阅读说明：本技术 一种内外双向分离电磁屏蔽罩回收预处理装置 (Inside and outside two-way separation electromagnetic shield cover retrieves preprocessing device ) 是由 雷成明 于 2021-05-27 设计创作，主要内容包括：本发明涉及一种电磁屏蔽领域,尤其涉及一种内外双向分离电磁屏蔽罩回收预处理装置。要解决的技术问题为：提供一种内外双向分离电磁屏蔽罩回收预处理装置。本发明的技术方案是：一种内外双向分离电磁屏蔽罩回收预处理装置,包括有安装台柱、运行控制屏、固定系统、内外除胶系统、贯穿孔除胶系统、储液箱、接管头、收集箱和封闭隔离门等；工作机床板下方与支撑脚柱进行焊接。本发明实现了对电磁屏蔽罩内外导电胶层的一次性同步刮除分离,并对电磁屏蔽罩贯穿孔中的导电胶进行精准去除,代替了使用大量的溶胶液对整个电磁屏蔽罩进行浸泡的方式,大大减少了溶胶液的使用量,使处理更加高效和环保的效果。(The invention relates to the field of electromagnetic shielding, in particular to a recycling pretreatment device for an internal and external bidirectional separation electromagnetic shielding cover. The technical problem to be solved is as follows: provides a recovery and pretreatment device for an internal and external bidirectional separation electromagnetic shielding cover. The technical scheme of the invention is as follows: an inside and outside two-way separation electromagnetic shielding cover recovery pretreatment device comprises an installation table column, an operation control screen, a fixing system, an inside and outside glue removing system, a through hole glue removing system, a liquid storage tank, a connector, a collecting tank, a closed isolation door and the like; the lower part of the bed plate of the working machine is welded with the supporting foot posts. The electromagnetic shielding cover provided by the invention realizes one-time synchronous scraping and separation of the inner and outer conductive adhesive layers of the electromagnetic shielding cover, and accurately removes the conductive adhesive in the through holes of the electromagnetic shielding cover, so that a mode of soaking the whole electromagnetic shielding cover by using a large amount of sol liquid is replaced, the use amount of the sol liquid is greatly reduced, and the treatment is more efficient and environment-friendly.)

1. An inside and outside two-way separation electromagnetic shielding cover recovery preprocessing device comprises a working machine bed board (1), a supporting foot column (2) and an installation table column (3), and is characterized by further comprising an operation control screen (4), a fixing system (5), an inside and outside glue removing system (6), a through hole glue removing system (7), a liquid storage tank (8), a connector head (9), a collecting tank (10) and a closed isolation door (11); the lower part of the working machine bed plate (1) is welded with the supporting leg column (2); the upper part of the working machine bed plate (1) is connected with the mounting table column (3) through bolts; the mounting table column (3) is connected with the operation control screen (4); the upper part of the working machine bed plate (1) is connected with a fixing system (5); the upper part of the working machine bed plate (1) is connected with an internal and external glue removing system (6); the internal and external glue removing system (6) is connected with the fixing system (5); the upper part of the working machine bed plate (1) is connected with a through hole glue removing system (7); the upper part of the working machine bed plate (1) is connected with a liquid storage tank (8); a connector (9) is arranged above the liquid storage tank (8); the working machine bed plate (1) is connected with the collecting box (10); the through hole glue removing system (7) is connected with the closed isolating door (11).

2. The recovery pretreatment device for the internal and external bidirectional separation electromagnetic shielding cover according to claim 1, wherein the fixing system (5) comprises a mounting frame plate (501), a rotary mounting ring (502), a first electric push rod (503), an arc-shaped clamping plate (504), a first storage battery (505), a second storage battery (506), an inner supporting ring (507), a rubber friction large ring (508), a rubber friction small ring (509), a first rotating shaft rod (5010), a first mounting column (5011) and an air duct (5012); the lower part of the mounting frame plate (501) is connected with a working machine bed plate (1) through bolts; the rotary mounting ring (502) is rotatably connected with the mounting frame plate (501); the first electric push rod (503) is sleeved with the rotary mounting ring (502); the arc-shaped clamping plate (504) is connected with a first electric push rod (503); the first storage battery (505) is connected with the rotary mounting ring (502); the second storage battery (506) is connected with the rotary mounting ring (502); the inner supporting ring (507) is connected with the rotary mounting ring (502); the inner side of the rubber friction large ring (508) is fixedly connected with the rotary mounting ring (502); the small rubber friction ring (509) is in contact with the large rubber friction ring (508); the outer surface of the first rotating shaft rod (5010) is fixedly connected with the rubber friction small ring (509); the first rotating shaft rod (5010) is rotatably connected with the mounting frame plate (501); the first rotating shaft rod (5010) is connected with the internal and external glue removing system (6); the lower part of the first mounting column (5011) is connected with a working machine bedplate (1) through bolts; the air duct (5012) is sleeved with the first mounting column (5011).

