CN215560783U - Floating hanger for low-voltage anode foil electrolysis - Google Patents

Abstract

The invention belongs to the field of hanging rack devices and discloses a floating hanging rack for low-voltage anode foil electrolysis, which comprises two straight rods, wherein the two straight rods are vertically arranged at intervals in the same direction, two fixing rods are arranged on the two straight rods in a matching mode, the two fixing rods are respectively positioned at the upper end and the lower end of each straight rod, the two ends of each fixing rod are respectively fixedly connected with the opposite end faces of the two fixing rods, and the two straight rods are relatively fixed through the two fixing rods. A plurality of first through holes are formed in the opposite end faces of the two straight rods and are arranged at intervals in the vertical direction, the two first through holes in the same axis direction are matched with each other and provided with the holding mechanisms for holding the anode foil, the holding mechanisms are arranged at intervals in the vertical direction, and each holding mechanism and the straight rods are controlled to rotate relatively through the positioning mechanisms. The floating rack for electrolyzing the low-voltage anode foil greatly reduces the possibility that the anode foil is deformed in the electrolysis process and is convenient to hold and unload the anode foil.

Description

Floating hanger for low-voltage anode foil electrolysis

Technical Field

The invention relates to the field of hanger devices, in particular to a floating hanger for low-voltage anode foil electrolysis.

Background

The electronic aluminum foil may be classified into a high voltage anode foil, a low voltage anode foil, a negative electrode foil, and the like. In the preparation production, the anode foil is required to be placed in electrolyte for electrolysis after being treated, and a finished product is obtained. Because the thickness of low pressure anode foil is less, and the material of low pressure anode foil is aluminium usually, and the material is soft yielding, and the floating hanger that uses when the electrolysis is held anode foil back anode foil usually can not alternate the angle in the course of the work, and anode foil can receive the effort of different size and direction that electrolyte exerted in the electrolysis process, causes anode foil's deformation even damage easily.

Disclosure of Invention

The embodiment of the application solves the problem that the low-voltage anode foil is easy to deform or even damage due to stress in the electrolytic process when the anode foil is held by the floating hanger in the prior art, realizes timely angle change when the anode foil is held by the holding mechanism under stress in electrolyte, and reduces the possibility of deformation of the anode foil.

The embodiment of the application provides a floating hanger that low pressure positive pole paper tinsel electrolysis was used, including two relatively fixed's straight-bar, two the vertical interval arrangement of straight-bar syntropy, two first through-hole has all been seted up on the straight-bar terminal surface in opposite directions, and axis direction is unanimous two the mechanism is held to first through-hole cooperation installation, the mechanism is held including circle axle, support and fixed subassembly to the dress, the both ends of circle axle rotate respectively and connect two that axis direction is unanimous in the first through-hole, support fixed mounting be in on the outer wall of circle axle, fixed subassembly installs hold with the dress on the support the positive pole paper tinsel that the during operation was placed on the support.

Furthermore, a plurality of the installing and holding mechanisms are installed between the two straight rods in a matched mode, and the installing and holding mechanisms are arranged at intervals along the length direction of the straight rods.

Furthermore, the bracket is composed of a first straight plate and two second straight plates, the first straight plate is fixedly connected with the outer wall of the circular shaft, two ends of the first straight plate are respectively and fixedly connected with two second straight plates which are vertical to the first straight plate, the opposite end surfaces of the two second straight plates are both provided with a through groove, the upper end surfaces of the two second straight plates are both provided with a second through hole, the second through hole is communicated with the through groove, the fixing component comprises a connecting rod, a spring and two round blocks, one end of the connecting rod passes through the second through hole, the two round blocks are respectively and fixedly connected with the two ends of the connecting rod, the two round blocks are respectively positioned at the two ends of the second through hole, the spring is sleeved on the connecting rod, the two ends of the spring respectively abut against the inner wall of the through groove and the round block positioned in the through groove.

Furthermore, a plurality of fixed subassemblies are all installed at the both ends of support, and are a plurality of fixed subassemblies are followed the length direction interval arrangement of second straight board.

Further, a plurality of on the straight board of second fixed subassembly cooperation is installed the regulating plate, the regulating plate is located with a plurality of the recess is outside the circle piece fixed connection.

Furthermore, each holding mechanism is matched with a positioning mechanism to limit the rotation of the round shaft relative to the straight rod.

Furthermore, a groove is formed in the end face of the circular shaft, the straight rod is close to the end face of the groove, two positioning holes are formed in the end face of the straight rod and surround the groove, the two positioning holes are symmetrically arranged around the center of the circle of the end face of the circular shaft, the positioning mechanisms are matched with the groove and the two positioning holes in corresponding positions respectively, each positioning mechanism comprises a straight plate, a protrusion and two positioning rods, the protrusion is fixedly installed on the wall face of the straight plate, the two positioning rods are fixedly installed on the wall face of the straight plate and located on two sides of the protrusion respectively, the two positioning rods are connected in the two positioning holes in a sliding mode respectively, the cross-sectional shapes of the protrusion and the groove are the same polygon, and the protrusion is matched with the groove.

