CN113075020B

CN113075020B - New material ductility testing arrangement is made to high-end equipment

Info

Publication number: CN113075020B
Application number: CN202110263510.8A
Authority: CN
Inventors: 罗水成
Original assignee: Chongqing Zhongtian Ceramics Co ltd
Current assignee: Chongqing Zhongtian Ceramics Co ltd
Priority date: 2021-03-11
Filing date: 2021-03-11
Publication date: 2024-01-09
Anticipated expiration: 2041-03-11
Also published as: CN113075020A

Abstract

The invention relates to a testing device, in particular to a new material ductility testing device for manufacturing high-end equipment. The technical problems of the invention are as follows: the novel material ductility testing device can realize automatic testing and is convenient to take out and manufacture for high-end equipment. The ductility testing device for the new material manufactured by the high-end equipment comprises a base and a pushing frame, wherein the pushing frame is arranged on the base; the fixed blocks are arranged on two sides of the pushing frame; the pushing mechanism is connected between the fixed block and the pushing frame; the test mechanism is arranged on the pushing frame. Through the cooperation between pushing mechanism, testing mechanism and the automatic unloading mechanism, can realize automatic unloading and automated inspection's effect.

Description

New material ductility testing arrangement is made to high-end equipment

Technical Field

The invention relates to a testing device, in particular to a new material ductility testing device for manufacturing high-end equipment.

Background

In industrial production processing, high-end equipment manufacturing new material belongs to part of processing, and in order to detect the ductility of new material, the new material can be detected in an impact mode, and at present, the detection method mostly adopts manual detection, places the new material on a workbench, and then uses impact equipment to impact the new material.

The body of people is easy to be injured by the operation, and the operation is time-consuming and labor-consuming, so that the novel material ductility testing device can be automatically tested, and is convenient to take out and is manufactured by high-end equipment.

Disclosure of Invention

In order to overcome the defects of manual operation, time and labor waste and easy injury to the human body, the invention has the following technical problems: the novel material ductility testing device can realize automatic testing and is convenient to take out and manufacture for high-end equipment.

The utility model provides a high-end equipment manufacturing new material ductility testing arrangement, includes:

the device comprises a base and a pushing frame, wherein the pushing frame is arranged on the base;

the fixed blocks are arranged on two sides of the pushing frame;

the pushing mechanism is connected between the fixed block and the pushing frame;

the test mechanism is arranged on the pushing frame.

Further described, the pushing mechanism comprises:

the fixed block on the front side of the air cylinder is provided with the air cylinder;

the pull-out plate is connected to one side of the pushing frame in a sliding manner;

the pushing block is connected to one side of the pushing frame in a sliding manner, and one side of the pushing block is connected with the air cylinder;

the first springs are arranged between the two sides of the pushing block and the fixed block at the front side.

Further described, the test mechanism comprises:

a supporting frame is arranged on one side of the top of the pushing frame;

the two sides of the support frame are connected with the first sliding rod in a sliding manner;

a lower pressing block is connected between the bottoms of the first sliding rods;

and the second springs are arranged between the two sides of the bottom of the first sliding rod and the lower pressing block.

Further, the automatic blanking mechanism is further included, and the automatic blanking mechanism comprises:

a blanking frame is arranged on one side of the top of the pushing frame;

the blanking frame is connected with the material blocking frame in a sliding manner;

the third springs are arranged between the two sides of the front part of the material blocking frame and the blanking frame;

the first rotating shafts are rotatably connected to the two sides of the front part of the pushing frame;

the swinging rods are arranged on the first rotating shafts;

torsion springs are arranged between the swinging rods and the pushing frame.

Further, the device also comprises a reciprocating mechanism, and the reciprocating mechanism comprises:

the two sides of the pushing block are connected with the second sliding rod in a sliding way;

the first wedge-shaped blocks are arranged on one side of the second sliding rod;

a fourth spring is arranged between the two sides of the pushing block and the first wedge block;

the rolling block is uniformly and rotatably connected to one side of the first wedge-shaped block;

and the two sides of the top of the lower pressing block are provided with the second wedge blocks.

Further, the utility model also comprises a drawing mechanism, which comprises:

the telescopic rods are arranged on one side of the second wedge-shaped block;

the sliding rails are arranged on two sides of the rear part of the pushing frame;

the slide rails are connected with the push-up frame in a sliding manner;

two second elastic pieces are arranged between the bottom of the push-up frame and the push-up frame;

the sliding frames are connected to two sides of the rear part of the pull-out plate, and are contacted with the push-up frame;

and a fifth spring is arranged between the two sides of the rear part of the sliding frame and the fixed blocks at the rear side.

