizontal production line, namely, the plates are horizontally placed during forming, and the other type is a vertical production line, namely, the plates are vertically formed.

The domestic steel wire mesh frame welding production line generally has the conditions of low yield, high welding missing rate, difficult specification adjustment, low automation degree and the like. Particularly, with the increase of energy-saving requirements, the thickness of the core material and the density of the core material are increased, and the thickness of the core material is from single 50mm to 250mm at present. The material of the core material is added to extruded sheets, empty mesh cages and the like from polystyrene foam boards and rock wool boards. The original welding production line of the steel wire mesh frame can only be suitable for manufacturing steel wire mesh frame sandwich boards with single specifications and is not suitable for manufacturing steel wire mesh frame sandwich boards with multiple specifications, so that improvement is needed.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a vertical steel wire net frame welding production line, this production line can be applicable to the production preparation of many specifications steel wire net frame battenboard, and has the advantage of high quality and high yield.

The above technical purpose of the present invention can be achieved by the following technical solutions: a vertical steel wire mesh frame welding production line comprises a main frame and an auxiliary frame, wherein a channel through which a steel wire mesh core plate can pass is arranged between the main frame and the auxiliary frame, a synchronous movement mechanism capable of driving the steel wire mesh core plate to move in the channel is arranged on the auxiliary frame, one side of the main frame is rotatably connected with a rotating support, an aligning wire inserting cutting machine is arranged on the rotating support, a pre-inserting hole machine capable of pre-inserting holes of the steel wire mesh core plate in the channel is further arranged on the auxiliary frame, and a steel wire mesh frame welding machine capable of welding steel wires, cut off by the aligning wire inserting hole machine, fed into the pre-inserting holes of the steel wire mesh core plate with the steel wire mesh on the steel wire mesh core plate is arranged on one side of the pre-inserting hole machine; and a driving mechanism capable of driving the auxiliary frame to move so as to enable the steel wire mesh core plates of different specifications to move in the channel is arranged on one side of the auxiliary frame.

The utility model discloses further set up to: the driving mechanism comprises a sliding block arranged at the bottom of the auxiliary frame and a guide rail arranged on the main frame, the auxiliary frame is matched with the guide rail on the main frame in a sliding mode through the sliding block, and a driving piece capable of driving the auxiliary frame to move along the guide rail is further arranged on one side of the auxiliary frame.

The utility model discloses further set up to: the driving mechanism further comprises adjusting seats which are respectively arranged at the tops of the auxiliary frame and the main frame, a same adjusting screw rod penetrates through the two adjusting seats, and the adjusting screw rods and each adjusting seat are locked and limited through fasteners.

The utility model discloses further set up to: the straightening wire-inserting cutting machine comprises a wire-releasing rack, a steel wire straightening mechanism and a steel wire cutting mechanism, wherein one side of the steel wire straightening mechanism and one side of the steel wire cutting mechanism are provided with the same mounting plate, and the mounting plate is arranged on the rotating support.

The utility model discloses further set up to: the steel wire shutdown mechanism is including setting up the cylinder that cuts off on the mounting panel, the free end that cuts off the cylinder rotates and is connected with and cuts off the connecting rod, the one end that the connecting rod was kept away from and is kept away from and cuts off the cylinder rotates and is connected with and moves the slider, it embeds there is the sword that moves that a plurality of encircles the steel wire to move the slider, one side that moves the slider is provided with the fixed block that is fixed in on the mounting panel, one side of fixed block is provided with a plurality of stationary knife seat, every the stationary knife seat embeds there is the stationary knife that can encircle the steel wire, the steel wire can pass moving.

The utility model discloses further set up to: the synchronous motion mechanism comprises a motion cylinder fixedly arranged on the auxiliary rack, a net pushing support is fixedly connected to the free end of the motion cylinder, a plurality of pushing hooks used for moving a steel wire net are arranged on one side, facing the steel wire net core plate, of the net pushing support, a synchronous support is connected to one side of the net pushing support, a synchronous cylinder is fixedly arranged on one side of the synchronous support, and the free end of the synchronous cylinder penetrates through the synchronous support and is fixedly connected with a blade capable of being inserted into the net core plate.

