CN114436165A - Inclined lifting structure of stainless steel plate ink removing process - Google Patents

Abstract

The invention discloses an inclined lifting structure of a stainless steel plate ink removing process, which comprises a box body, wherein a No. I lifting beam and a No. II lifting beam are arranged in the box body in parallel, transverse assembly holes are formed in the No. I lifting beam and the No. II lifting beam, a driving beam in clearance fit with the assembly holes is arranged in the assembly holes, a limiting nut for limiting the No. I lifting beam and the No. II lifting beam is arranged on the driving beam, the other end of the driving beam is fixed with a lifting rod, and the lifting rod drives the driving beam, the No. I lifting beam and the No. II lifting beam to lift. The lifting driving cylinder drives the lifting rod, the strip-shaped transverse assembly hole is formed in the left side, the round hole transverse assembly hole is formed in the right side, the lifting stroke of the lifting driving cylinder on the left side can be larger than that of the lifting driving cylinder on the right side, and therefore the lifting beam is higher in left and lower in right when being higher than a water tank, sliding taking-out of the stainless steel plate after ink removal is facilitated, and the lifting driving cylinder is stable in inclination and firm in structure.

Description

Inclined lifting structure of stainless steel plate ink removing process

Technical Field

The invention belongs to the technical field of stainless steel plate etching, and particularly relates to an inclined lifting structure for a stainless steel plate ink removing process.

Background

The etching process of the stainless steel plate is gradually increased in the present year, and various patterns are corroded on the surface of the stainless steel plate by a chemical method. The mirror surface plate, the wire drawing plate and the sand blasting plate are used as bottom plates, deep processing is carried out on the surface of an object after etching treatment, the stainless steel etching plate can carry out various complex processes such as local pattern blending, wire drawing, gold embedding, local titanium and the like, and the stainless steel etching plate realizes the effects of alternate bright and dark patterns and gorgeous colors.

After the stainless steel plate is etched, the ink removal is needed in the post-treatment process, the ink removal is needed in the ink removal process through chemical liquid, and at present, an ink removal device which can facilitate automatic transmission does not exist.

Disclosure of Invention

The invention is provided for solving the problems in the prior art, and aims to provide an inclined lifting structure for a stainless steel plate ink removing process.

The technical scheme of the invention is as follows: the utility model provides a corrosion resistant plate removes slope elevation structure of black technology, the power distribution box comprises a box body, be provided with parallel No. I lifing beam, No. II lifing beam in the box, form horizontal pilot hole in No. I lifing beam, No. II lifing beams, be provided with in the pilot hole rather than clearance fit's drive roof beam, be provided with on the drive roof beam and carry out spacing stop nut to No. I lifing beam, No. II lifing beams, the drive roof beam other end is fixed mutually with the lifter, the lifter drives drive roof beam, No. I lifing beam, No. II lifing beams and goes up and down.

Furthermore, form the external screw thread on the drive roof beam, limit nut sets up on the external screw thread, be clearance fit between I lifing beam or II lifing beam and two limit nut.

Furthermore, the outer wall of the box body is provided with a lifting driving cylinder for driving the lifting rod, the upper part of the lifting rod extends out of the box body, and the lifting rod is fixed with the telescopic section of the lifting driving cylinder through a switching assembly.

Further, the switching subassembly includes I installation pipe, II installation pipes, transition roof beams, No. I installation pipe, II installation pipe outer walls are connected to the transition roof beam, the axis direction of No. I installation pipe, II installation pipes is unanimous.

Furthermore, form I pilot hole and I number in the No. I installation pipe and twist the hole, I number pilot hole and I number twist the hole and be the echelonment, the lifter top forms the screw hole, No. I pilot hole cover is on the lifter, and No. I bolt passes I number and twists on the hole twists the lifter.

Furthermore, form II pilot holes and II twist in the No. II installation pipe and twist the hole, II pilot holes and II twist the hole and be the echelonment, the flexible section of lift driving cylinder forms the screw hole, No. II pilot holes cover is on flexible section, and No. II bolts pass II and twist in the hole and twist in flexible section.

Furthermore, No. I lifing beam, No. II lifing beam bottom are provided with the tie-beam.

