CN216608253U - Cutter damage detection device - Google Patents

Abstract

The utility model discloses a cutter damage detection device which comprises a transmitting end component and a receiving processing end component, wherein the transmitting end component comprises a transmitting end upright post, a detection device transmitting end and an air valve device, the transmitting end upright post is provided with the detection device transmitting end, the transmitting end upright post is also provided with the air valve device, the air valve device is arranged below the detection device transmitting end, the receiving processing end component comprises a receiving processing end upright post and a detection device receiving processing end, and the receiving processing end upright post is provided with the detection device receiving processing end. By adopting the technical scheme, the cutter damage detection device with higher efficiency and higher precision is manufactured. The system can detect the abrasion condition of the cutter, realize the automatic compensation of the cutter, greatly improve the processing efficiency and precision and save the time for checking and replacing the cutter. In addition, the separated combination can be installed in a non-processing area of a machine tool, and pollution caused by scrap iron, cutting fluid and the like is reduced.

Description

Cutter damage detection device

Technical Field

The utility model relates to the field of numerical control machine tools, in particular to a cutter damage detection device.

Background

With the continuous improvement of the industrial automation degree, the requirements of the market on the processing precision and the production rhythm of the numerical control machine tool are higher and higher. The traditional processing method has the defects that an effective means for monitoring tool abrasion and damage is lacked, the traditional processing method is used for processing according to experience or measuring offline, and therefore the efficiency is low and the rejection rate is high.

Therefore, a more efficient and highly accurate tool breakage detection device is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention provides a tool breakage detection device with higher efficiency and higher accuracy.

The cutter damage detection device comprises a transmitting end component and a receiving processing end component, wherein the transmitting end component comprises a transmitting end upright post, a detection device transmitting end and a gas valve device, the transmitting end upright post is provided with the detection device transmitting end, the transmitting end upright post is also provided with the gas valve device, the gas valve device is arranged below the detection device transmitting end, the detection device transmitting end is connected with the gas valve device, the receiving processing end component comprises a receiving processing end upright post and a detection device receiving processing end, and the receiving processing end component is provided with the detection device receiving processing end.

In the above scheme, the transmitting end of the detection device comprises a laser transmitter.

In the above scheme, the transmitting end assembly further comprises a transmitting end shield, and the transmitting end of the detection device is arranged in the transmitting end shield.

In the above solution, the receiving and processing end module further includes a receiving and processing end shield, and the receiving and processing end of the detecting device is disposed in the receiving and processing end shield.

The utility model has the advantages and beneficial effects that: the utility model provides a tool breakage detection device with higher efficiency and higher precision. The system can detect the abrasion condition of the cutter, realize the automatic compensation of the cutter, greatly improve the processing efficiency and precision and save the time for checking and replacing the cutter. In addition, the separated combination can be installed in a non-processing area of a machine tool, and pollution caused by scrap iron, cutting fluid and the like is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a transmitting end module according to the present invention;

FIG. 2 is a block diagram of a receiving processing end module according to the present invention.

In the figure: 1. emitting end column 2, detecting device emitting end 3 and air valve device

4. Receiving processing end upright post 5, detecting device receiving processing end 6 and transmitting end shield

7. Receiving processing end shield

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 and 2, the present invention is a tool damage detection device, which includes a transmitting end assembly and a receiving processing end assembly, wherein the transmitting end assembly includes a transmitting end column 1, a detection device transmitting end 2 and a gas valve device 3, the transmitting end column 1 is provided with the detection device transmitting end 2, the transmitting end column 1 is further provided with the gas valve device 3, the gas valve device 3 is arranged below the detection device transmitting end 2, the detection device transmitting end 2 is connected with the gas valve device 3 through a gas pipe, the receiving processing end assembly includes a receiving processing end column 4 and a detection device receiving processing end 5, and the receiving processing end column 4 is provided with the detection device receiving processing end 5.

The transmitting end component also comprises a transmitting end shield 6, and the transmitting end 2 of the detection device is arranged in the transmitting end shield 6. The receiving and processing end assembly also comprises a receiving and processing end shield 7, and the receiving and processing end 5 of the detection device is arranged in the receiving and processing end shield 7.

When the device is installed, the receiving and processing end assembly is required to be capable of well receiving laser signals emitted by the emitting end 2 of the detection device, and the detected tool is required to be within a specified detection range.

The function of the transmitting end upright 1 is as follows: the detection device comprises a detection device transmitting end 2, a transmitting end shield 6 and a mounting platform of the air valve device 3.

The detection device emitting end 2 has the following functions: the transmitting end 2 of the detection device comprises a laser transmitter which is used for transmitting a laser signal to the detected cutter (the cutter is required to rotate during detection);

function of the gas valve device 3: providing a clean air source to protect the laser emitter in the emitting end 2 of the detection device;

the function of the receiving processing end upright post 4: the detection device receives the processing end 5 and receives the mounting platform of the processing end shield 7;

the detection device receives the functions of the processing terminal 5: receiving a laser signal which is sent by the transmitting end 2 of the detection device and passes through the detected cutter; and analyzing the obtained signal data, judging whether the cutter is damaged or not, and transmitting an analysis result to a machine tool main control system in real time.

Function of the emitter shield 6: protecting the transmitting end 2 of the detection device;

receiving the processing end shield 7: the protection detection device receives the processing terminal 5.

When the tool damage detection is carried out, firstly, a tool to be detected is loaded on a machine tool spindle, and the machine tool spindle drives the tool to be detected to rotate and enter a detection area; the detection device transmitting end 2 transmits laser beams to the rotating tool to be detected, the laser signals penetrate through the tool to be detected and are received by the detection device receiving and processing end 5, the detection device receiving and processing end 5 analyzes the obtained laser signals, whether the tool is worn, damaged or not is judged, and the analysis result can be transmitted to a machine tool main control system in real time.

Install air valve device 4 at the mid-mounting of transmitting terminal stand 1, can continuously provide clear air supply, introduce the laser emission hole to detection device transmitting terminal 2 with clear air supply through the trachea for prevent that the laser emission hole from being blockked up or polluting by iron fillings, dust, smear metal liquid etc..

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. The utility model provides a cutter damage detection device, its characterized in that, includes the transmission end subassembly and receives the processing end subassembly, the transmission end subassembly includes transmission end stand, detection device transmission end and air valve device, be equipped with the detection device transmission end on the transmission end stand, still be equipped with air valve device on the transmission end stand, air valve device locates detection device transmission end below, detection device transmission end and air valve device connect, receive the processing end subassembly including receiving processing end stand and detection device and receive the processing end, it receives the processing end to be equipped with detection device on the processing end stand to receive.

2. The tool breakage detection device of claim 1 wherein the detection device emitting end includes a laser emitter.

3. The tool breakage detection device of claim 2 wherein the firing end assembly further comprises a firing end shield, the detection device firing end being disposed within the firing end shield.

4. The tool breakage detection device of claim 2 wherein the receiving and handling end module further comprises a receiving and handling end shield, the detection device receiving and handling end being disposed within the receiving and handling end shield.

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