CN216637288U - Modular welding wire containing box - Google Patents

Abstract

The utility model provides a combined welding wire containing box, which comprises: at least two receiving containers, a partition plate and a discharging container; the partition board is obliquely assembled above the material receiving container, and a plurality of screening grooves which are arranged in parallel are transversely formed in the partition board; the side, higher than the partition plate, of the discharging container is transversely and symmetrically provided with supporting seats, the discharging container is transversely erected above the supporting seats, and a plurality of discharging grooves parallel to the screening grooves are transversely formed in the discharging container; the welding wires placed in the discharging container fall onto the partition plate through the discharging groove and slide to the screening groove matched with the specification of the welding wires to enter the corresponding receiving container. Adopt this combination formula welding wire containing box to the realization is to the welding wire automatic classification of different specifications, thereby avoids appearing leading to the not good condition of welding quality because of using wrong welding wire.

Description

Modular welding wire containing box

Technical Field

The utility model relates to the technical field of welding material management, in particular to a combined welding wire containing box.

Background

The welding wire is used as a metal wire welding material for filling metal, is commonly used for factory workshop production, and has huge use amount. At present, most welding wires in construction sites are mainly stored in a welding wire storage box or a welding wire storage barrel. The existing storage device is simple and crude compared with the traditional storage device, cannot automatically classify welding wires of different specifications, and can be randomly placed when welding workers classify the welding wires back to a warehouse without welding wire specification marks. As a result, the specifications of the collected welding wires are disordered, the workload of a welding wire manager is increased, and the management cost is increased; more importantly, the misplacement and misuse of the welding wire directly brings technical and safety risks to the subsequent welding work and welding quality.

In view of the above, there is a need for an improved wire storage box in the prior art to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to disclose a combined welding wire containing box to realize automatic classification of welding wires with different specifications, so that the condition of poor welding quality caused by using wrong welding wires is avoided.

In order to achieve the above object, the present invention provides a combined welding wire storage box, comprising: at least two receiving containers, a partition plate and a discharging container;

the partition board is obliquely assembled above the material receiving container, and a plurality of screening grooves which are arranged in parallel are transversely formed in the partition board; the side, higher than the partition plate, of the discharge container is transversely and symmetrically provided with supporting seats, the discharge container is transversely erected above the supporting seats, and a plurality of discharge grooves parallel to the screening grooves are transversely formed in the discharge container;

and welding wires placed in the discharge container descend to the partition plate through the discharge groove and slide to a screening groove matched with the specification of the welding wires to enter the corresponding receiving container.

As a further improvement of the utility model, the screening grooves are arranged at intervals along the inclined direction of the partition board, and the widths of the screening grooves are sequentially increased from the higher side to the lower side of the partition board step by step.

As a further improvement of the utility model, the screening tanks are arranged in three stages, and the number of the screening tanks in each stage is at least two.

As a further improvement of the utility model, the screening grooves comprise a first screening groove, a second screening groove and a third screening groove, the width of the first screening groove is 2.0-2.3 mm, the width of the second screening groove is 2.5-2.8 mm, and the width of the third screening groove is 3.0-3.3 mm.

As a further development of the utility model, the width of the discharge chute is greater than the largest dimension of the screen chute.

As a further improvement of the utility model, the inclination angle of the clapboard relative to the horizontal plane ranges from 5 degrees to 20 degrees.

As a further improvement of the utility model, the bottom of the receiving container is provided with a roller.

As a further improvement of the utility model, the outer wall of the receiving container is provided with a material taking window and a labeling part.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model provides a combined welding wire containing box, wherein a partition board is obliquely assembled above a material receiving container, and a plurality of screening grooves are transversely formed in the partition board along the oblique direction, so that welding wires placed in a discharging container fall onto the partition board through the discharging grooves parallel to the screening grooves and enter the corresponding material receiving container through the screening grooves matched with welding wire specifications, and therefore classified containing management of the welding wires of different specifications is realized. By adopting the combined welding wire containing box, the labor time cost increased by secondary leading of materials with wrong leading of technicians can be saved, the labor time cost increased by welding defects and repair caused by unqualified welding parameters due to misuse of welding wires can be saved, and more importantly, the probability of product quality problems and delayed delivery cycle is reduced.

Drawings

FIG. 1 is a front view of a modular wire container of the present invention;

FIG. 2 is a perspective view of the septum and the run-out container shown in FIG. 1 from one perspective.

Detailed Description

The present invention is described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and those skilled in the art should understand that functional, methodological, or structural equivalents or substitutions made by these embodiments are within the scope of the present invention.

It should be understood that, in the present application, the terms "longitudinal", "transverse", "length", "thickness", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, which are only for convenience of describing the present technical solution and simplifying the description, but do not indicate or imply that the designated jig or component must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present technical solution.

Referring to fig. 1 and 2, an embodiment of a modular wire storage case 100 is disclosed.