Furthermore, the bearing is embedded in the transverse assembly hole of the lifting beam I and the lifting beam II, and the driving beam is inserted into the bearing inner ring.

The lifting driving cylinder drives the lifting rod, the strip-shaped transverse assembly hole is formed in the left side, the round hole transverse assembly hole is formed in the right side, the lifting stroke of the lifting driving cylinder on the left side can be larger than that of the lifting driving cylinder on the right side, and therefore the lifting beam is higher in left and lower in right when being higher than a water tank, sliding taking-out of the stainless steel plate after ink removal is facilitated, and the lifting driving cylinder is stable in inclination and firm in structure.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is another schematic construction of the present invention;

FIG. 3 is a schematic view of the adapter assembly of the present invention;

wherein:

no. 2 lifting beam of 1 box

No. 3 4 arc assembly plates of lifting beam

5 lifting rod 6 drive beam

7 water inlet pipe and 8 water outlet pipe

9 water inlet valve 10 drain valve

11 connecting beam 12 vertical bolt

13 lifting driving cylinder 14 limit nut

No. 15I installation pipe No. 16 II installation pipe

17 No. 18I assembly holes of transition beam

No. 19 No. II assembly hole No. 20I bolt

Bolt No. 21 II.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings and examples:

as shown in fig. 1-3, a corrosion resistant plate removes slope elevation structure of black technology, including box 1, be provided with parallel No. I walking beam 2, No. II walking beam 3 in the box 1, form horizontal pilot hole in No. I walking beam 2, No. II walking beam 3, be provided with in the pilot hole rather than clearance fit's drive roof beam 6, be provided with on the drive roof beam 6 and carry out spacing stop nut 14 to No. I walking beam 2, No. II walking beam 3, the 6 other ends of drive roof beam are fixed mutually with lifter 5, lifter 5 drives drive roof beam 6, No. I walking beam 2, No. II walking beam 3 and goes up and down.

Form the external screw thread on the drive beam 6, stop nut 14 sets up on the external screw thread, be clearance fit between No. I lifing beam 2 or No. II lifing beam 3 and two stop nut 14.

The outer wall of the box body 1 is provided with a lifting driving cylinder 13 for driving the lifting rod 5, the upper part of the lifting rod 5 extends out of the box body 1, and the lifting rod 5 and the telescopic section of the lifting driving cylinder 13 are fixed through a switching assembly.

The switching subassembly includes No. I installation pipe 15, No. II installation pipe 16, transition roof beam 17, No. I installation pipe 15, No. II installation pipe 16 outer walls are connected to transition roof beam 17, No. I installation pipe 15, No. II installation pipe 16's axis direction is unanimous.

No. I pilot hole 18 and No. I screw-in hole are formed in No. I installation pipe 15, No. I pilot hole 18 and No. I screw-in hole are echelonment, the screw hole is formed at the top of lifter 5, No. I pilot hole 18 overlaps on lifter 5, and No. I bolt 20 passes on No. I screw-in hole and screws in lifter 5.

No. II mounting hole 19 and No. II screwing holes are formed in the mounting pipe 16, the No. II mounting hole 19 and the No. II screwing holes are in a ladder shape, the telescopic section of the lifting driving cylinder forms a threaded hole, the No. II mounting hole 19 is sleeved on the telescopic section, and the No. II bolt 21 penetrates through the No. II screwing holes to be screwed into the telescopic section.

No. I lifing beam 2, No. II lifing beam 3 bottoms are provided with tie-beam 11.

No. I lifing beam 2, No. II lifing beam 3 have inlayed the bearing in the horizontal pilot hole, drive beam 6 inserts in the bearing inner race.

The box 1 is embedded with an arc-shaped assembling plate 4, and the arc-shaped assembling plate 4 holds the lifting rod 5.

The lifting rods 5 in the box body 1 are at least four, and the number I lifting beam 2 and the number II lifting beam 3 are at least two respectively.

No. I lifing beam 2, No. II lifing beam 3 are parallel and the upper end is finish machining, after No. I lifing beam 2, No. II lifing beam 3 rise and exceed the liquid level, can transversely promote corrosion resistant plate along No. I lifing beam 2, No. II lifing beam 3.

