CN115625466A

CN115625466A - Metal mesh welding positioning device

Info

Publication number: CN115625466A
Application number: CN202211375911.3A
Authority: CN
Inventors: 陈小明
Original assignee: Xiamen Yuguan Electromechanical Co ltd
Current assignee: Xiamen Yuguan Electromechanical Co ltd
Priority date: 2022-11-04
Filing date: 2022-11-04
Publication date: 2023-01-20

Abstract

The application relates to the technical field of metal processing, and provides a metal mesh welding positioning device which comprises a support and a tool, wherein the tool comprises transverse supporting parts and longitudinal supporting parts, the transverse supporting parts are arranged on the support at intervals, a plurality of through first grooves are formed in the transverse supporting parts at intervals, a plurality of through second grooves are formed in the longitudinal supporting parts at intervals, blocking parts are movably connected to the support, openings in the lower sides of the first grooves or the second grooves are covered or opened in the moving process of the blocking parts, and material receiving parts are arranged on the support and positioned below the tool; the horizontal pole joint is in the first inslot of two at least horizontal supporting parts, and the vertical pole joint is in the second inslot of two at least vertical supporting parts. Based on this, can realize being convenient for take out and the effect of collecting from the frock with the metal mesh that the welding was accomplished.

Description

Metal mesh welding positioning device

Technical Field

The application relates to the field of metal processing, in particular to a metal mesh welding and positioning device.

Background

At present, during production and processing, a plurality of metal nets 1 shown in fig. 1 are often used, and each metal net includes a plurality of longitudinal bars 101 and a plurality of transverse bars 102, and each longitudinal bar 101 and each transverse bar 102 are welded and fixed to each other.

At present, when the metal mesh is welded, the cross rods are clamped on a tool side by side downwards mostly, the cross rods are located on the same plane, then the longitudinal rods are clamped on the tool side by side, the longitudinal rods are also attached to the cross rods on the same plane, and then the attachment contact positions of the cross rods and the vertical rods are welded through a welding device.

To the correlation technique among the above-mentioned, after horizontal pole, vertical pole welding together, whole metal network card is on the frock, consequently needs the manual work to upwards take out the metal mesh from the frock at every turn, because the whole metal mesh after the welding is comparatively tight by card on the frock, leads to comparatively difficultly when taking out the metal mesh from the frock, consequently remains to improve.

Disclosure of Invention

In order to take out and collect the metal mesh that the welding was accomplished from the frock for the convenience, this application provides a metal mesh welding position device.

The application provides a metal mesh welding position device adopts following technical scheme:

a metal mesh welding positioning device comprises a support and a tool, wherein the tool comprises transverse supporting parts and longitudinal supporting parts, the transverse supporting parts are arranged on the support at intervals, a plurality of through first grooves are formed in the transverse supporting parts at intervals, a plurality of through second grooves are formed in the longitudinal supporting parts at intervals, blocking parts are movably connected to the support, openings in the lower sides of the first grooves or the second grooves are covered or opened in the moving process of the blocking parts, and material receiving parts are arranged on the support and located below the tool; the horizontal pole joint is in the first inslot of two at least horizontal supporting parts, and the vertical pole joint is in the second inslot of two at least vertical supporting parts.

Through adopting above-mentioned technical scheme, can earlier block the both ends card of horizontal pole in two at least first inslots for each horizontal pole forms at a plane, and remain stable, and then with the both ends joint of vertical pole in two at least second inslots, and make one side laminating of vertical pole on the horizontal pole, keep off the piece and can hold horizontal pole and vertical pole, realize the frock to many horizontal poles, the joint location between the vertical pole, weld at last again. After horizontal pole, vertical pole welding formed the metal mesh together, control swing joint keep off the piece and leave the downside opening in first groove of location, second groove, consequently the downside opening in first groove, second groove is opened, and the metal mesh just can fall under the effect of gravity this moment, and the metal mesh of whereabouts falls and connects the material to collect on dropping, realizes being convenient for take out the effect of collecting from the frock with the metal mesh that the welding was accomplished.