The utility model discloses further set up to: one side of pushing away the net support is provided with the holding tank, the holding tank embeds there is the butt piece that can with synchronous support fixed connection, works as when the one end of butt piece and holding tank cell wall looks butt, there is the clearance at the other end of butt piece and another holding tank cell wall.

The utility model discloses further set up to: the size of the gap is the same as the distance between any two adjacent vertical steel wires.

The utility model discloses further set up to: the jack machine of inserting in advance includes that a plurality of inserts the fixed pipe of steel wire in advance, every the fixed pipe of steel wire of inserting in advance all sets up with corresponding pipe seat is coaxial, a plurality of one side fixedly connected with that inserts the fixed pipe of steel wire in advance is same picture peg in advance, one side of picture peg in advance is provided with the cylinder of inserting in advance that can drive picture peg reciprocating motion in advance.

The utility model discloses further set up to: the wire net frame welding machine carries out the welded weld part, every including a plurality of can be to the wire net on the steel wire net core board in the jack in advance the same welding movable plate of the equal fixedly connected with in one side of weld part, one side of welding movable plate is provided with the welding cylinder that can drive welding movable plate reciprocating motion.

To sum up, the utility model discloses following beneficial effect has: in practical use, the auxiliary frame is moved through the driving mechanism, and then the size of the channel between the auxiliary frame and the main frame is adjusted to be suitable for the steel wire mesh core plates with different specifications to move in the channel. Because the distance between the auxiliary frame and the main frame is adjusted, the straightening wire-inserting cutting machine on the rotating bracket has a proper conveying position for the wire mesh core plate by adjusting the rotating angle of the rotating bracket. When the steel wire mesh core plates with different specifications move to the operation area under the action of the synchronous movement mechanism, pre-plugging is carried out on the steel wire mesh core plates under the action of a pre-plugging machine so as to avoid bringing chips or fragments out of the core materials in the traditional wire plugging process. Since the core plate material is an insulating material, if the core plate material falls on the steel wire mesh or the welding tongs, welding leakage can be caused. The core plate is pre-inserted to avoid the above situation. And then, under the action of the straightening wire-inserting cutting machine, the steel wire is cut off and then is sent into the pre-inserting hole on the net core plate, so that the wire-inserting position is more accurate, the existing head shearing device required by excessive wire-inserting head exposure is eliminated, the steel wire is saved, and the equipment cost is reduced. And finally, welding the steel wires in the pre-inserting holes with the steel wire meshes on the steel wire mesh core plate by using a steel wire mesh frame welding machine.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the main frame and the sub-frame of FIG. 1;

FIG. 3 is a partially enlarged schematic view of the adjustment seat and the adjustment screw of FIG. 2;

FIG. 4 is an enlarged view of a portion of the fixing plate and the corner fitting of FIG. 2;

FIG. 5 is a schematic view of the structure of FIG. 2 in another direction;

FIG. 6 is an enlarged view of a portion of the slider and the guide rail of FIG. 5;

FIG. 7 is a schematic structural view of a wire cutting mechanism;

FIG. 8 is a cross-sectional view of the structure of FIG. 7;

FIG. 9 is a partially enlarged schematic view of the stationary knife seat and stationary knife, the movable slider and the movable knife in FIG. 8;

FIG. 10 is a schematic structural view of a steel wire mesh core plate and a synchronous movement mechanism;

FIG. 11 is an enlarged partial schematic view of the push hook of FIG. 10;

FIG. 12 is a schematic view of the structure of FIG. 10 in another orientation;

FIG. 13 is a schematic structural view of a pre-slotting machine, a steel wire mesh frame welding machine and a straightening wire-inserting cutting machine;

fig. 14 is a schematic view of the use state of fig. 13.

