CN113075062B

CN113075062B - Ductility strength testing arrangement of high-end equipment

Info

Publication number: CN113075062B
Application number: CN202110285686.3A
Authority: CN
Inventors: 周强
Original assignee: Zhejiang Haohe Measurement And Testing Co ltd
Current assignee: Zhejiang Haohe Measurement And Testing Co ltd
Priority date: 2021-03-17
Filing date: 2021-03-17
Publication date: 2023-03-31
Anticipated expiration: 2041-03-17
Also published as: CN113075062A

Abstract

The invention relates to a testing device, in particular to a ductility strength testing device of high-end equipment. The technical problem of the invention is that: the ductility strength testing device of high-end equipment is capable of automatically clamping and convenient for blanking. The technical implementation scheme of the invention is as follows: the utility model provides a ductility intensity test device of high-end equipment, is equipped with the support frame including base, support frame, cylinder, spliced pole, placement machine and clamping mechanism on the right side of base top, and support frame upper portion is equipped with the cylinder, and the piston rod left side of cylinder is equipped with the spliced pole, and base top left side is equipped with placement machine. According to the invention, the high-end equipment is placed on the supporting plate, the limiting plate limits the high-end equipment, the push block on the push plate can block the high-end equipment, the piston rod of the air cylinder drives the connecting column and the push plate to move leftwards, and when the push block on the push plate is in contact with the high-end equipment, the push block can clamp the high-end equipment, so that the effect of automatic clamping is achieved.

Description

Ductility intensity testing arrangement of high-end equipment

Technical Field

The invention relates to a testing device, in particular to a ductility strength testing device of high-end equipment.

Background

Ductility test ductility relates to the determination of whether a material is capable of undergoing plastic deformation to the extent that it does not crack, and the testing of this test provides a simple way to demonstrate its resistance to continuous bending cracks or other irregularities in the quality of the material.

However, in the prior art, people need to manually clamp and fix an object to be tested, so that hands of people are close to a machine and can be injured when the people do not pay attention to the machine, and people need to manually discharge and take materials in the testing process, so that the safety of people is not guaranteed.

Synthesize above-mentioned prior art's problem need design one kind can self-holding, and the ductility intensity testing arrangement of the high-end equipment of the unloading of being convenient for.

Disclosure of Invention

In order to overcome the defects that people need to manually clamp and fix a high-end device and need to manually feed materials one by one in the prior art, the invention has the technical problems that: the ductility strength testing device of high-end equipment is capable of automatically clamping and convenient for blanking.

The technical implementation scheme of the invention is as follows: the utility model provides a ductility intensity test device of high-end equipment, is including base, support frame, cylinder, spliced pole, placement machine and clamping mechanism, and base top right side is equipped with the support frame, and support frame upper portion is equipped with the cylinder, and the piston rod left side of cylinder is equipped with the spliced pole, and base top left side is equipped with placement machine, is equipped with clamping mechanism on the piston rod of cylinder.

More preferably, the placing mechanism comprises a support, a support column, a support plate, a limiting plate and a clamping plate, the support is arranged on the left side of the top of the base, the support column is arranged in the middle of the left side of the top of the base, the clamping plate is arranged on the right side of the air cylinder, the support plate is arranged on the lower portion of the clamping plate and connected with the support frame, and the limiting plate is arranged on the left side of the support.

More preferably, clamping mechanism is including the push pedal, first guide bar, the ejector pad, first spring and baffle, be equipped with the baffle in the middle of the support upper portion, the piston rod left side of cylinder is equipped with the push pedal, the push pedal is located the spliced pole right side, equal longitudinal symmetry slidingtype is equipped with first guide bar in the push pedal, equal slidingtype is equipped with first guide bar in baffle and the backup pad, first guide bar inboard all is equipped with the ejector pad, all be equipped with first spring between ejector pad and the push pedal, all be equipped with first spring between ejector pad and baffle and the backup pad, first spring all overlaps on first guide bar.