Preferably, the blocking piece is connected to the support in a sliding manner along the horizontal direction, and the support is provided with a first driving piece for driving the blocking piece to slide horizontally.

By adopting the technical scheme, the blocking piece which horizontally slides is arranged, and when the blocking piece horizontally slides, the lower side openings of the first groove and the second groove can be opened or covered.

Preferably, the support is provided with a second driving piece for driving the blocking piece to slide and adjust along the height direction, the receiving piece is provided with a limiting part, the limiting part is arranged along the height direction, the limiting part is positioned between the two transverse rods or the two longitudinal rods, the limiting part penetrates through the blocking piece, one side of the blocking piece in the self sliding direction is provided with a yielding hole, when the blocking piece slides to the position where the limiting part is contacted with the transverse rods or the longitudinal rods, the limiting part is used for limiting the metal net to continuously slide horizontally along with the blocking piece, and the second driving piece drives the first driving piece and the blocking piece to synchronously slide along the height direction.

By adopting the technical scheme, as the receiving part and the tool are arranged at a certain distance, when the blocking part is pulled away from the lower part of the tool, the metal net can directly fall to the receiving part from a higher position, so that the surface of the metal net is abraded or generates larger noise; therefore, the second driving piece can drive the blocking piece and the first driving piece to move downwards along the height direction, at the moment, the metal plate firstly falls on the upper surface of the blocking piece from the tool, the limiting part penetrates through the metal net, and finally, the first driving piece drives the blocking piece to horizontally slide, and when the limiting part is contacted with the metal net, the metal net can be limited to move, so that the metal net is relatively static, the blocking piece is pulled away from the lower part of the metal net, and the metal net is prevented from directly falling from a higher position; and the hole of stepping down guarantees to keep off the piece and can not receive the interference of spacing portion when sliding, and spacing portion can reduce to pile up the metal mesh and take place the slump.

Preferably, the second driving part comprises an installation block sliding on the support along the height direction, a first screw rod vertically and rotatably connected to the support, and a first motor installed on the support, the first screw rod is arranged in the installation block in a penetrating manner and is in threaded connection with the installation block, the first motor is in transmission connection with the first screw rod, and the first driving part and the blocking part are arranged on the installation block.

Through adopting above-mentioned technical scheme, first motor drives first screw rod and rotates, alright drive installation piece and slide from top to bottom, realize the synchronous altitude slide adjustment to first driving piece and fender piece.

Preferably, the material receiving part comprises a flat plate part and a plurality of rollers arranged on the bottom surface of the flat plate part, and the flat plate part and the tool are opposite up and down.

Through adopting above-mentioned technical scheme, the pallet section can carry out stability to the metal mesh that drops and support and stack, and the gyro wheel can be convenient for whole material receiving part and slide from the below of frock and take out, changes different material receiving parts.

Preferably, an elastic layer is provided on an upper surface of the flat plate portion.

Through adopting above-mentioned technical scheme, the elastic layer has better elastic deformation ability, can play the effect of better buffering, further reduces the wearing and tearing that take place when the metal mesh falls to and connects the material piece.

Preferably, the blocking piece is provided with a hook portion in a rotating mode, the hook portion covers or leaves the position right above the metal net when rotating, and the blocking piece is provided with a second motor used for driving the hook portion to rotate.

Through adopting above-mentioned technical scheme, because the metal mesh welding is accomplished the back and is blocked in first groove, second inslot, sometimes keep off when direct lapse, the metal mesh still can be blocked in first groove, second inslot, consequently can block the top of metal mesh through hook portion, when keeping off the piece lapse, the hook can hold the metal mesh for the metal mesh that is blocked receives decurrent power, guarantees that the metal mesh can break away from the frock.

Preferably, the lateral support portion is provided with a clamping plate on one side of each first groove, the longitudinal support portion is also provided with a clamping plate on one side of each second groove, the clamping plates are adjusted along the horizontal width direction of the first grooves or the second grooves, the cross rod is clamped between the clamping plates and the other side of the first grooves, and the longitudinal rod is clamped between the clamping plates and the other side of the second grooves.