3. The recycling pretreatment device of the inside and outside two-way separation electromagnetic shielding case according to claim 2, the internal and external glue removing system (6) is characterized by comprising a power motor (601), a second rotating shaft rod (602), a first bearing seat plate (603), a first transmission wheel (604), a second transmission wheel (605), a telescopic rotating shaft rod (606), a bearing frame column (607), a second electric push rod (608), a bearing sleeve plate (609), a first flat gear (6010), a second flat gear (6011), a screw rod (6012), a second bearing seat plate (6013), a third bearing seat plate (6014), an internal thread sliding column (6015), a limiting sliding block (6016), a limiting sliding chute plate (6017), a guide plate (6018), a mounting long plate (6019), a second mounting column (6020), a third mounting column (6021), a first electric telescopic cylindrical scraper (6022) and a second electric telescopic cylindrical scraper (6023); the lower part of the power motor (601) is connected with a working machine bed plate (1) through bolts; the second rotating shaft rod (602) is fixedly connected with an output shaft of the power motor (601); the first bearing seat plate (603) is in rotary connection with the second rotating shaft rod (602); the lower part of the first bearing seat plate (603) is connected with a working machine bed plate (1) through bolts; the axle center of the first driving wheel (604) is fixedly connected with the second rotating shaft rod (602); the outer ring surface of the second transmission wheel (605) is in transmission connection with the first transmission wheel (604) through a belt; the outer surface of the telescopic rotating shaft rod (606) is fixedly connected with a second driving wheel (605); the telescopic rotating shaft rod (606) is fixedly connected with the first rotating shaft rod (5010); the telescopic rotating shaft rod (606) is rotationally connected with the working machine bed plate (1); the bearing frame column (607) is rotationally connected with the telescopic rotating shaft rod (606); the lower part of the bearing frame column (607) is connected with a working machine bed plate (1) through bolts; the second electric push rod (608) is sleeved with the bearing frame column (607); the bearing sleeve plate (609) is connected with a second electric push rod (608); the bearing sleeve plate (609) is in rotary connection with the telescopic rotating shaft rod (606); the axle center of the first flat gear (6010) is fixedly connected with the telescopic rotating shaft rod (606); the second flat gear (6011) is meshed with the first flat gear (6010); the screw rod (6012) is fixedly connected with the second flat gear (6011); the second bearing seat plate (6013) is rotatably connected with the screw rod (6012); the lower part of the second bearing seat plate (6013) is connected with a working machine bed plate (1) through bolts; the third bearing seat plate (6014) is rotatably connected with the screw rod (6012); the lower part of the third bearing seat plate (6014) is connected with a working machine bed plate (1) through bolts; the inner side of the internal thread sliding column (6015) is in transmission connection with a screw rod (6012); the upper part of the limit sliding block (6016) is fixedly connected with an internal thread sliding column (6015); the inner side of the limiting sliding chute plate (6017) is in sliding connection with a limiting sliding block (6016); the lower part of the limiting sliding chute plate (6017) is connected with a working machine bed plate (1) through bolts; the guide plate (6018) is fixedly connected with the internal thread sliding column (6015); a long mounting plate (6019) is fixedly connected with the internal thread sliding column (6015); the second mounting column (6020) is fixedly connected with the mounting long plate (6019); the third mounting column (6021) is fixedly connected with the mounting long plate (6019); the first electric telescopic cylindrical scraper (6022) is connected with the second mounting column (6020); the second electric telescopic cylindrical scraper (6023) is connected with the third mounting column (6021).

4. The recovery pretreatment device for the internal and external bidirectional separation electromagnetic shielding cover according to claim 3, wherein the through-hole glue removal system (7) comprises a first electric sliding rail (701), a first electric sliding seat (702), a first installation side frame (703), a second installation side frame (704), a first installation vertical plate (705), a first electric rotating fixing ring (706), a first rubber ring (707), a first inner sleeve disc (708), a first spray pipe (709), a second spray pipe (7010), a collection box (7011), a drain pipe (7012), a second installation vertical plate (7013), a rectangular liquid spray cylinder (7014), a set installation top plate (7015), a third installation vertical plate (7016), a second electric rotating fixing ring (7017), a second rubber ring (7018), a second inner sleeve disc (7019), a third spray pipe (7020), a second electric sliding rail (7021), a second electric sliding seat (7022), The device comprises a third electric push rod (7023), a mounting bar (7024), a first electric rotating clamping bar (7025), a second electric rotating clamping bar (7026) and a round head lower ejection column (7027); the lower part of the first electric slide rail (701) is connected with a working machine bed plate (1) through a bolt; the lower part of the first electric sliding seat (702) is in sliding connection with a first electric sliding rail (701); the lower part of the first mounting side frame (703) is connected with a first electric sliding seat (702) through a bolt; the lower part of the second mounting side frame (704) is connected with a first electric sliding seat (702) through a bolt; the first mounting vertical plate (705) is connected with the first mounting side frame (703) through bolts; the first mounting vertical plate (705) is connected with the second mounting side frame (704) through bolts; the first electric rotating fixing ring (706) is connected with a first installation vertical plate (705); the first rubber ring (707) is fixedly connected with the first electric rotating fixing ring (706); the first inner sleeve disc (708) is fixedly connected with the first electric rotating fixing ring (706); the first spray pipe (709) is in rotary connection with the first inner sleeve disc (708); the second spray pipe (7010) is in bolted connection with the first mounting vertical plate (705); the lower part of the collecting box (7011) is connected with a working machine bed plate (1); the drain pipe (7012) is spliced with the collection box (7011); the lower part of the second installation vertical plate (7013) is connected with the bed plate (1) of the working machine; the rectangular liquid spraying cylinder (7014) is connected with a second mounting vertical plate (7013); the integrated mounting top plate (7015) is fixedly connected with a second mounting vertical plate (7013); the upper part of the third installation vertical plate (7016) is fixedly connected with the integrated installation top plate (7015); the lower part of the third installation vertical plate (7016) is connected with a working machine bed plate (1); the second electric rotating fixing ring (7017) is connected with a third installation vertical plate (7016); the second rubber ring (7018) is fixedly connected with the second electric rotating fixing ring (7017); the second inner sleeve disc (7019) is fixedly connected with the second electric rotating fixing ring (7017); the third spray pipe (7020) is in bolted connection with a third mounting vertical plate (7016); the second electric sliding rail (7021) is in bolt connection with the set mounting top plate (7015); the upper part of the second electric sliding seat (7022) is in sliding connection with a second electric sliding rail (7021); a third electric push rod (7023) is inserted into the second electric sliding seat (7022); the mounting bar (7024) is connected with a third electric push rod (7023); the first electric rotating clamping bar (7025) is connected with the mounting bar (7024); the second electric rotating clamping strip (7026) is connected with the mounting strip (7024); the upper part of the round head lower support pillar (7027) is connected with a third electric push rod (7023).

