CN213142267U - Traveling crane for roll-plating feeding - Google Patents
Traveling crane for roll-plating feeding Download PDFInfo
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- CN213142267U CN213142267U CN202021978651.5U CN202021978651U CN213142267U CN 213142267 U CN213142267 U CN 213142267U CN 202021978651 U CN202021978651 U CN 202021978651U CN 213142267 U CN213142267 U CN 213142267U
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Abstract
The utility model relates to an electroplating device's field specifically is a barrel-plating is driving for material loading, and it is including setting up the support frame in the electroplating bath top, and the support frame is improved level and is slided and be provided with the horizontal transfer platform, and the vertical sliding of horizontal transfer bench is provided with the lifter plate, and the lower extreme of lifter plate is equipped with the layer board that is used for holding up the cylinder, and the layer board is located the below of horizontal transfer platform, the one end and the lifter plate fixed connection of layer board, and the vertical sliding of the other end of layer board is provided with the barrier plate. This application can realize the quick material loading of barrel-plating cylinder to at the in-process that transports the cylinder, provide the guarantee for the stability and the safety of cylinder.
Description
Technical Field
The application relates to the field of electroplating equipment, in particular to a travelling crane for barrel plating feeding.
Background
Electroplating is a process of plating a thin layer on the surface of a metal by the principle of electrolysis. After the metal is electroplated, the performances of corrosion resistance, oxidation resistance, conductivity and the like of the metal can be improved. Barrel plating belongs to one type of electroplating, and is to put a roller with a small workpiece into an electroplating pool for electroplating. The wall of the electroplating tank is generally higher, and the roller is usually put into the electroplating tank by using a traveling crane for roll plating feeding.
The existing travelling crane for roll plating feeding is mainly used for fixing a roller provided with a workpiece on the travelling crane manually, and then driving the travelling crane to put the roller provided with the workpiece into an electroplating pool for electroplating. Although the manual fixing mode can firmly fix the roller on the traveling crane for roll plating and feeding, the time is consumed, and the electroplating processing efficiency of the workpiece is reduced.
SUMMERY OF THE UTILITY MODEL
In order to shorten the barrel plating material loading time and improve the electroplating processing efficiency of workpieces, the application provides a travelling crane for barrel plating material loading.
The application provides a barrel-plating is driving for material loading adopts following technical scheme:
the utility model provides a barrel-plating material loading is with driving, is including setting up the support frame in the electroplating bath top, the support frame is improved level and is slided and be provided with the horizontal transfer platform, the vertical lifting plate that slides on the horizontal transfer platform is provided with, the lower extreme of lifting plate is equipped with the layer board that is used for holding up the cylinder, the layer board is located the below of horizontal transfer platform, the one end and the lifting plate fixed connection of layer board, the vertical sliding of the other end of layer board is provided with the barrier plate.
Through adopting above-mentioned technical scheme, when for the barrel-plating material loading, the lifter plate descends, and horizontal transfer platform slides the layer board level to the cylinder below that is equipped with the work piece, and the lifter plate rises, thereby the layer board holds up the horizontal support post of cylinder top fixed connection and holds up the cylinder, and the vertical rebound of barrier plate simultaneously blocks the space between horizontal transfer platform and the layer board to make the cylinder be difficult for falling from the layer board. After the roller is supported by the supporting plate, the roller is conveyed to the upper part of the electroplating pool by the horizontal conveying platform, the lifting plate descends, and the roller is placed into the electroplating pool. Above-mentioned technical scheme holds up the cylinder fast through the layer board to hinder the cylinder through the barrier plate and fall, the final completion is rolled and is plated the material loading, has shortened the material loading time, has improved electroplating process's efficiency.
Optionally, the side at blockking plate top thickness direction both ends is all fixed to be equipped with and blocks the piece, the downside of horizontal transfer platform is offered and is used for supplying the blockking plate and blocks the groove that slides that the piece slided, the inslot horizontal migration that slides is provided with the lockplate, one side of lockplate is seted up flutedly, the bar form on the horizontal direction is established to the recess, the recess link up the last side and the downside of lockplate, the width of recess is the same with the thickness that blocks the plate.
