CN219239696U - Argon annealing furnace for aluminum foil production - Google Patents

Abstract

The utility model relates to the technical field of aluminum foil production, and particularly discloses an argon annealing furnace for aluminum foil production, which comprises an annealing furnace body and an annealing furnace material support frame arranged in the middle of the annealing furnace body, wherein the annealing furnace material support frame comprises an annealing support seat assembly, aluminum foil support bottom plate assemblies are slidably arranged on the left side and the right side of the upper end of the annealing support seat assembly, a positioning supporting plate is hinged to the upper end of the aluminum foil support bottom plate assembly, and an inner side support assembly and an outer side support assembly are arranged between the aluminum foil support bottom plate assembly and the positioning supporting plate; according to the utility model, the position of the aluminum foil support bottom plate assembly at the upper end of the annealing support seat assembly and the outer support assembly are adjusted, so that the support angle and the support distance of the positioning support plate can be correspondingly adjusted, and the application range of the whole support frame is improved; the tool can be used in butt joint with aluminum foil rolls of various types, so that the use cost of the tool is reduced, and the stability and safety of the whole support frame are improved.

Description

Argon annealing furnace for aluminum foil production

Technical Field

The utility model relates to the technical field of aluminum foil production, in particular to an argon annealing furnace for aluminum foil production.

Background

In the prior art, an annealing furnace is adopted to carry out annealing treatment on the aluminum foil, the annealing furnace in the prior art comprises an annealing furnace body and an annealing furnace material supporting frame, a plurality of symmetrical supporting structures are generally arranged on the material supporting frame to ensure the safety of material stacking, for example, a patent number of CN208183051U discloses an electronic aluminum foil finished product annealing frame, the electronic aluminum foil finished product annealing frame is mainly used for effectively improving the production efficiency and production batch of electronic aluminum foil single batch annealing process production, the annealing frame comprises an annealing frame body, and a plurality of main supporting coil frames and auxiliary supporting coil frames are uniformly distributed on frame longitudinal beams in a staggered manner; the main support coil frame comprises a main coil frame base welded and fixed with the longitudinal beam, main coil frame positioning holes which are symmetrical to each other are formed in the left end part and the right end part of the main coil frame base, a main bearing frame is arranged in the main coil frame base, main coil frame matching holes matched with the main coil frame positioning holes in size are formed in the left end part and the right end part of the main bearing frame, and main coil frame positioning pins are transversely arranged between the main coil frame positioning holes and the main coil frame matching holes; the hoisting safety performance of the electronic aluminum foil finished product is ensured, and the patent technology can meet the general use requirements, but the following defects exist in the actual use process:

1. in the argon annealing furnace for aluminum foil production in the prior art, the structure of a material supporting frame is generally a fixed structure, the adjustability is poor, the corresponding supporting distance and supporting angle cannot be adjusted according to the size of an aluminum foil coil, and the adaptability is poor;

2. the argon annealing furnace for aluminum foil production in the prior art has poor suitability of a material supporting frame, and an independent supporting mechanism with a corresponding size range is required to be configured for large-volume aluminum foil, so that the use cost of the tool is increased.

Disclosure of Invention

The utility model aims to provide an argon annealing furnace for aluminum foil production, which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an argon gas annealing stove for aluminium foil production, includes annealing stove body and the annealing stove material support frame that establishes in the middle of the body, annealing stove material support frame includes annealing supporting seat subassembly, the left and right sides of annealing supporting seat subassembly upper end is slided and is furnished with aluminium foil supporting bottom plate subassembly, aluminium foil supporting bottom plate subassembly's upper end articulates there is the location layer board, be equipped with inboard supporting component between the inboard of aluminium foil supporting bottom plate subassembly upper end and the inboard of location layer board lower extreme, and be equipped with outside supporting component between the outside of aluminium foil supporting bottom plate subassembly upper end and the outside of location layer board lower extreme, the bilateral symmetry is equipped with location adjustment subassembly around aluminium foil supporting bottom plate subassembly upper end.

