CN219752468U - Double-layer floating frame - Google Patents

Abstract

The utility model relates to the technical field of electroplating floating frames, in particular to a double-layer floating frame, which comprises two static baffle plates, wherein a plurality of round holes which penetrate left and right and are used for passing through a power line are drilled in the upper parts of the left end faces of the two static baffle plates, and the double-layer floating frame further comprises: a plurality of sliding plates which are respectively and fixedly connected with the two static baffle plates and close to one end face; the guide plate is fixedly connected between the sliding plates at the left side and the right side; this device is through thereby realizing adjusting the buoyancy of moving the baffle in solution to counter weight pipe regulating quality, and then is convenient for adjust the height that moves the baffle and shelter from the round hole, and then is convenient for this device shelter from the side terminal surface lower part of not co-altitude plating board, and then side terminal surface lower part electroplates too thick when avoiding plating board electroplating, has optimized current electroplating floating frame.

Description

Double-layer floating frame

Technical Field

The utility model relates to the technical field of electroplating floating frames, in particular to a double-layer floating frame.

Background

In order to ensure the electroplating uniformity of the plating plate, particularly to ensure that the lower part of the side end surface of the plating plate is not thicker, the conventional method is to arrange an electroplating window, namely a PP floating frame is arranged below the plating plate. The conventional floating frame is generally made of a PP plate, is formed by welding a guide plate and two side baffles, floats on the liquid level because of being made of PP material, and can be pressed into liquid medicine when a plating plate is placed in a copper cylinder in the production process, the two side baffles block power lines, so that the lower part of the side end face of the plating plate is prevented from being thicker due to overlarge current.

However, the height and the size of different plating plates are greatly different, the height of the baffle required by the higher plating plate is higher, because the height of the floating frame baffle is limited, the bottom of the plating plate can be thicker due to the fact that the shielding is not in place, and in order to facilitate the floating frame to shield the lower parts of the side end faces of the plating plates with different heights, the lower parts of the side end faces of the plating plates are prevented from being thicker, and the double-layer floating frame is provided.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a double-layer floating frame.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a double-deck frame that floats, includes two quiet baffles, two the round hole that runs through is used for passing through the electric line of force about all cutting into on the left end face upper portion of quiet baffle has still includes:

a plurality of sliding plates which are respectively and fixedly connected with the two static baffle plates and close to one end face;

the guide plate is fixedly connected between the sliding plates at the left side and the right side;

the movable supporting plate slides up and down between the two static baffles, and is positioned at the lower side of the guide plate;

the guide plate is positioned between the two movable baffles, and the two movable baffles are matched with the plurality of round holes to block the power line;

the sliding plates slide in the sliding grooves up and down respectively;

the balance weight pipe is fixedly connected to the movable supporting plate and used for increasing the balance weight of the movable supporting plate;

and the limiting assembly is used for preventing the sliding plates from being completely separated from the sliding grooves.

Preferably, the limiting assembly comprises two limiting columns, the two limiting columns are fixedly connected to the lower end face of the guide plate, two sliding holes are formed in the upper end face of the movable supporting plate in a penetrating mode, the two limiting columns slide in the two sliding holes respectively, and the two limiting plates are fixedly connected to the lower end faces of the limiting columns.

Preferably, two end faces of the static baffle plates, which are far away from each other, are fixedly connected with uniform filter plates, a plurality of strip-shaped through holes are drilled on the two uniform filter plates, and the strip-shaped through holes are respectively matched with the round holes.

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

compared with the traditional electroplating floating frame, the device realizes the adjustment of the buoyancy of the movable baffle in the solution by adjusting the quality of the counterweight pipe, and further facilitates the adjustment of the height of the movable baffle shielding round holes, and further facilitates the shielding of the lower parts of the side end faces of the plating plates at different heights, so that the electroplating of the lower parts of the side end faces is avoided when the plating plates are electroplated, and the traditional electroplating floating frame is optimized.

Drawings

FIG. 1 is a first perspective view of the present utility model;

FIG. 2 is an enlarged view at A of FIG. 1;

FIG. 3 is a second perspective view of the present utility model;

fig. 4 is a left side view of the present utility model.

In the figure: 1. a movable support plate; 2. a static baffle; 3. a limit column; 4. a slide hole; 5. a limiting plate; 6. a weight tube; 7. a round hole; 8. a movable baffle; 9. a sliding plate; 10. a chute; 11. a guide plate; 12. and (5) uniformly filtering the filter plates.