By adopting the technical scheme, after the roller is supported by the supporting plate, the blocking plate moves upwards, the blocking plate and the blocking block enter the sliding groove, the locking plate moves horizontally to the blocking plate to enter the groove, and the locking plate is positioned below the blocking block at the moment. Since the width of the groove is the same as the thickness of the blocking plate, the blocking block cannot pass through the groove. So, the cooperation of stopping block and recess has formed a mechanical safety, and promptly as the stopping plate because of out of control gliding, the stopping block that links firmly with the stopping plate can not pass through the recess to prevent the stopping plate and continue gliding, consequently above-mentioned technical scheme not only can raise the cylinder fast and transport, has more strengthened the security of cylinder transportation material loading process.
Optionally, all seted up on the side at barrier plate width direction both ends and consolidated the groove, horizontal transfer platform water level smooth migration is provided with and consolidates the reinforcing piece that groove shape and size homogeneous phase match, the horizontal transfer platform is last to be offered and is used for supplying the through-hole that the reinforcing piece followed the inside roll-off of horizontal transfer platform.
Through adopting above-mentioned technical scheme, after the barrier plate shifts up and gets into the groove that slides, the reinforcement piece level slides and gets into the groove that slides, has further reduced the risk that the cylinder falls from the layer board, consequently above-mentioned technical scheme not only can raise the cylinder fast and transport, has more strengthened the security of cylinder transportation material loading process.
Optionally, the upper side surface of the supporting plate is provided with a first arc-shaped groove which is bent upwards.
Through adopting above-mentioned technical scheme, when the horizontal support post of cylinder top and the diapire contact of first arc wall, certain limiting displacement is played to the horizontal support post to first arc wall, makes the horizontal support post be difficult for following roll-off in the first arc wall, consequently is sending into the in-process of electroplating bath with the cylinder, and above-mentioned technical scheme not only can rise the cylinder fast and transport, has still strengthened the security of cylinder transportation material loading in-process.
Optionally, a portion of the upper side surface of the supporting plate, which is located between the first arc-shaped groove and the lifting plate, is obliquely arranged, and one end of the supporting plate, which is close to the lifting plate, is obliquely inclined upwards.
Through adopting above-mentioned technical scheme, when the cylinder was held up to the layer board, need not the manual work and aim at horizontal support column and first arc wall on the cylinder, only need horizontal transfer platform horizontal migration to the horizontal support column and the layer board be close to the one end contact of lifter plate, under the effect of gravity, horizontal support column can automatic sliding move to first arc wall in. Therefore, the technical scheme ensures the stable safety of the roller conveying, simplifies the step of lifting the roller, shortens the feeding time and improves the electroplating processing efficiency.
Optionally, a second arc-shaped groove which is bent downwards is formed in the lower side face of the horizontal conveying table, the shape and the size of the second arc-shaped groove are matched with those of the first arc-shaped groove, and the second arc-shaped groove is located right above the first arc-shaped groove.
Through adopting above-mentioned technical scheme, after horizontal support post on the cylinder got into first arc wall, the lifter plate drove the layer board and rises, made horizontal support post and second arc wall contact. Under the limiting action of the first arc-shaped groove and the second arc-shaped groove, the safety and the stability of the roller in the transportation process are further improved.
Optionally, the bottom wall surface of the first arc-shaped groove and the top wall surface of the second arc-shaped groove are both fixedly provided with elastic pads.
Through adopting above-mentioned technical scheme, when horizontal support column on the cylinder supports tightly with first arc wall and second arc wall, elastic deformation can take place for the cushion, increases horizontal support column and first arc wall and with the second arc wall between the friction to reinforcing cylinder stability in the transportation.
Optionally, the support frame is provided with the guard plate in the horizontal slip, the guard plate is located the below of horizontal transfer platform.
Through adopting above-mentioned technical scheme, transport the in-process to the electroplating bath at the cylinder, the guard plate protects the navigation for its protection in the below of cylinder, prevents that the cylinder from directly falling ground, has strengthened the security of barrel-plating material loading.
