CN219335661U - Foam nickel piece butt joint machine - Google Patents

Abstract

The utility model relates to a foam nickel sheet butt-joint machine, which comprises a machine table and is characterized in that a work-piece butt-joint mechanism and a work-piece pre-pressing mechanism are sequentially arranged on a working surface of the machine table along the conveying direction of a work-piece, wherein the work-piece butt-joint mechanism comprises a work-piece compressing device for compressing and fixing a front section of work-piece and a rear section of work-piece and a receiving device for connecting the front section of work-piece and the rear section of work-piece end to end; the workpiece pre-pressing mechanism comprises a rear frame connected to the machine table, and an upper pre-pressing piece, a lower pre-pressing piece and a pre-pressing power device for driving the upper pre-pressing piece and the lower pre-pressing piece to move relatively so as to flatten the joint of the workpieces are arranged on the rear frame; the butt joint machine can automatically butt joint the front section and the rear section of foam nickel sheets, can flatten concave-convex marks after being jointed, keeps the whole foam nickel sheet smooth and smooth, has the advantages of simple and reliable structure, safe operation and use, low manufacturing cost, manpower saving, high butt joint work efficiency, accurate control of the butt joint positions of the two sections of foam nickel sheets and good butt joint effect.

Description

Foam nickel piece butt joint machine

Technical Field

The utility model relates to the field of processing equipment, in particular to a foam nickel sheet butt joint machine.

Background

Along with the improvement of the modernization level of society, the performance requirement of people on rechargeable batteries is higher and higher, the requirements on the power output of the rechargeable batteries are reflected, the internal resistance of the rechargeable batteries are required to be reduced to meet the requirements of electric tools or electric appliances, and the high-current discharge of the rechargeable batteries is realized, in order to realize the performance, the current rechargeable batteries adopt foam nickel sheets to be produced through a wet-process sheet-making and pole piece winding process, but the length of one section of foam nickel sheet is always limited, so that the front section and the rear section of foam nickel sheet are inevitably required to be butted in the production process, the current butt joint mode needs to use a plurality of sets of processing equipment and a plurality of programs, even needs to be operated manually, the processing efficiency is low, the cost is high, and the conditions that the interfaces of the front section and the rear section of foam nickel sheet are not uniform and the butt joint effect is not ideal are easily caused when the manual operation is required, so that the butt joint machine which can be used for the consumer to select and flatten concave-convex marks after the butt joint is provided through the improvement and perfection of the structure.

Disclosure of Invention

The utility model aims to solve the existing problems and provides a foam nickel sheet butt joint machine which is simple and reasonable in structure and has the main functions of automatically butt-jointing front and rear sections of foam nickel sheets, flattening the concave-convex trace after jointing and keeping the whole foam nickel sheet smooth.

The foam nickel sheet butt-joint machine comprises a machine table, wherein a work piece butt-joint mechanism and a work piece pre-pressing mechanism are sequentially arranged on a working surface of the machine table along the conveying direction of a work piece;

the workpiece butt joint mechanism comprises a workpiece compressing device for compressing and fixing the front section workpiece and the rear section workpiece and a receiving device for connecting the front section workpiece and the rear section workpiece end to end;

the workpiece pre-pressing mechanism comprises a rear frame connected to the machine table, and an upper pre-pressing part, a lower pre-pressing part and a pre-pressing power device for driving the upper pre-pressing part and the lower pre-pressing part to move relatively so as to flatten the joint of the workpieces are arranged on the rear frame.

The aim of the utility model can be also solved by adopting the following technical measures:

as a more specific scheme, the material receiving device comprises a front frame, a needling guide shaft is vertically arranged on the front frame, an upper needling assembly and a lower needling assembly are connected to the needling guide shaft in a sliding manner, and an upper needling power device and a lower needling power device which are used for driving the upper needling assembly and the lower needling assembly to move relatively are respectively arranged on the front frame.

