CN213086145U - Transportation gallows on anodic oxidation line - Google Patents

Abstract

The utility model relates to an anodic oxidation processing transportation equipment's field especially relates to a transportation gallows on anodic oxidation line, base including the cuboid form, base upper surface both sides are slided along its length direction and are connected with the slip frame, two horizontal rigid coupling has the crossbeam between the slip frame, the vertical rigid coupling in crossbeam upside middle part has driving cylinder one, the telescopic link of driving cylinder one sets up downwards and the rigid coupling has the connecting plate, the connecting plate downside slides along its length direction and is connected with two splint, the connecting plate downside is rotated and is connected with the lead screw, and two splint respectively threaded connection in the screw thread section to the lead screw, two the splint lower extreme all is provided with can follow the pivoted hook plate of mutual approaching direction, has the effect that can hoist not unidimensional alloy panel work piece.

Description

Transportation gallows on anodic oxidation line

Technical Field

The application relates to the field of anodic oxidation processing transportation equipment, in particular to a transportation hanging bracket on an anodic oxidation line.

Background

At present, in order to enhance the defects of the alloy surface in terms of hardness, wear resistance and the like, the surface of the alloy is usually subjected to an anodic oxidation process, namely an electrolytic oxidation process, in which the surface of the alloy is usually converted into an oxide film which has good protective properties.

An anodic oxidation production line generally comprises a plurality of electrolytic cells, alloy plate workpieces needing oxidation are lifted by a transportation hanger through a lifting hook, and the transportation hanger slides to drive the workpieces to move into each electrolytic cell for anodic oxidation.

In view of the above-mentioned related art, the inventor believes that there is a defect that the distance between the hooks is fixed, and it is difficult to pick up alloy plate workpieces of different sizes.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the transportation gallows can hoist not unidimensional alloy panel work piece, improve the suitability of transportation gallows, the application provides a transportation gallows on anodic oxidation line.

The application provides a transportation gallows on anodic oxidation line adopts following technical scheme:

the utility model provides a transportation gallows on anodic oxidation line, includes the base of cuboid form, the base upper surface both sides are slided along its length direction and are connected with the slip frame, two horizontal rigid coupling has the crossbeam between the slip frame, the vertical rigid coupling in crossbeam upside middle part has drive cylinder one, the telescopic link that drives cylinder one sets up downwards and the rigid coupling has the connecting plate, the connecting plate downside slides along its length direction and is connected with two splint, the connecting plate downside rotates and is connected with the screw rod to the silk, and two splint difference threaded connection in the screw thread section to the screw rod, two the splint lower extreme all is provided with can follow each other and is close to direction pivoted hook plate.

Through adopting above-mentioned technical scheme, arrange a plurality of anodic oxidation's electrolysis trough upside in with the crossbeam, and make the electrolysis trough arrange along the width direction of base, the frame that slides can slide to the electrolysis trough and correspond position both ends, it is the size that splint move to the distance correspondence need the alloy work piece of processing to the screw rod rotation of silk, and the hook plate rotates to the level and hooks up the alloy work piece, the telescopic link through driving cylinder one extends, arrange the work piece in the electrolysis trough, the telescopic link of driving cylinder is retracted after the electrolysis finishes, it rises to drive the work piece, the frame that slides moves and drives the work piece and continue to the processing of next electrolysis trough, the screw rod rotates to silk, can drive the opposite direction motion of splint, make splint can match the work piece of not unidimensional.

Preferably, the upper side of the connecting plate is vertically and fixedly connected with a plurality of sliding rods, and the sliding rods penetrate through the cross beam.

Through adopting above-mentioned technical scheme, the slide bar can promote the stability of the vertical direction motion of connecting plate.

Preferably, the vertical rigid coupling in splint one side has driving cylinder two, the vertical downward setting of telescopic link and the rigid coupling of driving cylinder two have the rack, the splint lower extreme rotates and is connected with can with rack toothing's gear, gear one side rigid coupling in the hook plate.

Through adopting above-mentioned technical scheme, the work of driving cylinder two, the telescopic link motion of driving cylinder two drives the rack vertical direction motion to drive gear revolve, and then drive the hook plate and rotate and catch on the alloy work piece of processing.

Preferably, the both ends of base upside all rotate and are connected with the band pulley, the axis direction of band pulley with the width direction of base is the same, two the cover is equipped with the drive belt on the band pulley, the drive belt rigid coupling in the frame slides.

Through adopting above-mentioned technical scheme, the band pulley rotates to drive the drive belt and rotate, and then drive the sliding frame and move along base length direction.

Preferably, the upper side of the base is fixedly connected with a first servo motor, and an output shaft of the first servo motor is fixedly connected with a belt wheel.

Through adopting above-mentioned technical scheme, servo motor work to drive band pulley reciprocating motion, and then make hold-in range reciprocating motion, realize the reciprocal of sliding frame and slide.

Preferably, the belt pulley is a synchronous belt pulley, and the transmission belt is a synchronous belt.