Further, the device also comprises a buffer mechanism, wherein the buffer mechanism comprises:

sliding sleeves are arranged on two sides of the rear part of the base;

the sliding sleeves are connected with the third sliding rods in a sliding manner;

a blanking sloping plate is connected between the tops of the third sliding rods;

and a sixth spring is arranged between the bottom of the blanking sloping plate and the top of the sliding sleeve.

Further, the blanking sloping plate is rectangular.

The beneficial effects of the invention are as follows: 1. through the cooperation between pushing mechanism, testing mechanism and the automatic unloading mechanism, can realize automatic unloading and automated inspection's effect.

2. Through the cooperation between reciprocating mechanism and the mechanism that draws out, can realize automatic propelling movement material, after examining the material, release it backward automatically.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 3 is a schematic perspective view of a testing mechanism according to the present invention.

Fig. 4 is a schematic perspective view of an automatic blanking mechanism of the present invention.

Fig. 5 is a schematic perspective view of the reciprocating mechanism of the present invention.

Fig. 6 is a schematic perspective view of the extraction mechanism of the present invention.

Fig. 7 is a schematic perspective view of a buffer mechanism according to the present invention.

The reference symbols in the drawings: 1: base, 2: pushing frame, 3: fixed block, 4: pushing mechanism, 41: first spring, 42: cylinder, 43: pushing block, 44: pullout plate, 5: test mechanism, 51: support frame, 52: first slide bar, 53: second spring, 54: pressing blocks, 6: automatic unloading mechanism, 61: blanking frame, 62: baffle rack, 63: third spring, 64: first pivot, 65: swing lever, 66: torsion spring, 7: reciprocating mechanism, 71: second slide bar, 72: fourth spring, 73: first wedge, 74: scroll block, 75: second wedge, 8: extraction mechanism, 81: telescoping rod, 82: slide rail, 83: push-up rack, 84: second elastic member, 85: carriage, 86: fifth spring, 9: buffer gear, 91: sliding sleeve, 92: sixth spring, 93: third slide bar, 94: and (5) blanking sloping plates.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Example 1

The utility model provides a high-end equipment manufacturing new material ductility testing arrangement, as shown in fig. 1-3, including base 1, pushing away frame 2, fixed block 3, pushing away mechanism 4 and testing mechanism 5, be equipped with pushing away frame 2 on the base 1, both sides all are equipped with fixed block 3 around pushing away frame 2, are connected with pushing away mechanism 4 between fixed block 3 and the pushing away frame 2, are equipped with testing mechanism 5 on pushing away frame 2.

The pushing mechanism 4 comprises a first spring 41, an air cylinder 42, a pushing block 43 and a pull-out plate 44, wherein the air cylinder 42 is arranged on the fixed block 3 at the front side, the pull-out plate 44 is connected to the rear side of the pushing frame 2 in a sliding manner, the pushing block 43 is connected to the front side of the pushing frame 2 in a sliding manner, the front side of the pushing block 43 is connected with the air cylinder 42, and the first spring 41 is arranged between the left side, the right side and the fixed block 3 at the front side of the front part of the pushing block 43.

The testing mechanism 5 comprises a supporting frame 51, a first sliding rod 52, a second spring 53 and a lower pressing block 54, wherein the supporting frame 51 is arranged on the rear side of the top of the pushing frame 2, the left side and the right side of the supporting frame 51 are both connected with the first sliding rod 52 in a sliding mode, the lower pressing block 54 is connected between the bottoms of the first sliding rods 52, and the second spring 53 is arranged between the left side and the right side of the bottoms of the first sliding rods 52 and the lower pressing block 54.

When people need to perform ductility test on new materials, firstly, materials are placed on the front side of the pushing frame 2, then, the control air cylinder 42 stretches to drive the pushing block 43 to move backwards, so that the first spring 41 stretches and resets, meanwhile, people move the lower pressing block 54 upwards, so that the first sliding rod 52 moves upwards, the second spring 53 is compressed, when the materials are pushed to the bottom of the lower pressing block 54, hands are loosened, under the action of the second spring 53, the lower pressing block 54 and the first sliding rod 52 are driven to move downwards and reset, so that the lower pressing block 54 performs extrusion test on the materials, after the extrusion test is completed, the pull-out plate 44 is pulled backwards, the materials are moved backwards, and then, the control air cylinder 42 shortens to drive the pushing block 43 to move forwards and reset, so that the first spring 41 is compressed.

