CN220183376U - Zinc plating device for metallized film processing - Google Patents

Abstract

The utility model relates to the technical field of galvanizing devices, and discloses a galvanizing device for processing a metallized film, which comprises a control console, a vacuum coating tank, a first control cabinet and a second control cabinet, wherein the first control cabinet and the second control cabinet are positioned at two sides of the vacuum coating tank, a galvanizing spray nozzle assembly and an auxiliary housing are arranged in the vacuum coating tank, and a first screw is arranged between a rear end structure of the auxiliary housing and a front end structure of the galvanizing spray nozzle assembly. According to the utility model, the auxiliary housing, the first screw, the high-temperature-resistant sealing ring and the outlet component are arranged to form a composite housing structure, and after the winding vacuum coating machine consisting of the control console, the vacuum coating tank, the first control cabinet, the second control cabinet and the galvanizing spray nozzle component is assembled and used in a comprehensive mode, sealing of a connecting gap between the galvanizing spray nozzle component and the control console can be realized, sealing, diversion and conveying of zinc steam output by the galvanizing spray nozzle component can be realized, the galvanizing treatment quality is improved, and the problems in the prior art are solved.

Description

Zinc plating device for metallized film processing

Technical Field

The utility model relates to the technical field of galvanization devices, in particular to a galvanization device for processing a metallized film.

Background

The winding vacuum coating machine is a common galvanizing processing device in the galvanizing processing process of the metallized film, but with the increase of processing requirements and the improvement of quality checking requirements, the related structural performance of the existing winding vacuum coating machine needs to be further improved and optimized.

When the aluminum film zinc plating nozzle cover disclosed by the patent with the publication number of CN210826327U is implemented, the aluminum film zinc plating nozzle cover matched with the shape of the pressure stabilizing cavity cover cap of the zinc furnace is adopted to cover the zinc nozzle die plate, an opening with the same degree of matching with the zinc nozzle area is formed at the top, and the assembly gap between the die and the vacuum winding film plating machine is blocked, so that zinc vapor can be sprayed to a film material only from the zinc nozzle opening, and the effective size and directional spraying of a zinc vapor beam are maintained in real time. Further, after the sealing cover is adopted, the vapor pressure of a hearth and a pressure stabilizing cavity of the zinc furnace is improved, zinc vapor is sprayed out from a nozzle on a zinc nozzle die at a higher speed, and the size and thickness of a deposited coating are more controllable and are suitable for the size and thickness of a coating film of a finished product. The common area is free of zinc, and the sheet resistance consistency and oxidization problems are controlled. Furthermore, the utilization of the zinc metal material is improved due to the sealing effect of the sealing cover, so that the production cost is reduced.

As is known from the above disclosure, as the prior art, the patent issued CN210826327U proposes a technical structure for assisting sealing and guiding output of a nozzle structure of a winding vacuum coating machine based on the technical base of the winding vacuum coating machine, however, the cap structure and the nozzle structure of the winding vacuum coating machine proposed in the prior art are still mechanically connected, and the connecting gap exists objectively, but in this regard, the prior art does not consider that zinc vapor may still be sprayed out from the gap during operation, and then zinc plating is uneven.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a galvanization device for processing a metallized film, which solves the problems of the prior art.

The utility model provides the following technical scheme: the galvanizing device for processing the metallized film comprises a control console, a vacuum coating tank, a first control cabinet and a second control cabinet, wherein the first control cabinet and the second control cabinet are positioned on two sides of the vacuum coating tank;

the inside cover of auxiliary housing is equipped with the export subassembly, and the middle part of export subassembly be provided with the galvanizing line notch of galvanization nozzle subassembly discharge port alignment, the rear end structure of auxiliary housing has been seted up and has been stepped down the groove, the inside joint of stepped down the groove has high temperature resistant sealing washer.

The first screw is positioned at one end of the outer side of the front end structure of the auxiliary housing, a linkage assembly is sleeved at one end of the first screw, and the rear end structure of the linkage assembly penetrates through the auxiliary housing to the inside of the abdication groove and is connected with the surface of the front end structure of the high-temperature-resistant sealing ring.

