CN213560822U

CN213560822U - High-efficient tool and welding set

Info

Publication number: CN213560822U
Application number: CN202022635051.5U
Authority: CN
Inventors: 冯绍勇; 陈聚保; 刘敏
Original assignee: Xiamen Jinxin Display Rack Co ltd
Current assignee: Xiamen Jinxin Display Rack Co ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2021-06-29
Anticipated expiration: 2030-11-13

Abstract

The utility model belongs to the technical field of the technique of welding machine and specifically relates to a high-efficient tool and welding set is related to, a high-efficient tool includes the parallel first constant head tank that sets up side by side of a plurality of roots and the parallel second constant head tank that sets up side by side of a plurality of roots, a plurality of cross fixed connection between first constant head tank and a plurality of second constant head tank, the up end shaping of first constant head tank has a plurality of to be used for supplying to correspond the first constant head tank that a plurality of first wires were planted, the up end shaping of second constant head tank has a plurality of to be used for supplying to correspond the second constant head tank that a plurality of second wires were planted, a welding set includes welding machine body and operation panel, the bonding tool of welding machine body is located the operation panel top with liftable, still includes the tool, the tool is placed on the operation panel. This application has the effect of being convenient for fix a position the processingquality in order to improve the metal mesh to the wire.

Description

High-efficient tool and welding set

Technical Field

The application relates to the technical field of welding machines, in particular to a high-efficiency jig and a welding unit.

Background

The display rack is mainly used for displaying and exhibiting articles, and for the display rack made of metal, in order to reduce the overall weight of the display rack, a metal mesh is usually adopted to replace a metal plate at a part of the position.

The metal net is formed by a plurality of first metal wires and a plurality of second metal wires which are criss-cross, and in the related technology, the specific operation of forming the metal net by the plurality of metal wires is as follows: firstly, two criss-cross metal wires are placed on an operation table of a welding machine, the crossing positions are aligned and placed below a welding head of the welding machine, the welding head moves downwards to weld the crossing positions, so that the two metal wires are welded together, and then the operation is repeated to sequentially stack the remaining metal wires until a metal mesh is formed.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the metal wire is stacked while welding, so that a worker needs to continuously perform manual positioning on the metal wire, the metal wire is easy to deviate in position in the moment of welding by the welding head, and the processing quality of the metal mesh is influenced if the metal wire is not accurately positioned.

SUMMERY OF THE UTILITY MODEL

In order to facilitate fixing a position the processingquality in order to improve the metal mesh to the wire, this application provides a high-efficient tool and welding set.

First aspect, the application provides a high-efficient tool adopts following technical scheme:

the utility model provides a high-efficient tool, includes a plurality of parallels first locating strip and a plurality of parallels second locating strip that sets up side by side, a plurality of cross fixed connection between first locating strip and a plurality of second locating strip, the up end shaping of first locating strip has a plurality of and is used for supplying to correspond the first constant head tank that a plurality of first wire plant, the up end shaping of second locating strip has a plurality of and is used for supplying to correspond the second constant head tank that a plurality of second wire plant.

Through adopting above-mentioned technical scheme, before welding first wire and second wire, insert in proper order a plurality of first wires and arrange in first constant head tank earlier, thereby first constant head tank can fix a position first wire through the grafting cooperation of first constant head tank with first wire, it is a plurality of with second wire insert in proper order and arrange in on the second constant head tank, thereby second constant head tank can fix a position second wire through the grafting cooperation of second constant head tank with the second wire, like this can once only arrange a plurality of first wires and second wire and form the metal mesh, follow-up when welding the crosspoint of first wire and second wire again, need not carry out artifical location repeatedly, also be difficult in the welded phenomenon that the wire position is skew appears in the twinkling of an eye, and then the processingquality of metal mesh has been improved.

Preferably, when the first metal wire is inserted into the first positioning groove, the groove wall of the first positioning groove is in contact with the outer surface of the first metal wire; when the second metal wire is inserted into the second positioning groove, the groove wall of the second positioning groove is in contact with the outer surface of the second metal wire.

Through adopting above-mentioned technical scheme, first wire is difficult for the free-moving in first constant head tank like this, can improve the location effect to first wire, also can not influence simultaneously and insert first metal in first constant head tank, and is same, and the second wire is difficult for moving in the second constant head tank, can improve the location effect to the second wire, also can not influence simultaneously and insert the second metal in the second constant head tank.

