阅读说明：本技术 一种弧度检测装置 (Radian detection device ) 是由 旷亚军 于 2020-07-15 设计创作，主要内容包括：本申请公开一种弧度检测装置,弧度检测装置包括定位机构、检测机构和处理器,检测机构设于待测件周侧。通过分别在定位机构和检测机构上设置第一触控件和第二触控件,检测机构从初始位置移动至检测位置过程中,根据第二触控件是否被待测件的弧度部阻挡,以决定第一触控件和第二触控件能否接触,从而输出对应的信号判断待测件的弧度部是否合格。第二触控件与待测件弧度部弯曲表面相切后与第一触控件接触,可应用于弯曲形状不规则的待测件弧度部的检测,整个弧度检测装置结构简单、操作方法简单,便于对待测件批量检测。(The application discloses radian detection device, radian detection device include positioning mechanism, detection mechanism and treater, and detection mechanism locates to be measured week side. Through setting up first touch control spare and second touch control spare on positioning mechanism and detection mechanism respectively, detection mechanism moves to the detection position in-process from the initial position, and whether is blockked by the radian portion of the piece that awaits measuring according to the second touch control spare to decide first touch control spare and second touch control spare can whether contact, thereby output corresponding signal and judge whether qualified the radian portion of the piece that awaits measuring. The second touch control piece is contacted with the first touch control piece after being tangent to the curved surface of the radian part of the piece to be detected, the second touch control piece can be applied to detection of the radian part of the piece to be detected with an irregular curved shape, and the whole radian detection device is simple in structure and operation method and is convenient for batch detection of the piece to be detected.)

1. The utility model provides an radian detection device for detect the radian portion of awaiting measuring piece, its characterized in that includes:

the positioning mechanism comprises a first touch piece and a limiting component used for fixing the piece to be detected along a preset direction;

the detection mechanism comprises a second touch control piece corresponding to the first touch control piece; and

the processor is electrically connected with the first touch control piece and the second touch control piece;

the detection mechanism is arranged on the periphery of the to-be-detected piece, and is configured to move between an initial position and a detection position relative to the positioning mechanism; the processor judges that the detection of the radian portion of the to-be-detected piece is qualified according to a received first detection signal indicating that the second touch piece passes through the surface of the radian portion and then is electrically connected with the first touch piece at the detection position, or judges that the detection of the radian portion of the to-be-detected piece is unqualified according to a received second detection signal indicating that the second touch piece is disconnected with the first touch piece at the detection position.

2. The radian detecting device of claim 1, further comprising a base and a mounting bracket mounted on the base, wherein the limiting assembly comprises a profiling portion arranged on the base for receiving the piece to be detected, an upper die mounted opposite to the profiling portion, and a positioning driving portion for driving the upper die to move relative to the base along the preset direction, and the positioning driving portion is mounted on the mounting bracket; the first touch control piece is installed on the upper die.

3. The arc degree detecting device of claim 2, wherein the copying portion comprises a copying surface disposed on the base and a receiving groove disposed on the periphery of the copying surface for receiving the arc degree portion, and the copying surface and the bottom surface of the receiving groove are attached to the surface of the object to be detected; the first touch control piece is installed relative to the containing groove.

4. The radian detecting device of claim 2, wherein the first touch member comprises a first connecting portion and a first touch portion connected with the first connecting portion, a through hole for mounting the first touch portion is formed in the upper die, the first connecting portion is mounted at one end of the through hole, and the first touch portion penetrates through the through hole, extends out from the other end of the through hole and extends towards the base along a direction parallel to the preset direction.

5. The radian detecting device of claim 1, wherein a guide surface for guiding the moving direction of the detecting mechanism is arranged on the periphery of the limiting component, the guide surface extends towards the tangent direction of the curved surface to be detected of the radian part and is connected with the copying part, and the detecting position of the detecting mechanism is arranged at one end of the guide surface close to the copying part.

6. The arc detecting device of claim 5, wherein the extending direction of the guiding surface forms an angle greater than 0 degrees and less than 90 degrees with the predetermined direction.

