CN210012921U - Water receiving basin device and electroplating equipment - Google Patents

Abstract

The utility model relates to a water receiving basin device and electroplating device. The guide rail is arranged on the rack, and the water receiving basin is connected with the guide rail at least through a first connecting structure; when the water receiving basin is in a horizontal state, the first connecting structure is positioned at the lowest end of the guide rail; when the water receiving basin is in a folded state, an acute included angle which is more than 45 degrees is formed between the water receiving basin and the horizontal plane, and the position of the first connecting structure is higher than that of the first connecting structure when the water receiving basin is in a water receiving state; the driving assembly is used for controlling the water receiving basin to be switched between a water receiving state and a retracting state. The utility model discloses the water receiving basin need rotate and promote the take-up height when packing up along the guide rail, is transformed into vertical space by horizontal space with the space that the water receiving basin occupy, and the overhead traveling crane can not be done longer, and whole horizontal space can not occupy too much, is favorable to the volume miniaturization, also is favorable to operation and maintenance.

Description

Water receiving basin device and electroplating equipment

Technical Field

The utility model relates to an automatic change the auxiliary assembly who electroplates, especially relate to a water receiving basin device and electroplating device.

Background

In the field of automatic electroplating equipment, a crown block reciprocates to hoist workpieces, the crown block hoists the workpieces from one electroplating bath, and the workpieces are moved transversely to the next electroplating bath and then are put down. In the process, the liquid medicine attached to the workpiece can drip down and drop into the electroplating bath passing through in the transverse moving process, so that the liquid medicine is cross-polluted. In order to avoid such pollution, a water receiving basin is usually designed on the overhead traveling crane, and the water receiving basin is used for moving to the lower part of the workpiece to receive the dripped liquid medicine after the workpiece is hoisted by the overhead traveling crane, and discharging the liquid medicine through the fixed water receiving basin, and after the overhead traveling crane reaches a target electroplating bath, the water receiving basin is moved away, and the overhead traveling crane puts down the workpiece.

In a traditional water receiving basin, a water receiving basin frame is generally connected to a lifting guide groove of a crown block, a horizontal rail is arranged on the water receiving basin frame, and the water receiving basin is horizontally moved in a gear rack mode and the like to be closed or opened. Because the water receiving basin is connected from the lift guide slot, and the feiba work piece will pass from top to bottom between this water receiving basin frame, when the size itself of feiba work piece is very long, the water receiving basin frame need remove longer distance in order to avoid the feiba work piece, and then makes whole overhead traveling crane become very long, can lengthen the length of whole piece of automatic electroplating equipment like this, occupy more spaces, be unfavorable for workman's operation and maintenance in the future.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a water receiving basin structure and electroplating equipment which can occupy less space.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a water receiving basin device is arranged on a rack and comprises a water receiving basin, a driving assembly and a guide rail, wherein the guide rail is arranged on the rack, and the water receiving basin is connected with the guide rail at least through a first connecting structure; the water receiving basin at least has a water receiving state and a retracting state; when the water receiving basin is in a horizontal state, the first connecting structure is positioned at the lowest end of the guide rail; when the water receiving basin is in a folded state, an acute included angle which is more than 45 degrees is formed between the water receiving basin and the horizontal plane, and the position of the first connecting structure is higher than that of the first connecting structure when the water receiving basin is in a water receiving state; the driving assembly is used for controlling the water receiving basin to be switched between a water receiving state and a retracting state.

Further, the guide rail is arc-shaped.

Furthermore, the number of the guide rails is two, the center lines of the two guide rails are concentric arcs, and the diameter of the center line of one guide rail is smaller than that of the center line of the other guide rail.

Furthermore, the first connecting structure is connected with the guide rails with small diameters in the two guide rails, and the water receiving basin is connected with the guide rails with large diameters in the two guide rails through a second connecting structure.

Furthermore, two guide rails are arranged on one guide plate, the number of the guide plates is two, the water receiving basin is arranged between the two guide plates, and the water receiving basin is connected with each guide rail on the two guide plates respectively.

Further, the first connecting structure and the second connecting structure are both rollers.

Furthermore, the guide rail is arranged on one guide plate, only one guide rail is arranged on each guide plate, the guide rails are arc-shaped or linear, the number of the guide plates is two, the water receiving basins are arranged on the positions between the two guide plates, and the water receiving basins are respectively connected with the guide rails on the two guide plates.

Furthermore, the driving assembly comprises a speed reducing motor, a synchronizing shaft and a hanging strip, the speed reducing motor drives the synchronizing shaft to rotate around the axis of the synchronizing shaft, and the synchronizing shaft is connected with the highest end of the water receiving basin in the retracted state through the hanging strip.

Furthermore, a balancing weight is arranged at one end where the connection part of the water receiving basin and the hanging strip is located.

The utility model also discloses an electroplating device, it includes above water receiving basin device.