Example 2

On the basis of embodiment 1, as shown in fig. 4-7, the automatic blanking mechanism 6 is further included, the automatic blanking mechanism 6 comprises a blanking frame 61, a material blocking frame 62, a third spring 63, a first rotating shaft 64, a swinging rod 65 and a torsion spring 66, the blanking frame 61 is arranged on the front side of the top of the pushing frame 2, the material blocking frame 62 is connected to the lower portion of the blanking frame 61 in a sliding mode, the third springs 63 are arranged between the left side and the right side of the front portion of the material blocking frame 62 and the blanking frame 61, the first rotating shaft 64 is rotatably connected to the left side and the right side of the front portion of the pushing frame 2, the swinging rod 65 is arranged on the first rotating shaft 64, and the torsion spring 66 is arranged between the swinging rod 65 and the pushing frame 2.

People can place the material in the unloading frame 61 for the downside material falls to keep off work or material rest 62 upside, when pushing block 43 moves backward, under the effect of torsion spring 66, make swinging arms 65 rotate and keep away from keeping off work or material rest 62, under the effect of third spring 63, make keep off work or material rest 62 and move forward, make downside material fall to keep off work or material rest 62 downside, when pushing block 43 moves forward and resets extrusion swinging arms 65, make torsion spring 66 be twisted, drive simultaneously and keep off work or material rest 62 and move backward, make downside material drop downwards, make third spring 63 compressed, can realize the effect of automatic unloading like this.

The reciprocating mechanism 7 comprises a second sliding rod 71, a fourth spring 72, a first wedge block 73, a rolling block 74 and a second wedge block 75, wherein the left side and the right side of the pushing block 43 are connected with the second sliding rod 71 in a sliding mode, the rear side of the second sliding rod 71 is provided with the first wedge block 73, the fourth spring 72 is arranged between the left side and the right side of the pushing block 43 and the first wedge block 73, the rear side of the first wedge block 73 is uniformly and rotatably connected with the rolling block 74, and the left side and the right side of the top of the lower pressing block 54 are provided with the second wedge block 75.

When the pushing block 43 moves backward, the second sliding rod 71, the fourth spring 72, the first wedge block 73 and the rolling block 74 are driven to move backward, when the first wedge block 73 and the second wedge block 75 are contacted, the second wedge block 75 and the lower pressing block 54 are driven to move upward, when the second wedge block 75 moves upward to the uppermost side, the fourth spring 72 is compressed, so that the material is pushed to the lower part of the lower pressing block 54, and when the pushing block 43 moves forward, the second sliding rod 71, the fourth spring 72, the first wedge block 73 and the rolling block 74 are driven to move forward, so that the fourth spring 72 is restored to be the original state, and further, the second wedge block 75 and the lower pressing block 54 move downward to detect the material.

Still including withdrawing mechanism 8, withdrawing mechanism 8 is including telescopic link 81, slide rail 82, push up frame 83, second elastic component 84, carriage 85 and fifth spring 86, second wedge 75 rear side all is equipped with telescopic link 81, promote frame 2 rear portion left and right sides all and be equipped with slide rail 82, all slide on the slide rail 82 and be connected with push up frame 83, push up and all be equipped with two second elastic component 84 between frame 83 bottom and the promotion frame 2, pull out the board 44 rear portion left and right sides all is connected with carriage 85, carriage 85 and push up frame 83 contact, all be equipped with fifth spring 86 between the fixed block 3 of carriage 85 rear portion left and right sides and rear side.

The second wedge block 75 moves upwards to drive the push-up frame 83 to move upwards, so that the second elastic piece 84 is stretched, meanwhile, the sliding frame 85 and the pull-out plate 44 move backwards, the fifth spring 86 is compressed to push the last object backwards, the second wedge block 75 moves downwards, the push-up frame 83 is driven to move downwards to reset under the action of the second elastic piece 84, and the sliding frame 85 and the pull-out plate 44 are driven to move forwards to reset under the action of the fifth spring 86.

The buffer mechanism 9 comprises a sliding sleeve 91, a sixth spring 92, a third sliding rod 93 and a blanking inclined plate 94, wherein the sliding sleeve 91 is arranged on the front side and the rear side of the rear portion of the base 1, the third sliding rod 93 is connected to the sliding sleeve 91 in a sliding mode, the blanking inclined plate 94 is connected between the tops of the third sliding rods 93, and the sixth spring 92 is arranged between the bottoms of the blanking inclined plates 94 and the tops of the sliding sleeve 91.