7. The arc detecting device according to claim 5, wherein the detecting mechanism includes a detecting driving portion and a slider mounted at a driving end of the detecting driving portion, the detecting driving portion being configured to drive the slider to slide on the guiding surface relative to the positioning mechanism; the second touch control piece comprises a second connecting part and a second touch control part connected with the second connecting part, the second connecting part is installed on the sliding block, and the second touch control part is in contact with the first touch control piece.

8. The arc degree detecting device according to claim 1, wherein the number of the detecting mechanisms is the same as the number of the arc degree portions to be detected on the member to be detected.

9. The arc degree detecting device of claim 1, wherein the first touch control member and the second touch control member are both metal elastic members, and the contact surfaces between the first touch control member and the second touch control member are both flat surfaces.

10. The radian detecting device of claim 1, further comprising an indicator light and a display panel electrically connected to the processor, wherein the processor determines a detection result according to the received first detection signal and the second detection signal and controls the indicator light and the display panel to display a prompt message.

Technical Field

The application relates to the technical field of part detection, especially, relate to a radian detection device.

Background

With the continuous development of the intelligent mobile terminal, the detection requirement on the intelligent mobile terminal is higher and higher. In the structure of the intelligent mobile terminal with the arc part, for example, the arc part of the edge of the glass cover plate or the arc part of the edge of the battery cover, the surface of the arc part is an irregular arc, so that the arc of the arc part is difficult to accurately detect. In the related art, the equipment for detecting the radian part of the intelligent mobile terminal is complex in structure, high in application cost and low in batch product detection efficiency; or the detection equipment needs manual auxiliary detection, and the manual operation is easy to cause misjudgment, so that the detection accuracy is influenced.

Disclosure of Invention

The application provides a radian detection device can detect product radian portion through simple detection structure.

The embodiment of the application provides a radian detection device for detect the radian portion of piece that awaits measuring, radian detection device includes positioning mechanism, detection mechanism and treater. The positioning mechanism comprises a first touch control piece and a limiting assembly used for fixing the piece to be detected along a preset direction, the detection mechanism comprises a second touch control piece corresponding to the first touch control piece, and the processor is electrically connected with the first touch control piece and the second touch control piece. The detection mechanism is arranged on the periphery of the to-be-detected piece and is configured to move between an initial position and a detection position relative to the positioning mechanism; the processor judges that the radian part of the piece to be detected is qualified according to the received first detection signal which indicates that the second touch piece passes through the surface of the radian part and is electrically connected with the first touch piece at the detection position, or judges that the radian part of the piece to be detected is unqualified according to the received second detection signal which indicates that the second touch piece is disconnected with the first touch piece at the detection position.

The radian detection device based on the embodiment of the application is characterized in that a first touch control piece and a second touch control piece are respectively arranged on the positioning mechanism and the detection mechanism, the detection mechanism moves to the detection position from the initial position, and whether the second touch control piece is blocked by the radian part of the piece to be detected or not is judged to determine whether the first touch control piece and the second touch control piece can be contacted or not, so that corresponding signals are output to judge whether the radian part of the piece to be detected is qualified or not, the operation method is simple, and batch detection of the piece to be detected is facilitated.

In some embodiments, the radian detection device further comprises a base and an installation frame arranged on the base, the limiting assembly comprises a profiling part arranged on the base and used for accommodating the piece to be detected, an upper die arranged opposite to the profiling part and a positioning driving part used for driving the upper die to move relative to the base along a preset direction, and the positioning driving part is arranged on the installation frame; the first touch control piece is arranged on the upper die.

Based on above-mentioned embodiment, profile modeling portion is used for leading the position of placing of piece to be measured on the base, and location drive division is used for driving the mould and moves in order to fix the piece to be measured on the base along predetermineeing the direction, ensures that the piece to be measured can not remove in the testing process.

In some embodiments, the profiling part comprises a profiling surface arranged on the base and an accommodating groove arranged on the periphery of the profiling surface and used for accommodating the arc part, and the profiling surface and the bottom surface of the accommodating groove are attached to the surface of the workpiece to be measured; the first touch control piece is installed corresponding to the containing groove.

Based on the embodiment, the stability of the piece to be measured placed in the profiling part is improved by mutually attaching the profiling surface, the bottom surface of the containing groove and the inner surface of the piece to be measured. The piece that awaits measuring that the structure is unqualified places the radian portion of the piece that awaits measuring in profile modeling portion back in the accepting groove position can appear unusually for profile modeling portion still can be used to the earlier stage detection work of supplementary detection mechanism.