Compared with the prior art, the utility model beneficial effect be: the water receiving basin needs to rotate and lift a certain height when being packed up along the guide rail, and the space that occupies the water receiving basin is transformed into vertical space by horizontal space, even the flying bar work piece is longer, also need not move longer horizontal distance in order to avoid flying the bar work piece, therefore the overhead traveling crane can not be done longer, and whole horizontal space can not occupy too much, is favorable to the volume miniaturization, also is favorable to operation and maintenance.

Drawings

Fig. 1 is a front view of the water receiving basin device of the utility model.

Fig. 2 is a right side view of the water receiving basin device of the present invention.

Fig. 3 is a right side view of the water receiving basin of the utility model.

Fig. 4 is a view of the guide plate of the present invention.

It should be noted that, the products shown in the above views are all appropriately reduced/enlarged according to the size of the drawing and the clear view, and the size of the products shown in the views is not limited.

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and explained with reference to the specific embodiments.

The specific structure of the embodiment of the utility model is shown in figures 1-4.

The water receiving basin device of the embodiment is arranged on a crown block frame 10 of the electroplating equipment. As shown in fig. 1, the drip pan device includes a driving assembly 20, a lower drip pan 30, and guide rails 41 and 42 at both sides. The driving assembly 20 comprises a speed reducing motor 21, a synchronizing shaft 23 and two hanging strips 22, wherein the speed reducing motor 21 is controlled by a frequency converter (not shown) to rotate, an output shaft 24 of the speed reducing motor 21 drives the synchronizing shaft 23 to rotate around the axis of the synchronizing shaft 23 through a coupler 25, the synchronizing shaft 23 is fixed on the rack 10 through two bearings with seats 26, the hanging strips 22 are all wound on the synchronizing shaft 23, and the lower ends of the hanging strips 22 are fixedly connected with the side edges of the water receiving basin 30. When the deceleration motor 21 is rotated, the hanging strip 22 may be wound up or wound down, thereby controlling the state of the drain pan 30. In this embodiment, the coupling 25 may be a rigid coupling, and the reduction motor 21 may be a worm reduction motor. In other embodiments, more than two straps may be used if the basin is larger, heavier, or heavier.

As shown in fig. 1 and 2, the guide plates 40 have two left and right blocks, and each guide plate 40 is provided with circular arc guide rails 41 and 42. The drip pan 30 is disposed at a position between the two guide plates 40, and the driving assembly 20 is disposed above the drip pan 30. The center lines 411, 421 of the two guide rails 41, 42 on the guide plate 40 are concentric circular arcs and have the same angle, wherein the diameter of the center line 421 of the guide rail 42 is smaller than that of the center line 411 of the guide rail 41 (about 0.82 times), and the two guide plates 40 have the identical guide rails 41, 42 therebetween. The water receiving basin 30 is connected with the guide rail 42 with the small diameter in the two guide rails 41 and 42 in a rolling way through the first connecting structure 31, and the water receiving basin 30 is connected with the guide rail 41 with the large diameter in the two guide rails 41 and 42 in a rolling way through the second connecting structure 32.

The water receiving basin 30 has a water receiving state and a retracted state, and the driving assembly 20 is used for controlling the water receiving basin 30 to be switched between the water receiving state and the retracted state. As shown by the dotted line in fig. 2, the basin 30' is in the water receiving state. The two guide rails 41 and 42 in the same guide plate 40 have their lowermost ends on the same horizontal plane, so that in the water receiving state, the water receiving basin 30 ' is in the horizontal state, and the first connecting structure 31 ' and the second connecting structure 32 ' are respectively located at the lowermost ends of the guide rails 42 and 41. As shown by the solid line in fig. 2, the water receiving basin 30 is in the retracted state, at this time, an acute included angle greater than 45 degrees is formed between the water receiving basin 30 and the horizontal plane, the position of the first connecting structure 31 is higher than the position of the first connecting structure 31' in the water receiving state, and the highest end of the water receiving basin 30 at this time is connected with the hanging strip 22, when the speed reducing motor 21 controls the water receiving basin 30 to be switched from the water receiving state to the retracted state through the hanging strip 22, because the force arm is longer, the speed reducing motor 21 can relatively save labor by lifting the water receiving basin 30 through the hanging strip 22. The angle formed by the basin 30 when it is in the retracted state is less than 90 degrees, so as to prevent the upper part of the basin 30 from crossing the vertical line and preventing the basin 30 from smoothly returning to the water receiving state.

As shown in fig. 2 and 3, the first connecting structure 31 and the second connecting structure 32 are rollers, and bearings (not shown) are disposed in the rollers, and a shaft passing through the bearings is fixed to the basin 30 to reduce resistance to movement of the basin 30. The second connecting structure 32 is disposed near the side where the hanging strip 22 is connected to the basin 30, and the first connecting structure 31 is disposed near the middle of the basin 30. In addition, a counterweight 39 is disposed at one end (higher position) of the connection between the basin 30 and the hanging strip 22, so that when the hanging strip 22 winds downwards and the basin 30 slides downwards under the action of gravity, a larger potential energy is provided to allow the basin 30 to slide downwards at a sufficient speed.

