CN219881197U - Error-proof die forging die capable of detecting offset of forging - Google Patents

Abstract

The utility model discloses an error-proofing die forging die capable of detecting the offset of a forging piece, which comprises the following components: the die comprises a lower die carrier, wherein an upper die carrier is arranged outside the lower die carrier, a lower die carrier is arranged at the center position of the bottom end of the upper die carrier, an upper die carrier is arranged at the center position of the top end of the lower die carrier below the lower die carrier, the lower die carrier and the upper die carrier are matched for forging and processing of workpieces, the number of sliding sleeves is four, the sliding sleeves are symmetrically arranged at the top ends of the lower die carriers at the two sides of the upper die carrier, sliding rods are arranged in the sliding sleeves, the two ends of each sliding rod extend to the outside of the sliding sleeve, the sliding rods are used for detecting the offset, the sliding grooves are four groups, and the sliding grooves are symmetrically arranged in the lower die carrier below the sliding sleeves. The utility model not only realizes the convenient and visual display of the displacement of the forging piece by the error-proofing die forging die, and facilitates clear marking of the displacement, but also facilitates operators to watch and adjust the position in time.

Description

Error-proof die forging die capable of detecting offset of forging

Technical Field

The utility model relates to the technical field of error-proof die forging dies, in particular to an error-proof die forging die capable of detecting the offset of a forging piece.

Background

By error-proof design is meant that techniques or tools are applied during the design of the product to ensure that the desired result or product is always achieved that meets the design objectives, while at the same time the product is as little as possible in the manufacturing or assembly or use phase as possible due to human or machine problems, errors due to errors by the designer may lead to the product lacking due functions or unreasonable parameters, such errors may lead to inherent defects of the product, sometimes with very serious consequences, the forging die being a tool capable of shaping the blank into a die forging, which is the critical process equipment necessary in the production of the die forging.

When the metal blank is forged by the error proofing die forging die, the metal blank in the die is extruded by force to be molded, the structure of the error proofing die forging die is easy to be stressed to generate the phenomenon of dislocation, the product forging precision is greatly influenced when the dislocation occurs, the special detection structure is not beneficial to visual observation and detection when the dislocation occurs, the special detection structure is needed to observe and detect, the convenience and the intuitionistic display of the dislocation amount of the forging are not beneficial to when the special detection structure is used, the quantity of the dislocation amount of the forging is marked conveniently and clearly, and the convenience and the accuracy of the detection are greatly influenced.

Disclosure of Invention

The utility model aims to provide an anti-error die forging die capable of detecting the displacement of a forging piece, so as to solve the problem that the anti-error die forging die in the background art is inconvenient to display the displacement of the forging piece conveniently, quickly and intuitively, and marks the displacement conveniently and clearly.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an error proofing die forging die capable of detecting the amount of misalignment of a forging, comprising: the die comprises a lower die carrier, wherein an upper die carrier is arranged outside the lower die carrier, a lower die carrier is arranged at the central position of the bottom end of the upper die carrier, an upper die carrier is arranged at the central position of the top end of the lower die carrier below the lower die carrier, the lower die carrier and the upper die carrier are matched for forging and processing of workpieces, the sliding sleeve is four groups, the sliding sleeve is symmetrically arranged at the top ends of the lower die carriers on the two sides of the upper die carrier, sliding rods are arranged inside the sliding sleeve, the two ends of the sliding rods are all extended to the outside of the sliding sleeve, the sliding rods are used for detecting the offset, the sliding grooves are four groups, the sliding grooves are symmetrically arranged inside the lower die carrier below the sliding sleeve, sliding vanes are arranged inside the sliding grooves, one ends of the sliding vanes are all extended to the outside of the sliding grooves, and measuring scales are arranged on the outer wall of the sliding vanes and used for detecting and measuring functions.

Preferably, the scale is all installed on the lower die carrier outer wall of measurement chi below, and the top of scale extends to the surface of measurement chi, the link arm is all installed to the one end that the gleitbretter kept away from the spout, and the top of link arm all is with adapter fixed connection.