In some embodiments, the first touch member includes a first connecting portion and a first touch portion connected to the first connecting portion, the upper mold is provided with a through hole for mounting the first touch portion, the first connecting portion is mounted at one end of the through hole, and the first touch portion extends from the other end of the through hole after penetrating through the through hole and extends toward the base along a direction parallel to the predetermined direction.

Based on the above embodiment, the installation stability of the first touch control piece on the upper die is improved, and the first touch control piece is ensured not to be easily loosened under the repeated impact of the second touch control piece.

In some embodiments, the limiting assembly is provided with a guide surface at the periphery thereof for guiding the moving direction of the detection mechanism, the guide surface extends towards the tangential direction of the curved surface to be detected of the radian part and is connected with the profiling part, and the detection position of the detection mechanism is arranged at one end of the guide surface close to the profiling part.

Based on the above embodiment, the driving assembly in the detection mechanism is guided by the guide surface to drive the moving direction of the second touch piece. Meanwhile, the guide surface provides support for the detection mechanism, and the moving stability of the detection mechanism relative to the positioning mechanism between the initial position and the detection position is improved.

In some embodiments, the extending direction of the guiding surface forms an angle greater than 0 degree and less than 90 degrees with the preset direction.

Based on the embodiment, the tangent point position of the second touch control piece and the surface of the radian part of the to-be-detected piece is variable, and the installation flexibility of the detection mechanism is improved.

In some embodiments, the detection mechanism comprises a detection driving part and a slide block arranged at the driving end of the detection driving part, and the detection driving part is configured to drive the slide block to slide on the guide surface relative to the positioning mechanism; the second touch control piece comprises a second connecting part and a second touch control part connected with the second connecting part, the second connecting part is installed on the sliding block, and the second touch control part is in contact with the first touch control piece.

Based on the above embodiment, the slider moves back and forth on the guide surface under the driving of the detection driving part to drive the second touch piece to move stably between the initial position and the detection position.

In some of these embodiments, the number of detection mechanisms is the same as the number of arcs to be detected on the test piece.

Based on above-mentioned embodiment, through setting up the radian portion on the multiunit detection mechanism correspondence detection piece to improve detection efficiency.

In some embodiments, the first touch control member and the second touch control member are both metal elastic members, and the contact surfaces between the first touch control member and the second touch control member are both flat surfaces.

Based on the above embodiment, the second touch control member can be abutted and contacted with the first touch control member, and the contact state of the first touch control member and the second touch control member can still be maintained under the long-term working state. Meanwhile, the contact surface between the first touch control piece and the second touch control piece is set to be a plane so that the first touch control piece and the second touch control piece have enough effective contact area.

In some embodiments, the radian detection device further comprises an indicator light and a display panel which are electrically connected with the processor, and the processor judges a detection result according to the received first detection signal and the second detection signal and controls the indicator light and the display panel to display prompt information.

Based on the embodiment, the operation is convenient for the staff to operate according to the indication lamp and the prompt message on the display panel.

The application provides a radian detection device sets up first touch control spare and second touch control spare on positioning mechanism and detection mechanism respectively, and detection mechanism moves to the detection position in-process from the initial position, whether blocks by the radian portion of the piece that awaits measuring through second touch control spare to decide whether first touch control spare and second touch control spare can contact, thereby whether the radian portion of the piece that awaits measuring is qualified is judged to the signal that the output corresponds. The second touch control piece is contacted with the first touch control piece after being tangent to the curved surface of the radian part of the piece to be detected, the second touch control piece can be applied to detection of the radian part of the piece to be detected with an irregular curved shape, and the whole radian detection device is simple in structure and operation method and is convenient for batch detection of the piece to be detected.

Drawings

In order to more clearly illustrate the embodiments of the present application 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, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a front view of an embodiment of an arc detector of the present application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic perspective view of an embodiment of a positioning mechanism according to the present disclosure;

FIG. 4 is a schematic perspective assembly view of an embodiment of the present disclosure without a first touch control mounted on the positioning mechanism;

fig. 5 is a schematic perspective assembly structure diagram of a detection mechanism according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application provides a radian detection device 100 for detect the radian portion of the piece that awaits measuring, the piece that awaits measuring can be for battery cover, glass apron etc. have the structure of radian portion. As shown in fig. 1 and 2, the arc degree detection apparatus 100 includes a positioning mechanism 110, a detection mechanism 120, and a processor (not shown).