The auxiliary sleeve plate is characterized in that the linkage assembly consists of an auxiliary sleeve plate and a linkage rod, one end of the linkage rod is fixedly connected with one end of the auxiliary sleeve plate, the joint of the linkage rod and the auxiliary sleeve plate is of a right-angle structure, the other end of the auxiliary sleeve plate is sleeved with one end of the first screw, which is positioned outside the front end structure of the auxiliary cover shell, and the other end of the linkage rod, serving as the rear end structure of the linkage assembly, penetrates through the auxiliary cover shell to the inside of the abdicating groove and is fixed with the surface of the front end structure of the high-temperature-resistant sealing ring in an adhesive manner.

The device is characterized in that the limit sleeve component and the compression spring are sleeved in the abdication groove, one end of the compression spring extends to the surface fixed connection of the front end structure of the high-temperature-resistant sealing ring, and the high-temperature-resistant sealing ring can be completely sleeved in the abdication groove.

The limiting sleeve assembly is selected to be composed of two concentric ring sleeve plates, and the two concentric ring sleeve plates form an auxiliary storage space for the compression spring in the abdicating groove.

The utility model discloses a discharge guide plate, including two discharge guide plates, two limiting plates, two screw holes are all offered to the inside of two limiting plates front end structures, two the inside of outlet subassembly all is provided with two discharge guide plates, two the inside of two limiting plates front end structures all is provided with the screw hole, two the mutual symmetry of discharge guide plates, and installs the second screw between two discharge guide plate both ends and the inside screw hole of two discharge guide plates.

The number of the threaded holes in the two discharging guide plates is not less than two, and the threaded holes are of blind hole structures.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the auxiliary housing, the first screw, the high-temperature-resistant sealing ring and the outlet component are arranged to form a composite housing structure, and after the winding vacuum coating machine consisting of the control console, the vacuum coating tank, the first control cabinet, the second control cabinet and the galvanizing spray nozzle component is assembled and used in a comprehensive mode, sealing of a connecting gap between the galvanizing spray nozzle component and the control console can be realized, sealing, diversion and conveying of zinc steam output by the galvanizing spray nozzle component can be realized, the galvanizing treatment quality is improved, and the problems in the prior art are solved.

2. The auxiliary structure is composed of the linkage assembly, the limiting sleeve assembly and the compression spring, and after the auxiliary structure is combined with the composite housing structure, the sealing effect of the high-temperature-resistant sealing ring in the composite housing structure is fully improved by mechanical locking pressure and elastic reaction force, and the service performance of the whole equipment is further optimized.

Drawings

FIG. 1 is a schematic front view of a structural support enclosure of the present utility model;

FIG. 2 is a schematic rear view of the structural support enclosure of the present utility model;

FIG. 3 is a schematic cross-sectional view of the structural linkage assembly of the present utility model;

FIG. 4 is a schematic cross-sectional view of the outlet assembly of the present utility model;

FIG. 5 is a schematic elevational view of the structure of the present utility model;

fig. 6 is an enlarged schematic view of the structure of the present utility model at a in fig. 3.

In the figure: 1. a console; 2. a vacuum coating tank; 3. a first control cabinet; 4. a second control cabinet; 5. a galvanization nozzle assembly; 6. an auxiliary housing; 7. a first screw; 8. a linkage assembly; 81. a linkage rod; 82. an auxiliary sleeve plate; 9. high temperature resistant sealing ring; 10. a stop collar assembly; 11. a compression spring; 12. an outlet assembly; 121. a discharge guide plate; 122. a limiting plate; 123. and a second screw.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-6, a galvanization device for processing a metallized film comprises a control console 1, a vacuum plating tank 2, a first control cabinet 3 and a second control cabinet 4 positioned at two sides of the vacuum plating tank 2, wherein a galvanization nozzle assembly 5 and an auxiliary housing 6 are arranged in the vacuum plating tank 2, and a first screw 7 is arranged between a rear end structure of the auxiliary housing 6 and a front end structure of the galvanization nozzle assembly 5;

