CN112921295B

CN112921295B - Automatic send steel sheet coating film line of board

Info

Publication number: CN112921295B
Application number: CN202110112924.0A
Authority: CN
Inventors: 王骏; 徐侨; 费永强
Original assignee: Zhejiang Baohong New Material Co ltd
Current assignee: Zhejiang Baohong New Material Co ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2023-03-03
Anticipated expiration: 2041-01-27
Also published as: CN112921295A

Abstract

The invention relates to the field of steel plate processing, in particular to a steel plate coating line capable of automatically feeding plates, which comprises a conveying table, a deflection turntable, a plate feeding vehicle, a coating bin, a turnover coating hanger, a lifting device and a push plate mechanism, wherein the conveying table, the deflection turntable, the plate feeding vehicle, the lifting device and the push plate mechanism are all fixed above a ground table; the turnover coating hanging rack enters and exits the coating cabin through the lifting device, the conveying platform and the deflection platform convey the steel plate to be coated into the turnover coating hanging rack through the plate conveying vehicle, and the push plate mechanism is used for pushing the steel plate which is coated on the turnover coating hanging rack to return to the plate conveying vehicle. The invention realizes the whole automation of the whole process of entering and exiting the coating chamber of the steel plate, saves the step of manual suspension, improves the processing efficiency and ensures the operation safety.

Description

Automatic send steel sheet coating film line of board

Technical Field

The invention relates to the field of steel plate processing, in particular to a steel plate coating line capable of automatically feeding plates.

Background

Vacuum coating is the processing technology who uses always in the stainless steel plate manufacturing process, and its main step is for hanging stainless steel plate on the stores pylon, then drops into the coating film storehouse along with seal top cap and carries out the coating film, and traditional coating film in-process, the steel sheet needs the manual work to hang to the stores pylon, and degree of automation is low and there is the potential safety hazard.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides a steel plate coating line capable of automatically feeding plates.

The technical purpose of the invention is realized by the following technical scheme:

a steel plate coating line capable of automatically feeding plates comprises a conveying table, a deflection rotary table, a plate feeding vehicle, a coating bin, a turnover coating hanger, a lifting device and a push plate mechanism, wherein the conveying table, the deflection rotary table, the plate feeding vehicle, the lifting device and the push plate mechanism are all fixed above a ground table; the turnover coating rack enters and exits the coating bin through the hoisting device, the conveying platform and the deflection platform convey the to-be-coated steel plate into the turnover coating rack through the plate conveying vehicle, and the push plate mechanism is used for pushing the steel plate after coating on the turnover coating rack to return to the plate conveying vehicle.

Preferably, the deflection table is provided with a plurality of side-by-side conveying deflection frames and deflection control mechanisms matched with the deflection frames, and the deflection table comprises a table top and a support;

the conveying deflection frames comprise conveying upright columns and rotating connecting rods, the tops of the conveying upright columns are arranged above the table board, the bottoms of the conveying upright columns and the rotating connecting rods are arranged below the table board, the bottoms of the conveying upright columns are hinged with the rotating connecting rods, the conveying deflection frames are arranged at equal intervals, and the conveying upright columns are arranged at equal intervals on the rotating connecting rods;

the transmission upright column comprises a fixed upright column and a movable upright column; the fixed upright post is arranged in the middle of the rotating connecting rod and is fixedly connected with the table top; the movable upright posts are inserted in the upright post holes on the table top.

Preferably, the deflection control mechanism comprises a connecting rod and a deflection cylinder, the connecting rod is connected with the rotating connecting rods of all the conveying deflection frames, the top of the deflection cylinder is hinged with the connecting rod, and the bottom of the deflection cylinder is hinged with the bracket.

Preferably, the transmission upright column comprises a column body and a sliding ball at the top of the column body, the surface of the conveying table is provided with a transmission roller or a transmission belt, and the top of the transmission roller or the transmission belt is flush with the sliding ball at the top of the fixed upright column.

Preferably, the plate conveying vehicle moves between the deflection table and the turnover coating rack through a rail or a driving wheel set at the bottom, the plate conveying vehicle comprises a shelf surface and a hollow layer below the shelf surface, a hollow groove is formed in the shelf surface, and a clamping plate hole is formed in the bottom of the hollow groove.

