CN219099367U - Titanium basket support frame - Google Patents

Abstract

The utility model discloses a titanium basket supporting frame, which comprises two supporting frames which are oppositely arranged and parallel, wherein each supporting frame comprises a first cross rod, a supporting rod and a first inclined rod, the first cross rod, the supporting rod and the first inclined rod are enclosed into a triangle, the first cross rod is respectively hinged with the supporting rod and the first inclined rod, the upper side of the first inclined rod is sleeved in the supporting rod, and the upper side of the first inclined rod slides along the supporting rod and is fastened by a screw; the first inclined rod is fixedly provided with a second inclined rod which is parallel to the first inclined rod, so that two ends of one titanium basket are respectively fixed on the first inclined rods of the two supporting frames, and two ends of the other titanium basket are respectively fixed on the second inclined rods of the two supporting frames. According to the utility model, the titanium basket is fixed on the two inclined rods, the position of the titanium basket can be changed along with the position adjustment of the support frame, and the first inclined rod can be moved in the strip-shaped hole of the support rod to adjust the angle, so that the titanium basket is driven to adjust the angle.

Description

Titanium basket support frame

Technical Field

The utility model relates to the field of electroplating, in particular to a titanium basket supporting frame.

Background

In the electroplated v-shaped line, titanium baskets are distributed on the downward two sides of the film, so that two titanium baskets at two ends of the film are parallel to the film in order to ensure uniform plating on two sides of the film, and the two titanium baskets are parallel at first. Because both ends of the upper titanium basket are arranged on the electroplating groove wall, both ends of the lower titanium basket are also arranged on the electroplating groove wall, the relative position relation of the electroplating groove wall connected with the lugs of the upper and lower titanium baskets is required to be higher in order to enable the upper and lower titanium baskets to be parallel, and the inclination angles of the upper and lower titanium baskets are fixed after the installation of the upper and lower titanium baskets are finished and cannot be adjusted along with the adjustment of the inclination angles of the thin films.

In addition, after the titanium basket is used for a long time, anode mud can be generated in the titanium basket, the titanium basket needs to be taken out integrally for cleaning at intervals, if the titanium basket is respectively installed, the titanium basket is required to be detached, and after cleaning, the titanium basket is required to be installed, so that more time is spent. In addition, the position of the lugs used for fixing the two ends of the upper titanium basket and the lower titanium basket on the inner side wall of the electroplating bath is fixed at present, and after the upper titanium basket and the lower titanium basket are fixed, the position of the upper titanium basket and the lower titanium basket cannot be changed, and cannot be changed according to actual requirements.

The above problems are to be solved.

Disclosure of Invention

The utility model provides a titanium basket supporting frame, which aims to solve the problems that the titanium basket in the prior art is fixed in position and the inclination angle of the titanium basket cannot be adjusted along with actual needs.

The technical scheme of the utility model is as follows:

the titanium basket supporting frame is characterized by comprising two supporting frames which are oppositely arranged and parallel, each supporting frame comprises a first cross rod, a supporting rod and a first diagonal rod, the first cross rods, the supporting rods and the first diagonal rods enclose into a triangle, the first cross rods are hinged with the supporting rods and the first diagonal rods respectively, the upper sides of the first diagonal rods are sleeved in the supporting rods, and the upper sides of the first diagonal rods slide along the supporting rods and are fastened by screws;

the first inclined rod is fixedly provided with a second inclined rod which is parallel to the first inclined rod, so that two ends of one titanium basket are respectively fixed on the first inclined rods of the two supporting frames, and two ends of the other titanium basket are respectively fixed on the second inclined rods of the two supporting frames.

According to the scheme, the support rod and the first diagonal rod are arranged left and right, the bottom ends of the support rod and the first diagonal rod are hinged to the first cross rod, a first bar-shaped hole penetrating left and right is formed in the support rod, and the first diagonal rod penetrates through the first bar-shaped hole and then is in sliding connection with the support rod.

Further, a second bar-shaped hole penetrating through the support rod from front to back is further formed in the support rod, a diagonal rod through hole is formed in the first diagonal rod, and a bolt penetrates through the second bar-shaped hole and the diagonal rod through hole to lock the first diagonal rod and the support rod.

According to the scheme, the titanium basket is characterized in that openings are formed in the first inclined rod and the second inclined rod, and the lugs of the titanium basket are connected with the openings, so that the titanium basket is correspondingly connected with the first inclined rod and the second inclined rod.

Further, the opening is a rectangular opening.

Still further, be provided with the screw hole on the opening, the screw passes behind the journal stirrup screw in the screw hole makes titanium basket is fixed in opening part.