Reference numerals: 1. a main frame; 2. a sub-chassis; 3. a steel wire mesh core plate; 4. a synchronous motion mechanism; 5. rotating the bracket; 6. straightening a wire inserting cutting machine; 7. a pre-slotting machine; 8. a steel wire mesh frame welding machine; 9. a slider; 10. a guide rail; 11. an adjusting seat; 12. adjusting the screw rod; 13. a fixing plate; 14. a corner fitting; 15. a through hole; 16. a limiting member; 17. a filament releasing rack; 18. a steel wire straightening mechanism; 19. a steel wire cutting mechanism; 20. mounting a plate; 21. cutting off the air cylinder; 22. cutting off the connecting rod; 23. a movable slide block; 24. a fixed block; 25. a fixed cutter seat; 26. a catheter hub; 27. a conduit; 28. fixing a cutter; 29. a motion cylinder; 30. a net pushing support; 31. pushing a hook; 32. a synchronous support; 33. a synchronous cylinder; 34. a blade; 35. a groove; 36. a pushing part; 37. accommodating grooves; 38. a butting block; 39. a one-way guide wheel; 40. pre-inserting a steel wire fixing pipe; 41. pre-inserting a plate; 42. pre-inserting a cylinder; 43. welding the part; 44. welding a moving plate; 45. welding the cylinder; 46. a steel wire mesh core plate feeding frame; 47. moving a knife; 48. and inserting a screw plate.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

As shown in fig. 1 to 14, a vertical steel wire mesh frame welding production line includes a main frame 1 and an auxiliary frame 2, a passage through which a steel wire mesh core plate 3 can pass is provided between the main frame 1 and the auxiliary frame 2, and a synchronous movement mechanism 4 capable of driving the steel wire mesh core plate 3 to move in the passage is provided on the auxiliary frame 2. One side of the main frame 1 is rotatably connected with a rotating support 5, the rotating support 5 is provided with a straightening wire-inserting cutting machine 6, the auxiliary frame 2 is also provided with a pre-inserting hole machine 7 capable of pre-inserting holes of the steel wire mesh core plates 3 in the channel, and one side of the pre-inserting hole machine 7 is provided with a steel wire mesh frame welding machine 8 capable of welding the steel wires which are cut by the straightening wire-inserting cutting machine 6 and then are sent into the pre-inserting holes of the steel wire mesh core plates 3 with the steel wire meshes on the steel wire mesh core plates 3; one side of the auxiliary frame 2 is provided with a driving mechanism which can drive the auxiliary frame 2 to move so as to enable the steel wire mesh core plates 3 with different specifications to move in the channel.

In practical use, the auxiliary frame 2 is moved through the driving mechanism, and then the size of the channel between the auxiliary frame 2 and the main frame 1 is adjusted to move the steel wire mesh core plates 3 which are suitable for different specifications in the channel. Because the distance between the auxiliary frame 2 and the main frame 1 is adjusted, the straightening wire-inserting cutting machine 6 on the rotating bracket 5 has a proper conveying position for the wire mesh core plates 3 by adjusting the rotating angle of the rotating bracket 5. When the steel wire mesh core plates 3 with different specifications move to the operation area under the action of the synchronous movement mechanism 4, pre-inserting holes are firstly carried out on the steel wire mesh core plates 3 under the action of the pre-inserting hole machine 7 so as to avoid bringing chips or fragments out of the core material in the traditional wire inserting process. Since the core plate material is an insulating material, if the core plate material falls on the steel wire mesh or the welding tongs, welding leakage can be caused. In the method, pre-inserting operation is performed on the core plate on the same axis (wire inserting) so as to avoid the situations. And then, under the action of the straightening wire-inserting cutting machine 6, the steel wire is cut off and then is sent into a pre-inserting hole on the net core plate, so that the wire-inserting position is more accurate, the existing head shearing device required by excessive wire-inserting head exposure is eliminated, the steel wire is saved, and the equipment cost is reduced. And finally, welding the steel wires in the pre-inserting holes with the steel wire meshes on the steel wire mesh core plate 3 by a steel wire mesh frame welding machine 8.