More preferably, still including the feeding subassembly, the feeding subassembly is including the connecting plate, the bonding piece, the feeding frame, the push rod, first pivot, the wedge, the torsional spring, second spring and connecting block, the support frame right side is equipped with the connecting plate, connecting plate upper portion is equipped with the bonding piece, the bonding piece left side is equipped with the feeding frame, the feeding frame is connected with support upper portion, bonding piece right side rotary type is equipped with first pivot, feeding frame right side slidingtype is equipped with the push rod, all be equipped with the wedge in push rod right side and the first pivot, mutually support between the wedge, the symmetry is equipped with the torsional spring between wedge and the bonding piece, the torsional spring all overlaps in first pivot, the push rod left side is equipped with the connecting block, be equipped with the second spring between wedge and the feeding frame, the second spring housing is on the push rod.

More preferably, still including pushing away the material subassembly, it includes the stopper to push away the material subassembly, the second guide bar, dysmorphism piece, the third spring, L type pole and dysmorphism pole, feeding frame upper portion front and back symmetry is equipped with the stopper, stopper upper portion all is equipped with the second guide bar, the slidingtype is equipped with the dysmorphism piece between the second guide bar, all be equipped with the third spring between dysmorphism piece and the stopper, the third spring all overlaps on the second guide bar, push pedal upper portion is equipped with L type pole, L type pole upper portion is equipped with the dysmorphism pole, dysmorphism pole and the cooperation of dysmorphism piece slidingtype.

More preferably, the device further comprises a pushing assembly, the pushing assembly comprises a guide block, a second rotating shaft, an adhesive rod, a ratchet bar, a ratchet wheel, a guide rail, a long rack, a gear and a fourth spring, the guide block is arranged on the left front side of the support, the second rotating shaft is rotatably arranged in the middle of the guide block, the adhesive rods are symmetrically arranged on the left front side of the L-shaped rod, the ratchet bar is arranged between the adhesive rods, the ratchet wheel is arranged on the upper portion of the second rotating shaft and intermittently meshed with the ratchet bar, the gear is arranged on the lower portion of the second rotating shaft, the guide rail is arranged on the left front side of the support, the long rack is slidably arranged on the left side of the guide rail and meshed with the gear, and the fourth spring is arranged between the long rack and the guide rail.

More preferably, still including receiving the material subassembly, receive the material subassembly including bracing piece, receipts material frame, slide and fifth spring, the back side is equipped with the bracing piece right in base top, is equipped with on the bracing piece and receives the material frame, receives the inside middle slidingtype of material frame and is equipped with the slide, and the symmetry is equipped with the fifth spring between slide and the receipts material frame.

More preferably, the feed frame is bolted.

Has the advantages that: 1. the invention achieves the effects of automatic clamping and convenient blanking.

2. According to the invention, the high-end equipment is placed on the supporting plate, the limiting plate limits the high-end equipment, the push block on the push plate can block the high-end equipment, the piston rod of the air cylinder drives the connecting column and the push plate to move leftwards, and when the push block on the push plate is in contact with the high-end equipment, the push block can clamp the high-end equipment, so that the effect of automatic clamping is achieved.

3. According to the invention, when the piston rod of the cylinder drives the push plate to move leftwards, the push plate drives the L-shaped rod to move leftwards, the L-shaped rod drives the special-shaped rod to move leftwards, the special-shaped rod can be contacted with the special-shaped block, the special-shaped rod extrudes the special-shaped block, and the special-shaped block can drive high-end equipment to move downwards, so that the effect of facilitating blanking is achieved.

Drawings

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

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

Fig. 3 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 4 is a schematic perspective view of the feeding assembly of the present invention.

Fig. 5 is a schematic perspective view of the pushing assembly of the present invention.

Fig. 6 is a schematic perspective view of the pushing assembly according to the present invention.

FIG. 7 is a schematic perspective view of the receiving assembly of the present invention.