Preferably, the annealing supporting seat assembly comprises a supporting base, guide supporting grooves are symmetrically formed in the front side and the rear side of the upper end of the supporting base, a toothed plate mounting seat is fixedly connected to the inner side of the groove body of the guide supporting groove outwards, an upper toothed positioning plate is fixedly arranged at the lower end of the toothed plate mounting seat, and the aluminum foil supporting bottom plate assembly is matched with the guide supporting grooves in a sliding mode.

Preferably, the aluminum foil support bottom plate assembly comprises a support bottom plate, guide plates of L-shaped plate structures which are matched with the guide support grooves in a sliding mode are symmetrically arranged on the front side and the rear side of the lower end of the support bottom plate, lower tooth-shaped positioning plates are fixedly arranged on the side faces of the guide plates, and the lower tooth-shaped positioning plates are meshed with the upper tooth-shaped positioning plates.

Preferably, the lower end of the supporting bottom plate is provided with adjusting positioning grooves in a front-back symmetrical mode on the inner side of the guide plate, and the middle of the bottom of each adjusting positioning groove is provided with an adjusting screw hole towards the upper end of the supporting bottom plate.

Preferably, the positioning and adjusting assembly comprises a fixed pressing plate arranged in the middle of the adjusting and positioning groove, wherein the upper end of the fixed pressing plate is fixedly connected with an adjusting screw II which is in threaded connection with the adjusting screw hole, and the top of the adjusting screw II is fixedly connected with a rotary table.

Preferably, the inner side supporting component comprises two connecting seats I and a hinge joint I, wherein the connecting seats I are symmetrically arranged on the front side and the rear side of the right upper end of the supporting bottom plate, the hinge joint I is symmetrically arranged on the front side and the rear side of the right lower end of the positioning supporting plate, and the connecting seats I are hinged with the hinge joint I.

Preferably, the outside supporting component includes two articulated seat II and articulated seat III, articulated seat II is symmetrical installation in the front and back both sides of the left lower extreme of location layer board, articulated seat III is symmetrical installation in the front and back both sides of the upper left end of supporting baseplate, articulated seat II's lower extreme articulates there is the upper adjusting head, articulated seat III's upper end articulates there is down the regulation tube socket, the lower extreme fixedly connected with adjusting screw I who goes up the adjusting head, the upper end of lower regulation tube socket is fixed with the screw thread and adjusts the seat, adjusting screw I and screw thread adjust seat looks spiro union, and wears to be furnished with the adjusting spanner at the side of last adjusting head.

Compared with the prior art, the utility model has the beneficial effects that: the utility model has reasonable structure and strong functionality and has the following advantages:

1. according to the utility model, the aluminum foil support bottom plate assembly and the annealing support seat assembly are of a split type support structure, the support angle of the positioning support plate can be adjusted according to the corresponding support distance of different aluminum foil coils by adjusting the position of the aluminum foil support bottom plate assembly at the upper end of the annealing support seat assembly, and meanwhile, the support angle of the positioning support plate relative to the aluminum foil support bottom plate assembly can be correspondingly adjusted by adjusting the outer support assembly, so that the application range of the whole support frame relative to the aluminum foil coils is improved;

2. according to the aluminum foil support base assembly, the relative distance of the aluminum foil support base assembly at the upper end of the annealing support base assembly can be adjusted, the inclined support angle of the positioning support plate at the upper end of the aluminum foil support base assembly can be adjusted, the tooling can be used in butt joint with aluminum foil rolls of various types, the use cost of the tooling is reduced, and the stability and safety of the whole support frame are improved.

