CN216449363U - Copper alloy performance intensity detection device - Google Patents

Abstract

The utility model provides a copper alloy performance strength detection device, which relates to the technical field of copper alloy performance detection and comprises a machine shell, an air pressure tank and a stamping block, wherein the air pressure tank is fixedly arranged at the top of the machine shell, the output end of the air pressure tank is fixedly provided with a connecting rod, the bottom of the connecting rod is fixedly provided with a connecting plate, the stamping block is fixedly arranged at the bottom of the connecting plate, the surface of the connecting rod is fixedly provided with a circular plate, the bottom of the circular plate is slidably connected with a sliding rod, the bottom of the sliding rod is fixedly provided with a pressing plate, the bottom of the connecting plate is fixedly provided with a spring, and the stamping block is in the shape of a semi-sphere. In the utility model, during detection, the pressing plate can fix the detection piece, the stamping block can stamp the detection piece, and the pressing plate and the stamping block are driven by the same air pressure tank, so that fixation and stamping detection are simultaneously carried out, the operation steps are reduced, the detection time is saved, and the detection efficiency is improved.

Description

Copper alloy performance intensity detection device

Technical Field

The utility model relates to the technical field of copper alloy performance detection, in particular to a copper alloy performance strength detection device.

Background

Copper alloy need detect the copper alloy performance after the preparation, wherein just need detect the intensity of copper alloy, and copper alloy intensity detects and indicates that the copper alloy resists plastic deformation and cracked ability under the exogenic action, or the ability of material resistance destruction to when detecting the copper alloy intensity, thereby need exert external force to the copper alloy, and when traditional copper alloy intensity detected, need carry out the centre gripping to the copper alloy in advance fixedly, then detecting, need two-step operation, thereby detection efficiency has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art, and provides a device for detecting the performance and the strength of a copper alloy.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a copper alloy performance intensity detection device, includes casing, atmospheric pressure jar and punching press piece, atmospheric pressure jar fixed mounting is at the top of casing, the output fixed mounting of atmospheric pressure jar has the connecting rod, the bottom fixed mounting of connecting rod has the connecting plate, punching press piece fixed mounting is in the bottom of connecting plate, the fixed surface of connecting rod installs the plectane, the bottom sliding connection of plectane has the slide bar, the bottom fixed mounting of slide bar has the pressboard, the bottom fixed mounting of connecting plate has the spring.

In order to fix the detection piece conveniently, the utility model has the improvement that the stamping block is shaped like a semi-sphere, the spring is sleeved on the surface of the sliding rod, and the sliding rod is connected inside the connecting plate in a sliding manner.

In order to improve the moving stability of the stamping block, the utility model has the improvement that a circular groove is formed in the machine shell, a guide rod is fixedly installed at the top of the connecting plate, a sliding plate is fixedly installed at the top of the guide rod, and a guide shell is fixedly installed at the bottom of the circular groove.

In order to guide the guide rod conveniently, the improvement of the utility model is that the sliding plate is connected to the bottom of the circular groove in a sliding manner, the guide rod is connected to the inside of the guide shell in a sliding manner, and the bottom of the machine shell is fixedly provided with a bottom plate.

In order to conveniently take and place the detection piece, the utility model is improved in that a sliding groove is formed in the casing, a rectangular groove is formed in the bottom of the sliding groove, a mounting groove is formed in the casing, a motor is fixedly mounted in the mounting groove, a gear is fixedly mounted at the output end of the motor, a placing plate is connected in the casing in a sliding mode, and a rack is fixedly mounted at the bottom of the placing plate.

In order to facilitate the sliding of the placing plate in the casing, the utility model has the improvement that the gear is rotatably connected to one side of the rack, and the rack is slidably connected in the rectangular groove.

In order to facilitate the gear to drive the rack to move, the utility model is improved in that the placing plate is connected inside the sliding groove in a sliding manner, and the rack is meshed with the gear.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. in the utility model, during detection, the pressing plate can fix the detection piece, the stamping block can stamp the detection piece, and the pressing plate and the stamping block are driven by the same air pressure tank, so that the fixation and the stamping detection are simultaneously carried out, the operation steps are reduced, the detection time is saved, and the detection efficiency is improved.

