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CN-224231522-U - Hardness detection device for cutting die machining

CN224231522UCN 224231522 UCN224231522 UCN 224231522UCN-224231522-U

Abstract

The utility model relates to the technical field of cutting die machining, in particular to a hardness detection device for cutting die machining, which comprises a hardness meter, wherein a base is fixed on the hardness meter, a first electric telescopic rod is fixed on the base at one side of the hardness meter, a motor is fixed on the first electric telescopic rod, a square cylinder is fixed on the top end of an output shaft of the motor, two fixing rods are symmetrically fixed on the square cylinder, and a supporting plate is fixed on one end, far away from the square cylinder, of each fixing rod. When the cutting tool is used, with the assistance of the two supporting plates, an operator can get far away from the bulb on the sclerometer when feeding and discharging, namely, the auxiliary effect is achieved when feeding and discharging manually, so that the safety of the operator is ensured.

Inventors

  • LIU HAO

Assignees

  • 苏州浩焱精密模具有限公司

Dates

Publication Date
20260512
Application Date
20250519

Claims (8)

  1. 1. The utility model provides a hardness detection device is used in cutting die processing, includes sclerometer (1), its characterized in that, be fixed with base (2) on sclerometer (1), be fixed with first electric telescopic handle (3) on base (2) of sclerometer (1) one side, be fixed with motor (4) on first electric telescopic handle (3), be fixed with square tube (5) on the output shaft top of motor (4), symmetry is fixed with two dead levers (6) on square tube (5), two all be fixed with layer board (7) on the one end of square tube (5) is kept away from to dead lever (6).
  2. 2. The hardness testing device for cutting die machining according to claim 1, wherein a rotating shaft (8) is rotatably arranged inside the square cylinder (5), and two shielding mechanisms are symmetrically arranged on the rotating shaft (8) and the square cylinder (5) together.
  3. 3. The hardness testing device for cutting die machining according to claim 2, wherein the shielding mechanism comprises a cutting-preventing cloth (10), the cutting-preventing cloth (10) is fixed on the rotating shaft (8), and the cutting-preventing cloth (10) penetrates through the square cylinder (5) and is fixed with a baffle plate (9).
  4. 4. The hardness testing apparatus for die machining according to claim 3, wherein magnets are fixed to both the baffle plate (9) and the square tube (5).
  5. 5. A hardness testing device for cutting die machining according to claim 3, characterized in that a pulling assembly is provided between each baffle (9) and the durometer (1).
  6. 6. The hardness testing device for cutting die machining according to claim 5, wherein the pulling assembly comprises a plug-in hole (11) and a plug-in rod (12), the plug-in hole (11) is formed in the baffle (9), and an adjusting assembly is jointly fixed between the plug-in rod (12) and the hardness tester (1).
  7. 7. The hardness testing device for cutting die machining according to claim 6, wherein the adjusting assembly comprises a linear motor (14), the linear motor (14) is fixed on the hardness tester (1), a second electric telescopic rod (13) is fixed on a sliding block of the linear motor (14), and the second electric telescopic rod (13) is fixed on the inserting rod (12).
  8. 8. The hardness testing apparatus according to claim 6, wherein the insert rod (12) has an inverted L-shaped structure, and the insert rod (12) is supported by a self-lubricating rod.

Description

Hardness detection device for cutting die machining Technical Field The utility model relates to the technical field of cutting die machining, in particular to a hardness detection device for cutting die machining. Background Hardness is the ability of a material to resist penetration of harder objects into its surface, and hardness testing is one of the important indicators for testing the performance of a material and is also one of the fastest and most economical test methods. After the cutting die is machined, the hardness of the cutting die is required to be detected, so that accidents in the production process caused by the fact that the quality of the die cutting die is not too close are avoided. The sclerometer is the most commonly used tool, and the prior sclerometer is shown in fig. 1, when the cutting die is fed and discharged, the cutting die is directly placed on the sclerometer manually or is directly taken off from the sclerometer manually, and the distance between a hand and a ball head on the sclerometer is too short, so that when the sclerometer is in misoperation or system error, the hand of an operator is easily injured, the safety of the operator is not facilitated, and therefore, the hardness detection device for cutting die processing is needed to meet the requirements. Disclosure of utility model The utility model aims to solve the defects that when a sclerometer is in misoperation or system error in the prior art, the hand of an operator is easily injured, and safety is not facilitated when the operator uses the sclerometer, and provides a hardness detection device for cutting die machining. In order to achieve the above purpose, the present utility model adopts the following technical scheme: The utility model provides a hardness detection device is used in cutting die processing, includes the sclerometer, be fixed with the base on the sclerometer, sclerometer one side be fixed with first electric telescopic handle on the base, be fixed with the motor on the first electric telescopic handle, be fixed with square section of thick bamboo on the output shaft top of motor, the symmetry is fixed with two dead levers on the square section of thick bamboo, two the dead lever is kept away from all be fixed with the layer board on the one end of square section of thick bamboo. Preferably, a rotating shaft is rotatably arranged in the square cylinder, and two shielding mechanisms are symmetrically arranged on the rotating shaft and the square cylinder. Preferably, the shielding mechanism comprises a cutting-preventing cloth, the cutting-preventing cloth is fixed on the rotating shaft, and the cutting-preventing cloth penetrates through the square cylinder and is fixed with a baffle plate. Preferably, magnets are fixed on the baffle and the square cylinder. Preferably, a pulling component is arranged between each baffle and the durometer. Preferably, the pulling component comprises a plug hole and a plug rod, the plug hole is formed in the baffle, and an adjusting component is jointly fixed between the plug rod and the sclerometer. Preferably, the adjusting component comprises a linear motor, the linear motor is fixed on the durometer, a second electric telescopic rod is fixed on a sliding block of the linear motor, and the second electric telescopic rod is fixed on the plug-in rod. Preferably, the insertion rod is of an inverted L-shaped structure, and is self-lubricating rod support. The hardness detection device for the cutting die machining has the beneficial effects that when the hardness detection device for the cutting die machining is used, with the assistance of the two supporting plates, when an operator loads and unloads, the distance between hands and the bulb on the cutting die is long, namely, the device plays an auxiliary role when the operator loads and unloads manually, so that the safety of the operator is ensured, in addition, the two expanded anti-cutting cloths can also shield the bulb when the cutting die is used, so that the scraps splashed when the cutting die is damaged are prevented from injuring operators on one side, and the safety of the operator is further ensured. Drawings FIG. 1 is a schematic diagram of a conventional durometer; FIG. 2 is a front view of a hardness testing device for cutting die processing according to the present utility model; FIG. 3 is a left side view of a hardness testing device for cutting die processing according to the present utility model; Fig. 4 is a top view of a hardness testing device for cutting die processing according to the present utility model; Fig. 5 is a front view of the cutting die processing hardness detection device according to the present utility model when two cutting-preventing cloths are unfolded for use. The device comprises a durometer 1, a base 2, a first electric telescopic rod 3, a motor 5, a square cylinder 6, a fixed rod 7, a supporting plate 8, a rotating shaft 9, a baffle plate 10, cutting-preventing clo