CN113020432A - Staple bolt stamping die based on autoloading - Google Patents

Abstract

The invention discloses an automatic feeding-based hoop stamping die and relates to the technical field of stamping dies. The invention comprises a mounting mechanism and a die; the mounting mechanism comprises an upper mounting plate, a lower mounting plate and a side mounting plate; the die comprises a lower die and an upper die; the upper die is slidably arranged on the upper mounting plate; the lower die is arranged on the lower mounting plate; a forming groove is formed on the upper die of the lower die; the upper die is in transmission connection with a linkage mechanism; the linkage mechanism is in transmission connection with the feeding mechanism; the linkage mechanism is used for transmitting power to the feeding mechanism when the upper die operates; the feeding mechanism is arranged on the lower die in a sliding manner; the feeding mechanism is used for pushing the material to a die stamping position. The linkage mechanism is arranged, so that the power in the stamping process can be utilized; through the arranged material storage box and the material pushing sheet, the material can be pushed to the forming groove, so that the material adding step is reduced, and the danger of manual operation is avoided; through setting up material returned portion, can be automatic ejecting with the material, do not need the manual work to get out the material, improved factor of safety.

Description

Staple bolt stamping die based on autoloading

Technical Field

The invention belongs to the technical field of stamping dies, and particularly relates to an automatic feeding-based hoop stamping die.

Background

A conventional U-shaped workpiece stamping grinding tool die is generally composed of an upper die plate, a lower die plate and an automatic feeding machine matched with the die plate and arranged beside a stamping edge in the prior art so as to guarantee smooth feeding and improve production efficiency. However, the automatic feeder is generally large in size, high in manufacturing cost and low in feeding precision, and is not suitable for being applied to small stamping dies; in addition, when punching press some small-size parts, cope match-plate pattern and lower bolster interval are less, and during artifical manual pay-off, have the problem that production efficiency is low and have the potential safety hazard, reduce work piece production efficiency. Therefore, a hoop stamping die based on automatic feeding needs to be researched so as to solve the above problems.

Disclosure of Invention

The invention aims to provide an anchor ear stamping die based on automatic feeding, and aims to solve the problems in the background technology.

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

the invention relates to a hoop stamping die based on automatic feeding, which comprises an installation mechanism and a die; the mounting mechanism comprises an upper mounting plate, a lower mounting plate and a side mounting plate; the die comprises a lower die and an upper die; the upper die is slidably mounted on the upper mounting plate; the lower die is fixedly arranged on the lower mounting plate; a forming groove is formed in the lower die corresponding to the upper die; the upper die is in transmission connection with a linkage mechanism; the linkage mechanism is in transmission connection with a feeding mechanism; the linkage mechanism is used for transmitting power to the feeding mechanism when the upper die operates; the feeding mechanism is arranged on the lower die in a sliding manner; the feeding mechanism is used for pushing the material to a die stamping position.

Further, the linkage mechanism includes a first rack; the first rack is fixedly connected with the upper die through a first connecting part; the first rack is connected with the side mounting plate in a sliding mode through a second sliding chute; the first gear is meshed and matched with a first gear; the first gear is fixedly sleeved on a first support rod; the first supporting rod is rotatably connected with the side mounting plate; a first belt pulley is fixedly sleeved on the first support rod; the first belt pulley is connected with a second belt pulley through belt transmission; the second belt pulley is fixedly sleeved on a second support rod; the second supporting rod is rotatably connected with the side mounting plate; a second gear is fixedly sleeved on the second supporting rod; the second gear is meshed with a second rack; the second rack is connected with the side mounting plate in a sliding manner through a first sliding chute; the second rack is connected with the feeding mechanism through a second connecting part.

Further, the feeding mechanism comprises a material pushing plate; the material pushing plate is connected with the linkage mechanism; limiting grooves are formed in the two sides of the lower die; the material pushing plate is connected with the lower die in a sliding mode through a limiting groove; and a clamping groove for positioning the material is formed in one side of the material pushing plate, which is close to the forming groove.

Further, a storage box is arranged above the material pushing plate; the lower surface of the upper mounting plate is provided with a plurality of third sliding grooves; the storage box is connected with the upper mounting plate in a sliding manner through a third chute; the bottom end of the storage box is abutted against the upper edge of the material pushing plate; the storage box is provided with a discharge hole matched with the clamping groove.

Furthermore, a cavity is formed in the vertical end face of the forming groove; a material returning part is in sliding fit with the cavity; a limiting plate is arranged in the cavity; a third connecting part is fixedly connected to one side of the material returning part facing the inner part of the cavity; the third connecting part penetrates through the limiting plate and is in sliding connection with the limiting plate; one end of the third connecting part, which is far away from the forming groove, is fixedly connected with a limiting block; the limiting block is connected with the cavity through a return spring; when the limiting block is attached to the limiting plate, the upper part of one end, located on the outer side of the cavity, of the material returning part is provided with an inclined plane structure.

Further, a handle is fixedly connected to the storage box.

Further, the thickness of the material pushing plate is the same as that of the single material.