Referring to fig. 1 and 2, a modular welding wire storage case 100 includes: at least two receiving containers 10, a clapboard 20 and a discharging container 31; the clapboard 20 is obliquely assembled above the receiving container 10, and a plurality of screening grooves which are arranged in parallel are transversely arranged on the clapboard 20; the supporting seats (the supporting seat 314a and the supporting seat 314b) are transversely and symmetrically arranged on the higher side of the partition plate 20, the discharging container 31 is transversely erected above the supporting seats (the supporting seat 314a and the supporting seat 314b), and a plurality of discharging grooves 3131 parallel to the screening grooves are transversely formed in the discharging container 31; the welding wire placed in the discharging container 31 falls onto the partition board 20 through the discharging groove 3131 and falls into the screening groove matched with the welding wire specification to enter the corresponding receiving container 10. The width of the screening grooves increases in a stepwise manner from the higher side (hereinafter, referred to as "upper end 2041 of the partition plate 20") to the lower side (hereinafter, referred to as "lower end 2042 of the partition plate 20") of the partition plate 20. The width of the discharge chute 3131 is slightly larger than the largest dimension of the screening chute.

In the present embodiment, the screening slots in the combined welding wire storage box 100 are arranged in three stages, specifically, the partition plate 20 is provided with three types of screening slots, i.e., a first screening slot 201, a second screening slot 202, and a third screening slot 203, along the inclined direction; three receiving containers 10, i.e., a first receiving container 101, a second receiving container 102, and a third receiving container 103, are arranged corresponding to the screening chute. The width of the screening groove is from the higher side to the lower side of the partition board 20: the width of the first screening groove is 2.0-2.3 mm, and the first screening groove is matched with a welding wire with the diameter of 2.0 mm; the width of the second screening groove is 2.5-2.8 mm, and the second screening groove is matched with a welding wire with the diameter of 2.5 mm; and the width of the third screening groove is 3.0-3.3 mm and is matched with a welding wire with the diameter of 3.0 mm. A supporting seat 314a and a supporting seat 314b are symmetrically arranged at the upper end 2041 of the partition plate 20 along the inclined direction, the fixed shaft 312 of the discharging container 31 is erected on the supporting seat 314a and the supporting seat 314b, a discharging groove 3131 is transversely formed in the surface 313 of the discharging container 31, and the discharging groove 3131 is located below the discharging container 31, so that the welding wire placed in the discharging container 31 can fall onto the surface 204 of the partition plate 20 from the discharging groove 3131. The discharging container 31 is of a detachable structure, and the inside of the discharging container is a hollow cavity which can accommodate a plurality of welding wires with different specifications at one time. The width of discharge spout 3131 is slightly greater than the width of third screening trough 203, e.g., 3.3mm, which matches a 3.0mm diameter welding wire. Because the diameter difference of welding wires with different specifications is very small, and the width of the discharging groove 3131 is slightly larger than that of the third screening groove 203, the welding wires placed in the discharging container 31 drop one by one in the dropping process of the discharging groove 3131, and the dropping process cannot be influenced.

It should be noted that, in order to ensure that the welding wire can smoothly drop from the discharging groove 3131, a plurality of discharging grooves 3131 may be optionally formed on the surface 313 of the discharging container 31; in the embodiment, a rotating handle 311 is connected to the fixed shaft 312 of the discharging container 31 to prevent the welding wire in the discharging container 31 from interfering with each other during sliding to block the discharging chute 3131, and the rotating handle 311 can be driven to rotate by a hand or an external driving device.

When the welding wire in the tapping container 31 drops through the tapping spout 3131 onto the surface 204 of the diaphragm 20, the welding wire rolls downward under the influence of gravity in the direction of inclination of the diaphragm 20. Since the discharging groove 3131 is parallel to the first, second, and third screening grooves 201, 202, and 203, the welding wire dropped to the surface 204 of the partition plate 20 is also parallel to the first, second, and third screening grooves 201, 202, and 203 during rolling, and the bottom of each screening groove penetrates to the bottom surface of the partition plate 20. In the present embodiment, when the welding wire with the diameter of 2.0mm is rolled to the first screening groove 201, the welding wire can fall from the first screening groove 201 and enter the first receiving container 101, and the welding wire with the diameter larger than the width of the first screening groove 201, that is, the welding wire with the diameter of 2.5mm or 3.0mm can pass through the first screening groove 201 and continue to roll downwards along the partition plate 20. Similarly, welding wire having a diameter of 2.5mm drops from the second sifting groove 202 into the second receiving container 102, and welding wire having a diameter of 3.0mm drops from the third sifting groove 203 into the third receiving container 103. By adopting the mode, the original single screening groove is changed into at least two screening grooves, the welding wires with different diameters automatically enter the preset screening groove and are discharged into different material receiving containers 10 in a distinguishing way, the effect of effectively distinguishing products with different specifications at one time is achieved, and the screening efficiency and the accuracy are improved.