Through adopting above-mentioned technical scheme, through the cardboard that adjusts the setting, can adjust the chucking width in first groove, second groove to in the horizontal pole, the vertical pole of blocking different external diameters.

Preferably, one side of the transverse supporting part, which is close to each first groove, is provided with a strip-shaped hole, one side of the longitudinal supporting part, which is close to each second groove, is also provided with a strip-shaped hole, the clamping plate is locked on the transverse supporting part or the longitudinal supporting part through a bolt and nut assembly, and the bolt penetrates through the clamping plate and the strip-shaped hole and then is locked with the nut.

Through adopting above-mentioned technical scheme, through the bar hole, can be with the cardboard lock in the position of difference, realize the regulation of first groove, the tight width of second groove card.

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

(1) Through the arrangement of the matching among the bracket, the tool, the transverse supporting part, the longitudinal supporting part, the blocking part and the material receiving part, the effect of conveniently taking out and collecting the welded metal mesh from the tool is achieved;

(2) Through the cooperation between setting up hook portion and the second motor, guarantee to be blocked the metal mesh on the frock after the welding and can receive decurrent power, pull down the metal mesh from the frock.

Drawings

FIG. 1 is a schematic view of the structure of the expanded metal of the present embodiment;

FIG. 2 is a schematic structural diagram of the welding positioning device of the present embodiment;

FIG. 3 is a partial schematic structural view of the welding positioning device of the present embodiment;

FIG. 4 is a schematic structural view of the receiving member of the present embodiment;

FIG. 5 is a schematic structural diagram of the stopper according to the present embodiment.

Reference numerals: 1. a metal mesh; 101. a longitudinal bar; 102. a cross bar; 2. a support; 3. assembling; 31. a lateral support portion; 32. a longitudinal support portion; 4. a first groove; 5. a second groove; 6. a' 21274; 7. a stopper; 71. a first lever; 72. a second lever; 8. a first driving member; 9. receiving a material part; 91. a flat plate portion; 92. a roller; 10. an elastic layer; 11. a second driving member; 111. mounting blocks; 112. a first screw; 113. a first motor; 12. a limiting part; 13. a hole of abdication; 14. a connecting rod; 15. a hook portion; 16. a second motor; 17. clamping a plate; 18. a strip-shaped hole; 19. bolt nut subassembly.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses metal mesh welding position device, mainly used carries out welding position to metal mesh 1. Referring to fig. 2 and 3, the welding positioning device includes a bracket 2 and a tool 3 for positioning a cross bar 102 and a longitudinal bar 101. Frock 3 includes a plurality of horizontal support portions 31 and a plurality of vertical support portion 32 that the level set up, and in this implementation, horizontal support portion 31 and a plurality of vertical support portion 32 all are provided with two, and horizontal support portion 31, vertical support portion 32 all are the bar form, and horizontal support portion 31 interval is relative and parallel arrangement, and vertical support portion 32 interval is relative and parallel arrangement, and the tip of horizontal support portion 31, vertical support portion 32 encloses into and is the horizontally rectangle frame form. A plurality of first grooves 4 which are penetrated through from top to bottom are arranged on the transverse supporting part 31 at intervals, a plurality of second grooves 5 which are penetrated through from top to bottom are arranged on the longitudinal supporting part 32 at intervals, and two parts of the transverse supporting part 31 which are separated by the first grooves 4 are connected through a plurality of '21274' type frames 6, and two ends of a clipping opening of the 'v 21274' type frame 6 are fixed with the transverse supporting part 31 at two sides of the first grooves 4; the two parts of the longitudinal support part 32 which are separated by the second groove 5 are also connected through a plurality of '21274', the two ends of the clamping opening of the 'v 21274' shaped frame 6 are fixed with the longitudinal support part 32 at the two sides of the second groove 5.