the inside of the auxiliary housing 6 is sleeved with an outlet assembly 12, the middle part of the outlet assembly 12 is provided with a galvanized notch aligned with a discharge port of the galvanized nozzle assembly 5, the inside of the outlet assembly 12 is provided with two discharge guide plates 121 and two limiting plates 122, the two limiting plates 122 are fixedly sleeved in the two sides of the auxiliary housing 6 respectively, threaded holes are formed in the front end structures of the two limiting plates 122, the two discharge guide plates 121 are mutually symmetrical, second screws 123 are arranged between the two ends of the two discharge guide plates 121 and the threaded holes in the two discharge guide plates 121, the number of the threaded holes in the two discharge guide plates 121 is not less than two, and the threaded holes are of a blind hole structure;

the rear end structure of the auxiliary housing 6 is provided with a yielding groove, and the inner part of the yielding groove is clamped with a high-temperature-resistant sealing ring 9.

Working principle: when the galvanized spray nozzle assembly is used, the auxiliary housing 6 and the outlet assembly 12 are matched to guide and convey the output direction of the galvanized spray nozzle assembly 5, and the first screw 7 is utilized to enable the auxiliary housing 6 and the galvanized spray nozzle assembly 5 to be installed and fixed, so that the stable use of the structure is met, and meanwhile, the flexibility of subsequent maintenance of the structure is maintained;

when the auxiliary housing 6 and the outlet assembly 12 convey zinc vapor output by the galvanized nozzle assembly 5, the high-temperature-resistant sealing ring 9 fills and seals the connecting gaps of the auxiliary housing 6 and the galvanized nozzle assembly 5, so that the leakage probability of the zinc vapor from the connecting gaps is reduced;

the size of the galvanized notch arranged in the middle of the outlet component 12 can also be adjusted according to the use requirement, specifically, the discharging guide plates 121 with different specifications are assembled and correspondingly installed and adjusted by utilizing the threaded holes in different positions formed in the second screws 123 and the limiting plates 122.

Example two

Referring to fig. 1-6, a galvanization device for processing a metallized film comprises a control console 1, a vacuum plating tank 2, a first control cabinet 3 and a second control cabinet 4 positioned at two sides of the vacuum plating tank 2, wherein a galvanization nozzle assembly 5 and an auxiliary housing 6 are arranged in the vacuum plating tank 2, and a first screw 7 is arranged between a rear end structure of the auxiliary housing 6 and a front end structure of the galvanization nozzle assembly 5;

the inside of the auxiliary housing 6 is sleeved with an outlet assembly 12, the middle part of the outlet assembly 12 is provided with a galvanized notch aligned with a discharge port of the galvanized nozzle assembly 5, the inside of the outlet assembly 12 is provided with two discharge guide plates 121 and two limiting plates 122, the two limiting plates 122 are fixedly sleeved in the two sides of the auxiliary housing 6 respectively, threaded holes are formed in the front end structures of the two limiting plates 122, the two discharge guide plates 121 are mutually symmetrical, second screws 123 are arranged between the two ends of the two discharge guide plates 121 and the threaded holes in the two discharge guide plates 121, the number of the threaded holes in the two discharge guide plates 121 is not less than two, and the threaded holes are of a blind hole structure;

the rear end structure of the auxiliary housing 6 is provided with a yielding groove, the inside of the yielding groove is clamped with a high-temperature-resistant sealing ring 9, one end of the first screw 7, which is located outside the front end structure of the auxiliary housing 6, is sleeved with a linkage assembly 8, the rear end structure of the linkage assembly 8 penetrates through the auxiliary housing 6 to the inside of the yielding groove and is connected with the front end structure surface of the high-temperature-resistant sealing ring 9, the linkage assembly 8 consists of an auxiliary sleeve plate 82 and a linkage rod 81, one end of the linkage rod 81 is fixedly connected with one end of the auxiliary sleeve plate 82, the connecting part of the linkage rod 81 and the auxiliary sleeve plate 82 is in a right-angle structure, the other end of the auxiliary sleeve plate 82 is sleeved with one end of the first screw 7, which is located outside the front end structure of the auxiliary housing 6, and the other end of the linkage rod 81 penetrates through the inside of the auxiliary housing 6 to the yielding groove as a rear end structure of the linkage assembly 8 and is fixedly connected with the front end structure surface of the high-temperature-resistant sealing ring 9 in an adhesive manner, the linkage assembly 8 extends and utilizes the locking pressure of the first screw 7, and then the sealing effect of the high-temperature-resistant sealing ring 9 is improved.