In summary, the present application includes at least one of the following beneficial technical effects:
the roller is quickly supported by the supporting plate, and the roller is prevented from falling by the barrier plate, so that the roller plating and feeding are finally completed, the feeding time is shortened, the electroplating processing efficiency is improved, and the conveying safety of the roller is also improved;
after the supporting plate supports the roller, the blocking plate and the blocking block enter the sliding groove, the blocking plate enters the groove when the locking plate slides horizontally, and the blocking block cannot pass through the groove because the width of the groove is the same as the thickness of the blocking plate, so that the blocking plate cannot fall down, and the safety and the stability of roller conveying are improved;
after the supporting plate supports the roller, the reinforcing block horizontally slides to enter the reinforcing groove to fix the blocking plate, so that the blocking plate cannot fall down, and the safety and the stability of conveying the roller are improved.
Drawings
FIG. 1 is a schematic overall structure diagram of a traveling crane for barrel plating feeding;
FIG. 2 is a perspective view showing the connection among the horizontal transfer table, the elevation plate, and the pallet in a highlighted manner;
FIG. 3 is a cross-sectional view highlighting details of the interior of the horizontal transport table and the structures on the pallet;
fig. 4 is an enlarged view of a portion a in fig. 3.
Description of reference numerals: 1. a support frame; 2. a horizontal transfer table; 21. a sliding groove; 3. a lifting plate; 4. a support plate; 5. a blocking plate; 6. a blocking block; 7. a locking plate; 8. a reinforcing block; 9. an elastic pad; 10. and (4) a protective plate.
Detailed Description
The present application is described in further detail below with reference to figures 1-4.
The embodiment of the application discloses a travelling crane for barrel plating feeding. Referring to fig. 1, the traveling crane for barrel plating feeding comprises a support frame 1 arranged above an electroplating pool. The support frame 1 is gone up the level and is slided and be provided with horizontal transfer platform 2 and guard plate 10, and guard plate 10 is located the below of horizontal transfer platform 2. Be equipped with on the support frame 1 and be used for driving the first driving piece that horizontal transfer platform 2 slided and be used for driving the second driving piece that guard plate 10 horizontal slided, first driving piece and second driving piece all can select for use by motor drive's lead screw slider mechanism. The horizontal conveying platform 2 is vertically provided with a supporting plate 4 in a sliding manner.
The supporting plate 4 falls to support the horizontal supporting columns fixedly connected above the roller, so that the roller is supported. The first driving piece drives the horizontal transfer platform 2 to slide, the supporting plate 4 supporting the roller is transferred to the upper part of the electroplating pool, the supporting plate 4 descends again to send the roller into the electroplating pool, and the rolling and plating feeding is completed. In the process that the horizontal conveying table 2 conveys the supporting plate 4 to the position above the electroplating pool, the protective plate 10 slides below the horizontal conveying plate to prevent the roller from directly falling to the ground.
Referring to fig. 2, the side of horizontal transfer platform 2 is connected with lifter plate 3 through the vertical slip of third driving piece, and the one end fixed connection of layer board 4 is in the below of lifter plate 3, and two electronic slide rails can be chooseed for use to the third driving piece. Under the drive of the third driving piece, the lifting plate 3 drives the supporting plate 4 to vertically lift.
Referring to fig. 3, the supporting plate 4 is provided with a blocking plate 5 by vertically sliding away from one end of the lifting plate 3, and a containing groove for containing the blocking plate 5 is formed in the upper side face of the supporting plate 4. The fixed fourth drive piece that is used for driving 5 lifts of barrier plate that is provided with in below of layer board 4, and the cylinder can be chooseed for use to the fourth drive piece. After the horizontal support column above the roller is supported by the supporting plate 4, the blocking plate 5 rises to block the gap between the horizontal conveying platform 2 and the supporting plate 4, so that the horizontal support column is not easy to fall from the supporting plate 4. When the blocking plate 5 does not need to work, the blocking plate 5 can slide into the accommodating groove.
Referring to fig. 3, the upper side of the supporting plate 4 is provided with a first arc-shaped groove which is bent upwards. After the horizontal support column above the roller enters the first arc-shaped groove, the first arc-shaped groove plays a certain limiting role, so that the horizontal support column is more difficult to slip from the supporting plate 4, and the falling possibility of the roller is reduced.
