阅读说明：本技术 一种用于蓄电池生产的asb板的压痕装置 (Indentation device for ASB plate for storage battery production ) 是由 吴标 杨新明 张利棒 肖垒 于 2021-01-08 设计创作，主要内容包括：本发明公开了一种用于蓄电池生产的ASB板的压痕装置,涉及蓄电池生产技术领域。本发明包括机架；机架的上部对称固定有一对侧撑梁；两侧撑梁之间装设有动力输送带；两侧撑梁之间并排架设有第一横梁和第二横梁；第一横梁的上表面开设有下料口；下料口的上方固定有限位框；限位框的上部竖直固定有储料筒；第二横梁与第一横梁之间装设有一用于使动力输送带上的ASB板进行整齐排列的位置校正组件。本发明不仅结构设计合理、操作便捷,而且具有较高机械自动化程度,有效地保证了对电池极板的包覆效果,提高了电池的生产质量,减少了电池组装时耗,具有较高的市场应用价值。(The invention discloses an indentation device for an ASB plate for storage battery production, and relates to the technical field of storage battery production. The invention comprises a frame; a pair of side supporting beams are symmetrically fixed on the upper part of the frame; a power conveyer belt is arranged between the two side supporting beams; a first cross beam and a second cross beam are arranged between the supporting beams at the two sides in parallel; the upper surface of the first cross beam is provided with a feed opening; a limiting frame is fixed above the feed opening; a material storage barrel is vertically fixed at the upper part of the limiting frame; and a position correction assembly for aligning the ASB plates on the power conveying belt is arranged between the second cross beam and the first cross beam. The battery pole plate coating machine has the advantages of reasonable structural design, convenience in operation and higher mechanical automation degree, effectively ensures the battery pole plate coating effect, improves the production quality of batteries, reduces the battery assembly time consumption, and has higher market application value.)

1. Indentation device for ASB plates for battery production, characterized by comprising a frame (1); a pair of side supporting beams (101) are symmetrically fixed on the upper part of the frame (1); a power conveying belt (2) is arranged between the two side supporting beams (101);

a first cross beam (3) and a second cross beam (4) are arranged between the two side supporting beams (101) in a parallel frame mode; a blanking port (301) is formed in the upper surface of the first cross beam (3); a limiting frame (302) is fixed above the feed opening (301); a material storage barrel (303) is vertically fixed at the upper part of the limiting frame (302);

the material storage barrel (303) is arranged on one side of the feed opening (301); a first power telescopic rod (304) is horizontally fixed on the other side of the feed opening (301); the output end of the first power telescopic rod (304) extends to the limiting frame (302) and is fixed with a material stirring rod (305); the material stirring rod (305) is used for stirring the ASB plate from the material storage barrel (303) into the feed opening (301);

a position correction assembly for aligning ASB plates on the power conveying belt (2) is arranged between the second cross beam (4) and the first cross beam (3); a second power telescopic rod (401) is vertically fixed on the second cross beam (4); the output end of the second power telescopic rod (401) extends to the lower part of the second cross beam (4) and is horizontally fixed with a pressing block (402) used for pressing an ASB plate; a supporting plate (403) is arranged below the pressing block (402); the supporting plate (403) is horizontally fixed on the inner side of the power conveying belt (2); the upper surface of the supporting plate (403) is attached to the inner surface of the power conveying belt (2).

2. Indentation apparatus for ASB plates for battery production according to claim 1 characterized by that the side of the power conveyor belt (2) is provided with a collection box (5) with open top; the material collecting box (5) is fixed on the rack (1), and the material collecting box (5) is arranged on one side, far away from the first cross beam (3), of the second cross beam (4).

3. The indentation device for the ASB plate for the storage battery production according to claim 1, characterized in that a notch structure (306) for inserting the material pulling rod (305) is arranged on one side of the limiting frame (302) far away from the first power telescopic rod (304); the notch structure (306) is arranged below the storage barrel (303); the material poking rod (305) is of a T-shaped structure.