The parts are labeled as follows: 1-base, 2-support frame, 3-cylinder, 4-connecting column, 5-placing mechanism, 51-support, 52-support column, 53-support plate, 54-limit plate, 55-clamping plate, 6-clamping mechanism, 61-push plate, 62-first guide rod, 63-push block, 64-first spring, 65-baffle, 7-feeding component, 71-connecting plate, 72-bonding block, 73-feeding frame, 74-push rod, 75-first rotating shaft, 76-wedge block, 77-torsion spring, 78-second spring, 79-connecting block, 8-pushing component, 81-limit block, 82-second guide rod, 83-special-shaped block, 84-third spring, 85-L-shaped rod, 86-special-shaped rod, 9-pushing component, 91-guide block, 92-second rotating shaft, 93-bonding rod, 94-ratchet rack, 95-ratchet wheel, 96-guide rail, 97-long rack, 98-gear, 99-fourth spring, 10-support rod, 101-receiving frame, 103-receiving frame, 102-fifth spring, and receiving frame.

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Example 1

The utility model provides a ductility intensity testing arrangement of high-end equipment, as shown in fig. 1-7, including base 1, support frame 2, cylinder 3, spliced pole 4, placing mechanism 5 and clamping mechanism 6, base 1 top right side is equipped with

support frame

2, and 2 upper portions of support frame are equipped with cylinder 3, and the piston rod left side of cylinder 3 is equipped with spliced pole 4, and base 1 top left side is equipped with placing mechanism 5, is equipped with clamping mechanism 6 on the piston rod of cylinder 3.

Place mechanism 5 including support 51, support column 52, backup pad 53, limiting plate 54 and screens board 55, base 1 top left side is equipped with support 51, is equipped with support column 52 in the middle of the base 1 top left side, and the cylinder 3 right side is equipped with screens board 55, and screens board 55 lower part is equipped with backup pad 53, and backup pad 53 is connected with support frame 2, and the support 51 left side is equipped with limiting plate 54.

Clamping mechanism 6 is including push pedal 61, first guide bar 62, ejector pad 63, first spring 64 and baffle 65, be equipped with baffle 65 in the middle of support 51 upper portion, the piston rod left side of cylinder 3 is equipped with push pedal 61, push pedal 61 is located spliced pole 4 right sides, equal longitudinal symmetry slidingtype is equipped with first guide bar 62 on the push pedal 61, equal slidingtype is equipped with first guide bar 62 on baffle 65 and the backup pad 53, first guide bar 62 inboard all is equipped with ejector pad 63, all be equipped with first spring 64 between ejector pad 63 and the push pedal 61, all be equipped with first spring 64 between ejector pad 63 and baffle 65 and the backup pad 53, first spring 64 all overlaps on first guide bar 62.

When people need to test the ductility of high-end equipment, the device can be used, firstly, the high-end equipment is placed on the supporting plate 53, the limiting plate 54 limits the high-end equipment, the pushing block 63 on the pushing plate 61 also limits the high-end equipment, then, the air cylinder 3 is started, the piston rod of the air cylinder 3 drives the connecting column 4 and the pushing plate 61 to move leftwards, when the pushing block 63 on the pushing plate 61 is in contact with the high-end equipment, after the pushing block 63 clamps the high-end equipment, the pushing block 63 on the pushing plate 61 pushes the high-end equipment leftwards, the high-end equipment extends leftwards, the baffle plate 65 and the first guide rod 62 on the supporting plate 53 both move leftwards, the first spring 64 on the left side is compressed, and when the baffle plate 65 and the first guide rod 62 on the supporting plate 53 do not move leftwards any more, when the cylinder 3 continues to drive the push plate 61 to move leftwards, the first guide rod 62 on the push plate 61 moves rightwards, the first spring 64 on the right side is compressed, after the ductility test of the high-end equipment is finished, the piston rod of the cylinder 3 drives the push plate 61 to move rightwards, the first guide rod 62 and the push block 63 are driven to reset under the reset action of the first spring 64 on the right side, when the push block 63 on the push plate 61 does not clamp the high-end equipment any more, the first guide rod 62 and the push block 63 are driven to reset under the reset action of the first spring 64 on the left side, the baffle 65 and the push block 63 on the support plate 53 can drive the high-end equipment to reset, and finally, people can collect and arrange the high-end equipment.