The stopper 7 is horizontally connected to the support 2 in a sliding manner and positioned below the tooling 3, the stopper 7 comprises two parallel and opposite first rods 71 and a second rod 72 fixed at one end of each first rod 71, the first rods 71 and the second rods 72 are enclosed into a '21274' shape, the two first rods 71 are positioned below the two longitudinal supporting parts 32, and the second rods 72 are opposite to one transverse supporting part 31; the first rod 71 covers the lower opening of the first slot 4, and the stopper 7 covers or opens the lower opening of the first slot 4 or the second slot 5 during sliding, for example, the second slot 5 is covered or opened in this embodiment. The two ends of the cross rod 102 are downwards clamped in the first grooves 4 of the at least two transverse supporting parts 31, and the longitudinal rod 101 is downwards clamped in the second grooves 5 of the at least two longitudinal supporting parts 32. In this embodiment, the two ends of the longitudinal rod 101 are clamped in the second groove 5, so that the lower side of the end of the longitudinal rod 101 is attached to the upper surface of the first rod 71, the first rod 71 can limit the longitudinal rod 101 from falling from the second groove 5, then the two ends of the cross rod 102 are clamped in the first groove 4, and the lower side of the cross rod 102 is abutted to the longitudinal rod 101, so that the cross rod 102 and the longitudinal rod 101 can be positioned, and then subsequent welding can be performed.

Be provided with on support 2 and be used for driving to keep off the first driving piece 8 that 7 levels slided, the cylinder that the level set up is selected to first driving piece 8, and the telescopic link of cylinder is parallel with second pole 72, and the piston rod of cylinder is close to the rigidity in the middle with second pole 72, and the piston rod downside of cylinder is fixed with the slider, is fixed with the slide rail parallel with the piston rod on the installation piece 111, and the slider slides and connects at the slide rail, guarantees the stable straight line of piston rod and slides. After the transverse rod 102 and the longitudinal rod 101 are welded together to form the metal net 1, the first driving part 8 drives the blocking part 7 to slide, so that the first rod 71 leaves the lower opening of the second groove 4, the first rod 71 loses the support of the first rod 71, and the metal net 1 falls from the tool 3 under the action of self gravity.

Referring to fig. 2 and 4, a receiving part 9 is arranged on the bracket 2 below the tool 3, and the receiving part 9 and the bracket 2 are arranged independently; the receiving part 9 comprises a flat plate part 91 and a plurality of rollers 92 arranged on the bottom surface of the flat plate part 91, the flat plate part 91 is a rectangular plate, the flat plate part 91 is vertically opposite to the tool 3, and an elastic layer 10 is adhered to the upper surface of the flat plate part 91. When metal mesh 1 dropped, on falling elastic layer 10 to collect metal mesh 1, elastic layer 10 selected for rubber materials makes, can play the effect of buffering, reduces the wearing and tearing that metal mesh 1 received. And after metal mesh 1 piles up to a take the altitude on flat plate portion 91, can directly subtract material 9 and release from frock 3 below, change new material 9 that connects.

Because the tool 3 and the flat plate part 91 have a certain height distance, the metal nets 1 can collide with each other when directly falling. Therefore, a second driving piece 11 for driving the blocking piece 7 to slide and adjust along the height direction is arranged on one side of the bracket 2; a limiting part 12 is vertically fixed at a position near the middle of the two ends of the flat plate part 91, the limiting part 12 is rod-shaped, the limiting part 12 is arranged along the height direction, and the limiting part 12 is positioned between the two cross rods 102 or the two longitudinal rods 101. The second driving part 11 comprises an installation block 111 sliding on the bracket 2 along the height direction, a first screw rod 112 vertically and rotatably connected to the bracket 2, and a first motor 113 installed on the bracket 2, wherein the first screw rod 112 vertically penetrates through the installation block 111 and is in threaded connection with the installation block 111, and the first motor 113 is in transmission connection with the first screw rod 112; the first driving member 8 and the catch 7 are provided at the mounting block 111. When the first motor 113 drives the first screw rod 112 to rotate, the mounting block 111 can be driven to move up and down, so as to synchronously drive the first driving member 8 and the blocking member 7 to slide up and down together.