Preferably, the turnover coating hanging frame comprises a sealing cover, a rotary hanging frame, a rotary steel plate clamping frame and a rotation control mechanism;

the rotary steel plate clamping frame comprises an upper turning frame and a lower telescopic frame, the turning frame comprises a transverse sleeve rod, a middle clamping rod and a guide post rod which are sequentially arranged from top to bottom, the telescopic frame comprises a bottom clamping rod and a vertical sleeve rod, the vertical sleeve rod is sleeved with the guide post rod, a screw rod telescopic mechanism is arranged between the turning frame and the telescopic frame, and clamping plates are arranged on the outer sides of the middle clamping rod and the bottom clamping rod; the clamping plates at the bottom clamping rod are arranged in a segmented manner;

the rotary hanger comprises a top plate and a hanging frame, the top plate is connected with the seal cover through a sealed bearing, and the turnover frame is hinged to the bottom of the hanging frame through the transverse loop bar; a rotating motor, a lifting lug and a pull rod through hole are arranged at the top of the sealing cover, a gear ring matched with the rotating motor is arranged at the top of the top plate, a connecting loop bar is arranged at the top of the lifting pull rod, a rotating bearing is arranged between the connecting loop bar and the lifting pull rod, and a control lifting lug is arranged at the top of the connecting loop bar;

the steel plate clamping frame is characterized in that a rotation driving rod is further arranged at the position of the transverse sleeve rod and vertically arranged with the rotation steel plate clamping frame, the tail portion of the rotation driving rod is connected with the transverse sleeve rod, a transverse sliding groove is formed in the top of the rotation driving rod, the rotation control mechanism comprises a lifting pull rod and a control connecting rod arranged at the bottom of the lifting pull rod, the control connecting rod comprises a longitudinal sliding groove and a pin rod, the rotation driving rod is clamped in the longitudinal sliding groove, and the pin rod is arranged in the transverse sliding groove.

Preferably, the screw rod telescopic mechanism comprises a screw rod motor, a screw rod and a screw rod sleeve, the screw rod motor and the screw rod are fixed at the middle clamping rod, and the screw rod sleeve is fixed with the bottom clamping rod.

Preferably, the outer side of the screw rod sleeve is parallel and level to the outer side of the vertical sleeve rod, and a support rod is arranged between the screw rod sleeve and the vertical sleeve rod.

Preferably, the lifting device comprises a sling and a control cylinder.

Preferably, the push plate mechanism comprises a push plate and a push plate cylinder.

In conclusion, the steel plate coating line capable of automatically feeding plates enables the whole process of feeding and discharging the steel plate into and out of the coating bin to be automated, the step of manual suspension is omitted, the processing efficiency is improved, and the operation safety is guaranteed.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the delivery table and deflection table of the present invention;

FIG. 3 is a schematic structural view of the folding coating hanger of the present invention;

fig. 4 is a schematic structural view of a rotating steel plate clamping frame of the invention.

Detailed Description

The following specific examples are given by way of illustration only and not by way of limitation, and it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made in the examples without inventive faculty, and yet still be protected by the scope of the claims.

The present invention will be described in detail below by way of examples with reference to the accompanying drawings.

Example 1:

according to the drawings of fig. 1-2, the steel plate coating line capable of automatically feeding plates comprises a conveying table 1, a deflection table 2, a plate feeding vehicle 3, a coating bin 4, a turnover coating hanger 5, a lifting device 6 and a push plate mechanism 7, wherein the conveying table 1, the deflection table 2, the plate feeding vehicle 3, the lifting device 6 and the push plate mechanism 7 are all fixed above a ground table 8. The lifting device 6 comprises a sling 61 and a control cylinder 62, and the push plate mechanism 7 comprises a push plate 71 and a push plate cylinder 72.