Still including feeding component 7, feeding component 7 is including connecting plate 71, bonding block 72, feeding frame 73, push rod 74, first pivot 75, wedge 76, torsional spring 77, second spring 78 and connecting block 79, support frame 2 right side is equipped with connecting plate 71, connecting plate 71 upper portion is equipped with bonding block 72, bonding block 72 left side is equipped with feeding frame 73, feeding frame 73 is connected with support 51 upper portion, bonding block 72 right side rotary type is equipped with first pivot 75, feeding frame 73 right side slidingtype is equipped with push rod 74, all be equipped with wedge 76 on push rod 74 right side and the first pivot 75, mutually support between the wedge 76, the symmetry is equipped with torsional spring 77 between wedge 76 and the bonding block 72, torsional spring 77 all overlaps on first pivot 75, push rod 74 left side is equipped with connecting block 79, be equipped with second spring 78 between wedge 76 and the feeding frame 73, second spring 78 overlaps on push rod 74.

The feeding mechanism further comprises a feeding assembly 8, the feeding assembly 8 comprises limiting blocks 81, second guide rods 82, special-shaped blocks 83, third springs 84, L-shaped rods 85 and special-shaped rods 86, the limiting blocks 81 are symmetrically arranged on the upper portion of the feeding frame 73 in the front-back direction, the second guide rods 82 are arranged on the upper portions of the limiting blocks 81, the special-shaped blocks 83 are arranged between the second guide rods 82 in a sliding mode, the third springs 84 are arranged between the special-shaped blocks 83 and the limiting blocks 81, the third springs 84 are sleeved on the second guide rods 82, the L-shaped rods 85 are arranged on the upper portions of the push plates 61, the special-shaped rods 86 are arranged on the upper portions of the L-shaped rods 85, and the special-shaped rods 86 are matched with the special-shaped blocks 83 in a sliding mode.

When people put all high-end equipment in the feeding frame 73, the high-end equipment extrudes the connecting block 79 rightwards, drives the connecting block 79, the push rod 74 and the wedge block 76 to move rightwards, the wedge block 76 moves rightwards and is contacted with the wedge block 76 on the first rotating shaft 75, the wedge block 76 on the first rotating shaft 75 can clamp the wedge block 76 on the push rod 74, the second spring 78 can be stretched, when people push the wedge block 76 on the first rotating shaft 75 manually, the wedge block 76 on the first rotating shaft 75 is not contacted any more anticlockwise, the torsion spring 77 is deformed, and the connecting block 79, the push rod 74 and the wedge block 76 are driven to reset under the resetting action of the second spring 78, connecting block 79 just can extrude high-end equipment, and simultaneously, when the piston rod of cylinder 3 drove push pedal 61 and moves left, push pedal 61 drove L type pole 85 and moves left, thereby make L type pole 85 drive dysmorphism pole 86 and move left, dysmorphism pole 86 just can contact with dysmorphism piece 83, and then make dysmorphism pole 86 extrude dysmorphism piece 83, dysmorphism piece 83 drives high-end equipment and moves down, third spring 84 is compressed, so reciprocal, just constantly carry out the unloading, when push rod 74 drove L type pole 85 and moves right, L type pole 85 just can drive dysmorphism pole 86 and move right, dysmorphism pole 86 then no longer contacts with dysmorphism piece 83, just can drive dysmorphism piece 83 and reset under the reset effect of third spring 84.

The push-out mechanism comprises a push-out assembly 9, wherein the push-out assembly 9 comprises a guide block 91, a second rotating shaft 92, an adhesive rod 93, a ratchet rack 94, a ratchet wheel 95, a guide rail 96, a long rack 97, a gear 98 and a fourth spring 99, the guide block 91 is arranged on the left front side of the support 51, the second rotating shaft 92 is rotatably arranged in the middle of the guide block 91, the adhesive rods 93 are symmetrically arranged on the left front side of the L-shaped rod 85, the ratchet rack 94 is arranged between the adhesive rods 93, the ratchet wheel 95 is arranged on the upper portion of the second rotating shaft 92, the ratchet wheel 95 is intermittently meshed with the ratchet rack 94, the gear 98 is arranged on the lower portion of the second rotating shaft 92, the guide rail 96 is arranged on the left front side of the support 51, the long rack 97 is slidably arranged on the left side of the guide rail 96, the gear 98 is meshed with the long rack 97, and the fourth spring 99 is arranged between the long rack 97 and the guide rail 96.