5. The recovery pretreatment device for the electromagnetic shielding case with the bidirectional separation between the inside and the outside according to claim 4, wherein the first electric rotating holding strip (7025) and the second electric rotating holding strip (7026) are provided with a conical thorn on the sides of the bottoms thereof far away from the mounting strip (7024).

6. The recovery pretreatment device for the electromagnetic shielding cover with the internal and external bidirectional separation function as claimed in claim 5, wherein a cavity is formed inside the round-head lower top column (7027) and can store the sol solution, and the sol solution can flow out from an opening on the upper side of the surface of the round-head lower top column (7027).

7. The recovery pretreatment device for the electromagnetic shielding case with two-way separation between the inside and the outside according to claim 6, wherein a camera is arranged in the middle of the second installation riser (7013).

8. The recycling pretreatment device for the electromagnetic shielding covers with internal and external bidirectional separation as claimed in claim 7, wherein the first electric push rod (503) and the arc-shaped clamp plate (504) are in a group, and are provided with four groups in total, and are distributed on the circumferential ring surface of the rotary mounting ring (502) at equal angular intervals.

Technical Field

The invention relates to the field of electromagnetic shielding, in particular to a recycling pretreatment device for an internal and external bidirectional separation electromagnetic shielding cover.

Background

Shielding is one means in electrical engineering. In order to prevent interference of external electric, magnetic or electromagnetic fields with the internal devices or to avoid influence of the electromagnetic fields of the devices on the outside, the devices are placed in a closed or nearly closed metal shell or mesh enclosure, which is referred to as a shield. Meanwhile, in order to control devices inside the shielding case, a plurality of small through holes are formed in the surface of the shielding case when the shielding case is processed, then conductive adhesive is coated on the inner surface and the outer surface of the shielding case, and after the conductive adhesive is filled in the through holes, the conductive adhesive layers on the inner surface and the outer surface can be communicated with each other by using the conductive adhesive in the through holes.

At present, when the shield cover needs to be subjected to waste treatment after reaching the service life in the prior art, the large conductive adhesive layer on the inner surface and the outer surface is usually removed, the conductive adhesive in the through hole is not usually treated because the treatment operation space is narrow, the subsequent shield cover is seriously influenced to be recycled, or the whole shield cover is directly soaked by using the sol solution, a large amount of sol solution needs to be consumed by soaking, the time consumed by the permeation and dissolution of the sol solution is extremely long, and the requirements of current environmental protection and high efficiency are not met.

In order to solve the problems, an inner and outer bidirectional separation electromagnetic shielding cover recovery pretreatment device is provided.

Disclosure of Invention

In order to overcome among the prior art when the shield cover reaches the life after need carry out the abandonment processing, often just get rid of the bold conductive adhesive layer of interior external surface, the conductive adhesive in the through hole is because processing operation space is narrow and small, often do not do its processing, seriously influence follow-up shield cover and recycle, or utilize the sol solution directly to soak whole shield cover, it needs a large amount of sol solution to soak, and the sol solution infiltration dissolves consuming time extremely long, be not conform to the shortcoming of current environmental protection and efficient requirement, the technical problem that solves is: provides a recovery and pretreatment device for an internal and external bidirectional separation electromagnetic shielding cover.

The technical scheme of the invention is as follows: an inside and outside two-way separation electromagnetic shielding cover recovery pretreatment device comprises a working machine bed plate, a supporting foot column, an installation table column, an operation control screen, a fixing system, an inside and outside glue removing system, a through hole glue removing system, a liquid storage tank, a connector, a collecting tank and a closed isolation door; the lower part of the bed plate of the working machine is welded with the supporting leg; the upper part of the working machine tool plate is connected with the mounting column through bolts; the mounting table column is connected with the operation control screen; the upper part of the working machine tool plate is connected with a fixing system; the upper part of the working machine tool plate is connected with an internal and external glue removing system; the internal and external glue removing system is connected with the fixing system; the upper part of the working machine tool plate is connected with a through hole glue removing system; the upper part of the working machine tool plate is connected with a liquid storage tank; a connector is arranged above the liquid storage tank; the bed plate of the working machine is connected with the collecting box; the through hole glue removing system is connected with the closed isolation door.

As the preferred scheme of the invention, the fixing system comprises an installation frame plate, a rotary installation ring, a first electric push rod, an arc-shaped clamping plate, a first storage battery, a second storage battery, an inner support ring, a rubber friction large ring, a rubber friction small ring, a first rotating shaft rod, a first installation column and an air duct; the lower part of the mounting frame plate is connected with a working machine tool plate through bolts; the rotary mounting ring is rotatably connected with the mounting frame plate; the first electric push rod is sleeved with the rotary mounting ring; the arc-shaped clamping plate is connected with the first electric push rod; the first storage battery is connected with the rotary mounting ring; the second storage battery is connected with the rotary mounting ring; the inner supporting ring is connected with the rotary mounting ring; the inner side of the rubber friction large ring is fixedly connected with the rotary mounting ring; the rubber friction small ring is contacted with the rubber friction large ring; the outer surface of the first rotating shaft rod is fixedly connected with the rubber friction small ring; the first rotating shaft rod is rotatably connected with the mounting frame plate; the first rotating shaft rod is connected with the internal and external glue removing system; the lower part of the first mounting column is connected with a working machine tool plate through a bolt; the air duct is sleeved with the first mounting column.