As shown in fig. 3 and 4, the positioning mechanism 110 includes a first touch member 111 and a limiting member 112 for fixing the to-be-detected member 200 along a preset direction, as shown in fig. 5, the detecting mechanism 120 includes a second touch member 121 corresponding to the first touch member 111, and the processor is electrically connected to the first touch member 111 and the second touch member 121. The detecting mechanism 120 is disposed around the device under test 200, and the detecting mechanism 120 is configured to move between an initial position and a detecting position relative to the positioning mechanism 110. As shown in fig. 2, the processor determines that the detection of the arc portion 210 of the to-be-detected piece 200 is qualified according to the reception of a first detection signal indicating that the second touch member 121 passes through the surface of the arc portion 210 and then is electrically connected to the first touch member 111 at the detection position, or determines that the detection of the arc portion 210 of the to-be-detected piece 200 is unqualified according to the reception of a second detection signal indicating that the second touch member 121 is disconnected from the first touch member 111 at the detection position.

For convenience of operation, the positioning mechanism 110 and the detecting mechanism 120 each include a driving component electrically connected to the processor. During detection, the processor controls the driving component in the positioning mechanism 110 to fix the object 200 to be detected, so that the arc portion 210 of the object 200 to be detected is located at the position to be detected, the first touch control member 111 also moves to the preset position, and the processor controls the driving component in the detection mechanism 120 to move from the initial position to the detection position. In the moving process, the driving component in the detection mechanism 120 drives the second touch control member 121 to move, and if the second touch control member 121 is tangent to the bent surface of the radian portion 210 and then contacts with the first touch control member 111 and is electrically connected to output a first detection signal, the processor determines that the radian portion 210 of the current to-be-detected piece 200 is qualified in detection. If the second touch member 121 is blocked by the surface bent with the arc portion 210 in the moving process, the second touch member 121 cannot move to the detection position to contact with the first touch member 111, and then a second detection signal is output, and the processor determines that the arc portion 210 of the current to-be-detected member 200 is unqualified in detection. According to the embodiment of the application, the first touch piece 111 and the second touch piece 121 are respectively arranged on the positioning mechanism 110 and the detection mechanism 120, and in the process that the detection mechanism 120 moves from the initial position to the detection position, whether the second touch piece 121 is blocked by the radian part 210 of the piece to be detected 200 or not is determined to determine whether the first touch piece 111 and the second touch piece 121 can be contacted or not, so that a corresponding signal is output to judge whether the radian part 210 of the piece to be detected 200 is qualified or not, the detection method is simple, and batch detection of the piece to be detected is facilitated.

The detection mechanism 120 moves from the initial position to the detection position, and when the arc portion 210 of the to-be-detected piece 200 is unqualified and is completely fixed, the second touch control member 121 may abut against the arc portion 210 of the to-be-detected piece 200 and push away the to-be-detected piece 200, and then move to contact with the first touch control member 111 to output the first detection signal, which may cause erroneous determination. Therefore, after the positioning mechanism 110 fixes the dut 200, it is required to ensure that the dut 200 is not easily pushed by external force during the testing process. In some embodiments, the arc detection apparatus 100 further includes a base 130 and a mounting bracket 140 mounted on the base 130, as shown in fig. 3 and 4, the limiting assembly 112 includes a profiling portion 1121 disposed on the base 130 and used for accommodating the to-be-detected object 200, an upper die 1122 mounted opposite to the profiling portion 1121, and a positioning driving portion 1123 for driving the upper die 1122 to move relative to the base 130 along a predetermined direction, the positioning driving portion 1123 is mounted on the mounting bracket 140, and the first touch control member 111 is mounted on the upper die 1122. The profiling portion 1121 may be configured as a groove adapted to the outer periphery of the object 200, and primarily defines the position of the object 200 on the base 130. The positioning post 1124 corresponding to the mounting hole of the dut 200 can be disposed in the groove, and when the dut 200 is placed, the positioning post 1124 and the profiling portion 1121 can be used together to guide and define the position of the dut 200. After the object 200 is placed on the base, the positioning driving unit 1123 drives the upper die 1122 to move toward the base 130 along the predetermined direction under the control of the processor, and makes the upper die 1122 abut against the object 200, so as to fix the object 200 on the base 130, and make the object 200 not move under the pushing of the second touch control member 121. The positioning driving portion 1123 may be a linear driving cylinder, etc., and the driving direction of the linear driving cylinder is set along a predetermined direction, and in fig. 1, the direction indicated by the arrow is the predetermined direction.