Further, as shown in fig. 5 and 6, the driving mechanism includes a slider 9 disposed at the bottom of the sub-frame 2 and a guide rail 10 disposed on the main frame 1, and the sub-frame 2 is slidably engaged with the guide rail 10 on the main frame 1 through the slider 9. A driving member (not shown) for driving the sub-frame 2 to move along the guide rail 10 is further provided at one side of the sub-frame 2. The driving member can be driven by mechanical structures such as an air cylinder, an oil cylinder and the like or by manpower, and detailed description is omitted.

Furthermore, as shown in fig. 2-4, the driving mechanism further includes adjusting seats 11 respectively disposed on the top of the sub-frame 2 and the top of the main frame 1, a same adjusting screw 12 is inserted between the two adjusting seats 11, and the adjusting screw 12 and each adjusting seat 11 are locked and limited by a fastener. Under the action of the driving piece, the auxiliary frame 2 is in sliding fit with the guide rail 10 on the main frame 1 through the slide block 9. When the passage between the auxiliary frame 2 and the main frame 1 is suitable for passing the steel wire mesh core plate 3 with the required specification, the adjusting screw 12 is fixedly connected with the adjusting seat 11 through the fastener, and then the position distance between the auxiliary frame 2 and the main frame 1 is locked.

Furthermore, the bottom of the auxiliary frame 2 and the bottom of the main frame 1 are respectively provided with an adjusting seat 11 which is the same as the above, and the two adjusting seats 11 positioned at the bottom are connected through an adjusting screw 12 and are locked and limited by a fastening piece. The position distance between the auxiliary frame 2 and the main frame 1 is limited by fixing the top and the bottom of the auxiliary frame 2 and the main frame 1, so as to avoid displacement in the operation process.

Further, a fixing plate 13 with an arc-shaped groove is arranged on the main frame 1, an angle piece 14 capable of being matched with the fixing plate 13 is arranged on one side of the rotating bracket 5, a through hole 15 capable of being matched with the arc-shaped groove is arranged on one side of the angle piece 14, and the through hole 15 and the arc-shaped groove are matched with the same fastening bolt (not shown in the attached drawing). Rotate and carry on spacingly through rotating the fixed pin between support and the main frame, under the effect that rotates the fixed pin for rotate support 5 and only can rotate along the angle that the arc wall was preset, wait to rotate support 5 and fasten spacingly through fastening bolt when rotating to required angle. A limiting piece 16 capable of fixing the position of the rotating bracket 5 is arranged between the rotating bracket 5 and the main frame 1. The position of the rotary bracket 5 is limited and fixed by the action of the limiting part 16, so that the straightening wire-inserting cutting machine 6 on the rotary bracket 5 is prevented from shifting during operation.

As shown in fig. 1, 7, 8 and 9, the straightening wire-inserting cutter 6 includes a wire-feeding frame 17, a wire straightening mechanism 18 and a wire cutting mechanism 19. One side of the wire straightening mechanism 18 and one side of the wire cutting mechanism 19 are provided with the same mounting plate 20, and the mounting plate 20 is arranged on the rotating bracket 5. The wire straightening mechanism 18 can straighten the wire from the wire feeding frame 17 and send the straightened wire to the wire cutting mechanism 19, which will not be described in detail in the prior art.

Further, the wire straightening mechanism 18 includes a wire inserting plate 48 for feeding the wire to the wire cutting mechanism 19, and an air cylinder for driving the wire inserting plate to move is disposed at one side of the wire inserting plate 48. The wire inserting movable plate is driven to move towards the steel wire cutting mechanism 19 under the action of the air cylinder, so that the steel wire is synchronously driven to perform wire inserting operation on the steel wire cutting mechanism 19.