Preferably, still include fixed frame, fixed frame is located to the equal support frame of first locating strip and second locating strip, and when first wire was inserted and is arranged in on first locating strip, the tip of first wire and fixed frame's lateral wall looks butt, when second wire was inserted and is arranged in second locating strip, the tip of second wire and fixed frame's lateral wall looks butt.

Through adopting above-mentioned technical scheme, still need align the tip of a plurality of first wire because first wire is planted on first locating strip back, through establishing first locating strip support frame on fixed frame, first wire is planted behind first locating strip, can offset through the tip with the lateral wall of fixed frame with first wire to realize the alignment of a plurality of first wires, fixed frame aligns the tip of a plurality of second wires equally, further improves the location effect to first wire and second wire.

Preferably, one side of the fixed frame is provided with a hand lever for facilitating a worker to move the fixed frame.

Through adopting above-mentioned technical scheme, the staff can remove fixed frame through holding the handspike, brings the facility for staff's operation.

In a second aspect, the present application provides a welding unit, which adopts the following technical scheme:

the utility model provides a welding unit, includes welding machine body and operation panel, the bonding tool liftable ground of welding machine body is located the operation panel top, still includes the tool, the tool is placed on the operation panel.

Through adopting above-mentioned technical scheme, at the in-process of welding the metal mesh, utilize the tool to fix a position the wire to the bonding tool of welding machine can accurately weld the wire, thereby adopts the welding unit of this application can improve the location effect to the wire in order to obtain the metal mesh that welding quality is good.

Preferably, the operating platform is provided with a guide assembly for realizing vertical movement and transverse movement of the jig on the operating platform.

Through adopting above-mentioned technical scheme, because in welding process, in order to let the crosspoint of treating welding can aim at the bonding tool below that is located welding unit, the staff usually need constantly move the tool in welding process, nevertheless at the in-process that removes the tool, often can be difficult to control shift position, still puts the tool skew easily, brings the inconvenience, provides the guide effect for the removal of tool through the direction subassembly, offers convenience for removing the tool.

Preferably, the direction subassembly is including setting up the bottom plate that slides on the operation panel, the bottom plate that slides respectively with workstation and tool level and slides and be connected, the bottom plate that slides is the x direction with the slip direction of workstation, the bottom plate that slides is the y direction with the slip direction of tool, the x direction is perpendicular with the y direction.

Through adopting above-mentioned technical scheme, because x direction is perpendicular with the y direction, can be through with the tool along the adjustment position that slides of slide bottom plate on the y direction, can be through with the whole adjustment position that slides of operation panel along the tool and the bottom plate that slides on the x direction to can make the tool follow specific direction adjustment position.

Preferably, the sliding bottom plate is provided with a first sliding block, the workbench is provided with a first sliding groove for the first sliding block to slide along the x direction, the length direction of the first sliding groove is the same as the x direction, the jig is provided with a second sliding block, the sliding bottom plate is provided with a second sliding groove for the second sliding block to slide along the y direction, and the length direction of the second sliding groove is the same as the y direction.

Through adopting above-mentioned technical scheme, slide through the cooperation of first dovetail block and first dovetail between bottom plate and the workstation of sliding, can make the bottom plate of sliding only slide along the length direction of first dovetail, equally, slide through the cooperation of second dovetail block and second dovetail between bottom plate of sliding and the tool, can make the tool only slide along the length direction of second dovetail, and then improve the regulation guide effect to the tool.

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

the first metal wire and the second metal wire are positioned by correspondingly placing the first metal wire and the second metal wire on the jig, so that the step of manually positioning the metal wires for many times is omitted, the phenomenon of position deviation of the metal wires at the moment of welding can be improved, the positioning effect of the metal wires is improved, and the processing quality of the metal mesh is improved;

the groove wall of the first positioning groove and the groove wall of the second positioning groove can be in contact with the outer surfaces of the corresponding metal wires, so that the metal wires are not easy to move at will, and the positioning effect on the metal wires is further improved;

the welding unit of this application utilizes the tool to fix a position the wire to the bonding tool of welding machine can accurately weld the wire, thereby adopts the welding unit of this application can improve the location effect to the wire in order to obtain the metal mesh that welding quality is good.

Drawings

Fig. 1 is a schematic structural diagram of an efficient fixture in embodiment 1 of the present application.

Fig. 2 is a schematic structural diagram of a welding unit in embodiment 2 of the present application.

Fig. 3 is a schematic structural diagram of a welding unit according to embodiment 3 of the present application.

