CN211334679U - Die device for button cell positive electrode shell - Google Patents

Abstract

The utility model discloses a die device for a button battery positive shell, which comprises a steel sheet conveying mechanism and a molding mechanism; the steel sheet conveying mechanism comprises a steel sheet bracket and a steel sheet conveying frame; the molding mechanism comprises an upper die base, an upper die connecting plate, a primary cutting supporting block, a secondary cutting supporting block, an extension supporting block, a molding supporting block, a typing supporting block, a shearing supporting block, a primary cutting processing needle, a secondary cutting processing needle, an extension processing needle, a molding processing needle, a typing processing needle, a shearing processing needle, a lower die base, a connecting bottom plate, an auxiliary processing plate, an extension plate and a lower die plate. The forming die is provided with the steel sheet conveying mechanism and the forming mechanism, continuous input of the steel sheets is achieved, six machining forming needles are arranged on the forming mechanism, six-step integral forming and mechanical integral continuous forming operation of the positive electrode shell are achieved, forming machining efficiency of the negative electrode shell is greatly improved, and batch production of the positive electrode shell is met.

Description

Die device for button cell positive electrode shell

Technical Field

The utility model relates to a button cell's production facility, concretely relates to mould device that button cell positive plate shell was used.

Background

A button cell is also called a button cell, and refers to a cell with a shape and size like a small button. Button cells are widely used in various miniature electronic products due to their small size, and are commonly used as backup power sources for various electronic products, which is one of the most important elements in electronic devices. Therefore, the performance of the button cell often directly affects the working state of the electronic product. Especially, it uses the power supply on terminal equipment such as clock and watch, slide caliper, intelligent bracelet, needs to adopt button cell fixed knot to construct fixed its positive pole shell or positive pole lid to fix button cell on terminal equipment.

In the production process of the button battery, the size of the button battery positive shell is small, the molding processing procedures are multiple and include the procedures of cutting, drawing, molding, typing and shearing, so that the button battery positive shell is not easy to be molded, and the button battery positive shell is difficult to be continuously molded in a short time in a batch production button battery workshop. Traditional processing is usually accomplished for single operation one by one on former, and every operation once all need take out the positive shell of shaping and put into and wait to process the shaping material steel sheet, can't realize the timely input of shaping material steel sheet to unable continuity shaping operation of exerting pressure, consequently production efficiency is low, can't satisfy batch production.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art exists, the utility model provides a die set that button cell positive plate shell was used, this forming die set up steel sheet conveying mechanism and moulding mechanism, realize the input of steel sheet continuity, are equipped with six kinds of processing forming needles in the moulding mechanism, realize six step integrated into one piece of positive plate shell, and mechanical integration is the operation of taking shape in succession, improves negative pole shell shaping machining efficiency greatly, satisfies the batch production of positive plate shell.

In order to achieve the purpose, the utility model discloses the technical scheme who takes:

the forming die device for the button battery positive shell comprises a steel sheet conveying mechanism and a forming mechanism; the steel sheet conveying mechanism comprises a steel sheet support, a steel sheet winding rod is arranged on the steel sheet support, the steel sheet conveying mechanism further comprises a steel sheet conveying frame, a pressing and conveying rod, an auxiliary supporting plate, a clamping conveying piece and a tightening pressing plate are sequentially arranged on the steel sheet conveying frame, and the clamping conveying piece can linearly reciprocate along the steel sheet conveying frame; the molding mechanism comprises an upper die base connected with a lower pressing block of a punch press, an upper die connecting plate is connected below the upper die base, a primary cutting supporting block, a secondary cutting supporting block, a stretching supporting block, a molding supporting block, a typing supporting block and a shearing supporting block which are connected with one another are sequentially arranged below the upper die connecting plate, a plurality of primary cutting processing needles are arranged on the primary cutting supporting block, a plurality of secondary cutting processing needles are arranged on the secondary cutting supporting block, a plurality of stretching processing needles are arranged on the stretching supporting block, a plurality of molding processing needles are arranged on the molding supporting block, a plurality of typing processing needles are arranged on the typing supporting block, a plurality of shearing processing needles are arranged on the shearing supporting block, and the primary cutting processing needle, the secondary cutting processing needle, the stretching processing needle, the molding processing needle, the typing processing needle and the shearing processing needle are all vertically arranged downwards, the forming mechanism further comprises a lower die base, a plurality of fixing columns are arranged between the lower die base and the upper die base, a set of sliding sleeves arranged on the fixing columns is arranged between the fixing columns and the upper die base, the sliding sleeves are fixedly connected with the upper die base, the lower die base is sequentially provided with a connecting bottom plate, an auxiliary processing plate, a stretching plate and a lower die plate from bottom to top, processing needle holes corresponding to the primary cutting processing needles, the secondary cutting processing needles, the forming processing needles, the typing processing needles and the shearing processing needles are formed in the connecting bottom plate, the auxiliary processing plate and the lower die plate, and processing needle holes corresponding to the stretching processing needles are formed in the stretching plate.