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages:

1. the anode foil is in a vertical state with the liquid level of the electrolyte correspondingly, the applied force is small, the operation is convenient, the anode foil is not easy to deform, the problem that the anode foil is easily stressed to deform or even damaged in the electrolytic working process of the anode foil held by the floating hanger is solved, the applied force of the anode foil held by the holding mechanism in the electrolytic process is timely changed in angle, and the possibility of deformation of the anode foil is reduced.

2. Because the two ends of the anode foil are fixed by the plurality of fixing assemblies at the two ends of the bracket, the anode foil is in a completely unfolded state without folds or overlapped parts when the anode foil is arranged on the arranging and holding mechanism, the anode foil is fully contacted with electrolyte in the electrolytic process, and the electrolytic reaction of the anode foil is complete.

3. Because the relative rotation of the holding mechanism and the straight rod is limited by the positioning assembly, when the anode foil needs to be held on the holding mechanism or the anode foil needs to be unloaded from the holding mechanism, the positioning assembly fixes the holding mechanism at a certain position, and the operation is convenient.

Drawings

FIG. 1 is a schematic overall structure diagram in an embodiment of the present application;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

fig. 3 is a schematic view illustrating the installation of the positioning mechanism on the straight rod in the embodiment of the present application.

In the figure: 1. a straight rod; 11. a first through hole; 12. positioning holes; 2. fixing the rod; 3. a mounting and holding mechanism; 31. A circular shaft; 311. a groove; 32. a support; 321. a through groove; 322. a second through hole; 323. a first straight plate; 324. a second straight plate; 33. a fixing assembly; 331. a connecting rod; 332. a spring; 333. a round block; 4. a positioning mechanism; 41. a straight plate; 42. a protrusion; 43. positioning a rod; 5. an adjusting plate.

Detailed Description

The embodiment of the application provides a floating hanger for low-voltage anode foil electrolysis, the force that the anode foil receives in the electrolysis process is converted into the rotational kinetic energy of the circular shaft 31, thereby driving the anode foil to rotate, the possibility that the anode foil deforms is reduced, in the process of immersing and separating electrolyte, the anode foil is vertical to the liquid level of the electrolyte due to the fact that the holding mechanism 3 is arranged, the anode foil is also vertical to the liquid level of the electrolyte correspondingly, the force received is small, the operation is convenient, the anode foil is not prone to deformation, the problem that the anode foil is easily stressed, deformed or even damaged in the electrolysis working process due to the fact that the anode foil is held by the floating hanger is solved, the problem that the anode foil is held by the holding mechanism 3 is stressed to change the angle in time in the electrolysis process is realized, and the possibility that the anode foil deforms is reduced.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

In fig. 1, the floating hanger for low-voltage anode foil electrolysis comprises two straight rods 1, the two straight rods 1 are vertically arranged at intervals in the same direction, the two straight rods 1 are relatively fixed through two fixing rods 2, the two fixing rods 2 are respectively located at the upper end and the lower end of each straight rod 1, and the two ends of each fixing rod 2 are respectively fixedly connected with the opposite end faces of the two fixing rods 2. All seted up a plurality of first through-holes 11 on two straight-bar 1 opposite end faces, a plurality of first through-holes 11 are arranged along vertical direction interval, and two first through-holes 11 cooperation that the axis direction is unanimous are installed and are adorned holding mechanism 3 and hold the positive pole paper tinsel with the dress, and a plurality of dress is held mechanism 3 and is arranged along vertical direction interval, and every dress is held and is controlled relative rotation through positioning mechanism 4 between mechanism 3 and the straight-bar 1.