And a filling device for filling liquid and a liquid discharging device for discharging the liquid are arranged on the side wall of the box body 1.

The filling device comprises an inlet pipe 7 embedded in the side wall of the box body 1, wherein an inlet valve 9 is arranged in the inlet pipe 7, and one end of the inlet pipe 7 is provided with a quick connector.

The drainage device comprises a drainage pipe 8 embedded in the side wall of the box body 1, a drainage valve 10 is arranged in the drainage pipe 8, and a quick joint is arranged at one end of the drainage pipe 8.

The diameter of the lifting rod 5 does not exceed the radius of the arc-shaped assembling plate 4.

The drain pipe 8 is close to the bottom of the box body 1, a drainage slope surface is formed at the bottom of the box body 1, and the water inlet pipe 7 is higher than the drain pipe 8.

The box body 1 and the arc-shaped assembling plate 4 are of an integral structure, so that the whole sealing performance is facilitated.

The lifting rod 5 and the driving beam 6 are of an integrated structure, and the lifting rod 5 and the driving beam 6 are L-shaped.

The box body 1 contains an alkaline solution which is easy to dissolve the acid printing ink, the alkaline solution is preferably a sodium hydroxide solution of 40-60 g/L, and the printing ink can be removed after being soaked for several minutes.

No. I lifting beam 2 and No. II lifting beam 3 are connected into a whole.

No. I lifing beam 2, 3 lower extremes of No. II lifing beam are provided with tie-beam 11, tie-beam 11 is two, and two tie-beam 11 are parallel to each other.

No. I lifing beam 2, No. II lifing beam 3 lower extreme form the screw hole, form the through-hole in the tie-beam 11, vertical bolt 12 passes above-mentioned through-hole from bottom to top and twists in the screw hole to fix tie-beam 11 and No. I lifing beam 2, No. II lifing beam 3.

No. I lifing beam 2, No. II lifing beam 3 lower extreme screw hole are the screw thread counter bore to make vertical bolt 12 can not lead to the fact the interference to the lateral sliding of stainless steel on No. I lifing beam 2, No. II lifing beam 3.

Preferably, drive roof beam 6 and lifter 5 are the one-to-one, and every drive roof beam 6 all links to each other with a lifter 5 promptly, all has two stop nut 14 on every drive roof beam 6, and the interval between two stop nut 14 is greater than the width of No. I lifter 2, No. II lifter 3.

Preferably, a blocking piece is arranged between the limiting nut 14 and the lifting beam I2 or the lifting beam II 3.

Yet another embodiment

The utility model provides a corrosion resistant plate removes slope elevation structure of black technology, includes box 1, be provided with parallel No. I lifing beam 2, No. II lifing beam 3 in the box 1, form horizontal pilot hole in No. I lifing beam 2, No. II lifing beam 3, be provided with in the pilot hole rather than clearance fit's drive beam 6, be provided with on the drive beam 6 and carry out spacing stop nut 14 to No. I lifing beam 2, No. II lifing beam 3, the 6 other end of drive beam is fixed mutually with lifter 5, lifter 5 drives drive beam 6, No. I lifing beam 2, No. II lifing beam 3 and goes up and down.

Form the external screw thread on the drive beam 6, stop nut 14 sets up on the external screw thread, be clearance fit between No. I lifing beam 2 or No. II lifing beam 3 and two stop nut 14.

The outer wall of the box body 1 is provided with a lifting driving cylinder 13 for driving the lifting rod 5, the upper part of the lifting rod 5 extends out of the box body 1, and the lifting rod 5 and the telescopic section of the lifting driving cylinder 13 are fixed through a switching assembly.

The switching subassembly includes No. I installation pipe 15, No. II installation pipe 16, transition roof beam 17, No. I installation pipe 15, No. II installation pipe 16 outer walls are connected to transition roof beam 17, No. I installation pipe 15, No. II installation pipe 16's axis direction is unanimous.