Working principle: when the galvanized spray nozzle assembly is used, the auxiliary housing 6 and the outlet assembly 12 are matched to guide and convey the output direction of the galvanized spray nozzle assembly 5, and the first screw 7 is utilized to enable the auxiliary housing 6 and the galvanized spray nozzle assembly 5 to be installed and fixed, so that the stable use of the structure is met, and meanwhile, the flexibility of subsequent maintenance of the structure is maintained;

when the auxiliary housing 6 and the outlet assembly 12 convey zinc vapor output by the galvanized nozzle assembly 5, the high-temperature-resistant sealing ring 9 further fills and seals the connecting gap between the auxiliary housing 6 and the galvanized nozzle assembly 5 under the action of the installation pressure of the first screw 7 extended by the linkage assembly 8, so that the leakage rate of the zinc vapor from the connecting gap is fully reduced;

the size of the galvanized notch arranged in the middle of the outlet component 12 can also be adjusted according to the use requirement, specifically, the discharging guide plates 121 with different specifications are assembled and correspondingly installed and adjusted by utilizing the threaded holes in different positions formed in the second screws 123 and the limiting plates 122.

Example III

Referring to fig. 1-6, a galvanization device for processing a metallized film comprises a control console 1, a vacuum plating tank 2, a first control cabinet 3 and a second control cabinet 4 positioned at two sides of the vacuum plating tank 2, wherein a galvanization nozzle assembly 5 and an auxiliary housing 6 are arranged in the vacuum plating tank 2, and a first screw 7 is arranged between a rear end structure of the auxiliary housing 6 and a front end structure of the galvanization nozzle assembly 5;

the inside of the auxiliary housing 6 is sleeved with an outlet assembly 12, the middle part of the outlet assembly 12 is provided with a galvanized notch aligned with a discharge port of the galvanized nozzle assembly 5, the inside of the outlet assembly 12 is provided with two discharge guide plates 121 and two limiting plates 122, the two limiting plates 122 are fixedly sleeved in the two sides of the auxiliary housing 6 respectively, threaded holes are formed in the front end structures of the two limiting plates 122, the two discharge guide plates 121 are mutually symmetrical, second screws 123 are arranged between the two ends of the two discharge guide plates 121 and the threaded holes in the two discharge guide plates 121, the number of the threaded holes in the two discharge guide plates 121 is not less than two, and the threaded holes are of a blind hole structure;

the rear end structure of the auxiliary housing 6 is provided with a yielding groove, the inside of the yielding groove is clamped with a high-temperature-resistant sealing ring 9, a limiting sleeve assembly 10 and a compression spring 11 are sleeved in the yielding groove, one end of the compression spring 11 extends to the surface fixed connection of the front end structure of the high-temperature-resistant sealing ring 9, the high-temperature-resistant sealing ring 9 can be completely sleeved in the yielding groove, the limiting sleeve assembly 10 consists of two concentric annular plates, an auxiliary storage space for the compression spring 11 is formed in the yielding groove by the two concentric annular plates, the limiting sleeve assembly 10 is matched with the compression spring 11, reverse acting force is applied to the high-temperature-resistant sealing ring 9 in the sealing use process of the high-temperature-resistant sealing ring 9, and vibration of the connecting part of the auxiliary housing 6 and the galvanized nozzle assembly 5 is buffered and protected while the sealing use effect of the high-temperature-resistant sealing ring 9 is improved.