Description of the embodiments

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art.

The double-deck floating frame as shown in fig. 1-4, including two quiet baffle 2, the upper portion of the left end face of two quiet baffle 2 has all been excavated a plurality of round holes 7 that run through about being used for through the power line, still includes:

a plurality of sliding plates 9 which are respectively and fixedly connected with the two static baffle plates 2 and are close to one end face;

a guide plate 11 fixedly connected between the plurality of sliding plates 9 on the left and right sides;

a movable supporting plate 1 sliding up and down between the two static baffles 2, wherein the movable supporting plate 1 is positioned at the lower side of the guide plate 11;

the two movable baffles 8 are fixedly connected to the upper end face of the movable supporting plate 1, the guide plate 11 is positioned between the two movable baffles 8, and the two movable baffles 8 are matched with the plurality of round holes 7 to block power lines;

a plurality of sliding grooves 10 respectively cut on the upper end surfaces of the two movable baffles 8, and a plurality of sliding plates 9 respectively slide in the sliding grooves 10 up and down;

the balance weight tube 6 is fixedly connected to the movable support plate 1, and the balance weight tube 6 is used for increasing the balance weight of the movable support plate 1;

the limiting assembly is used for preventing the sliding plates 9 from being completely separated from the sliding grooves 10;

the limiting assembly comprises two limiting columns 3, wherein the two limiting columns 3 are fixedly connected to the lower end face of the guide plate 11, two sliding holes 4 are formed in the upper end face of the movable supporting plate 1 in a penetrating mode up and down, the two limiting columns 3 slide in the two sliding holes 4 respectively, and the lower end faces of the two limiting columns 3 are fixedly connected with limiting plates 5.

When the device is used for electroplating the plating plate, the device is put into a solution, because the static baffle plate 2 is made of PP material, the device can float upwards in the solution, the plating plate is put on the guide plate 11, the lower part of the side end surface of the plating plate is blocked by the static baffle plate 2, thereby realizing the circuit line for blocking the lower part of the side end surface of the plating plate, further avoiding the plating of the lower part of the side end surface of the plating plate from being too thick, when the plating plate with high size is needed, the weight of the weight tube 6 is reduced due to the blocking of the lower part of the side end surface of the plating plate with higher size, thereby realizing the reduction of the quality of the movable support plate 1, the movable support plate 1 and the movable baffle plate 8 float upwards relative to the static baffle plate 2, the sliding plate 9 slides in the sliding groove 10 at the moment, the movable baffle plate 8 moves upwards to block round holes 7 on more static baffle plates 2, therefore, the electric line of contact of the plating plate is blocked by the static baffle plate 2, the electric line of contact of the plating plate is blocked by the passive baffle plate 8, thereby realizing that the blocking height of the lower part of the side end face of the plating plate is increased, further facilitating the plating of the high-size plating plate, avoiding the lower part of the side end face from being thicker when the high-size plating plate is plated, similarly increasing the counterweight of the counterweight tube 6 when the low-size plating plate is plated, the movable baffle plate 8 moves downwards relative to the static baffle plate 2, further realizing that more round holes 7 are not blocked by the passive baffle plate 8, further more electric line can plate the plating plate through the round holes 7, meanwhile, the part of the lower part of the static baffle plate 2 without the round holes 7 still can block the electric line, avoiding the lower part of the side end face of the low-size plating plate from being thicker, further facilitating the plating of the low-size plating plate, finally realizing that the device plates with different height sizes, avoiding the lower part of the side end face of the plating plate from being too thick, can effectually prevent through setting up spacing subassembly and move backup pad 1 and quiet baffle 2 and separate completely, and then avoid moving backup pad 1 to drop to electroplating solution bottom, thereby this device realizes adjusting the buoyancy of moving baffle 8 in solution through the quality to counterweight pipe 6 regulation for traditional electroplating floating frame, and then be convenient for adjust the height that moving baffle 8 sheltered from round hole 7, and then be convenient for this device shelter from the side terminal surface lower part of not co-altitude plating board, and then side terminal surface lower part electroplates when avoiding the plating board to electroplate too thick, has optimized current electroplating floating frame.

Specifically, two end faces that quiet baffle 2 kept away from mutually are all fixedly connected with even filter plate 12, have all excavated a plurality of strip through-holes on two even filter plates 12, and a plurality of strip through-holes respectively with a plurality of round holes 7 phase-match.