As an optimal technical scheme, in order to ensure that the steel sheet can be tightly and flatly fed into the molding mechanism, facilitate the multi-step processing molding of the processing needle and simultaneously facilitate the improvement of the processing quality of a product, a steel sheet tightening block is arranged on the lower die base.

As an optimal technical scheme, in order to facilitate collection of steel sheet waste processed into an anode shell, waste recycling during processing and forming is achieved, and mechanical integrated production is achieved.

Compared with the prior art, the utility model discloses the beneficial effect who has:

1. the forming die is provided with the steel sheet conveying mechanism and the forming mechanism, continuous input of the steel sheets is achieved, six machining forming needles are arranged on the forming mechanism, six-step integral forming and mechanical integral continuous forming operation of the positive electrode shell are achieved, forming machining efficiency of the negative electrode shell is greatly improved, and batch production of the positive electrode shell is met.

2. The lower die base is provided with a steel sheet tightening block, so that the steel sheet can be tightly and flatly fed into the die forming mechanism, the multi-step processing and forming of the processing needle are facilitated, and the processing quality of a product is improved.

3. The steel sheet waste material shearing mechanism is arranged, so that the steel sheet waste material processed into the positive electrode shell can be conveniently collected, the waste material can be recycled while the processing and forming are realized, and the mechanical integrated production is realized.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the molding mechanism;

FIG. 3 is a schematic view of the structure of the present invention assembled on a punching machine;

reference numerals: 1. a steel sheet conveying mechanism 1-1, a steel sheet support 1-2, a steel sheet winding rod 1-3, a steel sheet conveying frame 1-4, a pressure feeding rod 1-5, an auxiliary support plate 1-6, a clamping conveying member 1-7, a tensioning plate 1-8, a balance adjusting block 1-9, an anti-scattering support bar 2, a molding mechanism 2-1, an upper mold base 2-2, an upper mold connecting plate 2-3, a primary cutting support block 2-4, a secondary cutting support block 2-5, a stretching support block 2-6, a molding support block 2-7, a typing support block 2-8, a shearing support block 2-9, a primary cutting processing needle 2-10, a secondary cutting processing needle 2-11, a stretching processing needle, 2-12 parts of forming processing needles, 2-13 parts of typing processing needles, 2-14 parts of shearing processing needles, 2-15 parts of lower die bases, 2-16 parts of fixing columns, 2-17 parts of sliding sleeves, 2-18 parts of connecting bottom plates, 2-19 parts of auxiliary processing plates, 2-20 parts of stretching plates, 2-21 parts of lower die plates, 2-22 parts of stretching processing grooves, 2-23 parts of steel sheet tensioning blocks, 2-24 parts of cutting supporting blocks, 2-25 parts of cutting bottom blocks, 2-26 parts of inclined material receiving grooves, 2-27 parts of cutting blocks, 3 parts of punching machines, 3-1 parts of punching machine bodies, 3-2 parts of punching machines, right machine frames, 3-3 parts of left machine frames, 3-4 parts of driving motors, 3-5 parts of driving wheels, 3-6 parts of eccentric shafts, 3-7 parts of connecting shafts, 3-8, and pressing the blocks.