Description of reference numerals: 1. a jig; 11. a fixed frame; 12. a first positioning bar; 13. a second positioning bar; 121. a first positioning groove; 131. a second positioning groove; 14. a handle; 2. a welding machine body; 21. a welding head; 3. an operation table; 31. a sliding bottom plate; 4. a first slider; 5. a slide rail; 6. a first chute; 7. connecting blocks; 8. a second slider; 9. a second chute; 10. and a stop block.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a high-efficient tool.

Example 1.

Referring to fig. 1, the jig is made of a metal material, and includes a fixed frame 11, a plurality of first positioning bars 12 arranged in parallel and a plurality of second positioning bars 13 arranged in parallel and a plurality of parallel, the first positioning bars 12 and the second positioning bars 13 are all supported and erected on the fixed frame 11, specifically, two ends of the first positioning bars 12 are respectively fixedly connected with two side walls corresponding to the fixed frame 11, and two ends of the second positioning bars 13 are respectively fixedly connected with the other two side walls corresponding to the fixed frame 11. The first positioning bar 12 is used for positioning the first wire and the second positioning bar 13 is used for positioning the second wire. The plurality of first positioning strips 12 and the plurality of second positioning strips 13 are in cross fixed connection. The crossing can be arranged in a criss-cross mode or in a crossing mode forming any acute angle, and the crossing can be determined according to the actual requirement of the metal mesh.

A plurality of first positioning grooves 121 for inserting a plurality of first metal wires are formed in the upper end face of each first positioning strip 12, the first positioning grooves 121 on each first positioning strip 12 are distributed at intervals along the length direction of the first positioning strip 12, and the intervals can be determined according to the processing requirements of metal nets. And the first positioning grooves 121 of each first positioning bar 12 are arranged in a one-to-one correspondence in a direction perpendicular to the length direction of the first positioning bar 12. Before welding, a plurality of first metal wires are sequentially inserted into a plurality of corresponding first positioning grooves 121 along the length direction of the first positioning strips 12, and meanwhile, each first metal wire can be simultaneously inserted into the corresponding first positioning grooves 121 of the first positioning strips 12, so that the first metal wires can be stably inserted into the first positioning strips 12, and the first metal wires are positioned.

A plurality of second positioning grooves 131 for inserting a plurality of second metal wires are formed in the upper end surface of each second positioning strip 13, the second positioning grooves 131 on each second positioning strip 13 are distributed at intervals along the length direction of the second positioning strip 13, and the intervals can be determined according to the processing requirements of the metal mesh. And the second positioning grooves 131 of each second positioning strip 13 are arranged in a one-to-one correspondence in the length direction perpendicular to the second positioning strips 13. Before welding, a plurality of second metal wires are sequentially inserted into the corresponding second positioning grooves 131 along the length direction of the second positioning strips 13, and meanwhile, each second metal wire can be simultaneously inserted into the corresponding second positioning groove 131 of the second positioning strips 13, so that the second metal wires can be stably inserted into the second positioning strips 13, and the second metal wires can be positioned.

When the first metal wire is inserted into the first positioning groove 121, the groove wall of the first positioning groove 121 contacts with the outer surface of the first metal wire, that is, the groove width of the first positioning groove 121 is set to be matched with the diameter of the cross section of the first metal wire, so that the first metal wire is not easy to move in the first positioning groove 121, the positioning effect on the first metal wire can be improved, and meanwhile, the first metal wire cannot be inserted into the first positioning groove 121.

When the second metal wire is inserted into the second positioning groove 131, the groove wall of the second positioning groove 131 contacts with the outer surface of the second metal wire, i.e., the groove width of the second positioning groove 131 is set to be matched with the diameter of the cross section of the second metal wire, so that the second metal wire is not easy to move in the second positioning groove 131, the positioning effect on the second metal wire can be improved, and meanwhile, the second metal wire can not be inserted into the second positioning groove 131.

In addition, when the first wires are inserted into the first positioning bars 12, the ends of the first wires abut against the side walls of the fixed frame 11, so that a plurality of first wires can be quickly aligned. When the second metal wire is inserted into the second positioning strip 13, the end of the second metal wire is abutted against the side wall of the fixed frame 11, so that the second metal wires can be aligned quickly, and the positioning effect of the first metal wire and the second metal wire is further improved. A handle bar 14 for facilitating the movement of the fixing frame 11 by an operator is further arranged on one side of the fixing frame 11, and the operator can hold the handle bar 14 to move the fixing frame 11, so that convenience is brought to the operation of the operator.

The implementation principle of the embodiment 1 of the application is as follows: the first metal wire is inserted into the first positioning groove 121 of the first positioning bar 12 to position the first positioning bar 12, and the second metal wire is inserted into the second positioning groove 131 of the second positioning bar 13 to position the second positioning bar 13.

