CN218310515U - Die cavity replacing device for multi-station stamping fastener - Google Patents

Abstract

The utility model provides a die cavity device is changed to multistation punching press fastener, include: the cross beam is arranged above the supporting platform; a plurality of vertical rods are vertically fixed on the surface of the cross beam, the distance between the vertical rods is equal to the distance between the die cavities of the punching machine, supporting plates are arranged at the end parts of the vertical rods facing the die cavities of the punching machine, and suckers for lifting or putting down a workpiece from the die cavities of the punching machine are arranged on the supporting plates; reasonable in design, the structure links up, and after the punching press, according to the work piece in the change die cavity of process one by one of punching press, effectively change the product of previous die cavity to next die cavity, effectively promoted the efficiency of the production of punching press fastener, made the convenient smoothness of whole production, save time, practicality is excellent, does benefit to popularization and use.

Description

Die cavity replacing device for multi-station stamping fastener

Technical Field

The utility model relates to the technical field of machining, especially, relate to a die cavity device is changed to multistation punching press fastener.

Background

With the continuous development of society, a stamping process is very common in machining, stamping is a press working method for applying pressure to a material by using a die arranged on a press at room temperature to separate or plastically deform the material so as to obtain a required part, a fastener is a basic part frequently used in automobile production and is used for fixing key parts such as an engine, a gearbox, a chassis suspension part, a longitudinal beam, a door lock and the like in an automobile, such as a sheet nut, a threaded plate and the like, and the shape of the fastener has various forms but needs to be formed by stamping.

The punching press of fastener comprises multiple processes, for example blanking, drawing, plastic, punch a hole etc. adopt mode one by one to process progressively to satisfy the processing demand of fastener, because inconvenient change the product in the former die cavity to next die cavity, so the punching press production of fastener multiple processes all is operated by the manual work now, it is big to have artifical intensity of labour, production cycle is long, to making the production efficiency of fastener low, do not possess market competition, exist not enoughly.

In summary, in view of the defects in the prior art, a mold cavity replacing device for multi-station punching fasteners is particularly needed to solve the deficiencies in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a die cavity device is changed to multistation punching press fastener, simple structure can conveniently change the product of previous die cavity to next die cavity, promotes the machining efficiency of fastener in the punching press, and the practicality is excellent.

The utility model discloses a solve the technical scheme that its technical problem adopted and be:

a multi-station punch fastener replacement die cavity apparatus comprising: the cross beam is arranged above the supporting platform;

a plurality of vertical rods are vertically fixed on the surface of the cross beam, the distance between the vertical rods is equal to the distance between the die cavities of the punching machine, supporting plates are arranged at the end parts of the vertical rods facing the die cavities of the punching machine, and suckers for lifting or putting down workpieces from the die cavities of the punching machine are arranged on the supporting plates;

translation guide rails parallel to the cross beam are arranged at two ends above the supporting table, matched translation sliding blocks are arranged on the translation guide rails, and a lifting cylinder for controlling the up-and-down displacement of the cross beam is arranged between the translation sliding blocks and the cross beam;

connecting rods are arranged between the translation sliding blocks, a connection block is arranged on one translation sliding block, a main shaft of a translation cylinder on the support table is connected with the connection block, and the translation cylinder pushes the translation sliding block to move on the translation guide rail so as to control the left and right displacement of the cross beam;

the both ends of the below of brace table all are provided with flexible slider, and flexible slider cup joints in telescopic guide, and telescopic cylinder is installed to flexible slider's side, and telescopic cylinder's main shaft is connected through the switching piece of end fixing to flexible slider, and telescopic cylinder drives the motion of flexible slider on telescopic guide and then the displacement around the control crossbeam.

Furthermore, the vertical rods fixed on the surface of the cross beam are uniformly distributed.

Furthermore, the groove in the translation sliding block is trapezoidal, the shape of the translation guide rail is trapezoidal, the structures of the translation sliding block and the telescopic sliding block are the same, and the structures of the translation guide rail and the telescopic guide rail are the same.

Further, the both sides of lift cylinder are provided with the fastening block.

Furthermore, the supporting plate and the vertical rod are detachably connected.

Furthermore, a bottom plate is laid at the bottom of the telescopic guide rail.