As a preferred scheme of the invention, the internal and external glue removing system comprises a power motor, a second rotating shaft rod, a first bearing seat plate, a first transmission wheel, a second transmission wheel, a telescopic rotating shaft rod, a bearing frame column, a second electric push rod, a bearing sleeve plate, a first flat gear, a second flat gear, a screw rod, a second bearing seat plate, a third bearing seat plate, an internal thread sliding column, a limiting sliding block, a limiting sliding chute plate, a material guide plate, a mounting long plate, a second mounting column, a third mounting column, a first electric telescopic cylindrical scraper and a second electric telescopic cylindrical scraper; the lower part of the power motor is connected with a working machine tool plate through a bolt; the second rotating shaft rod is fixedly connected with an output shaft of the power motor; the first bearing seat plate is rotatably connected with the second rotating shaft rod; the lower part of the first bearing support plate is connected with a working machine tool plate through a bolt; the axle center of the first driving wheel is fixedly connected with the second rotating shaft rod; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the outer surface of the telescopic rotating shaft rod is fixedly connected with a second driving wheel; the telescopic rotating shaft rod is fixedly connected with the first rotating shaft rod; the telescopic rotating shaft rod is rotationally connected with the working machine tool plate; the bearing frame column is rotationally connected with the telescopic rotating shaft rod; the lower part of the bearing frame column is connected with a working machine tool plate through bolts; the second electric push rod is sleeved with the bearing frame column; the bearing sleeve plate is connected with the second electric push rod; the bearing sleeve plate is rotationally connected with the telescopic rotating shaft rod; the axle center of the first flat gear is fixedly connected with the telescopic rotating shaft rod; the second flat gear is meshed with the first flat gear; the screw rod is fixedly connected with the second flat gear; the second bearing plate is rotatably connected with the screw rod; the lower part of the second bearing seat plate is connected with a working machine tool plate through a bolt; the third bearing seat plate is rotatably connected with the screw rod; the lower part of the third bearing seat plate is connected with a working machine tool plate through a bolt; the inner side of the internal thread sliding column is in transmission connection with the screw rod; the upper part of the limiting sliding block is fixedly connected with the internal thread sliding column; the inner side of the limiting sliding groove plate is connected with a limiting sliding block in a sliding manner; the lower part of the limiting sliding groove plate is connected with a working machine tool plate through bolts; the material guide plate is fixedly connected with the internal thread sliding column; the long mounting plate is fixedly connected with the internal thread sliding column; the second mounting column is fixedly connected with the mounting long plate; the third mounting column is fixedly connected with the mounting long plate; the first electric telescopic cylindrical scraper is connected with the second mounting column; the electronic flexible cylindricality scraper of second is connected with the third erection column.

According to a preferable scheme of the invention, the through-hole glue removing system comprises a first electric sliding rail, a first electric sliding seat, a first installation side frame, a second installation side frame, a first installation vertical plate, a first electric rotating fixing ring, a first rubber ring, a first inner sleeve disc, a first spray pipe, a second spray pipe, a collection box, a drain pipe, a second installation vertical plate, a rectangular liquid spraying cylinder, an integrated installation top plate, a third installation vertical plate, a second electric rotating fixing ring, a second rubber ring, a second inner sleeve disc, a third spray pipe, a second electric sliding rail, a second electric sliding seat, a third electric push rod, an installation strip, a first electric rotating clamping strip, a second electric rotating clamping strip and a round-head lower support column; the lower part of the first electric slide rail is connected with a working machine tool plate through a bolt; the lower part of the first electric sliding seat is in sliding connection with a first electric sliding rail; the lower part of the first mounting side frame is connected with a first electric sliding seat through a bolt; the lower part of the second mounting side frame is connected with the first electric sliding seat through a bolt; the first mounting vertical plate is connected with the first mounting side frame through a bolt; the first mounting vertical plate is connected with the second mounting side frame through a bolt; the first electric rotating fixing ring is connected with the first mounting vertical plate; the first rubber ring is fixedly connected with the first electric rotating fixing ring; the first inner sleeve disc is fixedly connected with the first electric rotating fixing ring; the first spray pipe is rotationally connected with the first inner sleeve disc; the second spray pipe is connected with the first mounting vertical plate through bolts; the lower part of the collecting box is connected with a working machine tool plate; the drain pipe is inserted into the collection box; the lower part of the second mounting vertical plate is connected with a working machine tool plate; the rectangular liquid spraying cylinder is connected with the second mounting vertical plate; the integrated mounting top plate is fixedly connected with the second mounting vertical plate; the upper part of the third mounting vertical plate is fixedly connected with the integrated mounting top plate; the lower part of the third mounting vertical plate is connected with a working machine tool plate; the second electric rotating fixing ring is connected with a third mounting vertical plate; the second rubber ring is fixedly connected with the second electric rotating fixing ring; the second inner sleeve disc is fixedly connected with the second electric rotating fixing ring; the third spray pipe is connected with a third mounting vertical plate through a bolt; the second electric slide rail is connected with the assembly mounting top plate through bolts; the upper part of the second electric sliding seat is in sliding connection with a second electric sliding rail; the third electric push rod is inserted with the second electric sliding seat; the mounting bar is connected with the third electric push rod; the first electric rotating clamping strip is connected with the mounting strip; the second electric rotating clamping strip is connected with the mounting strip; the round head lower ejection column is connected with a third electric push rod.

As a preferable scheme of the invention, the sides of the bottoms of the first electric rotating holding strip and the second electric rotating holding strip, which are far away from the mounting strip, are provided with a conical thorn.

As a preferred scheme of the invention, the round-head lower ejection column is internally provided with a cavity for storing the sol solution, and the sol solution can flow out from the open pore on the upper side of the surface of the round-head lower ejection column.

As a preferable scheme of the invention, a camera is arranged in the middle of the second installation vertical plate.

As a preferable scheme of the invention, the first electric push rod and the arc-shaped clamping plate are in one group, four groups are arranged, and the four groups are distributed on the circumferential ring surface of the rotary mounting ring at equal angular intervals.