The application also discloses a welding unit.

Example 2.

Referring to fig. 2, the welding unit includes welding machine body 2, operation panel 3 and tool 1, and welding head 21 of welding machine body 2 sets up in operation panel 3 top with the liftable, and the concrete mode that realizes welding head 21 of welding machine body 2 liftable here can be: the welding machine body 2 is provided with a lifting cylinder, and the end part of a piston rod of the lifting cylinder is fixedly connected with the welding head 21 so as to drive the welding head 21 to reciprocate above the operating platform 3. Tool 1 is placed on operation panel 3, and on tool 1 was all arranged in to first wire and second wire, the staff moved tool 1 for wait that the welding position can be located the bonding tool 21 below of welding machine body 2.

The implementation principle of embodiment 2 of the present application is as follows: after the jig 1 is used for positioning the first metal wire and the second metal wire, the jig 1 is placed on the operating table 3, the jig 1 is manually moved, the position to be welded is located under the welding head 21 of the welding machine body 2, and the welding head 21 of the welding machine body 2 descends to weld the position to be welded.

Example 3.

Referring to fig. 3, the present embodiment is different from embodiment 2 in that a guide assembly for realizing vertical movement and lateral movement of the jig 1 on the operation table 3 is arranged on the operation table 3, and a guide function is provided for the movement of the jig 1 by the guide assembly. Specifically, the direction subassembly is including setting up the bottom plate 31 that slides on operation panel 3, and the bottom plate 31 that slides respectively with workstation and 1 horizontal slip connection of tool, and the bottom plate 31 that slides is the x direction with the slip direction of workstation, and the bottom plate 31 that slides is the y direction with the slip direction of tool 1, and the x direction is perpendicular with the y direction. It should be noted that the aforementioned x direction may be a direction perpendicular to the welding machine body 2, and the y direction is a direction parallel to the welding machine body 2; the x direction may be a direction parallel to the welding machine body 2, and the y direction may be a direction perpendicular to the welding machine body 2, as long as the x direction is perpendicular to the y direction. In this embodiment, the x direction may be a direction perpendicular to the welder body 2, and the y direction may be a direction parallel to the welder body 2. Thereby can be through adjusting tool 1 position with tool 1 along the slide bottom plate that slides on the y direction, can adjust tool 1 position through sliding along operation panel 3 on the x direction with tool 1 and the bottom plate 31 that slides wholly to can realize tool 1 and adjust to optional position along specific direction on the 3 horizontal directions of operation panel.

The concrete structure for realizing the sliding connection between the sliding bottom plate 31 and the operating platform 3 is as follows: both sides of the sliding bottom plate 31 are provided with the first sliding blocks 4, both sides of the surface of the operating platform 3 are provided with the sliding rails 5, the length direction of the sliding rails 5 is the same as the x direction, the sliding rails 5 are provided with the first sliding grooves 6 for the first sliding blocks 4 to slide along the x direction, the length direction of the first sliding grooves 6 is the same as the x direction, and therefore when the jig 1 is pushed along the y direction, the sliding bottom plate 31 cannot be caused to slide along the y direction at the same time, and the sliding between the sliding bottom plate 31 and the jig 1 is influenced. The specific structure for realizing the sliding movement of the first slider 4 only along the x direction here may be: firstly, a first sliding groove 6 is arranged to be a dovetail groove or a T-shaped groove, and a first sliding block 4 is correspondingly arranged to be a dovetail block or a T-shaped block; secondly, the first chutes 6 are formed into two, the two first chutes 6 are formed on two side surfaces of the sliding rail 5 respectively, the first sliding blocks 4 are correspondingly arranged into two, the two first sliding blocks 4 are arranged on one connecting block 7, the connecting block 7 is similar to the Jiong shape, the specific connecting block 7 comprises a first block, a second block and a third block, the first block and the third block are arranged in parallel, two ends of the second block are connected with the end parts of the first block and the second block, the upper end surface of the second block is fixedly connected with the bottom surface of the sliding bottom plate 31, the lower end surface of the second block is attached to the upper end surface of the sliding rail 5, the two first sliding blocks 4 are arranged on two opposite surfaces of the first block and the third block respectively, and the two first sliding blocks 4 are protruded towards the direction close to each other and are correspondingly inserted into the corresponding first chutes 6. In this embodiment, adopt above-mentioned second kind of structure, owing to adopt two sets of first slider 4 and the cooperation of sliding of first spout 6 for the process of sliding is more stable.