Through adopting above-mentioned technical scheme, adopt synchronous pulley and hold-in range cooperation, can guarantee the accurate removal of sliding frame, avoid leading to the only precision of sliding frame poor because of the reason of skidding between drive belt and the band pulley.

Preferably, the lower side of the connecting plate is horizontally and fixedly connected with a second servo motor, and an output shaft of the second servo motor is fixedly connected with one end of the screw rod.

Through adopting above-mentioned technical scheme, the distance between the splint is adjusted in the rotation of drive screw rod to servo motor two work, has made things convenient for the regulation to the screw rod.

Preferably, a reinforcing rib plate is fixedly connected between the cross beam and each side wall of the sliding frame.

Through adopting above-mentioned technical scheme, the connection between crossbeam and the frame that slides can be consolidated to the reinforcing floor, promotes the bearing capacity of crossbeam.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cross beam is arranged on the upper sides of a plurality of electrolytic tanks for anodic oxidation, the electrolytic tanks are arranged along the width direction of the base, the sliding frame can slide to two ends of the corresponding position of the electrolytic tanks, the wire screw rod rotates to enable the clamping plates to move to a distance corresponding to the size of an alloy workpiece to be processed, the hook plate rotates to be horizontal to hook up the alloy workpiece, the workpiece is arranged in the electrolytic tank by extending through the telescopic rod of the driving cylinder I, the telescopic rod of the driving cylinder retracts after electrolysis is finished to drive the workpiece to ascend, the sliding frame moves to drive the workpiece to continue to be processed towards the next electrolytic tank, and the wire screw rod rotates to drive the clamping plates to move in opposite directions so that the clamping plates can be matched with workpieces with different sizes;

2. the slide bar can promote the stability of the vertical direction motion of connecting plate.

Drawings

Fig. 1 is a schematic structural view of a transport hanger on an anodic oxidation line in the present embodiment.

Fig. 2 is a schematic structural diagram of the connecting plate in the present embodiment.

Description of reference numerals: 1. a base; 11. a slide rail; 12. a sliding frame; 121. a reinforcing rib plate; 13. a cross beam; 131. a first driving cylinder; 14. a pulley; 15. a transmission belt; 16. a first servo motor; 2. a connecting plate; 21. a slide bar; 22. a chute; 23. a splint; 231. a threaded hole; 24. a screw rod is aligned; 241. a servo motor II; 25. a hook plate; 251. a gear; 252. a second driving cylinder; 253. a rack; 3. an electrolytic cell.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a transportation hanging bracket on an anodic oxidation line. Referring to fig. 1 and 2, a transportation hanger on anodic oxidation line, including base 1 with a rectangular cross section, slide rails 11 are fixedly connected to both sides of the upper surface of base 1 along the length direction of base 1, a plurality of electrolysis baths 3 are arranged between two slide rails 11 corresponding to the upper side of base 1, the length direction of electrolysis baths 3 is the same as the width direction of base 1, electrolysis baths 3 are arranged along the length direction of base 1, the upper side of base 1 corresponding to each slide rail 11 is connected with sliding frame 12 along the length direction of base 1 in a sliding manner, sliding frame 12 is vertically arranged, cross beam 13 is fixedly connected between two sliding frames 12, reinforcing rib plate 121 is further arranged between sliding frame 12 and cross beam 13, and the two sides of reinforcing rib plate 121 are respectively fixedly connected to one side of sliding frame 12 close to cross beam 13 and the lower side of cross beam 13, so as to reinforce the connection between cross beam 13 and sliding frame 12.

Base 1 one side both ends all rotate and are connected with band pulley 14, the axis direction of two band pulleys 14 is the same with base 1's width direction, the cover is equipped with drive belt 15 on two band pulleys 14, band pulley 14 is synchronous pulley, the drive belt is the hold-in range, one side rigid coupling of a slip frame 12 is in drive belt 15, the horizontal rigid coupling of base 1 one end has servo motor 16, the axis direction of servo motor 16 is the same with the axis direction of band pulley 14, the output shaft rigid coupling of servo motor 16 is in the axis position department of a band pulley 14. During operation, the first servo motor 16 operates to drive the belt wheel 14 to rotate, and can drive the transmission belt 15 to rotate, so that the cross beam 13 on the sliding frame 12 can be driven to slide along the length direction of the base 1.

The crossbeam 13 downside is provided with connecting plate 2, and the length direction of connecting plate 2 is perpendicular with the length direction of base 1, and the vertical rigid coupling in connecting plate 2 upside has a plurality of slide bars 21, and slide bar 21 slides and connects in crossbeam 13, and the vertical rigid coupling in crossbeam 13 upside middle part position has a driving cylinder 131, and the telescopic link of driving cylinder 131 extends to crossbeam 13 downside and rigid coupling in connecting plate 2. When the first driving cylinder 131 works, the telescopic rod of the first driving cylinder 131 moves to drive the connecting plate 2 to move along the vertical direction.