The invention has the following beneficial effects:

according to the invention, the linkage mechanism is arranged, so that the power in the stamping process can be effectively utilized, and additional power supply is not required; through the arranged material storage box and the material pushing sheet, the material can be automatically pushed to the forming groove, so that the operation steps are reduced, and the danger caused by manual operation is avoided; through setting up material returned portion, can be after the punching press, ejecting with the material automatically, no longer need the manual work to get out the material, improved factor of safety.

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 diagram of a hoop stamping die based on automatic feeding according to the present invention;

FIG. 2 is a schematic structural view of the feeding mechanism mounted on the lower mold;

FIG. 3 is a front view of the linkage;

FIG. 4 is a schematic structural view of the magazine;

FIG. 5 is a sectional view of the stripper part mounted on the lower die;

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

1-mounting mechanism, 2-die, 3-linkage mechanism, 4-feeding mechanism, 101-upper mounting plate, 102-lower mounting plate, 103-side mounting plate, 104-first chute, 105-second chute, 106-third chute, 201-lower die, 202-upper die, 203-forming groove, 204-limiting groove, 205-first connecting portion, 206-cavity, 207-limiting plate, 301-first rack, 302-first supporting rod, 303-first gear, 304-first belt pulley, 305-second gear, 306-second belt pulley, 307-second supporting rod, 308-second rack, 401-pushing plate, 402-clamping groove, 403-second connecting portion, 404-material returning portion, 405-box, 406-handle, 407-third connecting part, 408-limit block, 409-return spring.

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.

In the description of the present invention, it is to be understood that the terms "open," "upper," "lower," "disposed," "peripheral side," "inner," "outer," "symmetrical," "bottom," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be considered as limiting the present invention.

Referring to fig. 1-5, the present invention relates to a hoop punching mold based on automatic feeding, which comprises an installation mechanism 1 and a mold 2; the mounting mechanism 1 comprises an upper mounting plate 101, a lower mounting plate 102 and a side mounting plate 103; the mold 2 includes a lower mold 201 and an upper mold 202; the upper die 202 is slidably mounted on the upper mounting plate 101; the lower die 201 is fixedly arranged on the lower mounting plate 102; a forming groove 203 is formed on the lower die 201 corresponding to the upper die 202; the upper die 202 is connected with a linkage mechanism 3 in a transmission way; the linkage mechanism 3 is in transmission connection with a feeding mechanism 4; the linkage mechanism 3 is used for transmitting power to the feeding mechanism 4 when the upper die 202 operates; the feeding mechanism 4 is slidably mounted on the lower die 201; the feeding mechanism 4 is used for pushing the material to the stamping position of the die 2.

Wherein the linkage mechanism 3 comprises a first rack 301; the first rack 301 is fixedly connected with the upper die 202 through a first connecting part 205; the first rack 301 is connected with the side mounting plate in a sliding way through a second sliding chute 105; the first rack 301 is engaged with a first gear 303; the first gear 303 is fixedly sleeved on a first support rod 302; the first supporting rod 302 is rotatably connected with the side mounting plate 103; a first belt pulley 304 is fixedly sleeved on the first supporting rod 302; the first belt pulley 304 is connected with a second belt pulley 306 through belt transmission; the second pulley 306 is fixedly sleeved on a second support rod 307; the second strut 307 is rotatably connected with the side mounting plate 103; a second gear 305 is fixedly sleeved on the second strut 307; the second gear 305 is engaged with a second rack 308; the second rack 305 is connected with the side mounting plate 103 in a sliding way through a first sliding chute 104; the second rack 308 is connected with the feeding mechanism 4 through a second connecting part 403; the linkage mechanism 3 is used for transmitting the power of the upper section and the lower section of the upper die 202 to the feeding mechanism 4, so that the resource utilization rate can be effectively improved, and a power part does not need to be additionally arranged independently.

Wherein, the feeding mechanism 4 comprises a pushing plate 401; the material pushing plate 401 is connected with the linkage mechanism 3; limiting grooves 204 are formed in two sides of the lower die 201; the material pushing plate 401 is connected with the lower die 201 in a sliding mode through the limiting groove 204; a clamping groove 402 for positioning the material is formed on one side of the material pushing plate 401 close to the forming groove 203; the material pushing plate 401 can push the material to the forming groove 203 without manual placement; the clamping groove 402 is used for limiting the position of the material, and the machining accuracy is guaranteed.

Wherein, a storage box 405 is arranged above the material pushing plate 401; the lower surface of the upper mounting plate 101 is provided with a plurality of third sliding grooves 106; the storage box 405 is connected with the upper mounting plate 101 in a sliding manner through the third chute 106; the bottom end of the storage box 405 abuts against the upper edge of the material pushing plate 401; the storage box 405 is provided with a discharge hole matched with the clamping groove 402; a plurality of materials can once be put into to the storage case 405 that sets up, has effectively reduced and has added the material number of times, saves the cost of labor.