When the stopper 7 moves downwards, the limiting part 12 penetrates through the stopper 7 and the metal net 1, one side of the stopper 7 in the self-sliding direction is provided with a yielding hole 13, and the yielding hole 13 is formed between one ends of the two first rods 71 far away from the first rods 71; when the stopper 7 moves downwards to the metal net 1 near the highest position, the stopper 7 is controlled to slide horizontally, and when the stopper 7 slides to the position where the limiting part 12 contacts with the cross bar 102 or the vertical bar 101, the limiting part 12 can limit the metal net 1 to continuously slide horizontally along with the stopper 7, so that when the stopper 7 continues to slide, the metal net 1 can be separated from the upper side of the stopper 7, fall and stack to the flat plate part 91.

Referring to fig. 2 and 5, a connecting rod 14 is fixed on the second rod 72 near the middle, the connecting rod 14 is parallel to the first rod 71, a hook part 15 is rotated on the stopper 7, the rotation axis of the hook part 15 is parallel to the connecting rod 14, the hook part 15 can cover or separate from the right top of the cross bar 102 or the vertical bar 101 when rotating, a second motor 16 for driving the hook part 15 to rotate is fixed on the stopper 7, and the second motor 16 is selected as a motor. Since the metal mesh 1 is stuck in the first and second grooves 4 and 5 after the welding is completed, the metal mesh 1 is still stuck in the first and second grooves 4 and 5 when the stopper 7 directly moves down. The upper part of the metal net 1 can be blocked by the hook part 15, when the blocking part 7 moves downwards, the hook part 15 can pull the metal net 1, so that the blocked metal net 1 is forced downwards, and the metal net 1 can be ensured to be separated from the tool 3.

Referring to fig. 3, a clamping plate 17 is fixed on one side of each first groove 4 of the transverse support portion 31, a clamping plate 17 is fixed on one side of each second groove 5 of the longitudinal support portion 32, the clamping plates 17 are adjusted along the horizontal width direction of the first grooves 4 or the second grooves 5, the cross bar 102 is clamped between the clamping plates 17 and the other side of the first grooves 4, and the longitudinal bar 101 is clamped between the clamping plates 17 and the other side of the second grooves 5. Specifically, a strip-shaped hole 18 is horizontally formed in one side, close to each first groove 4, of each transverse supporting portion 31, a strip-shaped hole 18 is horizontally formed in one side, close to each second groove 5, of each longitudinal supporting portion 32, the clamping plate 17 is locked to the transverse supporting portions 31 or the longitudinal supporting portions 32 through bolt and nut assemblies 19, and the bolts are locked with nuts after penetrating through the clamping plate 17 and the strip-shaped holes 18. Through different locking positions of the clamping plate 17, the clamping widths of the first groove 4 and the second groove 5 can be adjusted so as to be suitable for positioning and clamping cross rods 102 and longitudinal rods 101 with different outer diameters.

The implementation principle of the metal mesh welding and positioning device in the embodiment of the application is as follows: before welding, the two ends of the longitudinal rod 101 are clamped in the second groove 5, and at the moment, the first rod 71 covers the lower opening of the second groove 5, so that the first rod 71 can support the longitudinal rod 101; and then placing the cross rod 102, so that the two ends of the cross rod 102 are clamped in the first groove 4 and are lapped on the upper side of the longitudinal rod 101, and the arrangement of the cross rod 102 and the longitudinal rod 101 by the tool 3 is realized, and then welding is carried out.

After the metal mesh 1 is formed after welding, the second motor 16 drives the hook portion 15 to rotate and cover the upper side of the cross rod 102 or the vertical rod 101, then the first motor 113 drives the mounting block 111 to move downwards, the hook portion 15 pulls the metal mesh 1 to separate from the tool 3 and move downwards along with the metal mesh 1 until the limiting portion 12 penetrates through the metal mesh 1, the lower side of the blocking piece 7 is close to the stacked metal mesh 1 at the highest position, the cylinder drives the blocking piece 7 to horizontally slide, when the metal mesh 1 slides to contact the limiting portion 12, the limiting portion 12 limits the metal mesh 1 to continuously horizontally slide along with the blocking piece 7 until the blocking piece 7 completely separates from the lower side of the metal mesh 1, and the metal mesh 1 falls onto the flat plate portion 91, so that the welded metal mesh 1 can be conveniently taken out of the tool 3 and collected.