The lower side surface of the horizontal conveying platform 2 is provided with a second arc-shaped groove matched with the first arc-shaped groove in size and shape, and the second arc-shaped groove is positioned right above the first arc-shaped groove. After the horizontal support post of cylinder top got into first arc wall, layer board 4 rose, made the roof contact of horizontal support post and second arc wall, and the limiting displacement to horizontal support post can further be strengthened to the second arc wall, makes horizontal support post more difficult slippage from layer board 4.
The elastic pad 9 is fixedly arranged on the surfaces of the bottom wall of the first arc-shaped groove and the top wall of the second arc-shaped groove. Because the horizontal support column above the roller is tightly propped against the first arc-shaped groove and the second arc-shaped groove, the elastic pad 9 is deformed, the friction between the horizontal support column and the first arc-shaped groove and between the horizontal support column and the second arc-shaped groove is increased, the stability of the horizontal support column is enhanced, and the horizontal support column is not easy to slip from the supporting plate 4.
Referring to fig. 3, a portion of the upper side surface of the support plate 4 between the first arc-shaped groove and the lifting plate 3 is obliquely disposed, and one end close to the lifting plate 3 is upwardly inclined. When the supporting plate 4 holds up the roller, time consumption caused by aligning a horizontal supporting column above the roller with the first arc-shaped groove is not needed, and the horizontal conveying platform 2 is driven to horizontally slide to the horizontal supporting column to be contacted with one end, close to the lifting plate 3, of the supporting plate 4. Due to gravity, the horizontal support column can automatically slide into the first arc-shaped groove.
Referring to fig. 4, the side surfaces of both ends of the thickness direction of the top of the blocking plate 5 are fixedly connected with blocking blocks 6, a sliding groove 21 is formed in the lower side surface of the horizontal transfer platform 2, a locking plate 7 is horizontally arranged in the sliding groove 21, and the sliding direction of the locking plate 7 is parallel to the width direction of the blocking plate 5. One side of the locking plate 7 is provided with a groove which runs through the upper side and the lower side of the locking plate 7 and is in a strip shape in the horizontal direction. The width of the groove is the same as the thickness of the barrier plate 5.
When the supporting plate 4 supports the roller, the blocking plate 5 moves upwards to enable the blocking plate 5 and the blocking block 6 to enter the sliding groove 21, then the locking plate 7 horizontally slides until the blocking plate 5 enters the groove, and at the moment, the locking plate 7 is located below the blocking block 6. Because the width of the groove is the same as the thickness of the blocking plate 5, the blocking block 6 can not pass through the groove, so that the blocking plate 5 fixedly connected with the blocking block 6 can not leave the sliding groove 21, and the possibility of falling of the roller is reduced.
Referring to fig. 4, reinforcing grooves are formed in the side faces of the two ends of the barrier plate 5 in the width direction, reinforcing blocks 8 are horizontally arranged in the horizontal transfer platform 2 in a moving mode, and the reinforcing blocks 8 are matched with the reinforcing grooves in shape and size. The horizontal transfer platform 2 is also provided with a through hole for the reinforcing block 8 to slide out of the horizontal transfer platform 2. Be equipped with in the horizontal transfer platform 2 and be used for driving the fifth driving piece that the reinforcement piece 8 slided, the cylinder can be chooseed for use to the fifth driving piece. After the blocking plate 5 enters the sliding groove 21, the reinforcing block 8 slides into the reinforcing groove to limit the blocking plate 5 in the sliding groove 21, so that the blocking plate 5 is not easy to move downwards, and the stability of the roller in the conveying process is improved.
The implementation principle of the traveling crane for barrel plating feeding in the embodiment of the application is as follows: before transporting the cylinder, horizontal transfer platform 2 slides to the top of cylinder, and at the in-process that horizontal transfer platform 2 slided, the elevating platform descends to the height that highly is less than the horizontal support post on the cylinder of layer board 4.
When the horizontal support column on the roller contacts with one end of the supporting plate 4 close to the lifting plate 3, the lifting plate 3 drives the supporting plate 4 to ascend. Under the action of gravity, the horizontal supporting columns on the roller can automatically slide down to enter the first arc-shaped groove.
After the horizontal support column enters the first arc-shaped groove on the roller, the lifting plate 3 drives the supporting plate 4 to continuously rise to the top wall of the horizontal support column and the top wall of the second arc-shaped groove to be abutted.