According to fig. 2, a plurality of side-by-side conveying deflection frames 21 and associated deflection control mechanisms 22 are arranged at the deflection table 2, and the deflection table 2 comprises a table surface 201 and a support 202; the conveying deflection frame 21 comprises a transmission upright post 211 and a rotating connecting rod 212, the top of the transmission upright post 211 is arranged above the table top 201, the bottom of the transmission upright post 211 and the rotating connecting rod 212 are arranged below the table top 201, the bottom of the transmission upright post 211 is hinged with the rotating connecting rod 212, the conveying deflection frame 21 is arranged at equal intervals, and the transmission upright post 211 is arranged at equal intervals on the rotating connecting rod 212; the transmission upright 211 comprises a fixed upright 211A and a movable upright 211B; the fixed upright post 211A is arranged in the middle of the rotating connecting rod 212 and is fixedly connected with the table top 201; the movable upright post 211B is inserted in an upright post hole on the table surface 201, the deflection control mechanism 22 comprises a connecting rod 221 and a deflection cylinder 222, the connecting rod 221 is connected with the rotating connecting rods 212 of all the conveying deflection frames 21, the top of the deflection cylinder 222 is hinged with the connecting rod 221, the bottom of the deflection cylinder 222 is hinged with the bracket 202, the conveying upright post 211 comprises a post body and a sliding ball at the top of the post body, the surface of the conveying table 1 is provided with a conveying roller or a conveying belt, and the top of the conveying roller or the conveying belt is flush with the sliding ball at the top of the fixed upright post 211A.

The plate conveying vehicle 3 moves between the deflection platform 2 and the turnover coating rack 5 through a rail or a driving wheel set at the bottom, the plate conveying vehicle 3 comprises a shelf surface 31 and a hollow layer 32 below the shelf surface 31, a hollow groove 33 is formed in the shelf surface 31, and a clamping plate hole is formed in the bottom of the hollow groove 33.

As shown in fig. 3 and 4, the fold-over coating rack 5 includes a sealing cover 51, a rotary rack 52, a rotary steel plate clamping frame 53 and a rotary control mechanism 54; the rotating steel plate clamping frame 53 comprises an upper turning frame 531 and a lower telescopic frame 532, the turning frame 531 comprises a transverse loop bar 5311, a middle clamping bar 5312 and a guide post bar 5313 which are sequentially arranged from top to bottom, the telescopic frame 532 comprises a bottom clamping bar 5321 and a vertical loop bar 5322, the vertical loop bar 5322 is sleeved with the guide post bar 5313, a screw rod telescopic mechanism 533 is arranged between the turning frame 531 and the telescopic frame 532, and clamping plates 534 are arranged on the outer sides of the middle clamping bar 5312 and the bottom clamping bar 5321; the catch plates 534 at the bottom catch bar 5321 are arranged in sections.

The rotary hanger 52 comprises a top plate 521 and a hanging frame 522, the top plate 521 is connected with the sealing cover 51 through a sealing bearing, and the turning frame 531 is hinged at the bottom of the hanging frame 522 through a transverse loop bar 5311; the top of the sealing cover 51 is provided with a rotating motor 511, a lifting lug 512 and a pull rod through hole 513, the top of the top plate 521 is provided with a gear ring 5211 matched with the rotating motor 511, the top of the lifting pull rod 541 is provided with a connecting sleeve rod 543, a rotating bearing is arranged between the connecting sleeve rod 543 and the lifting pull rod 541, and the top of the connecting sleeve rod 543 is provided with a control lifting lug 5431.

The horizontal sleeve rod 5311 is further provided with a rotation driving rod 535 perpendicular to the rotation steel plate clamping frame 53, the tail of the rotation driving rod 535 is connected with the horizontal sleeve rod 5311, the top of the rotation driving rod 535 is provided with a horizontal sliding groove 5351, the rotation control mechanism 54 comprises a lifting pull rod 541 and a control connecting rod 542 at the bottom of the lifting pull rod 541, the control connecting rod 542 comprises a longitudinal sliding groove 5421 and a pin rod 5422, the rotation driving rod 535 is clamped in the longitudinal sliding groove 5421, and the pin rod 5422 is arranged in the horizontal sliding groove 5351.