2. According to the utility model, when the copper alloy is placed, an operator only needs to start the motor, the gear drives the placing plate to move through the rack, and the placing plate can drive the copper alloy to slide in the shell, so that the copper alloy is conveniently placed at the bottom of the stamping block by the operator, and the detected copper alloy is conveniently taken out from the interior of the shell.

Drawings

FIG. 1 is a schematic view of the overall structure of a copper alloy performance and strength detection device according to the present invention;

FIG. 2 is a top cross-sectional view of a copper alloy performance and strength testing apparatus according to the present invention;

FIG. 3 is a schematic structural diagram of a stamping block, a connecting plate, a circular plate and a pressing plate in the copper alloy performance strength detection device provided by the utility model;

fig. 4 is a bottom view of a placing plate, a gear, a rack and a motor in the copper alloy performance and strength detecting device provided by the utility model.

Illustration of the drawings:

1. a housing; 2. an air pressure tank; 3. a connecting rod; 4. a circular plate; 5. a connecting plate; 6. a guide bar; 7. a slide plate; 8. a slide bar; 9. pressing a plate; 10. a spring; 11. stamping the blocks; 12. a base plate; 13. a circular groove; 14. a guide housing; 15. a chute; 16. a rectangular groove; 17. mounting grooves; 18. a motor; 19. a gear; 20. a rack; 21. placing the plate.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example one

Referring to fig. 1, 2 and 3, the utility model provides a copper alloy performance strength detection device, which comprises a machine shell 1, an air pressure tank 2 and a stamping block 11, wherein the air pressure tank 2 is fixedly arranged at the top of the machine shell 1, the output end of the air pressure tank 2 is fixedly provided with a connecting rod 3, the bottom of the connecting rod 3 is fixedly provided with a connecting plate 5, the stamping block 11 is fixedly arranged at the bottom of the connecting plate 5, the surface of the connecting rod 3 is fixedly provided with a circular plate 4, the bottom of the circular plate 4 is slidably connected with a sliding rod 8, the bottom of the sliding rod 8 is fixedly provided with a pressing plate 9, the bottom of the connecting plate 5 is fixedly provided with a spring 10, during detection, the pressing plate 9 can fix a detection piece, the stamping block 11 can stamp the detection piece, and the pressing plate 9 and the stamping block 11 are driven by the air pressure tank 2, thereby realizing simultaneous fixing and stamping detection and reducing operation steps, the detection time is saved, and the detection efficiency is improved.

Referring to fig. 2 and 3, a stamping block 11 is shaped as a semi-sphere, a spring 10 is sleeved on the surface of a sliding rod 8, the sliding rod 8 is slidably connected inside a connecting plate 5, a circular groove 13 is formed inside a casing 1, a guide rod 6 is fixedly installed at the top of the connecting plate 5, a sliding plate 7 is fixedly installed at the top of the guide rod 6, the guide rod 6 and a guide shell 14 are arranged, the stability of the stamping block 11 in downward sliding stamping can be improved, a guide shell 14 is fixedly installed at the bottom of the circular groove 13, the sliding plate 7 is slidably connected at the bottom of the circular groove 13, the guide rod 6 is slidably connected inside the guide shell 14, a bottom plate 12 is fixedly installed at the bottom of the casing 1, along with the bottom plate 12, the central position of the casing 1 can be well supported, and the situation that the casing 1 vibrates when a detection piece is stamped by the pressure tank 2 and the stamping block 11 is prevented.

Example two

Please refer to fig. 2 and 4, sliding groove 15 has been seted up inside casing 1, rectangular channel 16 has been seted up to the bottom of sliding groove 15, mounting groove 17 has been seted up inside casing 1, the inside fixed mounting of mounting groove 17 has motor 18, the output fixed mounting of motor 18 has gear 19, the inside sliding connection of casing 1 has places board 21, the bottom fixed mounting who places board 21 has rack 20, when placing the copper alloy, the operator only needs to start motor 18, gear 19 drives through rack 20 and places board 21 and remove, place board 21 this moment and can drive the copper alloy and slide in the inside of casing 1, not only make things convenient for the operator to place the copper alloy in the bottom of punching press piece 11, and conveniently take out the copper alloy after the detection from the inside of casing 1.