Still including receiving material subassembly 10, receive material subassembly 10 including bracing piece 101, receipts material frame 102, slide 103 and fifth spring 104, the right back side in base 1 top is equipped with bracing piece 101, is equipped with receipts material frame 102 on the bracing piece 101, receives the inside middle slidingtype of material frame 102 and is equipped with slide 103, and the symmetry is equipped with fifth spring 104 between slide 103 and the receipts material frame 102.

When the L-shaped rod 85 moves leftwards to drive the adhesive rod 93 to move leftwards, the adhesive rod 93 drives the ratchet rack 94 to move leftwards, the ratchet rack 94 is in contact with the ratchet wheel 95 but does not drive the ratchet rack to rotate, when the high-end device is reset after testing is finished, the L-shaped rod 85 moves rightwards to drive the ratchet rack 94 to move rightwards, so that the ratchet rack 94 is meshed with the ratchet wheel 95, the ratchet rack 94 rotates anticlockwise with the ratchet wheel 95, the ratchet wheel 95 rotates anticlockwise with the second rotating shaft 92, the second rotating shaft 92 drives the gear 98 to rotate anticlockwise, the gear 98 drives the long rack 97 to move backwards, the long rack 97 drives the high-end device to move backwards, the high-end device falls into the high-end device collecting frame 102, when the ratchet rack 94 does not mesh with the ratchet wheel 95 any more, the long rack 97 is driven to reset under the resetting action of the fourth spring 99, the long rack 97 drives the gear 98 to rotate clockwise, the long rack 97 extrudes the high-end device repeatedly, if the high-end device is not meshed with the ratchet rack 94, the high-end device is pushed into the high-end collecting frame 102 once, the high-end device is pushed into the high-end collecting frame 102, the high-end collecting slide plate 104, and the high-end device is pushed into the high-end collecting slide plate 102, so that people can be pushed into the high-end collecting slide plate 102, and then pushed into the high-end collecting slide plate 104, and the high-collecting slide plate 104, after the high-end collecting slide plate 102, so that the high-end device can be manually, the high-collecting slide plate can be completely, and the high-collecting slide plate 102, after the high-collecting slide plate can be collected by people, and the people, so that the people can be collected.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. A ductility strength testing device of high-end equipment is characterized by comprising a base (1), a supporting frame (2), a cylinder (3), a connecting column (4), a placing mechanism (5) and a clamping mechanism (6), wherein the supporting frame (2) is arranged on the right side of the top of the base (1), the cylinder (3) is arranged on the upper portion of the supporting frame (2), the connecting column (4) is arranged on the left side of a piston rod of the cylinder (3), the placing mechanism (5) is arranged on the left side of the top of the base (1), and the clamping mechanism (6) is arranged on the piston rod of the cylinder (3); the clamping mechanism (6) comprises a push plate (61), the push plate (61) is arranged on the left side of a piston rod of the air cylinder (3), and the push plate (61) is positioned on the right side of the connecting column (4); the feeding assembly (7) comprises a connecting plate (71), an adhesive block (72) and a feeding frame (73), the connecting plate (71) is arranged on the right side of the support frame (2), the adhesive block (72) is arranged on the upper portion of the connecting plate (71), and the feeding frame (73) is arranged on the left side of the adhesive block (72); still including pushing away material subassembly (8), push away material subassembly (8) including stopper (81), second guide bar (82), dysmorphism piece (83), third spring (84), L type pole (85) and dysmorphism pole (86), feeding frame (73) upper portion front and back symmetry is equipped with stopper (81), stopper (81) upper portion all is equipped with second guide bar (82), the slidingtype is equipped with dysmorphism piece (83) between second guide bar (82), all be equipped with third spring (84) between dysmorphism piece (83) and stopper (81), third spring (84) all overlap on second guide bar (82), push pedal (61) upper portion is equipped with L type pole (85), L type pole (85) upper portion is equipped with dysmorphism pole (86), dysmorphism pole (86) and the cooperation of dysmorphism piece (83) slidingtype.