Further, the supporting table is U-shaped, and a hollow part in the middle of the supporting table is arranged to be an electric element placing area.

The utility model has the advantages of:

to sum up, the utility model relates to a rationally, the structure links up, after the punching press, according to the work piece in the change die cavity of the process of punching press one by one, effectively changes the product in the preceding die cavity to next die cavity, has effectively promoted the efficiency of the production of punching press fastener, makes the convenient smoothness of whole production, saves time, and practicality is excellent, does benefit to popularization and use.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic view of the forward and backward moving cylinder of the present invention;

FIG. 4 is a schematic view of the structure of the lifting cylinder of the present invention;

100-bottom plate, 110-cross beam, 120-vertical rod, 130-supporting plate, 140-sucking disc, 150-lifting cylinder, 151-fastening block, 160-connecting rod, 170-translation sliding block, 171-translation guide rail, 172-connecting block, 180-translation cylinder, 190-supporting table, 200-telescopic sliding block, 210-telescopic guide rail and 220-telescopic cylinder.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the drawings and the specific embodiments.

As shown in fig. 1, 2, 3 and 4, a multi-station die cavity stamping and replacing device for a fastener comprises: the beam 110 and the support table 190, wherein the beam 110 is arranged above the support table 190; a plurality of vertical rods 120 are vertically fixed on the surface of the cross beam 110, the distance between the vertical rods 120 is equal to the distance between the die cavities of the punching machine, supporting plates 130 are arranged at the end parts of the vertical rods 120 facing the die cavities of the punching machine, and sucking discs 140 for lifting or putting down workpieces from the die cavities of the punching machine are arranged on the supporting plates 130; translation guide rails 171 which are parallel to the cross beam are arranged at two ends above the support table 190, translation sliders 170 which are matched with the translation guide rails 171 are arranged on the translation guide rails 171, and a lifting cylinder 150 which controls the up-and-down displacement of the cross beam 110 is arranged between the translation sliders 170 and the cross beam 110; a connecting rod 160 is arranged between the translation sliders 170, one of the translation sliders is provided with a connecting block 172, the main shaft of a translation cylinder 180 on the support table 190 is connected with the connecting block 172, and the translation cylinder 180 pushes the translation slider 170 to move on the translation guide rail 171 so as to control the left and right displacement of the cross beam 110; the both ends of the below of the supporting table 190 are all provided with a telescopic slider 200, the telescopic slider 200 is sleeved on the telescopic guide rail 210, a telescopic cylinder 220 is installed at the side edge of the telescopic slider 200, the telescopic slider 200 is connected with the main shaft of the telescopic cylinder 220 through a switching block fixed at the end part, and the telescopic cylinder 220 drives the telescopic slider 200 to move on the telescopic guide rail 210 so as to control the displacement of the beam 110 in the front and back directions.

In addition, the vertical rods 120 fixed on the surface of the cross beam 110 are uniformly distributed.

The utility model discloses the inside recess of translation slider 170 is trapezoidal, and translation guide rail 171's shape is trapezoidal, and translation slider 170 is the same with telescopic sliding block 200's structure, and translation guide rail 171 is the same with telescopic sliding rail 210's structure.

The lifting cylinder 150 is provided at both sides thereof with fastening blocks 151.

The supporting plate 130 and the vertical rod 120 are detachably connected, so that the type of the supporting plate can be conveniently changed, and the supporting plate can be an electromagnetic chuck or a pneumatic chuck.

The utility model discloses bottom plate 100 has been laid to telescopic guide 210's bottom, and the bottom plate is used for supporting whole device, makes things convenient for whole device to carry out the displacement.

The support platform 190 is U-shaped, and a hollow portion in the middle of the support platform 190 is configured as an electrical component placement area.