Drawings

FIG. 1 is an isometric view of the overall structure of the present utility model;

FIG. 2 is a front view of the overall structure of the present utility model;

FIG. 3 is an isometric view of the cross-sectional structure of FIG. 2 at B-B;

FIG. 4 is an enlarged schematic view of the partial structure at E in FIG. 3;

FIG. 5 is an isometric view of the cross-sectional structure of FIG. 2 taken at D-D;

FIG. 6 is an enlarged schematic view of the partial structure at F in FIG. 5;

FIG. 7 is a left side view of the overall structure of the present utility model;

FIG. 8 is an isometric view of the cross-sectional structure of FIG. 7 at C-C;

fig. 9 is an enlarged schematic view of a partial structure at G in fig. 8.

In the figure: 1. annealing the support seat assembly; 2. an aluminum foil support base plate assembly; 3. an inner support assembly; 4. an outer support assembly; 5. positioning a supporting plate; 6. a positioning adjustment assembly; 101. a support base; 102. a guide support groove; 103. a tooth-shaped plate mounting seat; 104. a tooth-shaped positioning plate is arranged; 201. a support base plate; 202. a guide plate; 203. a lower tooth-shaped positioning plate; 204. adjusting the positioning groove; 205. adjusting the screw hole; 301. a cross joint seat I; 302. a hinge joint I; 401. a hinging seat II; 402. a hinge seat III; 403. an upper adjusting head; 404. adjusting a screw I; 405. a lower adjusting tube seat; 406. a screw thread adjusting seat; 407. adjusting a wrench; 601. a fixed pressing plate; 602. adjusting a screw II; 603. a turntable.

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.

Referring to fig. 1 to 9, the present utility model provides a technical solution: an argon gas annealing stove for aluminium foil production, including annealing stove body and the annealing stove material support frame that establishes in the middle of the stove body, annealing stove material support frame includes annealing supporting seat subassembly 1, the left and right sides of annealing supporting seat subassembly 1 upper end is smooth to be furnished with aluminium foil supporting baseplate subassembly 2, aluminium foil supporting baseplate subassembly 2's upper end articulates there is location layer board 5, be equipped with inboard supporting subassembly 3 between the inboard of aluminium foil supporting baseplate subassembly 2 upper end and the inboard of location layer board 5 lower extreme, and be equipped with outside supporting subassembly 4 between the outside of aluminium foil supporting baseplate subassembly 2 upper end and the outside of location layer board 5 lower extreme, the front and back bilateral symmetry of aluminium foil supporting baseplate subassembly 2 upper end is equipped with location adjustment subassembly 6, wherein, annealing supporting seat subassembly 1 plays a direction supporting role relative aluminium foil supporting baseplate subassembly 2, aluminium foil supporting baseplate subassembly 3 plays a bottom sprag effect with outside supporting subassembly 4, location layer board 5 then plays a bottom sprag effect of relative aluminium foil supporting baseplate subassembly 2, location adjustment subassembly 6 plays a spacing adjusting role relative aluminium foil supporting baseplate subassembly 2, inside supporting subassembly 3 plays a spacing adjusting role between aluminium foil supporting baseplate subassembly 2 and the outside supporting baseplate subassembly 5 and the outside of location layer board 5, make aluminium foil supporting baseplate subassembly 2 the relative height adjustment angle adjustment is reached between the supporting baseplate subassembly 2 and the outside supporting baseplate subassembly is adjusted through the outside.

Further, the annealing supporting seat assembly 1 comprises a supporting base 101, guide supporting grooves 102 are symmetrically formed in the front side and the rear side of the upper end of the supporting base 101, tooth-shaped plate mounting seats 103 are fixedly connected to the inner sides of groove bodies of the guide supporting grooves 102 outwards, tooth-shaped positioning plates 104 are fixedly arranged at the lower ends of the tooth-shaped plate mounting seats 103, an aluminum foil supporting bottom plate assembly 2 is matched with the guide supporting grooves 102 in a sliding mode, wherein the guide supporting grooves 102 play a bottom supporting role relative to the aluminum foil supporting bottom plate assembly 2, and the tooth-shaped plate mounting seats 103 play a top fixing supporting role relative to the tooth-shaped positioning plates 104.