Then, the blocking plate 5 is made to slide upwards into the sliding groove 21, the locking plate 7 slides until the blocking plate 5 enters the groove, and the reinforcing block 8 horizontally slides into the reinforcing groove.
Then the horizontal conveying platform 2 carries the roller to horizontally slide towards the direction of the electroplating pool, and the protection plate 10 slides under the supporting plate 4. After the horizontal transfer platform 2 arrives the electroplating pool top, the lifting plate 3 drives the supporting plate 4 to descend until the roller enters the electroplating pool.
And finally, horizontally sliding the locking plate 7 until the blocking plate 5 leaves the groove, sliding the reinforcing block 8 out of the reinforcing groove, and downwards moving the blocking plate 5 into the accommodating groove. And then the horizontal conveying platform 2 horizontally slides to the upper horizontal supporting column of the roller to separate from the supporting plate 4. And finishing barrel plating feeding.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (8)
1. A traveling crane for barrel plating feeding is characterized in that: including setting up support frame (1) in the electroplating bath top, support frame (1) is improved level and is slided and be provided with horizontal transfer platform (2), vertical sliding is provided with lifter plate (3) on horizontal transfer platform (2), the lower extreme of lifter plate (3) is equipped with layer board (4) that are used for holding up the cylinder, layer board (4) are located the below of horizontal transfer platform (2), the one end and lifter plate (3) fixed connection of layer board (4), the vertical sliding of the other end of layer board (4) is provided with barrier plate (5).
2. The traveling crane for barrel plating charging according to claim 1, characterized in that: the side at blockking plate (5) top thickness direction both ends is all fixed to be equipped with blocks piece (6), the downside of horizontal transfer platform (2) is offered and is used for supplying blockking plate (5) and blocks sliding groove (21) that block piece (6) slided, the horizontal migration is provided with lockplate (7) in sliding groove (21), one side of lockplate (7) is seted up flutedly, the recess is established to the ascending bar form of horizontal direction, the recess link up the side and the downside of going up of lockplate (7), the width of recess is the same with the thickness of blockking plate (5).
3. The traveling crane for barrel plating charging according to claim 2, characterized in that: all seted up on the side at barrier plate (5) width direction both ends and consolidated the groove, horizontal transfer platform (2) interior horizontal migration is provided with and consolidates reinforcing block (8) that the groove shape matches with big or small homogeneous phase, offer on horizontal transfer platform (2) and be used for supplying reinforcing block (8) from the through-hole of the inside roll-off of horizontal transfer platform (2).
4. The traveling crane for barrel plating charging according to claim 1, characterized in that: the upper side surface of the supporting plate (4) is provided with a first arc-shaped groove which is bent upwards.
5. The barrel plating traveling crane according to claim 4, characterized in that: the part of the upper side surface of the supporting plate (4) between the first arc-shaped groove and the lifting plate (3) is obliquely arranged, and one end close to the lifting plate (3) is upwards inclined.
6. The barrel plating traveling crane according to claim 4, characterized in that: the second arc-shaped groove of downwarping is seted up to the downside of horizontal transfer platform (2), the shape and the size homogeneous phase of second arc-shaped groove and first arc-shaped groove match, the second arc-shaped groove is located first arc-shaped groove directly over.
7. The barrel plating traveling crane according to claim 6, characterized in that: elastic pads (9) are fixedly arranged on the surface of the bottom wall of the first arc-shaped groove and the surface of the top wall of the second arc-shaped groove.
8. The traveling crane for barrel plating charging according to claim 1, characterized in that: the support frame (1) is gone up the level and is slided and be provided with guard plate (10), guard plate (10) are located the below of horizontal transfer platform (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021978651.5U CN213142267U (en) | 2020-09-11 | 2020-09-11 | Traveling crane for roll-plating feeding |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021978651.5U CN213142267U (en) | 2020-09-11 | 2020-09-11 | Traveling crane for roll-plating feeding |
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CN213142267U true CN213142267U (en) | 2021-05-07 |
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CN202021978651.5U Active CN213142267U (en) | 2020-09-11 | 2020-09-11 | Traveling crane for roll-plating feeding |
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