The utility model according to the above scheme is characterized in that the two support frames are connected through a connecting mechanism, and the connecting mechanism is perpendicular to the first cross bars of the two support frames.

Further, the coupling mechanism includes second horizontal pole and sleeve, the second horizontal pole cover is established in the sleeve and along the sleeve slides, the second horizontal pole with one of them the first horizontal pole of support frame is connected, the sleeve with another the first horizontal pole of support frame is connected, the second horizontal pole with the sleeve sets up respectively on the inside wall of corresponding first horizontal pole.

Further, the second cross rod is provided with a cross rod strip-shaped hole consistent with the extending direction of the second cross rod, a sleeve through hole is formed in the sleeve, and a bolt penetrates through the sleeve through hole and the cross rod strip-shaped hole to lock the second cross rod and the sleeve.

According to the scheme, the titanium basket is fastened on the support frame which surrounds the triangle, the position of the titanium basket can be changed along with the adjustment of the position of the support frame, the triangular support frame is stable, and the purpose of adjusting the position of the titanium basket in the electroplating bath is achieved;

in addition, the titanium basket is fastened on the two inclined rods, and the inclined rods can slide on the supporting rods to adjust the inclination angles of the two inclined rods, so that the titanium basket is driven to adjust the angles, and the angles can be adjusted according to different film coating directions in actual use.

Drawings

FIG. 1 is a schematic view of a support frame according to the present utility model;

FIG. 2 is a top view of a connection of two support frames according to the present utility model;

FIG. 3 is a schematic diagram of the connection of the left and right support frames in the V-shaped film feeding process;

FIG. 4 is a schematic diagram of another embodiment of the present utility model;

FIG. 5 is a schematic view of the titanium basket of the present utility model;

fig. 6 is a schematic distribution diagram of titanium basket in the V-shaped film feeding process.

In the drawings, the reference numerals of the various figures are:

1. a support frame; 11. a first cross bar; 12. a support rod; 121. a first bar-shaped hole; 122. a second bar-shaped hole; 123. a third bar-shaped hole; 124. a fourth bar-shaped hole; 13. a first diagonal bar; 14. a second diagonal bar; 15. a connecting rod; 16. an opening; 17. a bolt; 18. a second cross bar; 19. a sleeve;

2. titanium basket; 23. a support lug; 24. a mounting hole;

3. submerged roller.

Detailed Description

The utility model is further described below with reference to the drawings and embodiments:

as shown in fig. 1 to 6, in order to realize that the position of the titanium basket is convenient to adjust and the angle of the titanium basket can be adjusted according to different inclination angles of the thin film, the utility model provides an electroplating device, wherein a titanium basket supporting frame capable of adjusting the position and the angle of the titanium basket is arranged in an electroplating tank.

In the embodiment shown in fig. 6, the plating film passes through two titanium baskets 2, bypasses the submerged roller 3 positioned inside the plating tank, passes through two titanium baskets 2 on the rear side, and then passes out of the plating tank. The electroplated film is formed into a V shape by moving the film in the electroplating bath.

The utility model also provides a titanium basket support frame, so that after the titanium basket is arranged on the titanium basket support frame, the position of the titanium basket can be adjusted in the electroplating bath, and the inclination angle of the titanium basket can be adjusted so as to adapt to electric friction films in different film running directions. The titanium basket support frame comprises two support frames 1 which are oppositely arranged and parallel, and are used for fixing two ends of a titanium basket, and the two support frames 1 are parallel side by side and are vertically placed.

Specifically, each supporting frame 1 comprises a first cross rod 11, a supporting rod 12 and a first diagonal rod 13, a plurality of diagonal rods are arranged in parallel, and the first cross rod 11, the supporting rod 12 and the first diagonal rod 13 enclose a triangle. Through triangle-shaped's structure for the whole of support frame 1 is more stable, and titanium basket is fixed more firmly.

The second inclined rod 14 which is parallel to the first inclined rod 13 is fixed on the first inclined rod 13, so that two ends of one titanium basket are respectively fixed on the first inclined rods 13 of the two support frames 1, two ends of the other titanium basket are respectively fixed on the second inclined rods 14 of the two support frames 1, the two titanium baskets are further arranged in parallel, an electroplating film passes through the two titanium baskets, the distances between the two titanium baskets and the electroplating film are equal, and the electroplating is more uniform. By fixing the titanium basket on the two support frames 1, the position of the titanium basket can be conveniently adjusted.

Preferably, in order to ensure that the first diagonal 13 and the second diagonal 14 are parallel and fixed to each other, in the present utility model, the first diagonal 13 and the second diagonal 14 are fixed by a plurality of connecting rods 15 with equal lengths.