The invention has the following beneficial effects:

the method comprises the following steps of (A) solving the problems that in the prior art, when the shielding case needs to be discarded after the service life is reached, large conductive adhesive layers on the inner surface and the outer surface are often removed, the conductive adhesive in a through hole is often not treated due to narrow processing operation space, the recycling of a subsequent shielding case is seriously influenced, or the whole shielding case is directly soaked by using sol solution, a large amount of sol solution needs to be consumed for soaking, the time consumed for the sol solution to permeate and dissolve is extremely long, and the current environment-friendly and efficient requirements are not met;

designing a fixing system, an internal and external glue removing system and a through hole glue removing system, fixing the electromagnetic shielding cover to be processed to the fixing system when in use, controlling the internal and external glue removing system to operate in cooperation with the fixing system, removing the conductive glue layers on the inner surface and the outer surface of the electromagnetic shielding cover by the internal and external glue removing system, and then fixing the electromagnetic shielding cover to the inside of the through hole glue removing system again, namely removing and separating the conductive glue layers in the through hole of the electromagnetic shielding cover by the through hole glue removing system;

(III), realized scraping the separation in step to the disposable of the inside and outside conducting resin layer of electromagnetic shield cover to conducting resin in the electromagnetic shield cover through hole carries out accurate the getting rid of, has replaced to use a large amount of sol liquid to carry out the mode of soaking to whole electromagnetic shield cover, the use amount of the sol liquid that has significantly reduced makes the effect of handling high efficiency and environmental protection more.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a first perspective view of the fastening system of the present invention;

FIG. 5 is a second perspective view of the fastening system of the present invention;

FIG. 6 is a schematic perspective view of an internal and external glue removing system according to the present invention;

FIG. 7 is a schematic view of a first three-dimensional structure of the through-hole sealant removal system of the present invention;

FIG. 8 is a schematic diagram of a second three-dimensional structure of the through-hole sealant removal system of the present invention;

FIG. 9 is a schematic perspective view of a first part of a through-hole glue removing system according to the present invention;

fig. 10 is a schematic perspective view of a second part of the through-hole glue removing system of the present invention.

In the reference symbols: 1-a working machine bedplate, 2-a supporting leg column, 3-an installation table column, 4-an operation control screen, 5-a fixing system, 6-an internal and external glue removing system, 7-a through hole glue removing system, 8-a liquid storage tank, 9-a connector, 10-a collecting tank, 11-a closed isolating door, 501-an installation frame plate, 502-a rotating installation ring, 503-a first electric push rod, 504-an arc-shaped clamping plate, 505-a first storage battery, 506-a second storage battery, 507-an internal supporting ring, 508-a rubber friction large ring, 509-a rubber friction small ring, 5010-a first rotating shaft rod, 5011-a first installation column, 5012-an air duct, 601-a power motor, 602-a second rotating shaft rod, 603-a first bearing seat plate, 604-a first transmission wheel, 605-a second driving wheel, 606-a telescopic rotating shaft rod, 607-a bearing frame column, 608-a second electric push rod, 609-a bearing sleeve plate, 6010-a first flat gear, 6011-a second flat gear, 6012-a screw rod, 6013-a second bearing seat plate, 6014-a third bearing seat plate, 6015-an internal thread sliding column, 6016-a limit sliding block, 6017-a limit sliding chute plate, 6018-a guide plate, 6019-an installation long plate, 6020-a second installation column, 6021-a third installation column, 6022-a first electric telescopic column scraper, 6023-a second electric telescopic column scraper, 701-a first electric sliding rail, 702-a first electric sliding seat, 703-a first installation side frame, 704-a second installation side frame, 705-a first installation vertical plate, 706-a first electric rotating fixing ring, 707-a first rubber ring, 708-a first inner sleeve disc, 709-a first spray pipe, 7010-a second spray pipe, 7011-a collection box, 7012-a drain pipe, 7013-a second installation vertical plate, 7014-a rectangular liquid spray cylinder, 7015-a collective installation top plate, 7016-a third installation vertical plate, 7017-a second electric rotation fixing ring, 7018-a second rubber ring, 7019-a second inner sleeve disc, 7020-a third spray pipe, 7021-a second electric sliding rail, 7022-a second electric sliding seat, 7023-a third electric push rod, 7024-an installation strip, 7025-a first electric rotation clamping strip, 7026-a second electric rotation clamping strip and 7027-a round head lower top column.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

An inside and outside two-way separation electromagnetic shielding cover recovery preprocessing device is shown in figures 1-10 and comprises a working machine bedplate 1, a supporting foot column 2, an installation table column 3, an operation control screen 4, a fixing system 5, an inside and outside degumming system 6, a through hole degumming system 7, a liquid storage tank 8, a connector 9, a collecting box 10 and a closed isolating door 11; the lower part of the bed plate 1 of the working machine is welded with the supporting leg column 2; the upper part of the working machine bed plate 1 is connected with the mounting column 3 through bolts; the mounting column 3 is connected with the operation control screen 4; the upper part of the working machine bed plate 1 is connected with a fixing system 5; the upper part of the working machine bed plate 1 is connected with an internal and external glue removing system 6; the internal and external glue removing system 6 is connected with the fixing system 5; the upper part of the working machine bed plate 1 is connected with a through hole glue removing system 7; the upper part of the bed plate 1 of the working machine is connected with a liquid storage tank 8; a connector 9 is arranged above the liquid storage tank 8; the working machine bed plate 1 is connected with the collecting box 10; the through hole glue removing system 7 is connected with the closed isolation door 11.

The working principle is as follows: when the recovery pretreatment device of the internal and external bidirectional separation electromagnetic shielding cover is used, the device is stably fixed to a working plane, an external power supply is connected, a controllable device of an operation control screen 4 is opened for operation, then sufficient sol solution is added into a liquid storage tank 8, a hose is used for connecting a connector 9 with a specified position in the device, an external water inlet pipe is connected with the specified position in the device, the electromagnetic shielding cover to be treated is fixed to a fixing system 5, an internal and external degumming system 6 is controlled to operate in cooperation with the fixing system 5, then the internal and external degumming system 6 removes conductive adhesive layers on the inner surface and the outer surface of the electromagnetic shielding cover, the electromagnetic shielding cover is fixed to the inside of a through hole degumming system 7 again, namely the through hole degumming system 7 removes and separates the conductive adhesive layers in a through hole of the electromagnetic shielding cover, and realizes one-time synchronous scraping and separation of the internal and external conductive adhesive layers of the electromagnetic shielding cover, and conductive adhesive in the through holes of the electromagnetic shielding cover is accurately removed, so that the mode of soaking the whole electromagnetic shielding cover by using a large amount of sol solution is replaced, the use amount of the sol solution is greatly reduced, and the treatment effect is more efficient and environment-friendly.