Further, the aluminum foil support bottom plate assembly 2 comprises a support bottom plate 201, guide plates 202 which are in an L-shaped plate-shaped structure and are matched with the guide support grooves 102 in a sliding mode are symmetrically arranged on the front side and the rear side of the lower end of the support bottom plate 201, lower tooth-shaped positioning plates 203 are fixedly arranged on the side faces of the guide plates 202, the lower tooth-shaped positioning plates 203 are meshed with the upper tooth-shaped positioning plates 104, the guide plates 202 play a guiding role in the guide support grooves 102 relative to the support bottom plate 201, the guide plates 202 play a bottom fixing supporting role relative to the lower tooth-shaped positioning plates 203, relative movement between the aluminum foil support bottom plate assembly 2 and the annealing support seat assembly 1 can be controlled through meshing of the lower tooth-shaped positioning plates 203 and the upper tooth-shaped positioning plates 104, when the lower tooth-shaped positioning plates 203 are separated from the upper tooth-shaped positioning plates 104, and when the lower tooth-shaped positioning plates 203 are meshed with the upper tooth-shaped positioning plates 104, the aluminum foil support bottom plate assembly 2 and the annealing support seat assembly 1 are relatively fixed.

Further, the lower end of the supporting bottom plate 201 and the inner side of the guide plate 202 are provided with adjusting positioning grooves 204 in a front-back symmetrical manner, the middle of the bottom of the adjusting positioning grooves 204 is provided with adjusting screw holes 205 towards the upper end of the supporting bottom plate 201, wherein the adjusting positioning grooves 204 play a role in avoiding air relative to the fixed pressing plate 601, and the adjusting screw holes 205 play a role in screwing transmission relative to the adjusting screw rods II 602.

Further, the positioning adjusting assembly 6 comprises a fixed pressing plate 601 arranged in the middle of the adjusting positioning groove 204, an adjusting screw rod II602 which is in threaded connection with the adjusting screw hole 205 is fixedly connected to the upper end of the fixed pressing plate 601, and a turntable 603 is fixedly connected to the top of the adjusting screw rod II602, wherein when the aluminum foil supporting bottom plate assembly 2 and the annealing supporting seat assembly 1 are required to move relatively, the adjusting screw rod II602 is in threaded connection with the adjusting screw hole 205 to drive the fixed pressing plate 601 to move upwards in the adjusting positioning groove 204, the lower end of the adjusting positioning groove 204 is separated from the upper end face of the supporting base 101, and the lower tooth-shaped positioning plate 203 and the upper tooth-shaped positioning plate 104 are in a separated state, so that the aluminum foil supporting bottom plate assembly 2 and the annealing supporting seat assembly 1 can move relatively; when the aluminum foil support bottom plate assembly 2 and the annealing support seat assembly 1 are required to be fixed, the rotary turntable 603 enables the adjusting screw II602 to be in threaded connection with the adjusting screw hole 205, and enables the fixed pressing plate 601 to move downwards in the adjusting positioning groove 204, so that the lower end of the fixed pressing plate 601 is tightly propped against the upper end face of the support bottom plate 201, and further the lower toothed positioning plate 203 on the side face of the support bottom plate 201 integrally connected with the guide plate 202 moves upwards, so that the lower toothed positioning plate 203 is meshed with the upper toothed positioning plate 104, and further the aluminum foil support bottom plate assembly 2 and the annealing support seat assembly 1 are in a relatively fixed state.

Further, the inner support assembly 3 includes two connecting seats I301 and a hinge joint I302, the connecting seats I301 are symmetrically installed on the front and rear sides of the right upper end of the support bottom plate 201, the hinge joint I302 is symmetrically installed on the front and rear sides of the right lower end of the positioning support plate 5, and the connecting seats I301 are hinged to the hinge joint I302, and the hinge structure enables the outer end of the positioning support plate 5 to rotate around the inner end of the aluminum foil support bottom plate assembly 2 by a certain angle, and the inner support assembly 3 plays a role of rotating and supporting the positioning support plate 5 on one side of the upper end of the aluminum foil support bottom plate assembly 2.