Wherein, the vertical end surface of the forming groove 203 is provided with a cavity 206; a material returning part 404 is in sliding fit in the cavity 206; a limiting plate 207 is arranged in the cavity 206; a third connecting portion 407 is fixedly connected to one side of the material returning portion 404 facing the inside of the cavity 206; the third connecting portion 407 penetrates through the limiting plate 207 and is connected with the limiting plate 207 in a sliding manner; one end of the third connecting portion 407, which is far away from the forming groove 203, is fixedly connected with a limiting block 408; the limiting block 408 is connected with the cavity 206 through a return spring 409; when the limiting block 408 is attached to the limiting plate 207, the upper part of one end of the material returning part 404, which is positioned outside the cavity 206, is provided with an inclined plane structure; through the arrangement of the material returning part 404 with the inclined surface structure and the return spring 409, after the stamping process is finished, the material returning part 404 can automatically push the material out of a working area, the worker does not need to take the material out with hands, and the safety is improved.

Wherein, a handle 406 is fixedly connected to the storage box 405; through setting up handle 406, can make things convenient for the feeding operation.

Wherein, the thickness of the material pushing plate 401 is the same as that of the single material; by limiting the thickness of the material pushing plate 401, only one material can be pushed out by the material pushing plate 401 at each time, and the production stability is guaranteed.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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.

Claims (7)

1. A hoop stamping die based on automatic feeding comprises an installation mechanism (1) and a die (2); the mounting mechanism (1) comprises an upper mounting plate (101), a lower mounting plate (102) and a side mounting plate (103); the die (2) comprises a lower die (201) and an upper die (202); the upper die (202) is slidably mounted on the upper mounting plate (101); the lower die (201) is fixedly arranged on the lower mounting plate (102); a forming groove (203) is formed in the lower die (201) corresponding to the upper die (202); the method is characterized in that:

the upper die (202) is connected with a linkage mechanism (3) in a transmission way; the linkage mechanism (3) is in transmission connection with a feeding mechanism (4); the linkage mechanism (3) is used for transmitting power to the feeding mechanism (4) when the upper die (202) operates;

the feeding mechanism (4) is slidably mounted on the lower die (201); the feeding mechanism (4) is used for pushing the material to the stamping position of the die (2).

2. The hoop punching die based on automatic feeding is characterized in that the linkage mechanism (3) comprises a first rack (301); the first rack (301) is fixedly connected with the upper die (202) through a first connecting part (205); the first rack (301) is connected with the side mounting plate in a sliding mode through a second sliding groove (105); a first gear (303) is meshed and matched with the first rack (301); the first gear (303) is fixedly sleeved on a first supporting rod (302); the first supporting rod (302) is rotatably connected with the side mounting plate (103); a first belt pulley (304) is fixedly sleeved on the first supporting rod (302); the first belt pulley (304) is connected with a second belt pulley (306) through belt transmission; the second belt pulley (306) is fixedly sleeved on a second support rod (307); the second supporting rod (307) is rotatably connected with the side mounting plate (103); a second gear (305) is fixedly sleeved on the second supporting rod (307); a second rack (308) is meshed with the second gear (305); the second rack (305) is connected with the side mounting plate (103) in a sliding way through a first sliding chute (104); the second rack (308) is connected with the feeding mechanism (4) through a second connecting part (403).

3. The hoop punching die based on automatic feeding as claimed in claim 1, wherein the feeding mechanism (4) comprises a material pushing plate (401); the material pushing plate (401) is connected with the linkage mechanism (3); limiting grooves (204) are formed in two sides of the lower die (201); the material pushing plate (401) is connected with the lower die (201) in a sliding mode through a limiting groove (204); one side of the material pushing plate (401) close to the forming groove (203) is provided with a clamping groove (402) for positioning materials.

4. The hoop punching die based on automatic feeding as claimed in claim 3, wherein a storage box (405) is arranged above the material pushing plate (401); the lower surface of the upper mounting plate (101) is provided with a plurality of third sliding grooves (106); the storage box (405) is connected with the upper mounting plate (101) in a sliding manner through a third chute (106); the bottom end of the storage box (405) is abutted against the upper edge of the material pushing plate (401); the storage box (405) is provided with a discharge hole matched with the clamping groove (402).

5. The hoop punching die based on automatic feeding as claimed in claim 3, wherein the vertical end face of the forming groove (203) is provided with a cavity (206); a material returning part (404) is in sliding fit with the cavity (206); a limiting plate (207) is arranged in the cavity (206); a third connecting part (407) is fixedly connected to one side of the material returning part (404) facing the inner part of the cavity (206); the third connecting part (407) penetrates through the limiting plate (207) and is in sliding connection with the limiting plate (207); one end of the third connecting part (407) far away from the forming groove (203) is fixedly connected with a limiting block (408); the limiting block (408) is connected with the cavity (206) through a return spring (409); when the limiting block (408) is attached to the limiting plate (207), the upper part of one end, located outside the cavity (206), of the material returning part (404) is provided with an inclined surface structure.

6. The hoop punching die based on automatic feeding is characterized in that a handle (406) is fixedly connected to the storage box (405).

7. The hoop punching die based on automatic feeding is characterized in that the thickness of the material pushing plate (401) is the same as that of a single material.

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