Referring to fig. 2 and 4, the gear 19 is rotatably connected to one side of the rack 20, the rack 20 is slidably connected to the inside of the rectangular groove 16, the placing plate 21 is slidably connected to the inside of the sliding groove 15, the rack 20 and the gear 19 are engaged with each other, the gear 19 and the driving rack 20 slide in the inside of the rectangular groove 16, and thus the rack 20 drives the placing plate 21 to slide in the inside of the sliding groove 15.

The working principle is as follows: in the process of operation detection, an operator starts the motor 18, the output end of the motor 18 drives the gear 19 to rotate clockwise, at the moment, the gear 19 drives the rack 20 to slide in the rectangular groove 16, so that the rack 20 drives the placing plate 21 to slide in the sliding groove 15, after the placing plate 21 slides out of the interior of the machine shell 1 for a certain distance, the motor 18 is stopped, at the moment, the operator places a detection piece at the middle position of the placing plate 21, then the operator starts the motor 18, so that the output end of the motor 18 drives the gear 19 to rotate anticlockwise, so that the gear 19 drives the placing plate 21 to move to the initial position through the rack 20, next, the operator starts the air pressure tank 2, at the moment, the output end of the air pressure tank 2 drives the connecting plate 5 and the circular plate 4 to move downwards, at the moment, the pressing plate 9 and the sliding rod 8 move downwards along with the circular plate 4 and the connecting plate 5, when the pressing plate 9 is in contact with the detection piece, the pressing plate 9 can fix the detection piece, when the connecting plate 5 continues to move downwards, the sliding rod 8 slides in the connecting plate 5, so that the stamping block 11 continues to move downwards along with the connecting plate 5 and stamps the detection piece, and after stamping is finished, in the process that the connecting plate 5 and the circular plate 4 return to the initial position, the pressing plate 9 returns to the initial position under the elastic force of the spring 10.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes by using the technical contents disclosed in the above description to other fields, but any simple modification, equivalent change and change made to the above embodiments according to the technical essence of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a copper alloy performance intensity detection device, includes casing (1), atmospheric pressure jar (2) and punching press piece (11), its characterized in that: atmospheric pressure jar (2) fixed mounting is at the top of casing (1), the output fixed mounting of atmospheric pressure jar (2) has connecting rod (3), the bottom fixed mounting of connecting rod (3) has connecting plate (5), punching press piece (11) fixed mounting is in the bottom of connecting plate (5), the fixed surface of connecting rod (3) installs plectane (4), the bottom sliding connection of plectane (4) has slide bar (8), the bottom fixed mounting of slide bar (8) has pressboard (9), the bottom fixed mounting of connecting plate (5) has spring (10).

2. The apparatus for detecting performance and strength of copper alloy according to claim 1, wherein: the shape of punching press piece (11) is the hemisphere face, spring (10) cover is established on the surface of slide bar (8), slide bar (8) sliding connection is in the inside of connecting plate (5).

3. The apparatus for detecting performance and strength of copper alloy according to claim 1, wherein: circular slot (13) have been seted up to the inside of casing (1), the top fixed mounting of connecting plate (5) has guide bar (6), the top fixed mounting of guide bar (6) has slide (7), the bottom fixed mounting of circular slot (13) has direction shell (14).

4. The apparatus for detecting performance and strength of copper alloy according to claim 3, wherein: slide (7) sliding connection is in the bottom of circular slot (13), guide bar (6) sliding connection is in the inside of direction shell (14), the bottom fixed mounting of casing (1) has bottom plate (12).

5. The apparatus for detecting performance and strength of copper alloy according to claim 1, wherein: the improved motor cabinet is characterized in that a sliding groove (15) is formed in the casing (1), a rectangular groove (16) is formed in the bottom of the sliding groove (15), a mounting groove (17) is formed in the casing (1), a motor (18) is fixedly mounted in the mounting groove (17), a gear (19) is fixedly mounted at the output end of the motor (18), a placing plate (21) is connected to the inside of the casing (1) in a sliding mode, and a rack (20) is fixedly mounted at the bottom of the placing plate (21).

6. The apparatus for detecting performance and strength of copper alloy according to claim 5, wherein: the gear (19) is rotatably connected to one side of the rack (20), and the rack (20) is slidably connected to the inside of the rectangular groove (16).

7. The apparatus for detecting performance and strength of copper alloy according to claim 5, wherein: the placing plate (21) is connected to the inside of the sliding groove (15) in a sliding mode, and the rack (20) and the gear (19) are meshed with each other.

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