Preferably, two groups of locating pins are arranged in the sliding sleeve above the sliding rod, and the bottom ends of the locating pins extend to the surface of the sliding rod.

Preferably, the bottom ends of the upper die frames at the two sides of the lower die holder are provided with right guide sleeves, and one side, far away from the right guide sleeves, of the bottom end of the lower die holder is symmetrically provided with left guide sleeves.

Preferably, the top ends of the lower die frames below the right guide sleeve are all provided with right guide posts, and the top ends of the right guide posts extend to the inside of the right guide sleeve.

Preferably, the top ends of the lower die frames below the left guide sleeve are all provided with left guide posts, and the top ends of the left guide posts extend to the inside of the left guide sleeve.

Preferably, the bottom end of the lower die frame is symmetrically provided with a frame, and the frames are fixedly connected with the lower die frame.

Compared with the prior art, the utility model has the beneficial effects that: the error-proof die forging die not only realizes the convenient and visual display of the error-proof die forging die on the offset of the forging piece, and is convenient for clearly marking the offset, but also is convenient for operators to watch and adjust the position in time;

when the lower die holder and the upper die holder are shifted when being impacted by pressure, the upper die holder drives the sliding rod to move, the sliding rod slides in the sliding sleeve, the sliding rod drives the transfer block to move, the transfer block drives the sliding sheet to move through the linkage arm, the sliding sheet drives the measuring ruler to move, the measuring ruler is indicated and displayed by the scale to determine the moving amount of the measuring ruler, the sliding rods distributed on the two sides of the upper die holder can detect the moving amount of the measuring ruler, so that operators can conveniently and timely watch and find out the moving amount of the measuring ruler, timely adjustment positions are achieved, convenient and visual display of the forging offset of the error-proofing die is achieved, clear marking of the offset is facilitated, and timely watching and adjustment positions of operators are facilitated.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic side view of a chute according to the present utility model;

FIG. 3 is a schematic top view of the lower mold frame of the present utility model;

fig. 4 is a schematic side view of the lower die carrier of the present utility model.

In the figure: 1. a lower die frame; 2. a die carrier is arranged; 3. a right guide post; 4. a right guide sleeve; 5. a lower die holder; 6. an upper die holder; 7. a left guide post; 8. a left guide sleeve; 9. a frame; 10. a sliding sleeve; 11. a positioning pin; 12. a slide bar; 13. a transfer block; 14. a chute; 15. a ruler; 16. a sliding sheet; 17. a measuring ruler; 18. and a linkage arm.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an embodiment of the present utility model is provided: an error proofing die forging die capable of detecting the amount of misalignment of a forging, comprising: the die comprises a lower die frame 1, an upper die frame 2 is arranged outside the lower die frame 1, a lower die holder 5 is arranged at the central position of the bottom end of the upper die frame 2, an upper die holder 6 is arranged at the central position of the top end of the lower die frame 1 below the lower die holder 5, the lower die holder 5 and the upper die holder 6 are matched for forging processing of workpieces, four groups of sliding sleeves 10 are symmetrically arranged at the top ends of the lower die frame 1 at two sides of the upper die holder 6, sliding rods 12 are arranged inside the sliding sleeves 10, two ends of each sliding rod 12 extend to the outside of the sliding sleeve 10, the sliding rods 12 are in sliding connection with the sliding sleeves 10, the sliding rods 12 are used for detecting the displacement amount, the sliding grooves 14 are four groups, the sliding grooves 14 are symmetrically arranged inside the lower die frame 1 below the sliding sleeves 10, sliding vanes 16 are arranged inside the sliding grooves 14, one ends of the sliding vanes 16 extend to the outside of the sliding grooves 14, and the sliding vanes 16 are in sliding connection with the sliding grooves 14;