As a further scheme, go up the acupuncture subassembly and include the last back of the body clamp plate and go up the prick board of sliding connection on the acupuncture guiding axle, go up the prick board and connect and go up prick board array fixed mounting and have many upper punch needles in last back of the body clamp plate bottom, go up prick board bottom through last stopper and beat screw swing joint and have the stripper plate, and go up stopper and beat the screw overcoat and be equipped with the last reset spring that offsets between last prick board and the stripper plate, go up the stripper plate and seted up a plurality of upper pinholes that are suitable for upper punch needle and wear to establish.

As a further scheme, the lower needling assembly comprises a lower back pressing plate and a lower bundling plate which are connected to the needling guide shaft in a sliding mode, the lower bundling plate is connected to the top of the lower back pressing plate, a plurality of lower punching needles are fixedly arranged on the lower bundling plate in an array mode, the top of the lower bundling plate is movably connected with a lower demoulding plate through a lower stopper punching screw, a lower reset spring propped against the lower bundling plate and the lower demoulding plate is sleeved outside the lower stopper punching screw, and a plurality of lower pinholes suitable for the lower punching needles to penetrate are formed in the lower demoulding plate.

As a further scheme, the upper needling power device comprises an upper needling cylinder arranged on the front frame, and a telescopic shaft of the upper needling cylinder is fixedly connected with the upper back pressure plate; the lower needling power device comprises a lower needling cylinder arranged below the front frame, and a telescopic shaft of the lower needling cylinder is fixedly connected with the lower back pressure plate.

The upper needle holes and the lower needle holes are arranged in a staggered mode back and forth along the conveying direction of the workpiece, and when the upper needling assembly and the lower needling assembly are pressed, the upper punching needle is matched with the upper needle hole of the rear half part of the upper stripper plate in a penetrating mode and the lower needle hole of the rear half part of the lower stripper plate in a penetrating mode, and the lower punching needle is matched with the lower needle hole of the front half part of the lower stripper plate in a penetrating mode and the upper needle hole of the front half part of the upper stripper plate in a penetrating mode.

As a further scheme, the workpiece pressing device comprises a front pressing component and a rear pressing component which are arranged at the front side and the rear side of the receiving device;

the front material pressing assembly and the rear material pressing assembly comprise an upper material pressing plate, a lower material pressing plate and a material pressing power device for respectively driving the upper material pressing plate and the lower material pressing plate to move up and down relatively;

the material pressing power device comprises an upper material clamping cylinder and a lower material clamping cylinder which do telescopic movement in different directions, a telescopic shaft of the material clamping cylinder is in driving connection with the upper material pressing plate, and a telescopic shaft of the lower material clamping cylinder is in driving connection with the lower material pressing plate.

As a further scheme, the lower pre-pressing piece comprises a lower pre-pressing roller, and two ends of a roller shaft of the lower pre-pressing roller are rotatably connected with bearings fixed on the rear frame; the upper pre-pressing piece comprises an upper pre-pressing roller, two ends of a roller shaft of the upper pre-pressing roller are connected with a pre-pressing power device, guide avoiding grooves are formed in the rear frame, corresponding to the two ends of the upper pre-pressing roller, of the roller shaft, and the upper pre-pressing roller moves up and down along the guide avoiding grooves relative to the lower pre-pressing roller.

As a further scheme, pre-compaction power device is including setting up left pre-compaction cylinder and the right pre-compaction cylinder at back frame top, the telescopic shaft down motion of left pre-compaction cylinder and right pre-compaction cylinder is connected with the bearing, go up the both ends roller and the bearing rotation of pre-compaction roller and be connected.

As a further scheme, the machine is also provided with a workpiece leading-in device and a workpiece leading-out device, and the workpiece butt joint mechanism and the workpiece pre-pressing mechanism are arranged between the workpiece leading-in device and the workpiece leading-out device.

As a further scheme, the workpiece guiding-in device and the workpiece guiding-out device both comprise two mounting seats fixedly connected with the machine table, and a reversing roller is rotatably connected between the two mounting seats through a bearing.

The beneficial effects of the utility model are as follows: according to the butt joint machine for the foam nickel sheets, disclosed by the utility model, the butt joint machine can automatically butt joint the front section and the rear section of the foam nickel sheets, can flatten concave-convex traces at the joint part, keeps the whole foam nickel sheet flat and smooth, and is simple in structure, reliable, safe to operate and use, low in manufacturing cost, labor-saving, high in butt joint working efficiency, and good in butt joint effect, and the butt joint positions of the two sections of the foam nickel sheets are accurately controlled.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present utility model.