During operation, through setting up even filter plate 12 messenger's electric line passes the strip through-hole on the even filter plate 12 earlier and electroplates in passing round hole 7 to utilize even filter plate 12 to shelter from partial electric line, and then make the electric line distribute more even, and then be convenient for plate even electroplating of board side terminal surface lower part.

The working principle of the utility model is as follows:

when the plating plate is required to be plated by using the device, the device is put into the solution, because the static baffle plate 2 is made of PP material, the device can float upwards in the solution, the plating plate is put on the guide plate 11, the lower part of the side end surface of the plating plate is blocked by the static baffle plate 2, thereby realizing the circuit line blocking the lower part of the side end surface of the plating plate, further avoiding the plating of the lower part of the side end surface of the plating plate from being too thick, when the plating plate with high size is required, the weight of the weight tube 6 is reduced due to the blocking of the lower part of the side end surface of the plating plate with higher size, thereby realizing the reduction of the quality of the movable support plate 1, the movable support plate 1 and the movable baffle plate 8 float upwards relative to the static baffle plate 2, the sliding plate 9 slides in the sliding groove 10 at the moment, the movable baffle plate 8 moves upwards to block the round holes 7 on more static baffle plates 2, therefore, the electric line of contact of the plating plate is blocked by the static baffle plate 2, the electric line of contact of the plating plate is blocked by the passive baffle plate 8, thereby realizing that the blocking height of the lower part of the side end face of the plating plate is increased, further facilitating the plating of the high-size plating plate, avoiding the lower part of the side end face from being thicker when the high-size plating plate is plated, similarly increasing the counterweight of the counterweight tube 6 when the low-size plating plate is plated, the movable baffle plate 8 moves downwards relative to the static baffle plate 2, further realizing that more round holes 7 are not blocked by the passive baffle plate 8, further more electric line can plate the plating plate through the round holes 7, meanwhile, the part of the lower part of the static baffle plate 2 without the round holes 7 still can block the electric line, avoiding the lower part of the side end face of the low-size plating plate from being thicker, further facilitating the plating of the low-size plating plate, finally realizing that the device plates with different height sizes, avoiding the lower part of the side end face of the plating plate from being too thick, can effectually prevent through setting up spacing subassembly that movable support plate 1 and quiet baffle 2 from completely separating, and then avoid movable support plate 1 to drop to electroplating solution bottom.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but rather, the foregoing embodiments and description illustrate the principles of the utility model, and that various changes and modifications may be effected therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (3)

1. The utility model provides a double-deck frame that floats, includes two quiet baffle (2), its characterized in that, two the round hole (7) that run through to be used for through the power line about all having excavated on the left end face upper portion of quiet baffle (2), still includes:

a plurality of sliding plates (9) which are respectively and fixedly connected with the two static baffle plates (2) and are close to one end face;

the guide plate (11) is fixedly connected between the sliding plates (9) on the left side and the right side;

a movable supporting plate (1) which slides up and down between the two static baffles (2), wherein the movable supporting plate (1) is positioned at the lower side of the guide plate (11);

the two movable baffles (8) are fixedly connected to the upper end face of the movable supporting plate (1), the guide plate (11) is positioned between the two movable baffles (8), and the two movable baffles (8) are matched with the plurality of round holes (7) to block power lines;

a plurality of sliding grooves (10) respectively cut on the upper end surfaces of the two movable baffles (8), and a plurality of sliding plates (9) respectively slide in the sliding grooves (10) up and down;

the balance weight pipe (6) is fixedly connected to the movable supporting plate (1), and the balance weight pipe (6) is used for increasing the balance weight of the movable supporting plate (1);

and the limiting assembly is used for preventing the sliding plates (9) from being completely separated from the sliding grooves (10).

2. The double-layer floating frame according to claim 1, wherein the limiting assembly comprises two limiting columns (3), the two limiting columns (3) are fixedly connected to the lower end face of the guide plate (11), two sliding holes (4) are formed in the upper end face of the movable supporting plate (1) in a penetrating mode, the two limiting columns (3) slide in the two sliding holes (4) respectively, and the lower end faces of the two limiting columns (3) are fixedly connected with limiting plates (5).

3. The double-layer floating frame according to claim 1, wherein an end face, away from the static baffle plates (2), of each static baffle plate is fixedly connected with a uniform filter plate (12), a plurality of strip-shaped through holes are formed in each uniform filter plate (12), and the strip-shaped through holes are matched with the round holes (7) respectively.