The utility model discloses a theory of operation does: the die cavity replacing device of the utility model is placed at the front end of the die cavity of the punching machine, one die cavity of the punching machine corresponds to one sucker, a vertical rod is vertically fixed on a crossbeam, the end surface of the vertical rod is provided with a supporting plate, the sucker is arranged on the supporting plate, the crossbeam is driven by a lifting cylinder to move up and down, the lifting cylinder is fixed on a translation slide block at the bottom, the translation slide block is sleeved on a translation guide rail, a connecting rod is connected between the two translation slide blocks, one translation slide block is connected with the translation cylinder, the translation slide block is driven by the extension of a main shaft of the translation cylinder to move on the translation guide rail, the crossbeam is synchronously moved left and right, the translation guide rail is fixed on a supporting table, both ends below the supporting table are provided with telescopic slide blocks, the telescopic slide blocks are sleeved on the telescopic guide rail, a telescopic cylinder is arranged at the side edge of the telescopic slide block, the telescopic cylinder drives the telescopic slide block to move on the telescopic guide rail, make crossbeam seesaw in step, promptly the utility model discloses a movement track does, after a punching press action is accomplished, telescopic cylinder drives telescopic slider forward motion on telescopic guide, make the sucking disc push to the die cavity inboard in step, lift cylinder descends this moment, the sucking disc snatchs the work piece that corresponds the die cavity the inside, lift cylinder rises, the work piece that makes the sucking disc snatch lifts, stretch out of translation cylinder main shaft and drive the translation slider and move on the translation guide, make the sucking disc remove to the die cavity of next needs punching press, lift cylinder descends this moment, the work piece that the sucking disc snatched is placed in the die cavity of next needs punching press, after placing the completion, lift cylinder rises, the sucking disc is empty this moment, translation cylinder and flexible gas shrinkage, make the sucking disc be in originated state, after the punching press is accomplished, carry out above-mentioned process, high practicability.

The utility model has the advantages that:

to sum up, the utility model relates to a rationally, the structure links up, after the punching press, according to the work piece in the change die cavity of the process of punching press one by one, effectively changes the product in the former die cavity to next die cavity, has effectively promoted the efficiency of the production of punching press fastener, makes the convenient smoothness of whole production, saves time, and practicality is excellent, does benefit to popularization and use.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to let the technical personnel in the field understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (7)

1. A multi-station punch fastener replacement die cavity apparatus comprising: the cross beam is arranged above the supporting platform; it is characterized in that the preparation method is characterized in that,

a plurality of vertical rods are vertically fixed on the surface of the cross beam, the distance between the vertical rods is equal to the distance between the die cavities of the punching machine, supporting plates are arranged at the end parts of the vertical rods facing the die cavities of the punching machine, and suckers for lifting or putting down workpieces from the die cavities of the punching machine are arranged on the supporting plates;

translation guide rails parallel to the cross beam are arranged at two ends above the support table, matched translation sliding blocks are arranged on the translation guide rails, and a lifting cylinder for controlling the up-and-down displacement of the cross beam is arranged between the translation sliding blocks and the cross beam;

a connecting rod is arranged between the translation sliding blocks, one translation sliding block is provided with a connecting block, a main shaft of a translation cylinder on the support table is connected with the connecting block, and the translation cylinder pushes the translation sliding block to move on the translation guide rail so as to control the left and right displacement of the cross beam;

the both ends of the lower part of the supporting table are provided with telescopic sliding blocks which are sleeved on the telescopic guide rail, telescopic cylinders are installed on the side edges of the telescopic sliding blocks, the telescopic sliding blocks are connected with the main shafts of the telescopic cylinders through the switching blocks fixed at the ends, and the telescopic cylinders drive the telescopic sliding blocks to move on the telescopic guide rail so as to control the front and back displacement of the cross beam.

2. The apparatus of claim 1, wherein the posts fixed to the surface of the beam are uniformly distributed.

3. The die cavity device for replacing the multi-station stamping fastener as claimed in claim 1, wherein the groove inside the translation slider is trapezoidal, the translation guide rail is trapezoidal, the translation slider and the telescopic slider have the same structure, and the translation guide rail and the telescopic guide rail have the same structure.

4. The multi-station die cavity apparatus for replacing a press fastener as claimed in claim 1, wherein the lifting cylinder is provided with fastening blocks at both sides thereof.

5. The apparatus of claim 1, wherein the support plate and the vertical rod are detachably connected to each other.

6. The device as claimed in claim 1, wherein a bottom plate is laid on the bottom of the telescopic rail.

7. The die cavity apparatus for multi-station die fastener replacement according to claim 1, wherein the support platform is U-shaped, and a hollow portion in the middle of the support platform is configured as an electrical component placement area.

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