CN203578990U - Welding flux protective device - Google Patents

Abstract

The utility model relates to a welding flux protective device, comprising a support plate for holding welding flux, a magnet block fixedly arranged below the support plate and capable of adhering to the wall surface of a workpiece, and an unloading rotary handle rotationally connected with the magnet block, wherein the magnet block is positioned on one side of the support plate adjacent to the wall surface of the workpiece, and when the unloading rotary handle is rotated, one end of the unloading rotary handle can be abutted against the wall surface of the workpiece. The welding flux protective device can adhere to the wall surface of the workpiece by using the magnet block, so that the support plate can support the welding flux added to a weld joint groove, the welding flux does not drop out, and thus the welding efficiency and quality are improved.

Description

A kind of solder flux protective device

Technical field

The utility model belongs to welding field, relates in particular to a kind of solder flux protective device.

Background technology

Lincoln weld is called for short submerged-arc welding, is that electric arc burns under welding flux layer, with ignite electric arc controlling of machine automatization, automatically complete a kind of arc welding method moving with electric arc of sending to of welding wire, but in welding process, the solder flux of weld groove easily drops, and affects welding efficiency and quality.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of solder flux protective device that can prevent that solder flux from dropping.

The utility model is to realize like this; a kind of solder flux protective device is provided; comprise for the supporting plate of support solder flux, be fixedly arranged on described supporting plate below and adsorbable magnet piece on workpiece wall and be connected in rotationally the unloading turning handle on described magnet piece; described magnet piece is positioned at the side of described supporting plate near described workpiece wall; while rotating described unloading turning handle, one end of described unloading turning handle can be resisted against on described workpiece wall.

Further, on described magnet piece, be equipped with rotating shaft, described unloading turning handle is connected on described magnet piece rotationally by described rotating shaft, and described rotating shaft is parallel to described workpiece wall.

Further, described unloading turning handle is greater than the spacing between described workpiece wall and described rotating shaft near the spacing between one end and the described rotating shaft of described workpiece wall.

Further, described supporting plate below is provided with magnet fixed mount, and described magnet piece is fixedly arranged on described magnet fixed mount.

Further, described magnet piece is fixedly arranged on described magnet fixed mount by bolt.

Further, one end of described supporting plate is installed with the first lapping plate, and its other end is installed with two the second lapping plates, between described two the second lapping plates, has the gap consistent with the width of described the first lapping plate.

Compared with prior art, solder flux protective device of the present utility model utilizes magnet piece to be adsorbed on workpiece wall, thereby its supporting plate can be lived the solder flux support of adding in weld groove, can not cause solder flux to drop, and has improved welding efficiency and quality.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model solder flux protective device one preferred embodiment;

Fig. 2 is the schematic side view when welding embodiment illustrated in fig. 1;

Schematic perspective view when Fig. 3 is multiple overlap joint embodiment illustrated in fig. 1.

The specific embodiment

In order to make technical problem to be solved in the utility model, technical scheme and beneficial effect clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As depicted in figs. 1 and 2; be a preferred embodiment of the present utility model, this solder flux protective device 2 comprises for the supporting plate 100 of support solder flux, is fixedly arranged on supporting plate 100 belows and adsorbable magnet piece 200 on workpiece wall 1 and is connected in rotationally the unloading turning handle 300 on magnet piece 200.Magnet piece 200 is positioned at the side of supporting plate 100 near workpiece wall 1, and while rotating unloading turning handle 300, one end of unloading turning handle 300 can be resisted against on workpiece wall 1.

Particularly, supporting plate 100 belows are provided with magnet fixed mount 101, and magnet piece 200 is fixedly arranged on magnet fixed mount 101 by bolt 201.

On magnet piece 200, be equipped with rotating shaft 202, unloading turning handle 300 is connected on magnet piece 200 rotationally by rotating shaft 202, and rotating shaft 202 is parallel to workpiece wall 1.

Unloading turning handle 300 is greater than the spacing between workpiece wall 1 and rotating shaft 202 near the spacing between one end and the rotating shaft 202 of workpiece wall 1.Therefore,, when rotary unloading idling handle 300, its one end that is close to workpiece wall 1 can be resisted against on workpiece wall 1.

When welding, this solder flux protective device 2 is adsorbed on workpiece wall 1 by magnet piece 200, makes supporting plate 100 be positioned at the lower end of weld groove, and supporting plate 100 just can be lived the solder flux support of adding in weld groove like this, thereby can not cause solder flux to drop.

When welding is complete, need this solder flux protective device 2 to unload, now, operating personnel rotate unloading turning handle 300, and its one end is resisted against on workpiece wall 1, utilize the reaction force of workpiece wall 1 that magnet piece 200 is departed from, thereby unload this solder flux protective device 2.

In addition, one end of supporting plate 100 is also installed with the first lapping plate 110, and its other end is installed with between 120, two the second lapping plates 120 of two the second lapping plates has the gap consistent with the width of the first lapping plate 110 121.

When weld seam is longer, two or more solder flux protective device 2 overlap joints can be got up use.

As shown in Figure 3; it is the situation that two solder flux protective devices, 2 overlap joints are used; the first lapping plate 110 of a solder flux protective device 2 is overlapped in the gap 121 of another solder flux protective device 2, and guarantees that both supporting plates 100 are positioned in same level, just can overlap use by both.

Above-mentioned solder flux protective device 2 utilizes magnet piece 200 to be adsorbed on workpiece wall 1, thereby its supporting plate 100 can be lived the solder flux support of adding in weld groove, can not cause solder flux to drop, and has improved welding efficiency and quality.

These are only preferred embodiment of the present utility model, not in order to limit the utility model, all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (6)

1. a solder flux protective device; it is characterized in that; comprise for the supporting plate of support solder flux, be fixedly arranged on described supporting plate below and adsorbable magnet piece on workpiece wall and be connected in rotationally the unloading turning handle on described magnet piece; described magnet piece is positioned at the side of described supporting plate near described workpiece wall; while rotating described unloading turning handle, one end of described unloading turning handle can be resisted against on described workpiece wall.

2. solder flux protective device as claimed in claim 1, is characterized in that, on described magnet piece, is equipped with rotating shaft, and described unloading turning handle is connected on described magnet piece rotationally by described rotating shaft, and described rotating shaft is parallel to described workpiece wall.

3. solder flux protective device as claimed in claim 2, is characterized in that, described unloading turning handle is greater than the spacing between described workpiece wall and described rotating shaft near the spacing between one end and the described rotating shaft of described workpiece wall.

4. solder flux protective device as claimed in claim 1, is characterized in that, described supporting plate below is provided with magnet fixed mount, and described magnet piece is fixedly arranged on described magnet fixed mount.

5. solder flux protective device as claimed in claim 4, is characterized in that, described magnet piece is fixedly arranged on described magnet fixed mount by bolt.

6. solder flux protective device as claimed in claim 1; it is characterized in that; one end of described supporting plate is installed with the first lapping plate, and its other end is installed with two the second lapping plates, between described two the second lapping plates, has the gap consistent with the width of described the first lapping plate.

Images