Fig. 2 is an exploded view of the receiving device of the present utility model.

Fig. 3 is an exploded view of the upper and lower needling assemblies of the present utility model.

Fig. 4 is a schematic view showing the effect of the upper punch needle and the lower punch needle of the utility model on two sections of workpieces before and after needling.

FIG. 5 is a schematic diagram of a workpiece pre-pressing mechanism according to the present utility model.

Fig. 6 is a schematic structural diagram of a second embodiment of the present utility model.

Detailed Description

The utility model will be further described with reference to the drawings and examples.

First embodiment:

as shown in fig. 1 and 5, a foam nickel sheet butt-joint machine comprises a machine table 1, wherein a workpiece butt-joint mechanism A and a workpiece pre-pressing mechanism B are sequentially arranged on a working surface of the machine table 1 along the conveying direction of a workpiece;

the workpiece butt joint mechanism A comprises a workpiece compressing device A1 for compressing and fixing a front section of workpiece and a rear section of workpiece and a receiving device A2 for connecting the front section of workpiece and the rear section of workpiece end to end;

the workpiece pre-pressing mechanism B comprises a rear frame 5 connected to the machine table 1, and an upper pre-pressing part, a lower pre-pressing part and a pre-pressing power device for driving the upper pre-pressing part and the lower pre-pressing part to move relatively so as to flatten the joint of the workpiece are arranged on the rear frame 5.

The butt joint machine can automatically butt joint the front section and the rear section of the foam nickel sheet, can flatten concave-convex marks at the joint, and keeps the whole foam nickel sheet flat and smooth.

The material receiving device A2 comprises a front frame 11, wherein a needling guide shaft 12 is vertically arranged on the front frame 11, an upper needling assembly and a lower needling assembly are connected to the needling guide shaft 12 in a sliding manner, and an upper needling power device and a lower needling power device for driving the upper needling assembly and the lower needling assembly to move relatively are respectively arranged on the front frame 11; during processing, the front end and the rear end of the front section of foam nickel sheet and the rear section of foam nickel sheet are stacked up and down, and are connected through needling after the upper needling assembly and the lower needling assembly relatively move.

In this embodiment, the specific structure of the upper needling assembly is as follows: the upper punch pin comprises an upper back pressing plate 21 and an upper punch plate 22 which are connected to a needling guide shaft 12 in a sliding manner, wherein the upper punch plate 22 is connected to the bottom of the upper back pressing plate 21, a plurality of upper punch pins 23 are fixedly arranged on the upper punch plate 22 in an array manner, an upper stripper plate 25 is movably connected to the bottom of the upper punch plate 22 through upper stopper screws 24, an upper reset spring (not shown in the drawing) propped against the upper punch plate 22 and the upper stripper plate 25 is sleeved outside the upper stopper screws 24, and a plurality of upper pin holes 251 suitable for the upper punch pins 23 to penetrate are formed in the upper stripper plate 25; the upper needling power device comprises an upper needling cylinder 13 arranged on the front frame 11, and a telescopic shaft of the upper needling cylinder 13 is fixedly connected with an upper back pressure plate 21.

In this embodiment, the specific structure of the lower needling assembly is as follows: the needle punching device comprises a lower back pressure plate 31 and a lower pricking plate 32 which are connected to a needling guide shaft 12 in a sliding manner, wherein the lower pricking plate 32 is connected to the top of the lower back pressure plate 31, a plurality of lower punching needles 33 are fixedly arranged on the lower pricking plate 32 in an array manner, the top of the lower pricking plate 32 is movably connected with a lower stripper plate 35 through a lower stopper punching screw 34, a lower reset spring (not shown in the attached drawing) propped against the lower pricking plate 32 and the lower stripper plate 35 is sleeved outside the lower stopper punching screw 34, and a plurality of lower needle holes 351 suitable for the lower punching needles 33 to penetrate are formed in the lower stripper plate 35; the lower needling power unit comprises a lower needling cylinder 14 arranged below the front frame 11, and the telescopic shaft of the lower needling cylinder 14 is fixedly connected with a lower back pressure plate 31.