Detailed Description

As shown in fig. 1, the present invention provides a mold device for a button battery positive electrode case, which comprises a steel sheet conveying mechanism 1 and a molding mechanism 2; the steel sheet conveying mechanism 1 comprises a square steel sheet support 1-1, in order to enable the steel sheet support 1-1 to act on various occasions, particularly uneven ground, a balance adjusting block 1-8 is arranged at the bottom end of the steel sheet support 1-1 in the embodiment, a steel sheet winding rod 1-2 is arranged on the steel sheet support 1-1, in order to prevent the steel sheet from scattering during rotation, fan-shaped anti-scattering support strips 1-9 are arranged on the steel sheet winding rod 1-3 in parallel in the embodiment, the steel sheet conveying mechanism 1 further comprises a steel sheet conveying frame 1-3 fixed on a right frame 3-2 of a punch press 3, a pressure feeding rod 1-4, an auxiliary support plate 1-5, a clamping conveying piece 1-6 and a tension pressing plate 1-7 are sequentially arranged on the steel sheet conveying frame 1-3, the clamping and conveying pieces 1-6 can linearly reciprocate along the steel sheet conveying frame 1-3, the clamping and conveying pieces 1-6 comprise three plates, the lower two plates are coated on the steel sheet conveying frame, the uppermost plate and the middle plate can pass through the steel sheet, the clamping and conveying pieces 1-6 are connected with a cylinder positioned on the right frame 3-2, and the clamping and conveying pieces 1-6 linearly reciprocate left and right on the steel sheet conveying frame 1-3 through a piston rod of the cylinder; the molding mechanism 2 comprises an upper mold base 2-1 which is connected with a lower pressing block 3-8 in a square shape, an upper mold connecting plate 2-2 which is also in a square shape is connected below the upper mold base 2-1, a primary cutting supporting block 2-3, a secondary cutting supporting block 2-4, a stretching supporting block 2-5, a forming supporting block 2-6, a typing supporting block 2-7 and a shearing supporting block 2-8 which are connected with each other in a square shape are sequentially arranged below the upper mold connecting plate 2-2, the primary cutting supporting block 2-3 is provided with a plurality of primary cutting processing needles 2-9, the secondary cutting supporting block 2-4 is provided with a plurality of secondary cutting processing needles 2-10, the stretching supporting block 2-5 is provided with a plurality of stretching processing needles 2-11, the molding support block 2-6 is provided with a plurality of molding processing needles 2-12, the molding support block 2-7 is provided with a plurality of molding processing needles 2-13, the shearing support block 2-8 is provided with a plurality of shearing processing needles 2-14, the primary cutting processing needle 2-9, the secondary cutting processing needle 2-10, the extension processing needle 2-11, the molding processing needle 2-12, the molding processing needle 2-13 and the shearing processing needle 2-14 are all vertically arranged downwards, in order to process a plurality of shells at one time and ensure the processing quality, the embodiment is provided with 8 primary cutting processing needles 2-9, secondary cutting processing needles 2-10, the extension processing needle 2-11, the molding processing needle 2-12, the molding processing needle 2-13 and the shearing processing needle 2-14, and equally divide two rows of plain letters to be arranged on corresponding supporting blocks, the die forming mechanism 2 further comprises a lower die base 2-15 which is arranged at the lower end of the punch press body 3-1 and is in a square shape, a plurality of fixed columns 2-16 are arranged between the lower die base 2-15 and the upper die base 2-1, in the embodiment, a fixed column 2-16 is arranged between the lower die base 2-15 and four end corners of the upper die base 2-1, four fixed columns 2-16 are arranged, a sliding sleeve 2-17 which is sleeved on the fixed column 2-16 is arranged between the fixed column 2-16 and the upper die base 2-1, the sliding sleeve 2-17 is fixedly connected with the upper die base 2-1, and the sliding sleeve 2-17 can drive the upper die base 2-1 to move up and down along the fixed column 2-16, the lower die base 2-1 is sequentially provided with a connecting bottom plate 2-18, an auxiliary processing plate 2-19, a stretching plate 2-20 and a lower die plate 2-21 which are all square from bottom to top, the connecting bottom plate 2-18, the auxiliary processing plate 2-19, the stretching plate 2-20 and the lower die plate 2-21 are respectively provided with processing pinholes which are in one-to-one correspondence with a primary cutting processing needle 2-9, a secondary cutting processing needle 2-10, a forming processing needle 2-12, a typing processing needle 2-13 and a shearing processing needle 2-14, the connecting bottom plate 2-18, the auxiliary processing plate 2-19 and the lower die plate 2-21 are respectively provided with processing pinholes which are in one-to-one correspondence with the stretching processing needles 2-11, the stretching plate 2-20 is provided with stretching processing grooves 2-22 which are in correspondence with the stretching processing needles 2-11, in order to facilitate the collection and processing of the manufactured positive electrode shell, in the embodiment, the lower end of the punch body 3-1 is provided with product discharge holes corresponding to the shearing and processing needles 2-14 one by one, product collecting pipes are arranged below all the product discharge holes, and the bottom ends of all the product collecting pipes are connected with the product collecting cylinder.