The steel wire cutting mechanism 19 comprises a cutting cylinder 21 arranged on the mounting plate 20, a cutting connecting rod 22 is rotatably connected to the free end of the cutting cylinder 21, a movable sliding block 23 is rotatably connected to one end, far away from the cutting cylinder 21, of the cutting connecting rod 22, a plurality of movable cutters 47 surrounding the steel wire are arranged in the movable sliding block 23, and each movable cutter 27 is fixed on the movable sliding block 23 in a welding mode. The number of the movable sliding blocks 23 can be several, and the movable sliding blocks are connected in sequence. A gap with the diameter of a steel wire is reserved between each movable sliding block, one movable sliding block 23 is driven to move under the action of the cutting cylinder 21, and the plurality of movable sliding blocks 23 can be driven to be linked synchronously. Each movable knife 47 has guiding and cutting functions, one side of the movable slider 23 is provided with a fixed block 24 fixed on the mounting plate 20, one side of the fixed block 24 is provided with a plurality of fixed knife bases 25, one side of each fixed knife base 25 is provided with a conduit base 26, and a conduit 27 is arranged in the conduit base 26. The fixed cutter seat 25 is internally provided with a fixed cutter 28 which can surround a steel wire, and the steel wire can sequentially pass through the movable slide block 23, the movable cutter 47, the fixed cutter 28, the fixed cutter seat 25 and the conduit seat 26. In practical use, each fixed cutter seat 25 is fixed on the fixed block 24 and is not movable. By driving the cutting cylinder 21, the free end of the cutting cylinder 21 drives the movable slider 23 and the fixed cutter seat 25 to move relatively through the cutting connecting rod 22, so that the fixed cutter seat 25 where the fixed cutter 28 is located and the movable slider 23 where the movable cutter 47 is located cut off the steel wire in a staggered manner, and then the next slider cuts off the steel wire, and so on; so that the cut steel wire is reserved in the stationary cutter holder 25 and the conduit holder 26. And under the action of the inserting screw plate 48, the cut steel wires reserved in the guide pipe seat 26 are pushed into the pre-inserting holes of the net core plate to realize welding. The cutting cylinder 21 is reset to drive the movable slide block 23 to reset through the cutting connecting rod 22 to wait for the next wire insertion and cutting.

Further, the fixed cutter 28 and the movable cutter 47 are made of hard alloy materials, so that the deformation of the cut steel wire is small, and the cut surface is smooth and has no burrs.

As shown in fig. 1, 10, 11 and 12, the synchronous movement mechanism 4 includes a movement cylinder 29 fixedly disposed on the sub-frame 2, a net pushing support 30 is fixedly connected to a free end of the movement cylinder 29, and a plurality of pushing hooks 31 for moving the steel wire net are disposed on one side of the net pushing support 30 facing the steel wire net core plate 3. One side of the net pushing support 30 is connected with a synchronous support 32, one side of the synchronous support 32 is fixedly provided with a synchronous cylinder 33, and the free end of the synchronous cylinder 33 penetrates through the synchronous support 32 and is fixedly connected with a blade 34 which can be inserted into the net core plate. The shape of the blade changes according to the change of the material of the core material. When the device is used, the net pushing support 30 and the synchronous support 32 can be synchronously driven to move under the action of the moving cylinder 29, the net pushing support 30 pushes the steel wire net to move through the pushing hook 31, and the synchronous support 32 inserts the blade 34 into the net core plate through the synchronous cylinder 33 so as to drive the net core plate to synchronously move. By the operation, the synchronous movement process of the net core plate and the steel wire net is realized.

Further, each pushing hook 31 is provided with a groove 35 which can be matched with the transverse steel wire and a pushing part 36 which is abutted with the vertical steel wire. Because the wire net is the latticed structure that comprises a plurality of horizontal steel wire and a plurality of vertical steel wire, push away in hook 31 imbeds recess 35 with horizontal steel wire when using, push away hook 31 accessible when transversely removing this moment and promote the wire net by promotion portion 36 transversely to reach the mesh of removal wire net.

Furthermore, one side of the net pushing bracket 30 is provided with a receiving groove 37, and the receiving groove 37 is provided with an abutting block 38 fixedly connected with the synchronous bracket 32. When one end of the abutment block 38 abuts against the groove wall of the accommodation groove 37, the other end of the abutment block 38 has a gap from the groove wall of the other accommodation groove 37. The size of the gap is the same as the distance between the pushing part 36 and the adjacent vertical steel wire. In the actual operation process, after the pushing hook 31 moves by the gap, the synchronous bracket 32 can drive the abutting block 38 to abut against the groove wall of the receiving groove, and at this time, the movement of the synchronous bracket 32 can make the abutting block 38 move relatively in the receiving groove 37. When the hook 31 is pressed against the wire, one side of the abutment block 38 is in synchronous abutment with the groove wall of the accommodating groove 37. At this time, the moving of the net pushing support 30 can drive the synchronous support 32 to perform linkage, so as to realize the synchronous motion between the steel wire net and the net core plate. When the net-pushing support 30 is retracted, the movement process is reversed.