The fixing system 5 comprises a mounting frame plate 501, a rotary mounting ring 502, a first electric push rod 503, an arc-shaped clamping plate 504, a first storage battery 505, a second storage battery 506, an inner supporting ring 507, a rubber friction large ring 508, a rubber friction small ring 509, a first rotating shaft rod 5010, a first mounting column 5011 and a wind barrel 5012; the lower part of the mounting frame plate 501 is connected with a working machine bed plate 1 through bolts; the rotary mounting ring 502 is rotatably connected with the mounting frame plate 501; the first electric push rod 503 is sleeved with the rotary mounting ring 502; the arc-shaped clamping plate 504 is connected with the first electric push rod 503; a first accumulator 505 is connected with the rotating mounting ring 502; a second battery 506 is connected to the rotating mounting ring 502; the inner support ring 507 is connected with the rotary mounting ring 502; the inner side of the rubber friction large ring 508 is fixedly connected with the rotary mounting ring 502; the small rubber friction ring 509 is in contact with the large rubber friction ring 508; the outer surface of the first rotating shaft rod 5010 is fixedly connected with the small rubber friction ring 509; the first rotating shaft 5010 is rotatably connected with the mounting frame plate 501; the first rotating shaft lever 5010 is connected with the internal and external glue removing system 6; the lower part of the first mounting column 5011 is connected with a working machine bedplate 1 through bolts; the air duct 5012 is sleeved with the first mounting post 5011.

Firstly, one side of an electromagnetic shielding cover is inserted into a gap between an arc-shaped clamping plate 504 and an inner supporting ring 507, then a first electric push rod 503 is controlled to extend to drive the arc-shaped clamping plate 504 to be close to and tightly attached to one side edge of the outer surface of the electromagnetic shielding cover, the four first electric push rods 503 synchronously drive the four arc-shaped clamping plates 504 to clamp and fix the electromagnetic shielding cover, then the power supply of an internal and external rubber removal system 6 is controlled to be switched on, so that a telescopic rotating shaft rod 606 drives a first rotating shaft rod 5010 to rotate, then the first rotating shaft rod 5010 drives a rubber friction small ring 509 to rotate, the rubber friction small ring 509 drives a rubber friction large ring 508 to rotate through friction force, then the rubber friction large ring 508 drives a rotating mounting ring 502 to rotate, and then the mounting ring 502 is rotated to drive the first electric push rod 503, the arc-shaped clamping plate 504, a first storage battery 505, a second storage battery 506 and the inner supporting ring 507 to synchronously rotate, and then arc splint 504 and interior vaulting ring 507 drive the electromagnetic shield cover and carry out the interior outer conductive adhesive layer of removing of normal running fit system 6 and strike off its inside and outside conductive adhesive layer, the conductive adhesive layer that drops in the outside directly drops to collecting box 10 inside and collects, and the inboard conductive adhesive that drops can remain inside the electromagnetic shield cover, the control switch-on dryer 5012 power this moment, and then the dryer 5012 blows to the electromagnetic shield cover is inside through the circular space at interior vaulting ring 507 middle part, blow off the conductive adhesive layer that drops inside the electromagnetic shield cover from its opposite side opening and also drop to collecting box 10 inside and collect, the separation of striking off of fixed and inside and outside conductive adhesive to the electromagnetic shield cover has been accomplished.

The internal and external glue removing system 6 comprises a power motor 601, a second rotating shaft rod 602, a first bearing seat plate 603, a first driving wheel 604, a second driving wheel 605, a telescopic rotating shaft rod 606, a bearing frame column 607, a second electric push rod 608, a bearing sleeve plate 609, a first flat gear 6010, a second flat gear 6011, a screw rod 6012, a second bearing seat plate 6013, a third bearing seat plate 6014, an internal thread sliding column 6015, a limit sliding block 6016, a limit sliding chute plate 6017, a guide plate 6018, an installation long plate 6019, a second installation column 6020, a third installation column 6021, a first electric telescopic cylindrical scraper 6022 and a second electric telescopic cylindrical scraper 6023; the lower part of the power motor 601 is connected with a working machine bed plate 1 through bolts; the second rotating shaft rod 602 is fixedly connected with an output shaft of the power motor 601; the first bearing plate 603 is rotatably connected to the second rotating shaft 602; the lower part of the first bearing support plate 603 is connected with a working machine bed plate 1 through bolts; the axle center of the first driving wheel 604 is fixedly connected with the second rotating shaft rod 602; the outer ring surface of the second driving wheel 605 is in transmission connection with the first driving wheel 604 through a belt; the outer surface of the telescopic rotating shaft rod 606 is fixedly connected with the second driving wheel 605; the telescopic rotating shaft rod 606 is fixedly connected with the first rotating shaft rod 5010; the telescopic rotating shaft rod 606 is rotatably connected with the working machine bed plate 1; the bearing frame column 607 is rotationally connected with the telescopic rotating shaft rod 606; the lower part of the bearing frame column 607 is connected with a working machine bed plate 1 through bolts; the second electric push rod 608 is sleeved with the bearing frame column 607; the bearing sleeve plate 609 is connected with a second electric push rod 608; the bearing sleeve plate 609 is in rotary connection with the telescopic rotating shaft 606; the axle center of the first flat gear 6010 is fixedly connected with the telescopic rotating shaft rod 606; the second pinion 6011 meshes with the first pinion 6010; the screw 6012 is fixedly connected with a second pinion 6011; the second bearing seat plate 6013 is rotatably connected with the screw rod 6012; the lower part of the second bearing seat plate 6013 is in bolted connection with the working machine bed plate 1; the third bearing seat plate 6014 is rotatably connected with the screw 6012; the lower part of the third bearing seat plate 6014 is in bolted connection with the working machine bed plate 1; the inner side of the internal thread sliding column 6015 is in transmission connection with a screw rod 6012; the upper part of the limit sliding block 6016 is fixedly connected with an internal thread sliding column 6015; the inner side of the limiting sliding groove plate 6017 is in sliding connection with a limiting sliding block 6016; the lower part of the limiting sliding chute plate 6017 is in bolted connection with the bed plate 1 of the working machine; the stock guide 6018 is fixedly connected with the internal thread sliding column 6015; a mounting long plate 6019 is fixedly connected with the internal thread sliding column 6015; the second mounting column 6020 is fixedly connected with the mounting long plate 6019; the third mounting column 6021 is fixedly connected with the mounting long plate 6019; the first electric telescopic cylindrical scraper 6022 is connected with the second mounting column 6020; the second electrically-retractable cylindrical scraper 6023 is coupled to the third mounting post 6021.