The screw rod telescopic mechanism 533 comprises a screw rod motor 5331, a screw rod 5332 and a screw rod sleeve 5333, the screw rod motor 5331 and the screw rod 5332 are fixed at the middle clamping rod 5312, the screw rod sleeve 5333 is fixed with the bottom clamping rod 5321, the outer side of the screw rod sleeve 5333 is flush with the outer side of the vertical sleeve rod 5322, and a support rod 536 is arranged between the screw rod sleeve 5333 and the vertical sleeve rod 5322.

According to the illustration in fig. 1, the process of coating the steel plate of the invention comprises the following steps:

1. turning over the steel plate: after entering the deflecting table 2 from the transporting table 1, the steel plate is controlled to turn sideways by the deflection control mechanism 22 and enter the shelf surface 31 of the plate conveying vehicle 3.

2. The plate conveying vehicle 3 moves to the turnover coating hanging frame 5 through the track or the driving wheel at the bottom of the track.

3. Hoisting: the lifting device 6 lifts the turnover coating rack 5 from the coating bin 4.

4. Hanging a plate: the lifting pull rod 541 is pressed downwards by using the control cylinder 62, so that the rotating steel plate clamping frame 53 is turned up into the hollow layer 32 of the plate conveying vehicle 3, the clamping plate 534 at the position of the bottom clamping rod 5321 is inserted into the clamping plate hole, the screw rod telescopic mechanism 533 is driven to fold the telescopic frame 532 to clamp the steel plate, then the lifting device 6 lifts the turnover coating hanger 5 upwards, and meanwhile, the plate conveying vehicle 3 retreats outwards until the steel plate is completely separated from the plate conveying vehicle 3.

5. Vacuum coating: and (3) pulling up the lifting pull rod 541, folding the rotating steel plate clamping frame 53, and then putting the turnover coating hanging frame 5 into the coating bin 4 through the lifting device 6 for vacuum coating.

6. And (3) discharging: after coating, the hoisting device 6 hoists the folded coating hanger 5 from the coating bin 4, the control cylinder 62 is used to press down the lifting rod 541, so that the rotating steel plate clamping frame 53 is turned up by a certain angle, the lead screw telescoping mechanism 533 is driven to loosen the telescoping frame 532, and the steel plate is pushed back to the plate conveying vehicle 3 again through the plate pushing mechanism 7 comprising the push plate 71 and the push plate cylinder 72 and conveyed to a subsequent inspection process.

Claims

1. The steel plate coating line capable of automatically feeding plates is characterized by comprising a conveying platform (1), a deflection platform (2), a plate feeding vehicle (3), a coating bin (4), a turnover coating hanger (5), a lifting device (6) and a push plate mechanism (7), wherein the conveying platform (1), the deflection platform (2), the plate feeding vehicle (3), the lifting device (6) and the push plate mechanism (7) are all fixed above a ground platform (8); the turnover coating hanging rack (5) enters and exits the coating bin (4) through the lifting device (6), the conveying platform (1) and the deflection platform (2) convey a steel plate to be coated into the turnover coating hanging rack (5) through the plate conveying vehicle (3), the push plate mechanism (7) is used for pushing the steel plate which is coated on the turnover coating hanging rack (5) back to the plate conveying vehicle (3), the deflection platform (2) is provided with a plurality of side-by-side conveying deflection frames (21) and a deflection control mechanism (22) matched with the conveying deflection frames, and the deflection platform (2) comprises a table surface (201) and a support (202);

the conveying deflection frame (21) comprises a conveying upright post (211) and a rotating connecting rod (212), the top of the conveying upright post (211) is arranged above the table top (201), the bottom of the conveying upright post (211) and the rotating connecting rod (212) are arranged below the table top (201), the bottom of the conveying upright post (211) is hinged to the rotating connecting rod (212), the conveying deflection frames (21) are arranged at equal intervals, and the conveying upright post (211) is arranged at equal intervals on the rotating connecting rod (212);

the transmission upright column (211) comprises a fixed upright column (211A) and a movable upright column (211B); the fixed upright post (211A) is arranged in the middle of the rotating connecting rod (212) and is fixedly connected with the table top (201); the movable upright post (211B) is inserted in an upright post hole on the table top (201), the deflection control mechanism (22) comprises a connecting rod (221) and a deflection cylinder (222), the connecting rod (221) is connected with all the rotating connecting rods (212) of the conveying deflection frame (21), the top of the deflection cylinder (222) is hinged to the connecting rod (221), the bottom of the deflection cylinder (222) is hinged to the support (202), the conveying upright post (211) comprises a post body and a sliding ball at the top of the post body, a conveying roller or a conveying belt is arranged on the surface of the conveying table (1), and the top of the conveying roller or the conveying belt is flush with the sliding ball at the top of the fixed upright post (211A).