Further, the outer support assembly 4 includes two hinge bases II 401 and III 402, the hinge bases II 401 are symmetrically installed on front and back sides of the left lower end of the positioning support plate 5, the hinge bases III 402 are symmetrically installed on front and back sides of the left upper end of the support bottom plate 201, the lower end of the hinge bases II 401 is hinged with an upper adjusting head 403, the upper end of the hinge bases III 402 is hinged with a lower adjusting tube seat 405, the lower end of the upper adjusting head 403 is fixedly connected with an adjusting screw I404, a threaded adjusting seat 406 is fixedly arranged at the upper end of the lower adjusting tube seat 405, the adjusting screw I404 is in threaded connection with the threaded adjusting seat 406, and an adjusting wrench 407 is arranged on the side surface of the upper adjusting head 403, before operation, the upper adjusting head 403 is separated from the hinge shaft of the hinge bases II 401, then the upper adjusting head 403 is in threaded connection with the threaded adjusting seat 406 through rotating the adjusting wrench, the supporting height of the upper adjusting head 403 relative to the lower adjusting tube seat 405 is changed, and then the supporting height of the outer side of the positioning support plate 5 and the outer side of the aluminum foil support assembly 2 is changed, the corresponding inclination angle is adjusted accordingly, and the aluminum foils can be stably supported according to different inclination angles.

Before working, according to the size of an aluminum foil coil, the relative distance and the inclination angle of the positioning support plate 5 at the upper end of the aluminum foil support bottom plate assembly 2 are adjusted, the rotary table 603 firstly rotates to enable the lower end face of the fixed pressing plate 601 to be separated from the upper end face of the support base 101, then the support bottom plate 201 is moved to adjust to the corresponding interval distance according to the size of the aluminum foil coil, then the rotary table 603 rotates to enable the fixed pressing plate 601 to tightly prop against the upper end face of the support base 101, the lower tooth-shaped positioning plate 203 on the side face of the support bottom plate 201 together with the guide plate 202 is meshed with the upper tooth-shaped positioning plate 104, the aluminum foil support bottom plate assembly 2 and the annealing support base assembly 1 are in a relatively fixed state, then the hinge pin of the upper adjusting head 403 and the hinge base II 401 are taken out, the upper adjusting head 403 and the hinge base II are separated, and the corresponding support height is adjusted according to the size of the aluminum foil coil, specifically, the adjusting method is that the rotary adjusting spanner 407 enables the adjusting screw I404 on the lower end of the upper adjusting head 403 and the screw adjusting base 406 on the lower end of the lower adjusting tube base 405 to be in a transmission mode, the relative height of the upper adjusting head 403 and the lower end of the lower adjusting tube base 405 is meshed with the lower tooth-shaped positioning plate 203, the relative height of the lower tooth-shaped positioning plate 203 is meshed with the upper tooth-shaped positioning plate, the upper tooth-shaped positioning plate assembly 2 and the aluminum foil support bottom plate assembly is correspondingly fixed, the hinge pin 2 is correspondingly adjusted, the hinge pin of the aluminum foil support bottom plate is correspondingly adjusted, and the stability of the aluminum foil support assembly is adjusted, and the stability of the utility model is improved, and the stability of the hinge-in-position and the stability is correspondingly, and the stability is adjusted.