In the utility model, two lugs 23 are respectively arranged on two sides of the titanium blue 2, and mounting holes 24 are arranged on the lugs 23, wherein the mounting holes 24 are used for realizing connection with the first diagonal rod 13 or the second diagonal rod 14. Specifically, the first diagonal 13 and the second diagonal 14 are provided with openings 16, and lugs 23 of the titanium basket are connected with the openings 16, so that the titanium basket is correspondingly connected with the first diagonal 13 and the second diagonal 14. Two lugs 23 are arranged on two sides of each titanium basket, so that two openings 16 are respectively arranged on the first inclined rod 13 and the second inclined rod 14 to correspond to the two lugs 23, threaded holes are formed in the openings 16, and screws penetrate through the mounting holes 24 of the lugs 23 and then are screwed into the threaded holes, so that the titanium basket is fixed at the openings 16. In a preferred embodiment, the opening 16 is rectangular in shape and can accommodate lugs 23 of various shapes.

In addition, the first cross bar 11 is hinged with the support bar 12 and the first diagonal bar 13 respectively, the upper side of the first diagonal bar 13 is sleeved in the support bar 12, and the upper side of the first diagonal bar 13 slides along the support bar 12 and is fastened by screws, so that the fastening position of the first diagonal bar 13 on the support bar 12 can be adjusted to adjust the inclination angles of the first diagonal bar 13, the second diagonal bar 14 and the titanium basket.

Specifically, the supporting rod 12 and the first diagonal rod 13 are arranged left and right, the bottom ends of the supporting rod 12 and the first diagonal rod 13 are hinged to the first cross rod 11, a first bar-shaped hole 121 penetrating left and right is formed in the supporting rod 12, and the first diagonal rod 13 penetrates through the first bar-shaped hole 121 and then is in sliding connection with the supporting rod 12. According to the utility model, when the inclination angle of the first inclined rod 13 and the second inclined rod 14 is adjusted, the position of the first inclined rod 13 passing through the first strip-shaped hole 121 is adjusted, meanwhile, the bottom end of the first inclined rod 13 is hinged with the first cross rod 11 for rotation, and the bottom end of the supporting rod 12 is hinged with the first cross rod 11 for rotation.

In the utility model, the support rod 12 is further provided with a second bar-shaped hole 122 penetrating front and back, the second bar-shaped hole 122 penetrates through the first bar-shaped hole 121, the orthographic projections of the second bar-shaped hole 122 and the first bar-shaped hole 121 are mutually perpendicular, preferably, the first diagonal rod 13 with the same length of the first bar-shaped hole 121 and the second bar-shaped hole 122 is provided with a diagonal rod through hole, and the bolt 17 penetrates through the second bar-shaped hole 122 and the diagonal rod through hole and is sleeved with a nut so as to lock the first diagonal rod 13 and the support rod 12. After the position of the first inclined rod 13 inserted into the first strip-shaped hole 121 is adjusted, the first inclined rod 13 is fixed at the corresponding first strip-shaped hole 121 through a bolt and nut structure, so that the first inclined rod 13 and the first strip-shaped hole are fastened.

In the embodiment shown in fig. 1 and 3, the lengths of the first bar-shaped hole 121 and the second bar-shaped hole 122 are smaller than half of the length of the supporting rod 12, so as to realize the small-angle adjustment of the first inclined rod 13 and the second inclined rod 14; in the embodiment shown in fig. 4, the support rod 12 is provided with a third bar-shaped hole 123 and a fourth bar-shaped hole 124, the third bar-shaped hole 123 is similar to the first bar-shaped hole 121 in structure, and the fourth bar-shaped hole 124 is similar to the second bar-shaped hole 122 in structure, except that the lengths of the third bar-shaped hole 123 and the fourth bar-shaped hole 124 are greater than half of the length of the support rod 12 in this embodiment.

As shown in fig. 2, the two support frames 1 are connected through a connecting mechanism, the connecting mechanism is perpendicular to the first cross bars 11 of the two support frames 1, the two support frames 1 are connected in an assembled mode through the connecting mechanism, meanwhile, the two support frames 1 are guaranteed to be distributed in parallel, and then the stability of the installation positions of the two titanium baskets is guaranteed. In other alternative embodiments, the support frame 1 (specifically the first rail 11) may also be directly fixed to the electroplating apparatus.