The to-be-detected piece 200 is placed at the profiling portion 1121, and besides the profiling portion 1121 is used for positioning the placement position of the to-be-detected piece 200, further, the stability of the to-be-detected piece 200 in the profiling portion 1121 can be improved by the structure of the profiling portion 1121, so as to assist the detection mechanism 120 in detecting the arc degree portion 210 of the to-be-detected piece 200. As shown in fig. 4, in some embodiments, the profiling portion 1121 includes a profiling surface 1125 disposed on the base 130 and a receiving groove 1126 disposed at the periphery of the profiling surface 1125 for receiving the arc portion 210, bottom surfaces of the profiling surface 1125 and the receiving groove 1126 are attached to a surface of the object 200, and the stability of the object 200 placed in the profiling portion 1121 is improved by attaching the bottom surfaces of the profiling surface 1125 and the receiving groove 1126 to an inner surface of the object 200. When the structure of the object 200 is not qualified, the object 200 cannot be placed in the profiling portion 1121, or moves after being placed in the profiling portion 1121, or the surface of the object 200 does not adhere to the profiling surface 1125 and the bottom surface of the receiving groove 1126, so that the arc portion 210 of the object 200 is abnormal at the position inside the profiling portion 1121, for example, the surface of the arc portion 210 is higher than the preset position to block the movement of the second touch control member 121, and thus the unqualified object is detected.

The detection mechanism 120 moves to a detection position, so that the second touch member 121 contacts the first touch member 111 after being tangent to the surface of the arc portion 210, and then generates a detection signal. In some embodiments, the first touch member 111 is installed opposite to the receiving slot 1126, so as to facilitate the second touch member 121 to contact with the first touch member 111 after moving to the detection position, so as to facilitate smooth contact between the second touch member 121 and the first touch member 111.

The second touch member 121 and the first touch member 111 generate a detection signal after contacting, and the second touch member 121 can abut against the first touch member 111 after moving to a detection position, so as to improve the contact stability of the second touch member 121 and the first touch member 111. In order to further improve the mounting stability of the first touch control member 111 on the upper mold 1122, as shown in fig. 3 and 4, in some embodiments, the first touch control member 111 includes a first connection portion 1111 and a first touch portion 1112 connected to the first connection portion 1111, a through hole for mounting the first touch portion 1112 is disposed on the upper mold 1122, the first connection portion 1111 is mounted at one end of the through hole, the first touch portion 1112 penetrates through the through hole and extends out from the other end of the through hole and extends toward the base 130 along a direction parallel to a predetermined direction, so that an end of the first touch portion 1112 contacts the second touch control member 121. The first connection portion 1111 may be configured as a flat plate and installed on the upper die 1122, so as to increase the effective contact area between the first connection portion 1111 and the upper die 1122, and further increase the installation stability of the first touch member 111, so that the first touch member 111 cannot be easily loosened by multiple impacts of the second touch member 121.

The detecting mechanism 120 moves between the initial position and the detecting position relative to the positioning mechanism 110, and the moving direction of the second touch member 121 in the detecting mechanism 120 can be controlled by controlling the driving direction of the driving member in the detecting mechanism 120. In some embodiments, the limiting component 112 is provided with a guiding surface 131 for guiding the moving direction of the detecting mechanism 120 at the periphery thereof, the guiding surface 131 extends towards the tangential direction of the curved surface to be detected of the arc portion 210 and is connected to the profiling portion 1121, the detecting position of the detecting mechanism 120 is provided at one end of the guiding surface 131 close to the profiling portion 1121, and the driving component in the detecting mechanism 120 is guided by the guiding surface 131 to drive the moving direction of the second touch-control part 121. Meanwhile, the guide surface 131 is disposed on the base 130 to provide a support for the detection mechanism 120, so as to improve the smoothness of the movement of the detection mechanism 120 relative to the positioning mechanism 110 between the initial position and the detection position.