After the electromagnetic shielding cover is fixed by the fixing system 5, the power supply of the power motor 601 is controlled to be switched on, then the power motor 601 drives the second rotating shaft rod 602 to rotate, then the second rotating shaft rod 602 drives the first driving wheel 604 to rotate, then the first driving wheel 604 drives the second driving wheel 605 to rotate, then the second driving wheel 605 drives the telescopic rotating shaft rod 606 to rotate, further the telescopic rotating shaft rod 606 drives the first rotating shaft rod 5010 to rotate so as to drive the fixing system 5 to operate, namely the fixing system 5 drives the electromagnetic shielding cover to rotate, at the moment, the first electric telescopic cylindrical scraper 6022 and the second electric telescopic cylindrical scraper 6023 are controlled to respectively extend and push out, further the cutter heads of the first electric telescopic cylindrical scraper 6022 and the second electric telescopic cylindrical scraper 6023 respectively contact the inner and outer surfaces of the electromagnetic shielding cover, and further in the rotation process of the electromagnetic shielding cover, the cutter heads of the first electric telescopic cylindrical scraper 6022 and the second electric telescopic cylindrical scraper 6023 are kept static, then the conductive adhesive of an annular area on the inner and outer surfaces of the electromagnetic shielding cover is scraped, then the second electric push rod 608 is controlled to extend to drive the bearing sleeve plate 609 to move, further the bearing sleeve plate 609 extends to extend the telescopic rotating shaft rod 606, further the telescopic rotating shaft rod 606 drives the first flat gear 6010 to move to a position meshed with the second flat gear 6011, further the telescopic rotating shaft rod 606 drives the first flat gear 6010 to rotate, and the first flat gear 6010 drives the second flat gear 6011 to rotate, then the second flat gear 6011 drives the lead screw 6012 to rotate, further the lead screw 6012 rotates to drive the internal thread sliding column 6015 to move, namely the internal thread sliding column 6015 performs stable sliding movement in the limiting sliding chute plate 6017 through the limiting sliding block 6016, namely the internal thread sliding column 6015 drives the mounting long plate 9, the second mounting column 6020, the third mounting column 6011, the first electric telescopic cylindrical scraper 6022 and the second electric telescopic cylindrical scraper 6023 to perform synchronous movement in a direction far away from the fixing system 5, the moving distance is the same as the width of the annular area of the inner and outer surfaces of the electromagnetic shielding cover, on which the conductive adhesive is scraped, and after the movement is completed, the second electric push rod 608 can be controlled to contract, that is, the first electric telescopic cylindrical scraper 6022 and the second electric telescopic cylindrical scraper 6023 stop moving, the conductive adhesive can be scraped off from the second annular area, and then the conductive adhesive on the inner and outer surfaces of the electromagnetic shielding cover is scraped off sequentially and repeatedly.

The through-hole glue removing system 7 comprises a first electric sliding rail 701, a first electric sliding seat 702, a first installation side frame 703, a second installation side frame 704, a first installation vertical plate 705, a first electric rotating fixing ring 706, a first rubber ring 707, a first inner sleeve disc 708, a first spray pipe 709, a second spray pipe 7010, a collection box 7011, a drain pipe 7012, a second installation vertical plate 7013, a rectangular liquid spraying cylinder 7014, an integrated installation top plate 7015, a third installation vertical plate 7016, a second electric rotating fixing ring 7017, a second rubber ring 7018, a second inner sleeve disc 7019, a third spray pipe 7020, a second electric sliding rail 7021, a second electric sliding seat 7022, a third electric push rod 7023, an installation strip 7024, a first electric rotating clamping strip 7025, a second electric rotating clamping strip 7026 and a round head lower prop 7027; the lower part of the first electric slide rail 701 is connected with a working machine bed plate 1 through bolts; the lower part of the first electric sliding seat 702 is connected with a first electric sliding rail 701 in a sliding way; the lower part of the first mounting side frame 703 is connected with a first electric sliding seat 702 through a bolt; the lower part of the second mounting side frame 704 is connected with a first electric sliding seat 702 through a bolt; a first mounting riser 705 is bolted to the first mounting sideframe 703; the first mounting riser 705 is bolted to the second mounting side frame 704; the first electric rotating fixing ring 706 is connected with a first installation vertical plate 705; the first rubber ring 707 is fixedly connected with the first electric rotating fixing ring 706; the first inner sleeve disc 708 is fixedly connected with the first electric rotating fixing ring 706; the first spray pipe 709 is rotatably connected with the first inner sleeve disc 708; the second nozzle 7010 is bolted to the first mounting riser 705; the lower part of the collecting box 7011 is connected with the bed plate 1 of the working machine; the drain pipe 7012 is inserted into the collection box 7011; the lower part of the second installation vertical plate 7013 is connected with the bed plate 1 of the working machine; the rectangular spray cylinder 7014 is connected with a second mounting vertical plate 7013; the integrated mounting top plate 7015 is fixedly connected with a second mounting vertical plate 7013; the upper part of the third installation vertical plate 7016 is fixedly connected with the collective installation top plate 7015; the lower part of the third installation vertical plate 7016 is connected with the bed plate 1 of the working machine; the second electric rotating fixing ring 7017 is connected with a third mounting vertical plate 7016; the second rubber ring 7018 is fixedly connected with the second electric rotating fixing ring 7017; the second inner sleeve 7019 is fixedly connected with a second electric rotating fixed ring 7017; the third nozzle 7020 is bolted to a third mounting riser 7016; the second electric slide rail 7021 is bolted to the collective mounting top plate 7015; the upper part of the second electric sliding seat 7022 is in sliding connection with a second electric sliding rail 7021; the third electric push rod 7023 is inserted into the second electric sliding seat 7022; the mounting bar 7024 is connected with a third electric push rod 7023; the first electric rotating holding strip 7025 is connected with the mounting strip 7024; the second electric rotating holding bar 7026 is connected with the mounting bar 7024; the round head lower top pillar 7027 is connected with a third electric push rod 7023.