In order to realize the distance adjustment between two support frames 1 so as to adapt to titanium baskets with different widths, in the utility model, the connecting mechanism comprises a second cross rod 18 and a sleeve 19, wherein the second cross rod 18 is sleeved in the sleeve 19 and slides along the sleeve 19, the first cross rod 11 and the second cross rod 18 are vertically connected with the second cross rod 18 to be connected with the first cross rod 11 of one support frame 1, the sleeve 19 is connected with the first cross rod 11 of the other support frame 1, and the second cross rod 18 and the sleeve 19 are respectively arranged on the inner side walls of the two corresponding first cross rods 11. When the distance between the two support frames 1 needs to be adjusted, the depth of the second cross bar 18 extending into the sleeve 19 is adjusted.

In a specific embodiment, the second cross bar 18 is provided with a bar-shaped hole consistent with the extending direction of the second cross bar, the sleeve 19 is provided with a first through hole of the sleeve 19, and a bolt and a nut pass through the first through hole of the sleeve 19 and the bar-shaped hole of the cross bar to lock the second cross bar 18 and the sleeve 19. After the distance between the two support frames 1 is adjusted, the sleeve 19 and the second cross rod 18 are fixed through the cooperation of bolts and nuts, so that the distance between the two support frames 1 is kept stable.

As shown in fig. 3, in order to realize V-shaped film feeding of an electroplated film and ensure relatively stable positions of titanium blue at two sides of a submerged roller, in the support frame 1 at each side of the utility model, two sets of devices distributed in a V shape are arranged on the first cross bar 11, and each set of devices comprises the first inclined bar 13 and the second inclined bar 14. In the structure shown in fig. 3, the first diagonal rod 13 and the second diagonal rod 14 on the left side are positioned on the left side of the submerged roller, and the first diagonal rod 13 and the second diagonal rod 14 on the right side are positioned on the right side of the submerged roller, so that films can be coated on the upper surface and the lower surface on the front side and the rear side of the film bypassing the submerged roller.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the implementation of the utility model is not limited by the above manner, and it is within the scope of the utility model to apply the inventive concept and technical solution to other situations as long as various improvements made by the inventive concept and technical solution are adopted, or without any improvement.

Claims (9)

1. The titanium basket supporting frame is characterized by comprising two supporting frames which are oppositely arranged and parallel, each supporting frame comprises a first cross rod, a supporting rod and a first diagonal rod, the first cross rods, the supporting rods and the first diagonal rods enclose into a triangle, the first cross rods are hinged with the supporting rods and the first diagonal rods respectively, the upper sides of the first diagonal rods are sleeved in the supporting rods, and the upper sides of the first diagonal rods slide along the supporting rods and are fastened by screws;

the first inclined rod is fixedly provided with a second inclined rod which is parallel to the first inclined rod, so that two ends of one titanium basket are respectively fixed on the first inclined rods of the two supporting frames, and two ends of the other titanium basket are respectively fixed on the second inclined rods of the two supporting frames.

2. The titanium basket supporting frame according to claim 1, wherein the supporting rod and the first diagonal rod are arranged left and right, the bottom ends of the supporting rod and the first diagonal rod are hinged to the first cross rod, a first bar-shaped hole penetrating left and right is formed in the supporting rod, and the first diagonal rod penetrates through the first bar-shaped hole and then is in sliding connection with the supporting rod.

3. The titanium basket supporting frame according to claim 2, wherein the supporting rod is further provided with a second bar-shaped hole penetrating through the supporting rod in the front-back direction, the first diagonal bar is provided with a diagonal bar through hole, and bolts penetrate through the second bar-shaped hole and the diagonal bar through hole to lock the first diagonal bar and the supporting rod.

4. The titanium basket supporting frame according to claim 1, wherein openings are formed in the first inclined rod and the second inclined rod, and lugs of the titanium basket are connected with the openings, so that the titanium basket is correspondingly connected with the first inclined rod and the second inclined rod.

5. The titanium basket support frame of claim 4 wherein said opening is a rectangular opening.

6. A titanium basket support according to claim 4 or claim 5 wherein the opening is provided with a threaded hole through which a screw is threaded after passing through the lugs, such that the titanium basket is secured to the opening.

7. The titanium basket support frame of claim 1 wherein two of said support frames are connected by a connecting mechanism, said connecting mechanism being perpendicular to said first cross bars of both of said support frames.

8. The titanium basket support frame of claim 7, wherein the connection mechanism comprises a second cross bar and a sleeve, the second cross bar is sleeved in the sleeve and slides along the sleeve, the second cross bar is connected with the first cross bar of one of the support frames, the sleeve is connected with the first cross bar of the other support frame, and the second cross bar and the sleeve are respectively arranged on the inner side wall of the corresponding first cross bar.

9. The titanium basket support of claim 8 wherein said second cross bar has a cross bar aperture aligned with the direction of extension thereof, said sleeve having a sleeve through hole therethrough, a bolt passing through said sleeve through hole and said cross bar aperture to lock said second cross bar to said sleeve.

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