4. Indentation apparatus for ASB plates for battery production according to claim 1 characterized in that said position correction assembly comprises a pair of bearing plates (6) fixed to opposite inner sides of the side stay beams (101), respectively; a guide rod (601) is fixed on the upper surface of the bearing plate (6) along the length direction of the side supporting beam (101); the guide rod (601) is sleeved with a pair of guide sleeves (602) in a sliding manner; a transmission rod (603) is connected to the guide sleeve (602) in a rotating manner; one ends of two transmission rods (603) positioned on the same guide rod (601) are connected through a positioning plate (604); the two positioning plates (604) are arranged in parallel, and the positioning plates (604) are perpendicular to the working surface of the power conveying belt (2).

5. The indentation apparatus for ASB plates for secondary battery production according to claim 4, characterized in that a tension spring (605) is sleeved on the guide bar (601); the tensioning spring (605) is arranged between the two guide sleeves (602) on the guide rod (601), and two ends of the tensioning spring (605) are respectively connected with the opposite inner end surfaces of the two guide sleeves (602).

6. Indentation apparatus for ASB plates for battery production according to claim 4 or 5 characterized in that a third beam (7) is erected between the two side girders (101); the third cross beam (7) is arranged above the positioning plate (604); a bidirectional screw rod (701) is rotatably arranged below the third cross beam (7) along the length direction; a pair of nuts are matched on the bidirectional screw rod (701); a position adjusting block (702) is vertically fixed on each of the two nuts; the two positioning blocks (702) are respectively arranged at the opposite outer sides of the two positioning plates (604), and the opposite inner sides of the two positioning blocks (702) are respectively attached to the opposite outer sides of the two positioning plates (604).

7. The indentation apparatus for ASB plates for battery production according to claim 6, wherein a third power telescopic rod (8) is fixed to the upper surface of the positioning plate (604) along the length direction of the side support beam (101); a transmission rack (801) is axially fixed at the output end of the third power telescopic rod (8); a transmission gear (802) is meshed with the transmission rack (801); the transmission gear (802) is fixed on a vertically arranged transmission shaft; the transmission shaft is rotatably connected to one end of the positioning plate (604); a driving strip (803) is radially fixed on the transmission shaft; a limiting plate (804) is fixed on the lower surface of the driving strip (803) along the length direction; the limiting plate (804) is arranged between the positioning plate (604) and the first cross beam (3).

Technical Field

The invention belongs to the technical field of storage battery production, and particularly relates to an indentation device for an ASB plate for storage battery production.

Background

At present, in the assembly of the battery pole group in the prior art, because the end faces of the ASB plates are not parallel and level, when the battery pole plates are matched with the ASB plates, the coating of the battery pole plates is not smooth, the quality of the battery is influenced, and meanwhile, the assembly of the battery is difficult. Therefore, there is a need to develop an indentation apparatus for ASB sheets for secondary battery production in order to solve the above problems.

Disclosure of Invention

The present invention is directed to an indentation apparatus for ASB sheets for battery production, which is designed to solve the problems set forth in the background art described above.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an indentation device of an ASB plate for producing a storage battery, which comprises a frame; a pair of side supporting beams are symmetrically fixed on the upper part of the rack; a power conveying belt is arranged between the two side supporting beams; a first cross beam and a second cross beam are arranged between the two side supporting beams in parallel; a discharging opening is formed in the upper surface of the first cross beam; a limiting frame is fixed above the feed opening; a material storage barrel is vertically fixed at the upper part of the limiting frame; the material storage cylinder is arranged on one side of the feed opening; a first power telescopic rod is horizontally fixed on the other side of the feed opening; the output end of the first power telescopic rod extends to the limiting frame and is fixed with a material poking rod; the material poking rod is used for poking the ASB plate from the material storage barrel into the material outlet; a position correction assembly for enabling ASB plates on the power conveying belt to be arranged in order is arranged between the second cross beam and the first cross beam; a second power telescopic rod is vertically fixed on the second cross beam; the output end of the second power telescopic rod extends to the lower part of the second cross beam and is horizontally fixed with a pressing block for pressing the ASB plate; a supporting plate is arranged below the pressing block; the supporting plate is horizontally fixed on the inner side of the power conveying belt; the upper surface of the supporting plate is attached to the inner surface of the power conveying belt.