After the internal and external adhesive removing system 6 scrapes off the conductive adhesive on the inner and external surfaces of the electromagnetic shielding cover, the electromagnetic shielding cover is manually taken down, at this time, the first electric slide rail 701 is controlled to drive the first electric slide carriage 702 to move in a direction away from the third installation vertical plate 7016, that is, the first electric slide carriage 702 drives the first installation side frame 703, the second installation side frame 704, the first installation vertical plate 705, the first electric rotation fixing ring 706, the first rubber ring 707, the first inner sleeve disc 708, the first spray pipe 709 and the second spray pipe 7010 to synchronously move, the closed isolation door 11 is opened, one side of the electromagnetic shielding cover is inserted into an annular gap between the second rubber ring 7018 and the second inner sleeve disc 7019, then the first electric slide rail 701 is controlled to drive the first electric slide carriage 702 to reversely reset, and the other side of the electromagnetic shielding cover is inserted into an annular gap between the first rubber ring 707 and the first inner sleeve disc 708, then both sides of the electromagnetic shielding cover are fixed, then the second spray pipe 7010 and the third spray pipe 7020 are communicated with an external water inlet pipe, water is respectively sprayed to the inner sides of the first rubber ring 707 and the second rubber ring 7018 through the second spray pipe 7010 and the third spray pipe 7020, meanwhile, the power supply of the first electric rotating fixing ring 706 and the second electric rotating fixing ring 7017 is controlled to be communicated, further, the first electric rotating fixing ring 706 and the second electric rotating fixing ring 7017 synchronously drive the electromagnetic shielding cover to rotate, further, one circle of the inner sides of the first rubber ring 707 and the second rubber ring 7018 is sprayed with water, further, the contact position of the inner sides of the first rubber ring 707 and the second rubber ring 7018 and the electromagnetic shielding cover is sealed by water, then the external part of the rectangular liquid spray cylinder 7014 is communicated with the liquid storage tank 8, the sol is sprayed from the rectangular liquid spray cylinder 7014 to the surface of the electromagnetic shielding cover, and the surface of the electromagnetic shielding cover is completely covered by the sol in the rotating process, then the conductive adhesive in the through hole is dissolved and softened, at the moment, the first spray pipe 709 is externally connected with an air pump, air is sprayed into the electromagnetic shielding cover through the first spray pipe 709, the air pressure in the electromagnetic shielding cover is increased, the conductive adhesive in the through hole is ejected outwards, the electromagnetic shielding cover is controlled to rotate to the position where the through hole faces upwards and then stops rotating, then the second electric slide rail 7021 is controlled to drive the second electric slide 7022 to move, namely the second electric slide 7022 drives the third electric push rod 7023, the mounting bar 7024, the first electric rotating clamping bar 7025, the second electric rotating clamping bar 7026 and the round head lower ejection column 7027 to move right above the through hole, then the third electric push rod 7023 is controlled to extend downwards, then the first electric rotating clamping bar 7025 and the second electric rotating clamping bar 7026 rotate downwards to clamp the conductive adhesive ejected by the air pressure, and then the third electric push rod 7023 is controlled to contract, and then the conductive adhesive is pulled out from the through holes, the conductive adhesive in the through holes is sequentially taken out, part of the conductive adhesive which cannot be ejected out by air pressure exists, the third electric push rod 7023 is controlled to extend downwards to drive the round head lower ejection column 7027 to eject the conductive adhesive to the inside of the electromagnetic shielding cover, then the conductive adhesive is separated from the through holes, and then the conductive adhesive is manually taken out from the electromagnetic shielding cover, so that the separation of the conductive adhesive in the through holes of the electromagnetic shielding cover is completed.

The bottom of the first electric rotating holding strip 7025 and the bottom of the second electric rotating holding strip 7026 are both provided with a conical barb on the side away from the mounting strip 7024.

So that the first electric rotating holding strip 7025 and the second electric rotating holding strip 7026 can be stably clamped by being penetrated into the conductive adhesive through conical piercing.

The round-head lower top column 7027 is internally provided with a cavity for storing the sol solution, and the sol solution can flow out from the open pore on the upper side of the surface of the round-head lower top column 7027.

So that in the process of pushing the conductive adhesive in the through hole to the inside of the electromagnetic shielding cover by the round-head lower top column 7027, the sol solution can be overflowed to the surface of the conductive adhesive again through the open pore for secondary dissolution and softening.

The middle part of the second installation vertical plate 7013 is provided with a camera.

So that the position of the through hole can be observed through the camera, and the second electric sliding rail 7021 is controlled to drive the second electric sliding base 7022 to adjust the position.

The first electric push rod 503 and the arc-shaped clamp plate 504 are in a group, and are provided with four groups in total, and the groups are distributed on the circumferential ring surface of the rotating installation ring 502 at equal angular intervals.

So that the four arc-shaped clamping plates 504 can perform annular stable fixed clamping on the electromagnetic shielding cover.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.