The concrete structure that realizes the connection of sliding between bottom plate 31 and tool 1 that slides does: all be provided with second slider 8 on the terminal surface around tool 1, be provided with on the bottom plate 31 that slides and supply second slider 8 only to follow the second spout 9 that the y direction slided, the length direction of second spout 9 is the same with the y direction. The specific structure for realizing the sliding movement of the second slider 8 only along the y direction here can be: firstly, the second chute 9 is arranged to be a dovetail groove or a T-shaped groove, the second slide block 8 is correspondingly arranged to be a dovetail block or a T-shaped block, the first chute 6 is directly arranged on the upper surface of the sliding bottom plate 31 contacted with the jig 1, and the first slide block 4 is arranged on the bottom surface of the jig 1 contacted with the sliding bottom plate 31, so that the jig 1 can slide along the upper surface of the sliding bottom plate 31; and secondly, the second sliding groove 9 is arranged to be a dovetail groove or a T-shaped groove, and the second sliding block 8 is correspondingly arranged to be a dovetail block or a T-shaped block. The two sides of the upper surface of the jig 1 are provided with the stop blocks 10, the second sliding grooves 9 are arranged on the side surfaces, facing the center of the jig 1, of the stop blocks 10, and the second sliding blocks 8 are arranged on the two corresponding side surfaces of the jig 1. In this embodiment, with the second structure, the jig 1 can be lifted up by the stopper 10, so that the friction between the jig 1 and the operation table 3 is reduced during the movement of the jig 1.

The implementation principle of embodiment 3 of the application is as follows: utilize the bottom plate 31 that slides to slide simultaneously with workstation and tool 1 and be connected, and the direction of sliding of restriction bottom plate 31 and workstation is perpendicular to the direction of sliding of bottom plate 31 and tool 1 to realize that tool 1 can follow specific direction and adjust to the optional position at operation panel 3.

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 utility model provides a high-efficient tool which characterized in that: the wire drawing machine is characterized by comprising a plurality of first positioning strips (12) arranged in parallel and a plurality of second positioning strips (13) arranged in parallel and in parallel, wherein the first positioning strips (12) and the second positioning strips (13) are in cross fixed connection, a plurality of first positioning grooves (121) used for inserting a plurality of first metal wires are formed in the upper end face of the first positioning strips (12), and a plurality of second positioning grooves (131) used for inserting a plurality of second metal wires are formed in the upper end face of the second positioning strips (13).

2. The efficient jig of claim 1, wherein: when a first metal wire is inserted into the first positioning groove (121), the groove wall of the first positioning groove (121) is in contact with the outer surface of the first metal wire; when a second metal wire is inserted into the second positioning groove (131), the groove wall of the second positioning groove (131) is in contact with the outer surface of the second metal wire.

3. The efficient jig according to claim 1 or 2, wherein: still include fixed frame (11), fixed frame (11) are located to first location strip (12) and the equal support frame of second location strip (13), and when first wire was inserted and is arranged in on first location strip (12), the tip of first wire and the lateral wall looks butt of fixed frame (11), when second wire was inserted and is arranged in second location strip (13), the tip of second wire and the lateral wall looks butt of fixed frame (11).

4. The efficient jig of claim 3, wherein: and a hand lever (14) for facilitating the movement of the fixed frame (11) by a worker is arranged on one side of the fixed frame (11).

5. The utility model provides a welding unit, includes welding machine body (2) and operation panel (3), welding head (21) liftable ground of welding machine body (2) is located operation panel (3) top, its characterized in that: further comprising a jig (1) according to any one of claims 1 to 4, said jig (1) being placed on a table (3).

6. A welding unit as claimed in claim 5, characterized in that: the operating table (3) is provided with a guide assembly for realizing vertical movement and transverse movement of the jig (1) on the operating table (3).

7. The welding assembly of claim 6, wherein: the direction subassembly is including setting up bottom plate (31) that slides on operation panel (3), bottom plate (31) that slides respectively with workstation and tool (1) horizontal slip be connected, bottom plate (31) that slides is the x direction with the slip direction of workstation, bottom plate (31) that slides is the y direction with the slip direction of tool (1), the x direction is perpendicular with the y direction.

8. The welding assembly of claim 7, wherein: be provided with first slider (4) on bottom plate (31) slides, the shaping has first spout (6) that supplies first slider (4) to only slide along the x direction on the workstation, the length direction and the x direction of first spout (6) are the same, be provided with second slider (8) on tool (1), be provided with on bottom plate (31) slides and supply second slider (8) only to slide along the y direction second spout (9), the length direction and the y direction of second spout (9) are the same.