Furthermore, a material collecting box with an open structure at the upper end is arranged on one side of the power conveying belt; the material collecting box is fixed on the rack and arranged on one side, far away from the first cross beam, of the second cross beam.

Furthermore, a gap structure for inserting the material poking rod is arranged on one side, away from the first power telescopic rod, of the limiting frame; the notch structure is arranged below the material storage barrel; the material poking rod is of a T-shaped structure.

Furthermore, the position correction assembly comprises a pair of bearing plates which are respectively fixed on the opposite inner side surfaces of the two side supporting beams; a guide rod is fixed on the upper surface of the bearing plate along the length direction of the side supporting beam; the guide rod is slidably sleeved with a pair of guide sleeves; a transmission rod is rotatably connected on the guide sleeve; one ends of two transmission rods positioned on the same guide rod are connected through a positioning plate; the two positioning plates are arranged in parallel and are perpendicular to the working face of the power conveying belt.

Furthermore, a tension spring is sleeved on the guide rod; the tensioning spring is arranged between the two guide sleeves on the guide rod, and two ends of the tensioning spring are respectively connected with the opposite inner end faces of the two guide sleeves.

Furthermore, a third cross beam is erected between the two side supporting beams; the third cross beam is arranged above the positioning plate; a bidirectional screw rod is rotatably arranged below the third cross beam along the length direction; a pair of nuts are matched on the bidirectional screw rod; a position adjusting block is vertically fixed on each of the two nuts; the two positioning blocks are respectively arranged at the opposite outer sides of the two positioning plates, and the opposite inner sides of the two positioning blocks are respectively attached to the opposite outer sides of the two positioning plates.

Furthermore, a third power telescopic rod is fixed on the upper surface of the positioning plate along the length direction of the side supporting beam; a transmission rack is axially fixed at the output end of the third power telescopic rod; a transmission gear is meshed with the transmission rack; the transmission gear is fixed on a vertically arranged transmission shaft; the transmission shaft is rotatably connected to one end of the positioning plate; a driving strip is radially fixed on the transmission shaft; a limiting plate is fixed on the lower surface of the driving strip along the length direction; the limiting plate is arranged between the positioning plate and the first cross beam.

The invention has the following beneficial effects:

according to the automatic indentation machine, the ASB plates are stacked in the material storage barrel, the material shifting rod is used for conveying the ASB plates to the power conveying belt, the position correction assembly is used for enabling the ASB plates on the power conveying belt to be arranged in order, and the pressing device is used for forming the groove on the ASB plates, so that the automatic indentation operation of the ASB plates is realized.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of an indentation device of an ASB sheet for battery production according to the present invention;

FIG. 2 is a front view of the structure of FIG. 1;

FIG. 3 is a top view of the structure of FIG. 1;

FIG. 4 is a schematic structural view of the storage canister of the present invention mounted on the first cross beam;

FIG. 5 is a schematic structural diagram of a position calibration assembly according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a rack, 2-a power conveying belt, 3-a first beam, 4-a second beam, 5-a material collecting box, 6-a bearing plate, 7-a third beam, 8-a third power telescopic rod, 101-a side supporting beam, 301-a feed opening, 302-a limiting frame, 303-a material storage barrel, 304-a first power telescopic rod, 305-a material stirring rod, 306-a notch structure, 401-a second power telescopic rod, 402-a pressing block, 403-a supporting plate, 601-a guide rod, 602-a guide sleeve, 603-a transmission rod, 604-a positioning plate, 605-a tensioning spring, 701-a bidirectional screw rod, 702-a positioning block, 801-a transmission rack, 802-a transmission gear, 803-a driving strip and 804-a limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention relates to an indentation device for ASB plate for battery production, which comprises a frame 1; a pair of side supporting beams 101 are symmetrically fixed on the upper part of the frame 1; a power conveyer belt 2 is arranged between the two side supporting beams 101; the power conveyer belt 2 is driven by an intermittent driving component consisting of a first stepping motor and a sheave mechanism;