2. The ductility strength testing device of high-end equipment according to claim 1, characterized in that the placing mechanism (5) comprises a support (51), a support column (52), a support plate (53), a limit plate (54) and a position-limiting plate (55), the support (51) is arranged on the left side of the top of the base (1), the support column (52) is arranged in the middle of the left side of the top of the base (1), the position-limiting plate (55) is arranged on the right side of the cylinder (3), the support plate (53) is arranged on the lower portion of the position-limiting plate (55), the support plate (53) is connected with the support frame (2), and the limit plate (54) is arranged on the left side of the support (51).

3. The ductility strength testing device of high-end equipment according to claim 2, characterized in that the clamping mechanism (6) further comprises a first guide rod (62), a push block (63), a first spring (64) and a baffle plate (65), the baffle plate (65) is arranged in the middle of the upper portion of the support (51), the first guide rod (62) is symmetrically arranged on the push plate (61) in a sliding manner from top to bottom, the first guide rod (62) is arranged on the baffle plate (65) and the support plate (53) in a sliding manner, the first guide rod (62) is positioned on the left side of the support plate (53), the push block (63) is arranged on the inner side of the first guide rod (62), the first spring (64) is arranged between the push block (63) and the push plate (61), the first spring (64) is arranged between the push block (63) and the baffle plate (65) and the support plate (53), and the first spring (64) is sleeved on the first guide rod (62).

4. The ductility strength testing device of high-end equipment according to claim 3, characterized in that the feeding assembly (7) further comprises a push rod (74), a first rotating shaft (75), a wedge block (76), a torsion spring (77), a second spring (78) and a connecting block (79), the feeding frame (73) is connected with the upper portion of the support (51), the right side of the bonding block (72) is rotatably provided with the first rotating shaft (75), the right side of the feeding frame (73) is slidably provided with the push rod (74), the right side of the push rod (74) and the first rotating shaft (75) are respectively provided with the wedge block (76), the wedge blocks (76) are mutually matched, torsion springs (77) are symmetrically arranged between the wedge block (76) on the first rotating shaft (75) and the bonding block (72), the torsion springs (77) are sleeved on the first rotating shaft (75), the left side of the push rod (74) is provided with the connecting block (79), the second spring (78) is arranged between the wedge block (76) on the right side of the push rod (74) and the feeding frame (73), and the second spring (78) is sleeved on the push rod (74).

5. The ductility strength testing device of high-end equipment according to claim 4, characterized by further comprising a push-out assembly (9), wherein the push-out assembly (9) comprises a guide block (91), a second rotating shaft (92), an adhesive rod (93), a ratchet bar (94), a ratchet wheel (95), a guide rail (96), a long rack (97), a gear (98) and a fourth spring (99), the guide block (91) is arranged on the left front side of the support (51), the second rotating shaft (92) is rotatably arranged in the middle of the guide block (91), the adhesive rod (93) is symmetrically arranged on the left front side of the L-shaped rod (85), the ratchet bar (94) is arranged between the adhesive rods (93), the ratchet wheel (95) is arranged on the upper portion of the second rotating shaft (92), the ratchet wheel (95) is intermittently meshed with the ratchet bar (94), the gear (98) is arranged on the lower portion of the second rotating shaft (92), the guide rail (96) is arranged on the left front side of the support (51), the long rack (97) is slidably arranged on the left side of the guide rail (96), the long rack (98) is meshed with the long rack (97), and the fourth spring (99) is arranged between the long rack (97).

6. The ductility strength testing device of high-end equipment as claimed in claim 5, further comprising a material receiving assembly (10), wherein the material receiving assembly (10) comprises a supporting rod (101), a material receiving frame (102), a sliding plate (103) and a fifth spring (104), the supporting rod (101) is arranged on the right rear side of the top of the base (1), the material receiving frame (102) is arranged on the supporting rod (101), the sliding plate (103) is arranged in the middle of the inside of the material receiving frame (102) in a sliding manner, and the fifth spring (104) is symmetrically arranged between the sliding plate (103) and the material receiving frame (102).

7. The ductility strength test device of a high-end equipment as claimed in claim 1, wherein the feeding frame (73) is connected by bolts.