In fig. 1 and 2, the installing and holding mechanism 3 includes a circular shaft 31, a bracket 32 and a plurality of fixing assemblies 33, two ends of the circular shaft 31 are respectively rotatably connected in two first through holes 11 with the same axial direction, and the circular shaft 31 cannot move along the axial direction of the first through hole 111, the bracket 32 is composed of a first straight plate 323 and two second straight plates 324, the first straight plate 323 is fixedly connected to the outer wall of the circular shaft 31, the length direction of the first straight plate 323 is parallel to the axial direction of the circular shaft 31, the two second straight plates 324 are respectively fixedly connected to two ends of the first straight plate 323, the two second straight plates 324 are perpendicular to the first straight plate 323, and through grooves 321 are formed in opposite wall surfaces of the two second straight plates 324. The upper end surfaces of the two second straight plates 324 are respectively provided with a plurality of second through holes 322, the plurality of second through holes 322 are arranged at intervals along the length direction of the second straight plates 324, the second through holes 322 are communicated with the through grooves 321, the through grooves 321 are matched with the plurality of second through holes 322 to install a plurality of fixing components 33, each fixing component 33 comprises a connecting rod 331, the spring 332 and the two round blocks 333, one end of the connecting rod 331 penetrates through the second through hole 322, the two round blocks 333 are porous solids and do not react with the electrolyte, the electrolyte can freely enter and flow out of the round blocks 333, the two round blocks 333 are respectively and fixedly connected to two ends of the connecting rod 331, the two round blocks 333 are respectively located at two ends of the second through hole 322, the diameter of the round blocks 333 is larger than that of the second through hole 322, the two round blocks 333 are consistent with the axial direction of the connecting rod 331, the spring 332 is sleeved on the connecting rod 331, and two ends of the spring 332 respectively abut against the inner wall of the through groove 321 and the round blocks 333 located inside the through groove 321. Under the normality, because the spring action of spring 332, the round block 333 that is located logical groove 321 supports the wall that leads to groove 321, a plurality of fixed subassemblies 33 that are located same end on support 32 are fitted and are installed regulating plate 5, the round block 333 fixed connection that is located logical groove 321 outer end on regulating plate 5 and the fixed subassembly 33, regulating plate 5 is convenient for adjust a plurality of fixed subassemblies 33 of same end on support 32 simultaneously, it then can be the regulation to a plurality of fixed subassemblies 33 simultaneously to remove the axis direction of round block 333 with regulating plate 5. The both ends of positive pole paper tinsel are placed respectively in the logical groove 321 at support 32 both ends, press the both ends of positive pole paper tinsel on the inner wall that leads to groove 321 and carry out the centre gripping through a plurality of fixed subassembly 33 at support 32 both ends, because under the effect of gravity, support 32 is parallel state with straight-bar 1, and the dress is held the positive pole paper tinsel on the mechanism 3 is held in the vertical state in the dress promptly, when immersing or breaking away from electrolyte, positive pole paper tinsel and liquid level are in the vertical state, positive pole paper tinsel buoyancy significantly reduce, the possibility that takes place deformation significantly reduces, the operation of being convenient for. Because the round shaft 31 can rotate relative to the straight rod 1, when the whole holding mechanism 3 is stressed in the electrolyte, the pressure applied on the holding mechanism 3 and the anode foil by the electrolyte enables the round shaft 31 to rotate, the force on the anode foil is converted into the rotation kinetic energy of the round shaft 31, the anode foil rotates around the round shaft 31 after being stressed, the possibility of deformation of the anode foil is low, the possibility of deformation of the anode foil before, during and after the electrolytic operation is ensured to be low, and the surface quality of the anode foil is fully ensured. The plurality of holding mechanisms 3 arranged in the vertical direction of the straight rod 1 can enable the hanger to hold a plurality of anode foils for electrolysis at one time, so that the working efficiency is ensured, and the movement of the two holding mechanisms 3 which are adjacent up and down is relatively independent and cannot influence each other. The electrolyte can freely pass through the round block 333, so that the position of the anode foil clamped by the fixing component 33 can also be in full contact reaction with the electrolyte, and the electrolytic quality of the anode foil is ensured.

In fig. 1 and 3, a groove 311 is formed in an end surface of each circular shaft 31, two positioning holes 12 are formed around the groove 311 on an end surface of the straight rod 1 close to the groove 311, the two positioning holes 12 are symmetrically arranged about a center of the end surface of the circular shaft 31, the positioning mechanism 4 includes a straight plate 41, a protrusion 42 and two positioning rods 43, the protrusion 42 is fixedly installed on a wall surface of the straight plate 41, the two positioning rods 43 are fixedly installed on a wall surface of the straight plate 41 and located on two sides of the protrusion 42 respectively, the two positioning rods 43 are slidably connected in the two positioning holes 12 respectively, the positioning rods 43 cannot slide out of the positioning holes 12, the protrusion 42 and the groove 311 are in the same polygonal cross-sectional shape, such as a triangle, a rectangle, a pentagon and the like. When the holding mechanism 3 needs to be fixed at a certain position to hold or unload the anode foil, the protrusion 42 is clamped with the groove 311, at this time, the circular shaft 31 cannot rotate relative to the straight rod 1, the holding mechanism 3 is fixed at a certain position, after the holding or unloading operation is completed, the protrusion 42 is pulled out of the groove 311, the circular shaft 31 returns to rotate, and then the electrolysis work of the anode foil is carried out.