2. The automatic plate conveying steel plate coating line according to claim 1, wherein the plate conveying trolley (3) moves between the deflection table (2) and the turnover coating rack (5) through a rail or a driving wheel set at the bottom, the plate conveying trolley (3) comprises a shelf surface (31) and a hollowed layer (32) below the shelf surface, a hollowed groove (33) is formed in the shelf surface (31), and a clamp plate hole is formed at the bottom of the hollowed groove (33).

3. The automatic plate feeding steel plate coating line according to claim 2, wherein the turnover coating rack (5) comprises a sealing cover (51), a rotary rack (52), a rotary steel plate clamping rack (53) and a rotary control mechanism (54);

the rotary steel plate clamping frame (53) comprises an upper turning frame (531) and a lower telescopic frame (532), the turning frame (531) comprises a transverse sleeve rod (5311), a middle clamping rod (5312) and a guide post rod (5313) which are sequentially arranged from top to bottom, the telescopic frame (532) comprises a bottom clamping rod (5321) and a vertical sleeve rod (5322), the vertical sleeve rod (5322) is sleeved with the guide post rod (5313), a screw rod telescopic mechanism (533) is arranged between the turning frame (531) and the telescopic frame (532), and clamping plates (534) are arranged on the outer sides of the middle clamping rod (5312) and the bottom clamping rod (5321); the clamping plates (534) at the bottom clamping rod (5321) are arranged in a segmented manner;

the rotary hanger (52) comprises a top plate (521) and a hanging frame (522), the top plate (521) is connected with the sealing cover (51) through a sealing bearing, and the overturning frame (531) is hinged to the bottom of the hanging frame (522) through the cross sleeve rod (5311); the top of the sealing cover (51) is provided with a rotating motor (511), a lifting lug (512) and a pull rod through hole (513), and the top of the top plate (521) is provided with a gear ring (5211) matched with the rotating motor (511);

horizontal loop bar (5311) department still be provided with rotate rotation actuating lever (535) that steel sheet card frame (53) set up perpendicularly, rotation actuating lever (535) afterbody with horizontal loop bar (5311) link to each other, rotation actuating lever (535) top is provided with horizontal spout (5351), rotation control mechanism (54) are including control connecting rod (542) of lift pull rod (541) and bottom, control connecting rod (542) are including vertical spout (5421) and pin rod (5422), rotation actuating lever (535) card in vertical spout (5421), pin rod (5422) set up in horizontal spout (5351), lift pull rod (541) top is provided with connection loop bar (543), connection loop bar (543) with be provided with rolling bearing between lift pull rod (541), connection loop bar (543) top is provided with control lug (5431).

4. The steel plate coating line for the automatic plate feeding according to claim 3, wherein the lead screw telescoping mechanism (533) comprises a lead screw motor (5331), a lead screw (5332) and a lead screw sleeve (5333), the lead screw motor (5331) and the lead screw (5332) are fixed at the middle clamping rod (5312), and the lead screw sleeve (5333) is fixed with the bottom clamping rod (5321).

5. The steel plate coating line for the automatic plate feeding device according to claim 4, wherein the outer side of the screw rod sleeve (5333) is flush with the outer side of the vertical sleeve rod (5322), and a support rod (536) is arranged between the screw rod sleeve (5333) and the vertical sleeve rod (5322).

6. The steel plate coating line for the automatic plate conveying of claim 3, wherein the hoisting device (6) comprises a sling (61) and a control cylinder (62).

7. The automatic plate feeding steel plate coating line according to claim 3, wherein the push plate mechanism (7) comprises a push plate (71) and a push plate cylinder (72).