For the pieces 200 to be tested with different specifications, the direction of tangency between the second touch control member 121 and the surface of the arc portion 210 of the piece 200 to be tested can be changed by changing the extending direction of the guide surface 131. The included angle between the extending direction of the guide surface 131 and the preset direction is greater than 0 degree and smaller than 90 degrees, and the second touch control member 121 is controlled to be tangent to the curved surface of the arc portion 210 of the to-be-detected member 200 in the moving process, so that the position of the tangent point of the curved surface of the arc portion 210 of the to-be-detected member 200 and the position of the tangent point of the second touch control member 121 are variable, and the installation flexibility of the detection mechanism 120 is improved.

The detection mechanism 120 moves between an initial position and a detection position relative to the positioning mechanism 110 for moving the second touch member 121 from the initial position to the detection position to contact the first touch member 111. As shown in fig. 5, in some embodiments, the detection mechanism 120 includes a detection driving portion 122 and a slider 123 mounted at a driving end of the detection driving portion 122, and the detection driving portion 122 is configured to drive the slider 123 to slide on the guide surface 131 relative to the positioning mechanism 110. The second touch control element 121 includes a second connection portion 1211 and a second touch portion 1212 connected to the second connection portion 1211, wherein the second touch portion 1212 is in contact with the first touch portion 1112 to electrically connect the first touch control element 111 and the second touch control element 121. The second connecting portion 1211 is mounted on the slider 123, and the second connecting portion 1211 can be configured to be mounted on the slider 123 in a flat plate shape, so that an effective connecting area between the second connecting portion 1211 and the slider 123 is increased, and further, the mounting stability of the second touch control member 121 is improved. The detection driving portion 122 of the detection mechanism 120 may be mounted on the base 130, such that the driving direction of the detection driving portion 122 is the same as the extending direction of the guiding surface 131, so as to drive the slider 123 and the second touch control member 121 to slide back and forth on the guiding surface 131 relative to the positioning mechanism 110. The detection driving part 122 may be a linear driving cylinder or the like.

Different pieces to be tested 200 have different structures, and correspondingly, the number of the radian portions 210 to be detected is different, and the bending radians of different radian portions 210 on the same piece to be tested 200 are different. In some embodiments, the number of detection mechanisms 120 is the same as the number of arcs 210 to be detected on the dut 200. For example, when testing a battery cover of a terminal such as a mobile phone or a tablet computer, the battery cover is provided with four arc portions 210 opposite to each other in pairs, and therefore four sets of detection mechanisms 120 are required to be installed on the periphery of the profiling portion 1121 in opposite to each other in pairs, and each arc portion 210 is required to be detected. The extending direction of the guiding edge corresponding to each arc portion 210 and the driving direction of the detection driving portion 122 are both set according to the curved surface of the arc portion 210, so that the second touch member 121 can be tangent to the curved surface of the arc portion 210 in the moving process.

In the process of multiple tests, the first touch piece 111 repeatedly contacts with the second touch piece 121, so that the ends of the first touch piece 111 and the second touch piece 121 may be worn. In some embodiments, the first touch control piece 111 and the second touch control piece 121 are both metal elastic pieces. When the second touch member 121 moves to the detection position, it may abut against the first touch member 111, so as to ensure that the first touch member 111 and the second touch member 121 may maintain a contact state therebetween in a long-term working process. The contact between the first touch member 111 and the second touch member 121 can be point contact or surface contact, and preferably, the contact surface between the first touch member 111 and the second touch member 121 is a plane, so that the first touch member 111 and the second touch member 121 have sufficient effective contact area therebetween, and the two touch members are prevented from being worn and damaged to cause poor contact in a contact manner with a small effective contact area such as point contact, and the detection result is influenced.

As shown in fig. 1, the radian detecting device 100 further includes an indicator 151 and a display panel 152 electrically connected to the processor, and the processor determines a detection result according to the received first detection signal and the second detection signal and controls the indicator 151 and the display panel 152 to display prompt information, so that a worker can operate according to the prompt information, for example, move out an unqualified product to be detected according to the prompt information.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the above terms will be understood by those skilled in the art according to the specific situation.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.