a first beam 3 in an n-type structure and a second beam 4 in an n-type structure are erected between the supporting beams 101 at the two sides in parallel; a blanking port 301 is formed in the upper surface of the first cross beam 3; a limit frame 302 is fixed above the feed opening 301; a material storage barrel 303 with an open structure at both the upper end and the lower end is vertically fixed at the upper part of the limit frame 302; a plurality of ASB plates are sequentially stacked in the material storage barrel 303; the material storage cylinder 303 is arranged on one side of the feed opening 301; a first power telescopic rod 304 is horizontally fixed on the other side of the feed opening 301; the first power extension pole 304 is a conventional electric push rod in the art; the output end of the first power telescopic rod 304 extends to the limit frame 302 and is fixed with a material stirring rod 305; the material stirring rod 305 is used for stirring the ASB plate from the material storage barrel 303 to the material outlet 301;

a position correction component for aligning ASB plates on the power conveyer belt 2 is arranged between the second cross beam 4 and the first cross beam 3; a second power telescopic rod 401 is vertically fixed on the second cross beam 4; the second power telescopic rod 401 is a conventional electric push rod in the field; the output end of the second power telescopic rod 401 extends to the lower part of the second cross beam 4 and is horizontally fixed with a pressing block 402 for pressing the ASB plate; a supporting plate 403 is arranged below the pressing block 402; the supporting plate 403 is horizontally fixed on the inner side of the power transmission belt 2; the upper surface of the support plate 403 is in abutment with the inner surface of the power transmission belt 2.

As shown in fig. 1-3, a material collecting box 5 with an open top is arranged on one side of the power conveying belt 2; the material collecting box 5 is fixed on the frame 1, and the material collecting box 5 is arranged on one side of the second beam 4 far away from the first beam 3.

As shown in fig. 4, a notch structure 306 for inserting the material pulling rod 305 is disposed on a side of the position-limiting frame 302 away from the first power expansion rod 304; the notch structure 306 is arranged below the storage cylinder 303; the kick-off lever 305 is a T-shaped structure, and when the kick-off lever 305 is located above the material inlet 301, the ASB plate located at the lowest position of the material storage barrel 303 is still overlapped above the kick-off lever 305.

As shown in fig. 5, the position correcting assembly includes a pair of bearing plates 6 fixed to the opposite inner sides of the two side supporting beams 101; a guide rod 601 is fixed on the upper surface of the bearing plate 6 along the length direction of the side supporting beam 101; a pair of guide sleeves 602 are slidably sleeved on the guide rod 601; a transmission rod 603 is rotatably connected to the guide sleeve 602; one ends of two transmission rods 603 positioned on the same guide rod 601 are connected through a positioning plate 604; the two positioning plates 604 are arranged in parallel, and the positioning plates 604 are perpendicular to the working surface of the power conveyer belt 2; a tension spring 605 is sleeved on the guide rod 601; the tension spring 605 is disposed between the two guide sleeves 602 on the guide rod 601, and two ends of the tension spring 605 are respectively connected to the opposite inner end surfaces of the two guide sleeves 602.

As shown in fig. 5, a third cross beam 7 with an n-shaped structure is erected between the two side supporting beams 101; the third beam 7 is disposed above the positioning plate 604; a bidirectional screw rod 701 is rotatably arranged below the third beam 7 along the length direction; one end of the bidirectional screw rod 701 is connected to an output shaft of a second stepping motor; a pair of nuts are matched on the bidirectional screw rod 701; a position adjusting block 702 is vertically fixed on each of the two nuts; the two positioning blocks 702 are respectively disposed on opposite outer sides of the two positioning plates 604, and opposite inner sides of the two positioning blocks 702 are respectively attached to opposite outer sides of the two positioning plates 604.

As shown in fig. 5, a third power retractable rod 8 is fixed on the upper surface of the positioning plate 604 along the length direction of the side supporting beam 101; the third power telescopic rod 8 is a conventional electric push rod in the field; a transmission rack 801 is axially fixed at the output end of the third power telescopic rod 8; a transmission gear 802 is meshed with the transmission rack 801; the transmission gear 802 is fixed on a vertically arranged transmission shaft; the transmission shaft is rotatably connected to one end of the positioning plate 604; a driving strip 803 is radially fixed on the transmission shaft; a limiting plate 804 is fixed on the lower surface of the driving bar 803 along the length direction; the limiting plate 804 is disposed between the positioning plate 604 and the first beam 3.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.