The working principle of the embodiment of the application is as follows: the positioning mechanism 4 fixes the relative position of the holding mechanism 3 and the straight rod 1, after the two ends of the anode foil are relatively fixed by the plurality of fixing components 33 on the holding mechanism 3, the positioning mechanism 4 stops limiting the holding mechanism 3 and the straight rod 1, the holding mechanism 3 is in a vertical state under the action of gravity, when the anode foil is immersed in or separated from the electrolyte, the anode foil is in a vertical state, when the anode foil is subjected to the force exerted by the electrolyte in the electrolysis process, the holding mechanism 3 is driven to rotate through the circular shaft 31, after the electrolysis work is finished, the limitation of the holding mechanism 3 and the straight rod 1 by the positioning mechanism 4 is recovered, the holding mechanism 3 is fixed on a certain position to unload the electrolyzed anode foil and hold the non-electrolyzed anode foil, and then corresponding operation is carried out.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution and its concept of the present application within the technical scope disclosed in the present application, and shall be covered by the scope of the present application.

Claims (7)

1. A floating hanger for electrolysis of low-voltage anode foil comprises two straight rods (1) which are fixed relatively, and is characterized in that the two straight rods (1) are vertically arranged in the same direction at intervals, first through holes (11) are formed in the opposite end faces of the two straight rods (1), and a holding mechanism (3) is installed in a matching manner in the two first through holes (11) with the same axial direction;

the holding mechanism (3) comprises a round shaft (31), a bracket (32) and a fixing component (33);

two ends of the round shaft (31) are respectively and rotatably connected in the two first through holes (11) with the same axial direction;

the bracket (32) is fixedly arranged on the outer wall of the round shaft (31);

the fixing component (33) is arranged on the bracket (32) to hold the anode foil placed on the bracket (32) during working.

2. The floating hanger for low-voltage anode foil electrolysis according to claim 1, wherein a plurality of the holding mechanisms (3) are fittingly installed between two straight rods (1), and the plurality of holding mechanisms (3) are arranged at intervals along the length direction of the straight rods (1).

3. The floating hanger for low-voltage anode foil electrolysis according to claim 2, wherein the support (32) is composed of a first straight plate (323) and two second straight plates (324), the first straight plate (323) is fixedly connected to the outer wall of the circular shaft (31), two ends of the first straight plate (323) are respectively and fixedly connected with the two second straight plates (324), the two second straight plates (324) are perpendicular to the first straight plate (323), through grooves (321) are formed in the opposite end surfaces of the two second straight plates (324), second through holes (322) are formed in the upper end surfaces of the two second straight plates (324), and the second through holes (322) are communicated with the through grooves (321);

the fixing component (33) comprises a connecting rod (331), a spring (332) and two round blocks (333);

one end of the connecting rod (331) passes through the second through hole (322);

the two round blocks (333) are respectively and fixedly connected to two ends of the connecting rod (331), and the two round blocks (333) are respectively positioned at two ends of the second through hole (322);

the spring (332) is sleeved on the connecting rod (331), and two ends of the spring (332) respectively abut against the inner wall of the through groove (321) and the round block (333) positioned in the through groove (321);

the end face of the circular shaft (31) is provided with a groove (311), the end face of the straight rod (1) close to the groove (311) is provided with two positioning holes (12) around the groove (311), and the two positioning holes (12) are arranged in a center-symmetric manner about the circle center of the end face of the circular shaft (31).

4. The floating mount for low voltage anode foil electrolysis according to claim 3, wherein a plurality of said fixing assemblies (33) are mounted to both ends of said support frame (32), and a plurality of said fixing assemblies (33) are arranged at intervals along the length direction of said second straight plate (324).

5. The floating mount for low voltage anode foil electrolysis according to claim 3, wherein a plurality of said fixing assemblies (33) on said second straight plate (324) are fitted with an adjusting plate (5), said adjusting plate (5) being fixedly connected to a plurality of said circular blocks (333) located outside said recesses (311).

6. The floating mount for low-voltage anodic foil electrolysis according to claim 3, characterized in that each holding means (3) is fitted with positioning means (4) to limit the rotation of said circular shaft (31) with respect to said straight bar (1).

7. The floating hanger for low-voltage anode foil electrolysis according to claim 6, wherein a plurality of positioning mechanisms (4) are respectively matched with the groove (311) and the two positioning holes (12) at corresponding positions, each positioning mechanism (4) comprises a straight plate (41), a protrusion (42) and two positioning rods (43), the protrusion (42) is fixedly installed on the wall surface of the straight plate (41), the two positioning rods (43) are fixedly installed on the wall surface of the straight plate (41) and respectively located at two sides of the protrusion (42), the two positioning rods (43) are respectively connected in the two positioning holes (12) in a sliding manner, the cross-sectional shapes of the protrusion (42) and the groove (311) are the same polygon, and the protrusion (42) is matched with the groove (311).

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