Working principle: when the galvanized spray nozzle assembly is used, the auxiliary housing 6 and the outlet assembly 12 are matched to guide and convey the output direction of the galvanized spray nozzle assembly 5, and the first screw 7 is utilized to enable the auxiliary housing 6 and the galvanized spray nozzle assembly 5 to be installed and fixed, so that the stable use of the structure is met, and meanwhile, the flexibility of subsequent maintenance of the structure is maintained;

when the auxiliary housing 6 and the outlet assembly 12 convey zinc vapor output by the galvanized nozzle assembly 5, the high-temperature-resistant sealing ring 9 fills and seals the connecting gap between the auxiliary housing 6 and the galvanized nozzle assembly 5, meanwhile, the limiting sleeve assembly 10 is matched with the compression spring 11, reverse acting force is applied to the high-temperature-resistant sealing ring 9 in the sealing process of the high-temperature-resistant sealing ring 9, and vibration at the connecting position of the auxiliary housing 6 and the galvanized nozzle assembly 5 is buffered and protected while the sealing use effect of the high-temperature-resistant sealing ring 9 is improved;

the size of the galvanized notch arranged in the middle of the outlet component 12 can also be adjusted according to the use requirement, specifically, the discharging guide plates 121 with different specifications are assembled and correspondingly installed and adjusted by utilizing the threaded holes in different positions formed in the second screws 123 and the limiting plates 122.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Meanwhile, in the drawings of the present utility model, the filling pattern is only for distinguishing the layers, and is not limited in any way.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a zinc-plating device for metallized film processing, includes control cabinet (1), vacuum coating jar (2), and be located first switch board (3), second switch board (4) of vacuum coating jar (2) both sides, its characterized in that: a galvanization nozzle assembly (5) and an auxiliary housing (6) are arranged in the vacuum coating tank (2), and a first screw (7) is arranged between the rear end structure of the auxiliary housing (6) and the front end structure of the galvanization nozzle assembly (5);

the inside cover of auxiliary housing (6) is equipped with export subassembly (12), and the middle part of export subassembly (12) is provided with the galvanizing line notch with galvanization nozzle assembly (5) discharge port, the rear end structure of auxiliary housing (6) has seted up the groove of stepping down, the inside joint in the groove of stepping down has high temperature resistant sealing washer (9).

2. A galvanising apparatus for metallised film processing according to claim 1, wherein: one end of the first screw (7) positioned outside the front end structure of the auxiliary housing (6) is sleeved with a linkage assembly (8), and the rear end structure of the linkage assembly (8) penetrates through the auxiliary housing (6) to the inside of the abdication groove and is connected with the front end structure surface of the high-temperature-resistant sealing ring (9).

3. A galvanising apparatus for metallised film processing according to claim 2, wherein: linkage subassembly (8) are by supplementary nest plate (82), linkage pole (81) are constituteed, the one end fixed connection of linkage pole (81) and the one end of supplementary nest plate (82), and the junction of linkage pole (81) and supplementary nest plate (82) is right angle structure, the other end and the one end suit that first screw (7) are located the auxiliary housing (6) front end structure outside of supplementary nest plate (82), the rear end structure of linkage pole (81) as linkage subassembly (8) runs through auxiliary housing (6) to the inside of stepping down the groove and with high temperature resistant sealing washer (9) front end structure surface gluing is fixed.

4. A galvanising apparatus for metallised film processing according to claim 1, wherein: the inside cover of the groove of stepping down is equipped with stop collar subassembly (10) and compression spring (11), the one end of compression spring (11) extends to the fixed surface of high temperature resistant sealing washer (9) front end structure and connects, high temperature resistant sealing washer (9) can be completely the suit in the inside of the groove of stepping down.

5. A galvanising apparatus for metallised film processing as claimed in claim 4, wherein: the limiting sleeve assembly (10) consists of two concentric ring sleeve plates, and the two concentric ring sleeve plates form an auxiliary storage space for the compression spring (11) in the abdicating groove.

6. A galvanising apparatus for metallised film processing according to claim 1, wherein: the inside of export subassembly (12) all is provided with two ejection of compact baffle (121), two limiting plate (122) are fixed respectively cup joints in the inside of auxiliary housing (6) both sides, and threaded hole has all been seted up to the inside of two limiting plate (122) front end structures, two ejection of compact baffle (121) are symmetrical each other, and installs second screw (123) between the screw hole of two ejection of compact baffle (121) both ends and two ejection of compact baffle (121) inside.

7. A galvanising apparatus for metallised film processing according to claim 6, wherein: the number of threaded holes in the two discharging guide plates (121) is not less than two, and the threaded holes are of blind hole structures.