During processing, the upper needling cylinder 13 and the lower needling cylinder 14 respectively drive the upper needling assembly and the lower needling assembly to move relatively, the upper stripper plate 25 and the lower stripper plate 35 which are opposite to each other are elastically abutted against each other, the upper needle holes 251 and the lower needle holes 351 are correspondingly formed at the moment, then the upper back pressing plate 21 and the upper pricking plate 22, the lower back pressing plate 31 and the lower pricking plate 32 continuously move to compress the return spring, so that the upper punching needle 23 is pushed to sequentially pass through the upper needle holes 251, the front section nickel foam sheets and the lower needle holes 351, and simultaneously the lower punching needle 33 is pushed to sequentially pass through the lower needle holes 351, the front section nickel foam sheets and the upper needle holes 251, so that the front section nickel foam sheets and the rear section nickel foam sheets are connected.

The upper needle holes 251 and the lower needle holes 351 may be staggered in front-back or/and left-right, when the upper needling assembly and the lower needling assembly are pressed, the upper punch needle 23 is in penetrating fit with the upper needle holes 251 of one part of the upper stripper plate 25 and the lower needle holes 351 of one part of the lower stripper plate 35, and the lower punch needle 33 is in penetrating fit with the lower needle holes 351 of the other part of the lower stripper plate 35 and the upper needle holes 251 of the other part of the upper stripper plate 25; the structure can reduce the mutual interference between the upper punch needle 23 and the lower punch needle 33, and can improve the connection strength of the front section and the rear section of foam nickel sheets.

In addition, in this embodiment, the length of the upper stripper plate 25 is smaller than that of the lower stripper plate 35, so that the lower stripper plate 35 and the lower stripper plate 32 are provided with lower avoidance holes 352 corresponding to the upper plugging screws 24, and the upper stripper plate 22 is provided with lower avoidance holes corresponding to the lower plugging screws 34, so that the upper stripper plate 25 and the lower stripper plate 35 can closely abut against each other.

The workpiece compacting device A1 comprises a front material pressing component A21 and a rear material pressing component A22 which are arranged on the front side and the rear side of the material receiving device A2;

the front material pressing assembly A21 and the rear material pressing assembly A22 comprise an upper material pressing plate 2, a lower material pressing plate 3 and a material pressing power device for respectively driving the upper material pressing plate 2 and the lower material pressing plate 3 to move up and down relatively;

the pressing power device comprises an upper clamping cylinder 41 and a lower clamping cylinder 42 which move in a telescopic mode in different directions, a telescopic shaft of the clamping cylinder 41 is in driving connection with the upper pressing plate 2, and a telescopic shaft of the lower clamping cylinder 42 is in driving connection with the lower pressing plate 3; the workpiece pressing device A1 with the structure can clamp the front section of foam nickel sheet and the rear section of foam nickel sheet before butt joint respectively, so that displacement is avoided during butt joint, and the accuracy of butt joint can be improved.

The lower pre-pressing piece comprises a lower pre-pressing roller 6, and two ends of a roller shaft of the lower pre-pressing roller 6 are rotatably connected with bearings fixed on the rear frame 5; the upper pre-pressing piece comprises an upper pre-pressing roller 7, two ends of a roller shaft of the upper pre-pressing roller 7 are connected with a pre-pressing power device, guide avoiding grooves 501 are formed in the roller shafts of the rear frame 5 corresponding to the two ends of the upper pre-pressing roller 7, and the upper pre-pressing roller 7 moves up and down along the guide avoiding grooves 501 relative to the lower pre-pressing roller 6;

after the front section and the rear section of the foam nickel sheet are pierced and arranged through the needle, convex marks can appear on the upper end face and the lower end face, so that after the lower pre-pressing roller 6 and the upper pre-pressing roller 7 are used for pressing materials, the convex marks of the parts can be flattened, and the whole foam nickel sheet can be kept flat and smooth.