When the material is pulled out, the material slides onto the base 1 through the blanking sloping plate 94, and the sixth spring 92 is deformed adaptively, so as to play a role of buffering.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. The utility model provides a high-end equipment manufacturing new material ductility testing arrangement which characterized in that includes:

the device comprises a base (1) and a pushing frame (2), wherein the pushing frame (2) is arranged on the base (1);

the fixed blocks (3) are arranged on two sides of the pushing frame (2);

the pushing mechanism (4) is connected between the fixed block (3) and the pushing frame (2);

the test mechanism (5) is arranged on the pushing frame (2);

the pushing mechanism (4) comprises:

an air cylinder (42), and an air cylinder (42) is arranged on the fixed block (3) at the front side;

a pull-out plate (44), wherein the pull-out plate (44) is connected to one side of the pushing frame (2) in a sliding manner;

the pushing block (43), one side of the pushing frame (2) is connected with the pushing block (43) in a sliding way, and one side of the pushing block (43) is connected with the air cylinder (42);

the first springs (41) are arranged between the two sides of the pushing block (43) and the fixed block (3) at the front side;

the test mechanism (5) comprises:

a supporting frame (51), wherein one side of the top of the pushing frame (2) is provided with the supporting frame (51);

the first sliding rod (52) is connected with the two sides of the supporting frame (51) in a sliding way, and the first sliding rod (52) is connected with the two sides of the supporting frame (51) in a sliding way;

a lower pressing block (54) is connected between the bottoms of the first sliding rods (52);

the second springs (53) are arranged between the two sides of the bottom of the first sliding rod (52) and the lower pressing block (54);

the automatic blanking machine also comprises an automatic blanking mechanism (6), wherein the automatic blanking mechanism (6) comprises:

a blanking frame (61), wherein one side of the top of the pushing frame (2) is provided with the blanking frame (61);

the blanking frame (61) is connected with the material blocking frame (62) in a sliding manner;

a third spring (63) is arranged between the two sides of the front part of the material blocking frame (62) and the blanking frame (61);

the first rotating shafts (64) are rotatably connected with the two sides of the front part of the pushing frame (2);

the swinging rods (65) are arranged on the first rotating shafts (64);

a torsion spring (66), wherein the torsion spring (66) is arranged between the swinging rod (65) and the pushing frame (2);

the device also comprises a reciprocating mechanism (7), and the reciprocating mechanism (7) comprises:

the second sliding rod (71), the second sliding rod (71) is connected to both sides of the pushing block (43) in a sliding way;

the first wedge-shaped blocks (73) are arranged on one side of the second sliding rod (71);

a fourth spring (72) is arranged between the two sides of the pushing block (43) and the first wedge block (73);

the rolling block (74), one side of the first wedge block (73) is uniformly and rotatably connected with the rolling block (74);

the two sides of the top of the lower pressing block (54) are provided with second wedge blocks (75);

the utility model also comprises a drawing mechanism (8), and the drawing mechanism (8) comprises:

the telescopic rods (81) are arranged on one side of the second wedge-shaped blocks (75);

the sliding rails (82) are arranged on two sides of the rear part of the pushing frame (2);

the upper pushing frames (83) are connected to the sliding rails (82) in a sliding manner;

the second elastic pieces (84) are arranged between the bottom of the push-up frame (83) and the push frame (2);

the sliding frames (85) are connected with the two sides of the rear part of the pull-out plate (44), and the sliding frames (85) are contacted with the push-up frames (83);

and a fifth spring (86), wherein the fifth spring (86) is arranged between the two sides of the rear part of the sliding frame (85) and the fixed block (3) at the rear side.

2. The new material ductility test equipment for high-end equipment manufacture of claim 1, further comprising a buffer mechanism (9), wherein the buffer mechanism (9) comprises:

the sliding sleeve (91) is arranged on two sides of the rear part of the base (1);

the third sliding rods (93) are connected to the sliding sleeve (91) in a sliding manner;

a blanking sloping plate (94), wherein the blanking sloping plate (94) is connected between the tops of the third sliding rods (93);

and a sixth spring (92) is arranged between the bottom of the blanking sloping plate (94) and the top of the sliding sleeve (91).

3. The high-end equipment manufacturing new material ductility testing apparatus according to claim 2, wherein the blanking sloping plate (94) is rectangular.