The lower die base 2-15 is provided with a steel sheet clamping block 2-23, the steel sheet clamping block 2-23 comprises two clamping plates which are arranged in parallel, and the lower clamping block is welded on the lower die base 2-15, so that the steel sheet can be tightly stretched and flatly fed into the molding mechanism 2, the multi-step processing and molding of a processing needle are facilitated, and the processing quality of a product is improved.

The lower die base 2-15 is provided with a cutting supporting block 2-24, a cutting bottom block 2-25 which is connected with the extension plate 2-20 is arranged above the cutting supporting block 2-24, the right side of the cutting supporting block 2-24 is provided with an inclined material receiving groove 2-26 which is arranged obliquely downwards, the bottom side of the upper die base 2-1 is provided with a cutting block 2-27, the cutting block 2-27 is just positioned between the inclined material receiving groove 2-26 and the cutting bottom block 2-25, the cutting block 2-27 can move up and down along with the upper die base 2-1, the steel sheet waste is cut off and then falls into the inclined material receiving groove 2-26, a waste collecting barrel which can be connected with the inclined material receiving groove 2-26 is arranged below the inclined material receiving groove 2-26, and the steel sheet waste processed into the positive shell is convenient to collect, the waste materials are recycled while the processing and the forming are realized, and the mechanical integrated production is realized.

The utility model discloses during the use: the forming die is arranged on a punch press 3, as shown in figure 3, the punch press 3 comprises a punch press body 3-1, a right frame 3-2 arranged at the lower end of the punch press body 3-1, a left frame 3-3, a driving motor 3-4 arranged at the upper end of the punch press body 3-1, the driving motor 3-4 is connected with a driving wheel 3-5, the driving wheel 3-5 is sleeved on an eccentric shaft 3-6, the eccentric shaft 3-6 is connected with a lower pressing block 3-8 through a connecting shaft 3-7, an upper die base 2-1 is connected with the lower pressing block 3-8, a lower die base 2-15 is fixed at the lower end of the punch press body 3-1, a balance adjusting block 1-8 is adjusted to balance a steel sheet support 1-1, and after a steel sheet is wound on a steel sheet winding rod 1-2, the machining process comprises the steps of laying along a steel sheet conveying frame, sequentially penetrating through a pressure feeding rod 1-4, a clamping conveying piece 1-6, a tightening pressing plate 1-7 and a steel sheet tightening block 2-23, finally penetrating through a space between a lower die plate 2-21 and a stretching plate 2-20, starting a motor 3-1, driving a pressing block 3-8 to move up and down through a driving wheel 3-5 through an eccentric shaft 3-6, and driving an upper die base 2-1 to move up and down simultaneously, so that machining of the steel sheet by a primary cutting machining needle 2-9, a secondary cutting machining needle 2-10, a stretching machining needle 2-11, a forming machining needle 2-12, a typing machining needle 2-13 and a shearing machining needle 2-14 is achieved.