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. An argon gas annealing furnace for aluminum foil production, includes an annealing furnace body and an annealing furnace material support frame arranged in the middle of the annealing furnace body, and is characterized in that: the annealing furnace material support frame comprises an annealing support seat assembly (1), aluminum foil support bottom plate assemblies (2) are slidably arranged on the left side and the right side of the upper end of the annealing support seat assembly (1), positioning support plates (5) are hinged to the upper end of the aluminum foil support bottom plate assemblies (2), inner side support assemblies (3) are arranged between the inner side of the upper end of the aluminum foil support bottom plate assemblies (2) and the inner side of the lower end of the positioning support plates (5), outer side support assemblies (4) are arranged between the outer side of the upper end of the aluminum foil support bottom plate assemblies (2) and the outer side of the lower end of the positioning support plates (5), and positioning adjusting assemblies (6) are symmetrically arranged on the front side and the rear side of the upper end of the aluminum foil support bottom plate assemblies (2).

2. An argon annealing furnace for aluminum foil production according to claim 1, wherein: the annealing supporting seat assembly (1) comprises a supporting base (101), guide supporting grooves (102) are symmetrically formed in the front side and the rear side of the upper end of the supporting base (101), tooth-shaped plate mounting seats (103) are fixedly connected to the inner sides of groove bodies of the guide supporting grooves (102) outwards, tooth-shaped positioning plates (104) are fixedly arranged at the lower ends of the tooth-shaped plate mounting seats (103), and the aluminum foil supporting bottom plate assembly (2) is matched with the guide supporting grooves (102) in a sliding mode.

3. An argon annealing furnace for aluminum foil production according to claim 2, wherein: the aluminum foil supporting bottom plate assembly (2) comprises a supporting bottom plate (201), guide plates (202) of an L-shaped plate-shaped structure, which are matched with the guide supporting grooves (102) in a sliding mode, are symmetrically arranged on the front side and the rear side of the lower end of the supporting bottom plate (201), lower tooth-shaped positioning plates (203) are fixedly arranged on the side faces of the guide plates (202), and the lower tooth-shaped positioning plates (203) are meshed with the upper tooth-shaped positioning plates (104).

4. An argon annealing furnace for aluminum foil production according to claim 3, wherein: the lower end of the supporting bottom plate (201) is provided with adjusting positioning grooves (204) in front and back symmetry on the inner side of the guide plate (202), and the middle of the bottom of the adjusting positioning grooves (204) is provided with adjusting screw holes (205) towards the upper end of the supporting bottom plate (201).

5. An argon annealing furnace for aluminum foil production according to claim 4, wherein: the positioning adjusting assembly (6) comprises a fixed pressing plate (601) arranged in the middle of an adjusting positioning groove (204), an adjusting screw II (602) which is in threaded connection with an adjusting screw hole (205) is fixedly connected to the upper end of the fixed pressing plate (601), and a rotary table (603) is fixedly connected to the top of the adjusting screw II (602).

6. An argon annealing furnace for aluminum foil production according to claim 2, wherein: the inner side supporting component (3) comprises two connecting seats I (301) and a hinge joint I (302), wherein the connecting seats I (301) are symmetrically arranged on the front side and the rear side of the right upper end of the supporting bottom plate (201), the hinge joint I (302) is symmetrically arranged on the front side and the rear side of the right lower end of the positioning supporting plate (5), and the connecting seats I (301) are hinged with the hinge joint I (302).

7. An argon annealing furnace for aluminum foil production according to claim 2, wherein: the outside supporting component (4) comprises two articulated seat II (401) and an articulated seat III (402), wherein the two front sides and the rear sides of the left lower end of the positioning support plate (5) are symmetrically installed, the articulated seat III (402) is symmetrically installed on the front side and the rear side of the left upper end of the supporting bottom plate (201), the lower end of the articulated seat II (401) is hinged with an upper adjusting head (403), the upper end of the articulated seat III (402) is hinged with a lower adjusting tube seat (405), the lower end of the upper adjusting head (403) is fixedly connected with an adjusting screw I (404), the upper end of the lower adjusting tube seat (405) is fixedly provided with a threaded adjusting seat (406), the adjusting screw I (404) is in threaded connection with the threaded adjusting seat (406), and an adjusting wrench (407) is worn on the side surface of the upper adjusting head (403).

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