Wear-resistant plates 8 are arranged at the left end and the right end of the guide avoiding groove 501 corresponding to the up-and-down movement amplitude of the upper pre-pressing roller 7; because the upper pre-pressing roller 7 moves up and down for a long time, the abrasion of the roller shaft of the upper pre-pressing roller 7 and the front frame 11 can be reduced through the abrasion-resistant plate 8, so that the damage of a butt joint machine is caused, or the pressing precision of the butt joint machine is influenced.

The pre-pressing power device comprises a left pre-pressing cylinder 9 and a right pre-pressing cylinder 10 which are arranged at the top of the rear frame 5, the telescopic shafts of the left pre-pressing cylinder 9 and the right pre-pressing cylinder 10 move downwards and are connected with bearings, and roll shafts at two ends of the upper pre-pressing roller 7 are rotationally connected with the bearings; the upper pre-pressing roller 7 is driven to move up and down simultaneously through the double cylinders (the left pre-pressing cylinder 9 and the right pre-pressing cylinder 10), so that stability can be improved, and the force of pressing can be uniformly applied to the lower pre-pressing roller 6.

The machine table 1 is also provided with a workpiece leading-in device C and a workpiece leading-out device D, and the workpiece butt joint mechanism A and the workpiece pre-pressing mechanism B are arranged between the workpiece leading-in device C and the workpiece leading-out device D.

The workpiece guiding device C and the workpiece guiding device D both comprise two mounting seats 15 fixedly connected with the machine table 1, and reversing rollers 16 are rotatably connected between the two mounting seats 15 through bearings; the workpiece leading-in device C and the workpiece leading-out device D with the structure can adjust the feeding direction and the discharging direction of the foam nickel sheet according to the positions of the last processing mechanism and the next processing mechanism of the butt joint machine.

Second embodiment:

the second embodiment is different from the first embodiment in the specific structure of the material receiving device A2, as shown in fig. 6, in this embodiment, a laser mode is adopted to weld the front and rear sections of foam nickel sheets to realize butt joint, specifically: the material receiving device A2 comprises a front frame 11, a downward-emitting laser welding head 17 is arranged on the front frame 11, a welding platform 18 for supporting front and rear two sections of workpieces is arranged on the machine table 1 corresponding to the laser welding head 17, when front and rear two sections of foam nickel sheets are welded by laser, the front and rear ends of the two sections of foam nickel sheets are welded or are not required to be stacked up and down, the front and rear ends of the two sections of foam nickel sheets are directly welded in an aligned mode, and the situation that the thickness of a joint is overlarge after welding can be avoided.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing embodiments and description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents.

Claims (10)

1. The foam nickel sheet butt-joint machine comprises a machine table (1) and is characterized in that a work piece butt-joint mechanism (A) and a work piece pre-pressing mechanism (B) are sequentially arranged on a working surface of the machine table (1) along the conveying direction of a work piece;

the workpiece butt joint mechanism (A) comprises a workpiece compressing device (A1) for compressing and fixing a front section of workpiece and a rear section of workpiece, and a material receiving device (A2) for connecting the front section of workpiece and the rear section of workpiece end to end;

the workpiece pre-pressing mechanism (B) comprises a rear frame (5) connected to the machine table (1), and an upper pre-pressing part, a lower pre-pressing part and a pre-pressing power device for driving the upper pre-pressing part and the lower pre-pressing part to move relatively so as to flatten the joint of the workpieces are arranged on the rear frame (5).

2. The foam nickel sheet butt-joint machine according to claim 1, wherein the material receiving device (A2) comprises a front frame (11), a needling guide shaft (12) is vertically arranged on the front frame (11), an upper needling assembly and a lower needling assembly are connected to the needling guide shaft (12) in a sliding manner, and an upper needling power device and a lower needling power device for driving the upper needling assembly and the lower needling assembly to move relatively are respectively arranged on the front frame (11).

3. The foam nickel sheet docking machine as claimed in claim 2, wherein: the upper needling assembly comprises an upper back pressing plate (21) and an upper pricking plate (22) which are connected to a needling guide shaft (12) in a sliding mode, the upper pricking plate (22) is connected to the bottom of the upper back pressing plate (21), a plurality of upper punching needles (23) are fixedly arranged on the upper pricking plate (22) in an array mode, an upper demoulding plate (25) is movably connected to the bottom of the upper pricking plate (22) through an upper plugging screw (24), an upper reset spring propped against the upper pricking plate (22) and the upper demoulding plate (25) is sleeved outside the upper plugging screw (24), and a plurality of upper pinholes (251) suitable for being penetrated by the upper punching needles (23) are formed in the upper demoulding plate (25).