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

Claims

1. The metal mesh welding and positioning device is characterized by comprising a support (2) and a tool (3), wherein the tool (3) comprises transverse supporting parts (31) and longitudinal supporting parts (32), the transverse supporting parts (31) are arranged on the support (2) at intervals, a plurality of through first grooves (4) are arranged on the transverse supporting parts (31) at intervals, a plurality of through second grooves (5) are arranged on the longitudinal supporting parts (32) at intervals, a blocking part (7) is movably connected onto the support (2), openings at the lower sides of the first grooves (4) or the second grooves (5) are covered or opened in the moving process of the blocking part (7), and a material receiving part (9) is arranged on the support (2) and below the tool (3);

the cross rods (102) are clamped in first grooves (4) of at least two transverse supporting parts (31), and the longitudinal rods (101) are clamped in second grooves (5) of at least two longitudinal supporting parts (32).

2. A metal mesh welding positioning device according to claim 1, characterized in that said stopper (7) is connected to the support (2) in a sliding manner along the horizontal direction, and said support (2) is provided with a first driving member (8) for driving the stopper (7) to slide horizontally.

3. The metal mesh welding positioning device according to claim 2, wherein a second driving piece (11) for driving the blocking piece (7) to slide and adjust along the height direction is arranged on the support (2), a limiting portion (12) is arranged on the receiving piece (9), the limiting portion (12) is arranged along the height direction, the limiting portion (12) is located between the two cross rods (102) or the two longitudinal rods (101), the limiting portion (12) penetrates through the blocking piece (7), a yielding hole (13) is formed in one side, located in the sliding direction of the blocking piece (7), when the blocking piece (7) slides to the limiting portion (12) to be in contact with the cross rods (102) or the longitudinal rods (101), the limiting portion (12) is used for limiting the metal mesh (1) to continuously slide horizontally along with the blocking piece (7), and the second driving piece (11) drives the first driving piece (8) and the blocking piece (7) to synchronously slide along the height direction.

4. The metal mesh welding positioning device according to claim 3, characterized in that the second driving member (11) comprises a mounting block (111) sliding on the support (2) along the height direction, a first screw rod (112) vertically and rotatably connected to the support (2), and a first motor (113) mounted on the support (2), the first screw rod (112) is arranged through the mounting block (111) and is in threaded connection with the mounting block (111), the first motor (113) is in transmission connection with the first screw rod (112), and the first driving member (8) and the stopper (7) are arranged on the mounting block (111).

5. The metal mesh welding and positioning device according to claim 1, wherein the receiving member (9) comprises a flat plate portion (91) and a plurality of rollers (92) arranged on the bottom surface of the flat plate portion (91), and the flat plate portion (91) and the tool (3) are opposite to each other in the vertical direction.

6. A metal mesh welding positioning device according to claim 5, characterized in that the upper surface of said flat plate portion (91) is provided with an elastic layer (10).

7. A positioning device for welding of metal nets according to claim 3, characterized in that the stopper (7) is provided with a hook part (15) in a rotating manner, the hook part (15) covers or leaves the metal net (1) right above when rotating, and the stopper (7) is provided with a second motor (16) for driving the hook part (15) to rotate.

8. A metal mesh welding positioning device according to claim 1, characterized in that the lateral support portion (31) is provided with a clamping plate (17) at one side of each first slot (4), the longitudinal support portion (32) is provided with a clamping plate (17) at one side of each second slot (5), the clamping plate (17) is adjusted along the horizontal width direction of the first slot (4) or the second slot (5), the cross bar (102) is clamped between the clamping plate (17) and the other side of the first slot (4), and the longitudinal bar (101) is clamped between the clamping plate (17) and the other side of the second slot (5).

9. A metal mesh welding positioning device according to claim 8, characterized in that a strip-shaped hole (18) is formed in one side of the transverse support part (31) close to each first groove (4), a strip-shaped hole (18) is also formed in one side of the longitudinal support part (32) close to each second groove (5), the clamping plate (17) is locked to the transverse support part (31) or the longitudinal support part (32) through a bolt-nut assembly (19), and a bolt is locked to a nut after passing through the clamping plate (17) and the strip-shaped hole (18).