No. I mounting hole 18 and No. I screw hole are formed in No. I mounting tube 15, No. I mounting hole 18 and No. I screw hole are in a ladder shape, a threaded hole is formed in the top of lifting rod 5, No. I mounting hole 18 is sleeved on lifting rod 5, and No. I bolt 20 penetrates through No. I screw hole and is screwed into lifting rod 5.

No. II mounting hole 19 and No. II screwing holes are formed in the mounting pipe 16, the No. II mounting hole 19 and the No. II screwing holes are in a ladder shape, the telescopic section of the lifting driving cylinder forms a threaded hole, the No. II mounting hole 19 is sleeved on the telescopic section, and the No. II bolt 21 penetrates through the No. II screwing holes to be screwed into the telescopic section.

No. I lifting beam 2, No. II lifting beam 3 bottoms are provided with tie-beam 11.

No. I lifing beam 2, No. II lifing beam 3 have inlayed the bearing in the horizontal pilot hole, drive beam 6 inserts in the bearing inner race.

The box 1 is embedded with an arc-shaped assembling plate 4, and the arc-shaped assembling plate 4 holds the lifting rod 5.

The lifting rods 5 in the box body 1 are at least four, and the number I lifting beam 2 and the number II lifting beam 3 are at least two respectively.

No. I lifing beam 2, No. II lifing beam 3 are parallel and the upper end is finish machining, after No. I lifing beam 2, No. II lifing beam 3 rise and exceed the liquid level, can transversely promote corrosion resistant plate along No. I lifing beam 2, No. II lifing beam 3.

A filling device for filling liquid and a liquid discharging device for discharging the liquid are arranged on the side wall of the box body 1.

The filling device comprises an inlet pipe 7 embedded in the side wall of the box body 1, wherein an inlet valve 9 is arranged in the inlet pipe 7, and one end of the inlet pipe 7 is provided with a quick connector.

The drainage device comprises a drainage pipe 8 embedded in the side wall of the box body 1, a drainage valve 10 is arranged in the drainage pipe 8, and a quick joint is arranged at one end of the drainage pipe 8.

The diameter of the lifting rod 5 does not exceed the radius of the arc-shaped assembling plate 4.

The drain pipe 8 is close to the bottom of the box body 1, a drainage slope surface is formed at the bottom of the box body 1, and the water inlet pipe 7 is higher than the drain pipe 8.

The box body 1 and the arc-shaped assembling plate 4 are of an integral structure, so that the whole sealing performance is facilitated.

The lifting rod 5 and the driving beam 6 are of an integrated structure, and the lifting rod 5 and the driving beam 6 are L-shaped.

The box body 1 contains an alkaline solution which is easy to dissolve the acid printing ink, the alkaline solution is preferably a sodium hydroxide solution of 40-60 g/L, and the printing ink can be removed after being soaked for several minutes.

No. I lifting beam 2 and No. II lifting beam 3 are connected into a whole.

No. I lifting beam 2, 3 lower extremes of No. II lifting beam are provided with tie-beam 11, tie-beam 11 is two, and two tie-beam 11 are parallel to each other.

No. I lifing beam 2, No. II lifing beam 3 lower extreme form the screw hole, form the through-hole in the tie-beam 11, vertical bolt 12 passes above-mentioned through-hole from bottom to top and twists in the screw hole to fix tie-beam 11 and No. I lifing beam 2, No. II lifing beam 3.

No. I lifting beam 2, the screw hole of No. II lifting beam 3 lower extreme are the screw thread counter bore to make vertical bolt 12 can not lead to the fact the interference to the lateral sliding of stainless steel on No. I lifting beam 2, the No. II lifting beam 3.

Preferably, the number of the driving beams 6 is two, the number of the lifting rods 5 is four, one driving beam 6 is connected with the two lifting rods 5, and the overall consistency is further improved on the basis of the connecting beams 11.

No. I installation pipe 15, No. II installation pipe 16, transition roof beam 17 structure as an organic whole.

Preferably, the horizontal pilot hole on No. 2, No. 3 left of lifting beam of No. I lifting beam is horizontal rectangular form, the horizontal pilot hole on No. 2, No. 3 right sides of lifting beam of No. II lifting beam is the round hole.