As shown in fig. 4, four sensors are provided on the guide rail 41 with a larger diameter on the guide plate 40 for controlling the rotation speed of the speed reduction motor (not shown in fig. 4), and thus the movement speed of the water pan (not shown in fig. 4). The four sensors are, from top to bottom, a second stop sensor 54, a second deceleration sensor 53, a first deceleration sensor 52 and a first stop sensor 51, respectively. The second deceleration sensor 53 is used for sensing that the second connection structure (not shown in fig. 4) of the water receiving basin reaches the position, the inverter controls the deceleration motor to start deceleration, that is, the water receiving basin is decelerated, and the second stop sensor 54 is used for sensing that the second connection structure of the water receiving basin reaches the position, the inverter controls the deceleration motor to stop rotation, that is, the water receiving basin is stopped. The first deceleration sensor 52 is used for sensing that the first connection structure of the water receiving basin reaches the position, and the inverter controls the deceleration motor to start decelerating, that is, the water receiving basin is decelerated, and the first stop sensor 51 is used for sensing that the first connection structure of the water receiving basin reaches the position, and the inverter controls the deceleration motor to stop rotating, that is, the water receiving basin is stopped. When the water receiving basin is located between the first speed reduction sensor 52 and the second speed reduction sensor 53, the speed reduction motor can keep rotating fast, so that the water receiving basin can pass through fast, and the time is shortened.

In other embodiments, there are two guide plates, there may be only one guide rail on each guide plate, the guide rail is arc-shaped or linear, the water receiving basin is arranged at a position between the two guide plates, and the water receiving basin is connected with the guide rails on the two guide plates through the first connecting structure (roller). When the structure is in a water receiving state, the hanging strip and the first connecting structure are required to be in a horizontal balance state in a butt joint mode with the water receiving basin, and when the structure is required to be folded, the water receiving basin can be lifted along the guide rail through the hanging strip.

The electroplating device of the embodiment comprises a frame 10 of a crown block and the water receiving basin device of the embodiment.

The above description is only for the purpose of illustrating the technical content of the present invention by way of example, so as to facilitate the understanding of the reader, but does not represent that the embodiments of the present invention are limited thereto, and any technical extension or re-creation according to the present invention is protected by the present invention.

Claims (10)

1. A water receiving basin device is arranged on a rack and is characterized by comprising a water receiving basin, a driving assembly and a guide rail, wherein the guide rail is arranged on the rack, and the water receiving basin is connected with the guide rail at least through a first connecting structure; the water receiving basin at least has a water receiving state and a retracting state; when the water receiving basin is in a water receiving state, the water receiving basin is in a horizontal state, and the first connecting structure is positioned at the lowest end of the guide rail; when the water receiving basin is in a folded state, an acute included angle which is larger than 45 degrees is formed between the water receiving basin and the horizontal plane, and the position of the first connecting structure is higher than that of the first connecting structure when the water receiving basin is in a water receiving state; the driving assembly is used for controlling the water receiving basin to be switched between a water receiving state and a retracting state.

2. The drain basin device of claim 1, wherein said guide track is arcuate.

3. A drip pan device according to claim 2 wherein there are two of said tracks, the centre lines of the two tracks being concentric arcs, the diameter of the centre line of one of the tracks being less than the diameter of the centre line of the other track.

4. The drip pan device of claim 3, wherein the first connecting structure is connected to the smaller of the two rails, and the drip pan is connected to the larger of the two rails by a second connecting structure.

5. A drip pan device according to claim 3, wherein the two guide rails are provided on one guide plate, the two guide plates being provided in two pieces, the drip pan being provided at a position between the two guide plates, the drip pan being connected to each of the guide rails of the two guide plates.

6. The drip pan device of claim 4, wherein the first and second attachment structures are rollers.

7. A drip pan device as claimed in claim 1, wherein the guide tracks are provided on one guide plate, there being only one guide track per guide plate, the guide tracks being arcuate or linear, there being two guide plates, the drip pan being provided at a position between the two guide plates, the drip pan being connected to the guide tracks on the two guide plates respectively.

8. The drain pan device of any of claims 1 to 7, wherein the drive assembly comprises a speed reduction motor, a synchronizing shaft and a hanging strip, the speed reduction motor drives the synchronizing shaft to rotate around its axis, and the synchronizing shaft is connected with the highest end of the drain pan in the retracted state through the hanging strip.

9. The basin device of claim 8, wherein a weight is provided at the end where the basin is connected to the harness.

10. Electroplating equipment, its characterized in that, it includes the water receiving basin device of any item 1-9.

Images