CN214024811U - Machining center in-warehouse cutter image detection system - Google Patents
Machining center in-warehouse cutter image detection system Download PDFInfo
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- CN214024811U CN214024811U CN202023061001.7U CN202023061001U CN214024811U CN 214024811 U CN214024811 U CN 214024811U CN 202023061001 U CN202023061001 U CN 202023061001U CN 214024811 U CN214024811 U CN 214024811U
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- machining center
- tool magazine
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Abstract
The utility model discloses a machining center is at storehouse cutter image detecting system, including tool magazine (1), it has a plurality of cutters (2) to be the annular distribution on tool magazine (1), and tool magazine (1) one side is equipped with tool changing mechanism (3), its characterized in that: the tool magazine is characterized in that a detection assembly is arranged outside the tool magazine (1), the detection assembly comprises an optical lens (4) connected with a machining center, one end of the optical lens (4) is connected with an industrial camera (5), and an illumination light source (6) is arranged between the optical lens (4) and the tool magazine (1). The utility model discloses can realize having detection efficiency height, characteristics that the testing stability is good to the in-warehouse detection of cutter.
Description
Technical Field
The utility model relates to a cutter detecting system, especially a machining center is at storehouse cutter image detecting system.
Background
With the development of technology, the existing machining center generally has a tool magazine, when in use, a tool magazine firstly rotates a tool to be used in place, and then a tool changing mechanism clamps the tool to realize tool changing. However, the tool is always worn during the use process, and the tool wear is also one of the main factors causing the machining dimension change of the workpiece. In order to reduce the change of the quality of the workpiece caused by the abrasion of the cutter, an operator can detect the cutting part before the cutter is put in storage, and the cutter can also carry out periodic detection after being put in storage so as to avoid the scrapping of the workpiece caused by the abrasion of the cutter. The conventional detection method for the cutter is that after the cutter is taken out by an operator, the cutter is manually detected by a tool of a micrometer and a vernier caliper or automatically detected by being installed on a professional instrument; however, in such a mode, an operator is required to disassemble, assemble and detect all the cutters, so that the detection efficiency is low and the labor intensity is high; and when the degree of wear of the cutter reaches the threshold value, the operator is difficult to perceive at the first time, and the operator needs to wait for the next periodic detection or the workpiece to have a size error, so that the operator can find and adjust the workpiece, and the machining precision of the machining center is reduced. Therefore, the existing detection method for the machining center cutter has the problems of low detection efficiency and poor detection stability.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a machining center is at storehouse cutter image detecting system. The method has the characteristics of high detection efficiency and good detection stability.
The technical scheme of the utility model: machining center is at storehouse cutter image detecting system, including the tool magazine, it has a plurality of cutters to distribute on the tool magazine, and tool magazine one side is equipped with tool changing mechanism, tool magazine one side is equipped with detection assembly, detection assembly is connected with the industry camera including the optical lens of connecting machining center, and optical lens one end is connected with, is equipped with light source between optical lens and the tool magazine.
In the machining center in-warehouse tool image detection system, the optical lens is connected with the machining center through the transverse moving assembly.
In the machining center in-warehouse tool image detection system, the detection assemblies and the tool changing mechanism are distributed in a mutually perpendicular manner.
In the system for detecting the machining center in the tool magazine image, the tools are distributed in the tool magazine in an annular or straight line.
In the machining center in-warehouse tool image detection system, the tool changing mechanism and the detection assembly are respectively arranged on two sides of any one tool.
In the machining center in-magazine tool image detection system, the optical lens, the illumination light source and one of the tools on the tool magazine are coaxially arranged.
In the machining center in-warehouse tool image detection system, the illumination light source is a multi-angle annular light source or a coaxial parallel light source.
Compared with the prior art, the utility model can detect the size of the cutting end face of the tool in the tool magazine through the detection component positioned outside the tool magazine, so that the tool can achieve the detection effect without being disassembled and assembled, and the detection efficiency of the utility model is effectively improved; the detection assembly is perpendicular to the tool changing mechanism, so that the tool can be detected before the tool changing mechanism acts, the detection of the tool before the tool is taken out of a warehouse and used is realized, the problem that the tool is unqualified due to excessive abrasion is effectively avoided, and the detection stability of the tool changing mechanism is improved; through type and position distribution to light source, can also effectively improve optical lens's detection effect to further improve the utility model discloses a detection stability. Therefore, the utility model has the characteristics of detection efficiency is high, and the testing stability is good.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
The labels in the figures are: 1-tool magazine, 2-tool, 3-tool changing mechanism, 4-optical lens, 5-industrial camera, 6-lighting source and 7-traversing component.
Detailed Description
The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.