Of course, the above detailed description is only made for the preferred embodiments of the present invention with reference to the accompanying drawings, and not to limit the scope of the present invention, and all equivalent changes made according to the principles, structures and structures of the present invention should be covered by the protection scope of the present invention.

Claims (3)

1. Mould device that button cell positive pole shell was used, its characterized in that: comprises a steel sheet conveying mechanism (1) and a molding mechanism (2); the steel sheet conveying mechanism (1) comprises a steel sheet support (1-1), a steel sheet winding rod (1-2) is arranged on the steel sheet support (1-1), the steel sheet conveying mechanism (1) further comprises a steel sheet conveying frame (1-3), a pressing rod (1-4), an auxiliary supporting plate (1-5), a clamping conveying piece (1-6) and a tightening pressing plate (1-7) are sequentially arranged on the steel sheet conveying frame (1-3), and the clamping conveying piece (1-6) can linearly reciprocate along the steel sheet conveying frame (1-3); the die forming mechanism (2) comprises an upper die base (2-1), an upper die connecting plate (2-2) is connected below the upper die base (2-1), a primary cutting supporting block (2-3), a secondary cutting supporting block (2-4), a stretching supporting block (2-5), a forming supporting block (2-6), a typing supporting block (2-7) and a shearing supporting block (2-8) which are connected with one another are sequentially arranged below the upper die connecting plate (2-2), a plurality of primary cutting processing needles (2-9) are arranged on the primary cutting supporting block (2-3), a plurality of secondary cutting processing needles (2-10) are arranged on the secondary cutting supporting block (2-4), a plurality of stretching processing needles (2-11) are arranged on the stretching supporting block (2-5), the forming mechanism (2) further comprises a lower die base (2-15), a plurality of fixing columns (2-16) are arranged between the lower die base (2-15) and the upper die base (2-1), a sliding sleeve (2-17) sleeved on the fixing column (2-16) is arranged between the fixing column (2-16) and the upper die base (2-1), the sliding sleeve (2-17) is fixedly connected with the upper die base (2-1), the lower die base (2-15) is sequentially provided with a connecting bottom plate (2-18), an auxiliary processing plate (2-19), an extension plate (2-20) and a lower die plate (2-21) from bottom to top, and the connecting bottom plate (2-18), the auxiliary processing plate (2-19), the extension plate (2-20) and the lower die plate (2-21) are respectively provided with a primary cutting processing needle (2-9), a secondary cutting processing needle (2-10), a forming processing needle (2-12) and a typing processing needle (2-13), The cutting processing needles (2-14) are in one-to-one correspondence to the processing needle holes, the connecting bottom plate (2-18), the auxiliary processing plate (2-19) and the lower template (2-21) are all provided with the processing needle holes in one-to-one correspondence to the extension processing needles (2-11), and the extension plate (2-20) is provided with the extension processing grooves (2-22) corresponding to the extension processing needles (2-11).

2. The die device for the button battery positive shell according to claim 1, wherein: and a steel sheet tightening block (2-23) is arranged on the lower die base (2-15).

3. The die device for the button cell positive shell according to claim 1 or 2, wherein: the lower die base (2-15) is provided with a blanking supporting block (2-24), a blanking bottom block (2-25) which is connected with the extension plate (2-20) is arranged above the blanking supporting block (2-24), the right side of the blanking supporting block (2-24) is provided with an inclined material receiving groove (2-26) which is arranged obliquely downwards, the bottom side of the upper die base (2-1) is provided with a blanking block (2-27), and the blanking block (2-27) is just positioned between the inclined material receiving groove (2-26) and the blanking bottom block (2-25).

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