Further, considering that the weight of the welding wires with different specifications may have deviation, in order to avoid that the welding wires with different specifications may interfere with each other in the process of rolling on the surface 204 of the partition plate 20 under the action of gravity and miss screening of the screening groove due to too fast rolling, it is necessary to limit the inclination degree of the partition plate, that is, the inclination angle of the partition plate relative to the horizontal plane is 5 to 20 °. In addition, in order to avoid that the welding wire misses the screening groove matched with the specification of the welding wire during rolling, the number of the screening grooves of each stage can be set to be at least two.

As shown in fig. 1, the outer wall of the receiving container 31 is provided with a material taking window (i.e., the material taking window 1011, the material taking window 1021, and the material taking window 1031) and a labeling section (i.e., the labeling section 1012, the labeling mold block 1022, and the labeling section 1032). When the welding wires are stored or stored, the specifications of the welding wires are generally marked by pasting paper, and a labeling part is arranged, so that the specifications of the welding wires in the material receiving container 10 can be more conveniently displayed, and the problem that the actual specifications of the welding wires are not uniform with the marked specifications is avoided; the specification marking rows placed in the labeling modules can be adaptively replaced according to the width of the screening groove. After welding wires of different specifications are screened by the screening grooves and fall into the corresponding material receiving containers, workers can get the welding wires of the corresponding specifications at the material taking window according to requirements, the probability of misuse of welding materials in a construction site is reduced, and the technical and safety risks brought to subsequent welding work and welding quality due to misuse of welding materials are avoided.

Further, as the welding wire rolls on the surface 204 of the diaphragm 20, there may be instances where individual welding wires roll to the lower end 2042 of the diaphragm 20 without being screened out. In order to prevent the welding wire from slipping out of the separating wall 20, a housing 30 can be arranged above the separating wall 20, and a discharge container 31 is arranged inside the housing 30. In addition, the traditional welding wire storage device is complex in structure and difficult to disassemble, and is difficult to realize the flexible use of the welding wire storage device in the different welding areas, and the combined welding wire storage box 100 is relatively simple and light in structure, convenient to operate and high in practicability, so that the rollers 40 can be arranged at the bottom of the material receiving container 10 of the combined welding wire storage box 100, the flexible movement is realized, and the operation and maintenance cost is reduced.

The utility model provides a combined welding wire containing box 100, wherein a partition plate 20 is obliquely assembled above a material receiving container 10, and a plurality of screening grooves are transversely formed in the partition plate 20 along the oblique direction, so that welding wires placed in a discharging container 31 fall onto the partition plate 20 through a discharging groove 3131 parallel to the screening grooves and enter the corresponding material receiving container 10 through the screening grooves matched with the specifications of the welding wires, and therefore classified containing management of the welding wires of different specifications is achieved. By adopting the combined welding wire containing box 100, the labor time cost increased by secondary leading of materials by a technician can be saved, the labor time cost increased by welding defects and repair caused by unqualified welding parameters due to misuse of the welding wire can be saved, and more importantly, the probability of product quality problems and delayed delivery cycle is reduced.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and they are not intended to limit the scope of the present invention, and equivalent embodiments or modifications made without departing from the technical spirit of the present invention should be included in the scope of the present invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a modular welding wire containing box which characterized in that includes:

at least two receiving containers, a partition plate and a discharging container;

the partition board is obliquely assembled above the material receiving container, and a plurality of screening grooves which are arranged in parallel are transversely formed in the partition board; the side, higher than the partition plate, of the discharge container is transversely and symmetrically provided with supporting seats, the discharge container is transversely erected above the supporting seats, and a plurality of discharge grooves parallel to the screening grooves are transversely formed in the discharge container;

and welding wires placed in the discharging container descend to the partition plate through the discharging groove and slide to the screening groove matched with the welding wire specification to enter the corresponding receiving container.

2. The modular welding wire storage case of claim 1,

the screening groove is followed the incline direction of baffle is interval arrangement, the width in screening groove certainly the higher one side of baffle is gradually the increase to lower one side and arranges.

3. The modular wire containment box of claim 2, wherein the screening slots are arranged in three stages, and the number of screening slots per stage is at least two.

4. The combined type welding wire containing box is characterized in that the screening grooves comprise a first screening groove, a second screening groove and a third screening groove, the width of the first screening groove is 2.0-2.3 mm, the width of the second screening groove is 2.5-2.8 mm, and the width of the third screening groove is 3.0-3.3 mm.

5. The modular wire containment bin of claim 2, wherein the width of the discharge chute is greater than the largest dimension of the screen chute.

6. The combined welding wire storage box of claim 1, wherein the partition is inclined at an angle ranging from 5 ° to 20 ° with respect to a horizontal plane.

7. The combined welding wire storage box according to claim 1, wherein rollers are arranged at the bottom of the material receiving container.

8. The combined welding wire containing box according to claim 1, wherein a material taking window and a labeling part are arranged on the outer wall of the material receiving container.

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