the outer walls of the sliding sheets 16 are provided with measuring rulers 17, the measuring rulers 17 are used for detecting the measuring effect, the outer walls of the lower die carrier 1 below the measuring rulers 17 are provided with scales 15, the top ends of the scales 15 extend to the surfaces of the measuring rulers 17, the scales 15 are in sliding connection with the measuring rulers 17, one ends of the sliding sheets 16, far away from the sliding grooves 14, are provided with linkage arms 18, the top ends of the linkage arms 18 are fixedly connected with the adapter 13, two groups of positioning pins 11 are arranged in the sliding sleeve 10 above the sliding rod 12, the bottom ends of the positioning pins 11 extend to the surfaces of the sliding rod 12, and the positioning pins 11 are in sliding connection with the sliding rod 12;

when the die is used, the lower die holder 5 is connected with the upper die holder 2, the upper die holder 6 is connected with the lower die holder 1, a workpiece is placed in the upper die holder 6 to be forged, when the lower die holder 5 and the upper die holder 6 are shifted under the impact of pressure, the upper die holder 6 drives the slide rod 12 to move, the slide rod 12 slides in the sliding sleeve 10, the slide rod 12 drives the adapter block 13 to move, the adapter block 13 drives the slide sheet 16 to move through the linkage arm 18, the slide sheet 16 slides in the sliding groove 14, the slide sheet 16 drives the measuring ruler 17 to move, the ruler 15 indicates and displays the measuring ruler 17 to determine the moving amount of the measuring ruler, the slide rods 12 distributed on two sides of the upper die holder 6 can detect the moving amount of the measuring ruler, so that operators can conveniently and timely watch and find out the moving amount of the forging, timely adjusting positions of the error-preventing die forging can be conveniently and intuitively displayed, the amount of the error can be marked clearly, and the operator can conveniently watch the adjusting positions timely;

the bottom ends of the upper die frames 2 at the two sides of the lower die holder 5 are respectively provided with a right guide sleeve 4, one side, far away from the right guide sleeve 4, of the bottom end of the lower die holder 5 is symmetrically provided with a left guide sleeve 8, the top ends of the lower die frames 1 below the right guide sleeve 4 are respectively provided with a right guide pillar 3, the top ends of the right guide pillars 3 are respectively extended into the right guide sleeve 4, the right guide pillars 3 are in sliding connection with the right guide sleeve 4, the top ends of the lower die frames 1 below the left guide sleeves 8 are respectively provided with a left guide pillar 7, the top ends of the left guide pillars 7 are respectively extended into the left guide sleeve 8, the bottom ends of the lower die frames 1 are symmetrically provided with a frame 9, and the frame 9 is respectively fixedly connected with the lower die frames 1;

when the die holder is used, the upper die holder 2 drives the lower die holder 5 to move downwards, the upper die holder 2 drives the right guide sleeve 4 and the left guide sleeve 8 to synchronously move downwards, the right guide sleeve 4 slides on the surface of the right guide post 3, the left guide sleeve 8 slides on the surface of the left guide post 7, under the cooperation of the right guide sleeve 4 and the right guide post 3, the left guide sleeve 8 and the left guide post 7 are matched to carry out sliding support, so that the stability of the transmission of the upper die holder 2 and the lower die holder 1 is improved, the machine frame 9 and the lower die holder 1 are installed together, the machine frame 9 is convenient to be connected with the outside, the reliable sliding support of the error-proof die forging die during forging is realized, and the stability of the transmission of the error-proof die forging die is improved.