4. A foam nickel sheet docking machine as defined in claim 3, wherein: the lower needling assembly comprises a lower back pressing plate (31) and a lower pricking plate (32) which are connected to a needling guide shaft (12) in a sliding manner, the lower pricking plate (32) is connected to the top of the lower back pressing plate (31), a plurality of lower punching pins (33) are fixedly arranged on the lower pricking plate (32) in an array manner, the top of the lower pricking plate (32) is movably connected with a lower demoulding plate (35) through a lower stoppering screw (34), a lower reset spring propped between the lower pricking plate (32) and the lower demoulding plate (35) is sleeved outside the lower stoppering screw (34), and a plurality of lower pinholes (351) suitable for the lower punching pins (33) to penetrate are formed in the lower demoulding plate (35).

5. The foam nickel sheet docking machine as defined in claim 4, wherein: the upper needling power device comprises an upper needling cylinder (13) arranged on the front frame (11), and a telescopic shaft of the upper needling cylinder (13) is fixedly connected with an upper back pressure plate (21); the lower needling power device comprises a lower needling air cylinder (14) arranged below the front frame (11), and a telescopic shaft of the lower needling air cylinder (14) is fixedly connected with a lower back pressure plate (31).

6. The foam nickel sheet butt joint machine according to claim 1, wherein the workpiece pressing device (A1) comprises a front pressing component (A21) and a rear pressing component (A22) which are arranged at the front side and the rear side of the receiving device (A2);

the front material pressing assembly (A21) and the rear material pressing assembly (A22) comprise an upper material pressing plate (2) and a lower material pressing plate (3) and a material pressing power device for respectively driving the upper material pressing plate (2) and the lower material pressing plate (3) to move up and down relatively;

the material pressing power device comprises an upper material clamping cylinder (41) and a lower material clamping cylinder (42) which move in different directions in a telescopic mode, a telescopic shaft of the material clamping cylinder (41) is in driving connection with the upper material pressing plate (2), and a telescopic shaft of the lower material clamping cylinder (42) is in driving connection with the lower material pressing plate (3).

7. The foam nickel sheet butt-joint machine according to claim 1, wherein the lower pre-pressing piece comprises a lower pre-pressing roller (6), and two ends of a roller shaft of the lower pre-pressing roller (6) are rotatably connected with bearings fixed on a rear frame (5); the upper pre-pressing piece comprises an upper pre-pressing roller (7), two ends of a roller shaft of the upper pre-pressing roller (7) are connected with a pre-pressing power device, a guide avoiding groove (501) is formed in the roller shaft at two ends of the rear frame (5) corresponding to the upper pre-pressing roller (7), and the upper pre-pressing roller (7) moves up and down along the guide avoiding groove (501) relative to the lower pre-pressing roller (6).

8. The foam nickel sheet butt-joint machine according to claim 7, wherein the pre-pressing power device comprises a left pre-pressing cylinder (9) and a right pre-pressing cylinder (10) which are arranged at the top of the rear frame (5), telescopic shafts of the left pre-pressing cylinder (9) and the right pre-pressing cylinder (10) move downwards and are connected with bearings, and roller shafts at two ends of the upper pre-pressing roller (7) are rotatably connected with the bearings.

9. The foam nickel sheet butt-joint machine according to claim 1, wherein the machine table (1) is further provided with a workpiece leading-in device (C) and a workpiece leading-out device (D), and the workpiece butt-joint mechanism (A) and the workpiece pre-pressing mechanism (B) are arranged between the workpiece leading-in device (C) and the workpiece leading-out device (D).

10. The foam nickel sheet butt-joint machine according to claim 9, wherein the workpiece guiding-in device (C) and the workpiece guiding-out device (D) comprise two mounting seats (15) fixedly connected with the machine table (1), and reversing rollers (16) are rotatably connected between the two mounting seats (15) through bearings.

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