Correspondingly, the two ends of the bearing are formed into stop rings, and the diameter of each stop ring is larger than the aperture of the long-strip-shaped transverse assembly hole, so that the bearing can move along the stop rings.

The No. I lifting beam 2 and the No. II lifting beam 3 can have a certain inclination angle, and the lifting heights of the left lifting driving cylinder 13 and the right lifting driving cylinder 13 are different, and the stroke of the left lifting driving cylinder 13 is higher than that of the right lifting driving cylinder, so that the bearing or the driving beam 6 can move in the strip-shaped through hole, the purpose of inclination is achieved, and the stainless steel plate can slide out conveniently after ink is removed.

The lifting driving cylinder drives the lifting rod, the strip-shaped transverse assembly hole is formed in the left side, the round hole transverse assembly hole is formed in the right side, the lifting stroke of the lifting driving cylinder on the left side can be larger than that of the lifting driving cylinder on the right side, and therefore the lifting beam is higher in left and lower in right when being higher than a water tank, sliding taking-out of the stainless steel plate after ink removal is facilitated, and the lifting driving cylinder is stable in inclination and firm in structure.

Claims (8)

1. The utility model provides a corrosion resistant plate removes slope elevation structure of black technology, includes box (1), be provided with parallel No. I lifing beam (2), No. II lifing beam (3) in box (1), its characterized in that: form horizontal pilot hole in No. I lifing beam (2), No. II lifing beam (3), be provided with in the pilot hole rather than clearance fit's drive roof beam (6), be provided with on drive roof beam (6) and carry out spacing stop nut (14) to No. I lifing beam (2), No. II lifing beam (3), drive roof beam (6) other end is fixed mutually with lifter (5), lifter (5) drive roof beam (6), No. I lifing beam (2), No. II lifing beam (3) go up and down.

2. The inclined lifting structure for the ink removing process of the stainless steel plate as claimed in claim 1, wherein: form the external screw thread on drive beam (6), stop nut (14) set up on the external screw thread, be clearance fit between I lifing beam (2) or II lifing beam (3) and two stop nut (14).

3. The oblique lifting structure for stainless steel plate de-inking process according to claim 2, wherein: the box body (1) outer wall department is provided with carries out driven lift actuating cylinder (13) to lifter (5), box body (1) is stretched out on lifter (5) upper portion, telescopic section through switching subassembly is fixed to lifter (5) and lift actuating cylinder (13).

4. The inclined lifting structure for the stainless steel plate de-inking process according to claim 3, wherein: the switching subassembly includes No. I installation pipe (15), No. II installation pipe (16), transition roof beam (17), No. I installation pipe (15), No. II installation pipe (16) outer wall are connected to transition roof beam (17), the axis direction of No. I installation pipe (15), No. II installation pipe (16) is unanimous.

5. The inclined lifting structure for the ink removing process of the stainless steel plate as claimed in claim 4, wherein: no. I pilot hole (18) and No. I screw-in hole are formed in No. I installation pipe (15), No. I pilot hole (18) and No. I screw-in hole are echelonment, screw hole is formed at the top of lifting rod (5), No. I pilot hole (18) is sleeved on lifting rod (5), and No. I bolt (20) passes No. I screw-in hole and screws into on lifting rod (5).

6. The inclined lifting structure for the ink removing process of the stainless steel plate as claimed in claim 5, wherein: no. II mounting holes (19) and No. II screwing holes are formed in the installation pipe (16), the No. II mounting holes (19) and the No. II screwing holes are in a ladder shape, the telescopic section of the lifting driving cylinder forms a threaded hole, the No. II mounting holes (19) are sleeved on the telescopic section, and No. II bolts (21) penetrate through the No. II screwing holes to be screwed into the telescopic section.

7. The inclined lifting structure for the ink removing process of the stainless steel plate as claimed in claim 6, wherein: no. I lifting beam (2), No. II lifting beam (3) bottom is provided with tie-beam (11).

8. The inclined lifting structure for the ink removing process of the stainless steel plate as claimed in claim 7, wherein: no. I lifting beam (2), have inlayed the bearing in the horizontal pilot hole of No. II lifting beam (3), drive beam (6) insert in the bearing inner race.

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