The lower side of the connecting plate 2 is provided with a sliding groove 22 along the length direction of the connecting plate 2, the sliding groove 22 is connected with two clamping plates 23 in a sliding manner, the two clamping plates 23 are arranged along the length direction of the connecting plate 2, the two clamping plates 23 are vertically arranged, a wire aligning screw 24 is rotatably connected in the sliding groove 22 of the connecting plate 2, the axial direction of the wire aligning screw 24 is the same as the length direction of the connecting plate 2, both the two clamping plates 23 are provided with threaded holes 231, the axial direction of the threaded holes 231 is the same as the length direction of the connecting plate 2, the threaded sections of the wire aligning screw 24 are respectively in threaded connection with the threaded holes 231 of the two clamping plates 23, one end of the connecting plate 2 is horizontally and fixedly connected with a servo motor II 241, the output shaft of the servo motor II 241 extends into the sliding groove 22 and is fixedly connected with one end of the wire, the clamping of workpieces with different sizes is realized.

The lower side of each clamping plate 23 is rotatably connected with a gear 251, the axial direction of the gear 251 is perpendicular to the length direction of the sliding groove 22, one side, close to each other, of each gear 251 is fixedly connected with a hook plate 25, one side, far away from each other, of each clamping plate is fixedly connected with a driving cylinder II 252, telescopic rods of the two driving cylinders II 252 are downwards arranged and fixedly connected with racks 253, the racks 253 are meshed with the gear 251, the two clamping plates 23 can be adjusted to move according to different sizes of processed alloy workpieces, and when the driving cylinders II 252 work, the telescopic rods of the driving cylinders II 252 move to drive the racks 253 to vertically move, so that the gears 251 are driven to rotate, and the hook plates 25 can rotate to hook the alloy workpieces needing to be placed into the electrolytic bath 3.

The implementation principle of the transportation hanger on the anodic oxidation line in the embodiment of the application is as follows: during operation, the crossbeam 13 is arranged on the upper sides of the electrolytic tanks 3 subjected to anodic oxidation, the electrolytic tanks 3 are arranged along the width direction of the base 1, the sliding frame 12 can slide to two ends of the corresponding position of the electrolytic tanks 3, the screw rods 24 rotate to enable the clamping plates 23 to move to the size corresponding to the alloy plate workpiece to be processed, the driving cylinder II 252 works to drive the hook plate 25 to rotate to the horizontal hook to hook up the alloy workpiece, the workpiece is arranged in the electrolytic tank 3 through the extension rod of the driving cylinder I131, after electrolysis is finished, the extension rod of the driving cylinder I131 retracts to drive the workpiece to ascend, and the sliding frame 12 moves to drive the workpiece to continue to be processed towards the next electrolytic tank 3.

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. The utility model provides a transportation gallows on anodic oxidation line, includes base (1) of cuboid form, its characterized in that: base (1) upper surface both sides are slided along its length direction and are connected with slip frame (12), two horizontal rigid coupling has crossbeam (13) between slip frame (12), the vertical rigid coupling in crossbeam (13) upside middle part has driving cylinder (131), the telescopic link of driving cylinder (131) sets up downwards and the rigid coupling has connecting plate (2), connecting plate (2) downside slides along its length direction and is connected with two splint (23), connecting plate (2) downside rotates and is connected with to screw rod (24), and two splint (23) are threaded connection respectively in the screw thread section to screw rod (24), two splint (23) lower extreme all is provided with and can follows mutual orientation pivoted hook plate (25) of being close to.

2. The transport hanger on an anodization line as set forth in claim 1, wherein: the upper side of the connecting plate (2) is vertically and fixedly connected with a plurality of sliding rods (21), and the sliding rods (21) penetrate through the cross beam (13).

3. The transport hanger on an anodization line as set forth in claim 2, wherein: the vertical rigid coupling in splint (23) one side has driving cylinder two (252), the telescopic link of driving cylinder two (252) sets up and the rigid coupling has rack (253) vertically downwards, splint (23) lower extreme rotates and is connected with gear (251) that can mesh with rack (253), gear (251) one side rigid coupling in hook plate (25).

4. The transport hanger on an anodization line as set forth in claim 3, wherein: base (1) upside both ends all rotate and are connected with band pulley (14), the axis direction of band pulley (14) with the width direction of base (1) is the same, two the cover is equipped with drive belt (15) on band pulley (14), drive belt (15) rigid coupling in sliding frame (12).

5. The transport hanger on an anodization line as set forth in claim 4, wherein: the upper side of the base (1) is fixedly connected with a first servo motor (16), and an output shaft of the first servo motor (16) is fixedly connected with a belt wheel (14).

6. The transport hanger on an anodization line as set forth in claim 5, wherein: the belt wheel (14) is a synchronous belt wheel, and the transmission belt (15) is a synchronous belt.

7. The transport hanger on an anodization line as set forth in claim 6, wherein: and a second servo motor 241 is horizontally and fixedly connected to the lower side of the connecting plate 2, and an output shaft of the second servo motor 241 is fixedly connected to one end of the wire screw rod 24.

8. The transport hanger on an anodization line as claimed in claim 7, wherein: and reinforcing rib plates (121) are fixedly connected between the cross beam (13) and the side walls of the sliding frames (12).

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