Working principle: when in use, firstly, the lower die holder 5 is connected with the upper die holder 2, the upper die holder 6 is connected with the lower die holder 1, a workpiece is placed in the upper die holder 6 to perform forging processing, when the lower die holder 5 and the upper die holder 6 are dislocated under the impact of pressure, the upper die holder 6 drives the slide rod 12 to move, the slide rod 12 slides in the slide sleeve 10, the slide rod 12 drives the transfer block 13 to move, the transfer block 13 drives the slide sheet 16 to move through the linkage arm 18, the slide sheet 16 slides in the slide groove 14, the slide sheet 16 drives the measuring ruler 17 to move, the ruler 15 indicates and displays the measuring ruler 17 to determine the moving amount, the slide rods 12 distributed on two sides of the upper die holder 6 can detect the moving amount, the device is convenient for operators to watch and find timely adjustment positions, then when the upper die frame 2 drives the lower die holder 5 to move downwards, the upper die frame 2 drives the right guide sleeve 4 and the left guide sleeve 8 to move downwards synchronously, the right guide sleeve 4 slides on the surface of the right guide post 3, the left guide sleeve 8 slides on the surface of the left guide post 7, under the cooperation of the right guide sleeve 4 and the right guide post 3, the left guide sleeve 8 and the left guide post 7 are matched for sliding support, so that the transmission stability of the upper die frame 2 and the lower die frame 1 is improved, the machine frame 9 and the lower die frame 1 are installed together, and the machine frame 9 is convenient to be connected with the outside to finish the use work of the error-proofing die forging die.

Claims (7)

1. An error proofing die forging die capable of detecting the displacement of a forging piece, comprising:

the die comprises a lower die frame (1), wherein an upper die frame (2) is arranged outside the lower die frame (1), a lower die base (5) is arranged at the central position of the bottom end of the upper die frame (2), an upper die base (6) is arranged at the central position of the top end of the lower die frame (1) below the lower die base (5), and the lower die base (5) and the upper die base (6) are matched for forging a workpiece;

the sliding sleeves (10) are four groups, the sliding sleeves (10) are symmetrically arranged at the top ends of the lower die frames (1) at two sides of the upper die holder (6), sliding rods (12) are arranged in the sliding sleeves (10), two ends of each sliding rod (12) extend to the outside of the sliding sleeve (10), and the sliding rods (12) are used for detecting the displacement;

the sliding chute (14), the sliding chute (14) is four groups, and the sliding chute (14) is symmetrically installed inside the lower die carrier (1) below the sliding sleeve (10), sliding vanes (16) are arranged inside the sliding chute (14), one ends of the sliding vanes (16) all extend to the outside of the sliding chute (14), measuring rules (17) are installed on the outer wall of the sliding vanes (16), and the measuring rules (17) are used for detecting the measuring effect.

2. The anti-misdie forging die capable of detecting the amount of misalignment of a forging piece according to claim 1, wherein: the measuring device is characterized in that a scale (15) is arranged on the outer wall of the lower die carrier (1) below the measuring ruler (17), the top end of the scale (15) extends to the surface of the measuring ruler (17), a linkage arm (18) is arranged at one end, far away from the sliding groove (14), of the sliding sheet (16), and the top end of the linkage arm (18) is fixedly connected with the adapter block (13).

3. The anti-misdie forging die capable of detecting the amount of misalignment of a forging piece according to claim 1, wherein: two groups of positioning pins (11) are arranged in the sliding sleeve (10) above the sliding rod (12), and the bottom ends of the positioning pins (11) extend to the surface of the sliding rod (12).

4. The anti-misdie forging die capable of detecting the amount of misalignment of a forging piece according to claim 1, wherein: the bottom ends of the upper die frames (2) on two sides of the lower die holder (5) are provided with right guide sleeves (4), and one side, far away from the right guide sleeves (4), of the bottom end of the lower die holder (5) is symmetrically provided with left guide sleeves (8).

5. The anti-misdie forging die capable of detecting the amount of misalignment of a forging according to claim 4, wherein: the right guide posts (3) are all installed at the top ends of the lower die frames (1) below the right guide sleeves (4), and the top ends of the right guide posts (3) extend to the inside of the right guide sleeves (4).

6. The anti-misdie forging die capable of detecting the amount of misalignment of a forging according to claim 4, wherein: the top ends of the lower die frames (1) below the left guide sleeve (8) are provided with left guide posts (7), and the top ends of the left guide posts (7) extend to the inside of the left guide sleeve (8).

7. The anti-misdie forging die capable of detecting the amount of misalignment of a forging piece according to claim 1, wherein: the bottom end of the lower die frame (1) is symmetrically provided with a frame (9), and the frames (9) are fixedly connected with the lower die frame (1).