Further, the synchronous movement mechanism 4 further comprises a one-way guide wheel 39 capable of being matched with the steel wire mesh, the one-way guide wheel 39 has the effect of positioning the height of the steel wire mesh and also has the effect of preventing the steel wire mesh from returning.

Further, the net pushing bracket 30 is slidably connected to the synchronizing bracket 32, so that the net pushing bracket 30 provides a supporting point of force for the synchronizing bracket 32.

As shown in fig. 13 and 14, the pre-slotting machine 7 includes a plurality of pre-slotting wire fixing pipes 40, and each pre-slotting wire fixing pipe 40 is coaxially disposed with a corresponding guide pipe seat 26. One side of each of the pre-inserted steel wire fixing pipes 40 is fixedly connected with the same pre-inserted plate 41, and one side of the pre-inserted plate 41 is provided with a pre-inserted cylinder 42 capable of driving the pre-inserted plate 41 to reciprocate. And when the pre-plugging machine 7 retracts, the wire plugging movable plate 48 performs wire plugging operation to the pre-plugging holes on the steel wire mesh core plate 3.

As shown in fig. 13 and 14, the wire mesh frame welding machine 8 includes a plurality of welding portions 43 capable of welding the steel wires in the pre-insertion holes and the wire mesh on the wire mesh core plate 3, one side of each welding portion 43 is fixedly connected with a same welding moving plate 44, and one side of the welding moving plate 44 is provided with a welding cylinder 45 capable of driving the welding moving plate 44 to reciprocate. After the welding parts 43 are used for welding the steel wires fed into the pre-inserting holes of the steel wire mesh core plate 3 after the straightening wire-inserting cutting machine 6 is cut off, and the steel wires on the steel wire mesh core plate 3 are welded, the welding cylinders 45 control the welding parts 43 to return through the welding moving plates 44, and the next circulation is waited.

Further, a steel wire mesh frame welding machine 8 (not shown in the attached drawings) is further arranged on the main frame 1, and the steel wire mesh frame welding machines 8 are arranged on the two sides of the steel wire mesh core plate 3 so as to synchronously weld steel wires on the two sides of the steel wire mesh core plate 3 and steel wires in the pre-inserting holes.

Further, a wire mesh core plate feeding frame 46 is arranged on one side of the channel.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. The utility model provides a vertical wire net frame welding production line, characterized by: comprises a main frame (1) and an auxiliary frame (2), a channel for a steel wire mesh core plate (3) to pass through is arranged between the main frame (1) and the auxiliary frame (2), the auxiliary frame (2) is provided with a synchronous movement mechanism (4) which can drive the steel wire mesh core plate (3) to move in the channel, one side of the main frame (1) is rotatably connected with a rotating bracket (5), the rotating bracket (5) is provided with a straightening wire-inserting cutting machine (6), the auxiliary frame (2) is also provided with a pre-plugging machine (7) which can perform pre-plugging operation on the steel wire mesh core plates (3) in the channel, one side of the pre-slotting machine (7) is provided with a steel wire mesh frame welding machine (8) which can weld the steel wires which are cut by the straightening wire-inserting cutting machine (6) and sent into the pre-slotting of the steel wire mesh core plate (3) with the steel wire meshes on the steel wire mesh core plate (3); and a driving mechanism capable of driving the auxiliary frame (2) to move so as to enable the steel wire mesh core plates (3) of different specifications to move in the channel is arranged on one side of the auxiliary frame (2).