Examples are given. Machining center is at storehouse cutter image detecting system, constitutes as shown in figure 1, and including tool magazine 1, it has a plurality of cutters 2 to distribute on the tool magazine 1, and every cutter 2 all rotates to be connected on tool magazine 1, and 1 one side of tool magazine is equipped with tool changing mechanism 3, 1 one side of tool magazine is equipped with detecting component, detecting component is including connecting machining center's optical lens 4, and optical lens 4 one end is connected with industry camera 5, is equipped with light source 6 between optical lens 4 and the tool magazine 1, detecting component adaptable in various types are from the machining center who takes the tool magazine.
The optical lens 4 is connected with a tool magazine 1 mechanism of a machining center through a transverse moving assembly 7, and the transverse moving assembly 7 can be a precise electric sliding table.
The detection components and the tool changing mechanism 3 are distributed in a mutually vertical mode.
The cutters 2 are distributed in the tool magazine 1 in an annular or straight line manner.
The tool changing mechanism 3 and the detection assembly are respectively arranged on two sides of one of the tools 2 in the tool magazine 1, and the detection assembly can be assembled on the side part of the tool magazine 1 and also can be assembled on any suitable position on/under the tool magazine 1 where the section of a tool bit can be detected.
The optical lens 4, the illumination light source 6 and one of the cutters 2 on the tool magazine 1 are coaxially arranged.
The illumination light source 6 is a multi-angle annular light source or a coaxial parallel light source, and the exterior of the illumination light source 6 is connected with the processing center.
The utility model discloses a theory of operation: the utility model discloses when using, tool magazine 1 will be prepared for tool 2 that the warehouse-out used to rotate the bottom position earlier, then carries out size detection to tool 2's terminal surface from the horizontal direction by optical lens 4. When in detection, the optical lens 4 can horizontally slide and focus through the transverse moving component 7, and meanwhile, the end face of the cutter is illuminated by the illumination light source 6, so that the detection effect on the cutter 2 is ensured. After illumination is finished, the tool magazine 1 rotates the tool from a horizontal state to a vertical state, and then the tool changing mechanism 3 clamps the tool 2 to achieve a tool changing effect. The detection process can detect the tool 2 before delivery, and only 1-2 seconds are consumed in the detection process, so that the working efficiency of a machining center cannot be reduced, and the machining stability of the tool 2 to a workpiece can be effectively improved. In addition, the machining center can also regularly carry out self-checking on the tools 2 in the warehouse, so that the tools 2 which are worn excessively are screened out, an operator is reminded to replace the tools, and the machining precision of the machining center is further improved.
Claims (7)
1. Machining center is at storehouse cutter image detecting system, including tool magazine (1), it has a plurality of cutters (2) to distribute on tool magazine (1), and tool magazine (1) one side is equipped with tool changing mechanism (3), its characterized in that: one side of the tool magazine (1) is provided with a detection assembly, the detection assembly comprises an optical lens (4) connected with a machining center, one end of the optical lens (4) is connected with an industrial camera (5), and an illumination light source (6) is arranged between the optical lens (4) and the tool magazine (1).
2. The machining center in-store tool image detection system according to claim 1, wherein: the optical lens (4) is connected with the machining center through the transverse moving assembly (7).
3. The machining center in-store tool image detection system according to claim 1, wherein: the detection assembly and the tool changing mechanism (3) are distributed in a mutually perpendicular mode.
4. The machining center in-store tool image detection system according to claim 3, wherein: the cutters (2) are distributed in the tool magazine (1) in an annular or straight line manner.
5. The machining center in-store tool image detection system according to claim 4, wherein: the tool changing mechanism (3) and the detection assembly are respectively arranged on two sides of any one tool (2).
6. The machining center in-store tool image detection system according to claim 1, wherein: the optical lens (4), the lighting source (6) and one of the cutters (2) on the tool magazine (1) are coaxially arranged.
7. The machining center in-store tool image detection system according to claim 1, wherein: the illumination light source (6) is a multi-angle annular light source or a coaxial parallel light source.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023061001.7U CN214024811U (en) | 2020-12-17 | 2020-12-17 | Machining center in-warehouse cutter image detection system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023061001.7U CN214024811U (en) | 2020-12-17 | 2020-12-17 | Machining center in-warehouse cutter image detection system |
Publications (1)
Publication Number | Publication Date |
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CN214024811U true CN214024811U (en) | 2021-08-24 |
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CN202023061001.7U Active CN214024811U (en) | 2020-12-17 | 2020-12-17 | Machining center in-warehouse cutter image detection system |
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CN (1) | CN214024811U (en) |
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2020
- 2020-12-17 CN CN202023061001.7U patent/CN214024811U/en active Active
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