2. The vertical steel wire mesh frame welding production line of claim 1, which is characterized in that: the driving mechanism comprises a sliding block (9) arranged at the bottom of the auxiliary frame (2) and a guide rail (10) arranged on the main frame (1), the auxiliary frame (2) is matched with the guide rail (10) on the main frame (1) in a sliding mode through the sliding block (9), and a driving piece capable of driving the auxiliary frame (2) to move along the guide rail (10) is further arranged on one side of the auxiliary frame (2).

3. The vertical steel wire mesh frame welding production line of claim 2, which is characterized in that: the driving mechanism further comprises adjusting seats (11) which are arranged at the tops of the auxiliary frame (2) and the main frame (1) respectively, the same adjusting screw rod (12) penetrates through the adjusting seats (11), and the adjusting screw rods (12) and each adjusting seat (11) are locked and limited through fasteners.

4. The vertical steel wire mesh frame welding production line of claim 1, which is characterized in that: straightening cut-off machine (6) is including putting a frame (17), steel wire straightening mechanism (18) and steel wire shutdown mechanism (19), one side of steel wire straightening mechanism (18) and steel wire shutdown mechanism (19) is provided with same mounting panel (20), mounting panel (20) set up on rotating bracket (5).

5. The vertical steel wire mesh frame welding production line of claim 4, which is characterized in that: steel wire cutting off mechanism (19) is including setting up cutting off cylinder (21) on mounting panel (20), the free end that cuts off cylinder (21) rotates and is connected with and cuts off connecting rod (22), the one end that cuts off connecting rod (22) and keep away from cutting off cylinder (21) rotates and is connected with and moves slider (23), it embeds in slider (23) has the sword (47) that moves of a plurality of encircleing the steel wire, the one side that moves slider (23) is provided with fixed block (24) that is fixed in on mounting panel (20), one side of fixed block (24) is provided with a plurality of stationary knife seat (25), every stationary knife seat (25) embeds there is stationary knife (28) that can encircle the steel wire, the steel wire can pass in proper order and move sword (47), stationary knife (28) and stationary knife seat (25) in the slider (.

6. The vertical steel wire mesh frame welding production line of claim 1, which is characterized in that: synchronous motion mechanism (4) are including setting firmly motion cylinder (29) on subframe (2), the free end fixedly connected with of motion cylinder (29) pushes away net support (30), it is provided with a plurality of and is used for moving push away hook (31) of wire net towards one side of wire net core board (3) to push away net support (30), the one side of pushing away net support (30) is connected with synchronizing bracket (32), one side of synchronizing bracket (32) has set firmly synchronizing cylinder (33), synchronizing cylinder (33)'s free end passes synchronizing bracket (32) fixedly connected with can insert blade (34) in the wire net core board.

7. The vertical steel wire mesh frame welding production line of claim 6, which is characterized in that: one side of push away net support (30) is provided with holding tank (37), holding tank (37) built-in have can with synchronous support (32) fixed connection's butt piece (38), when the one end of butt piece (38) and holding tank (37) cell wall butt, there is the clearance in the other end of butt piece (38) and another holding tank (37) cell wall.

8. The vertical steel wire mesh frame welding production line of claim 7, which is characterized in that: the size of the gap is the same as the distance between any two adjacent vertical steel wires.

9. The vertical steel wire mesh frame welding production line of claim 5, which is characterized in that: the pre-slotting machine (7) comprises a plurality of pre-slotting steel wire fixing pipes (40), each pre-slotting steel wire fixing pipe (40) is coaxially arranged with a corresponding guide pipe seat (26), a plurality of one side fixedly connected with of the pre-slotting steel wire fixing pipes (40) is the same pre-slotting plate (41), one side of the pre-slotting plate (41) is provided with a pre-slotting cylinder (42) capable of driving the pre-slotting plate (41) to reciprocate.

10. The vertical steel wire mesh frame welding production line of claim 9, which is characterized in that: wire net frame welding machine (8) can carry out welded weld part (43), every including a plurality of to the wire net on steel wire in the jack in advance and wire net core board (3) the same welding movable plate (44) of the equal fixedly connected with in one side of weld part (43), one side of welding movable plate (44) is provided with welding cylinder (45) that can drive welding movable plate (44) reciprocating motion.