CN219533301U - Detection equipment - Google Patents

Abstract

The present utility model provides a detection apparatus comprising: the device comprises a device main body, a detection unit, a result feedback unit and an industrial personal computer, wherein the device main body is provided with a plurality of containing structures capable of containing detection objects; the detection unit comprises a plurality of detection connecting ends, and at least one group of detection connecting ends are arranged in each accommodating structure; the result feedback unit is used for outputting a detection result; the industrial personal computer is electrically connected with the detection unit and the result feedback unit, and is used for controlling the detection unit to detect the detection object so that the result feedback unit outputs a detection result. The utility model provides the detection equipment, so that the power-on and power-off detection is more efficient and convenient.

Description

Detection equipment

Technical Field

The utility model relates to the field of detection, in particular to detection equipment.

Background

Before leaving the factory, products such as cameras, optical machines and the like can pass through a series of functional tests, wherein the up-and-down electrical detection is an indispensable test item for verifying the use stability of the detected products so as to ensure the quality.

The method for detecting the power on and power off comprises the following steps: the up-down electricity testing times are pre-configured, the tested product is accessed into the electric signal, repeated startup and shutdown are carried out, and whether each function of the tested product is normal or not is judged, so that the use stability is detected. The power-on and power-off detection has the characteristics of high operation repeatability and long time consumption, and at present, single product detection work is usually repeated manually by the detection mode, so that the detection efficiency is low, the delivery efficiency of products is influenced, and improvement is needed.

Disclosure of Invention

The utility model provides a detection device which is used for at least improving the efficiency of power-on and power-off detection.

In order to achieve the above object, the present utility model provides a detection apparatus including:

an apparatus main body provided with a plurality of accommodation structures capable of accommodating a detection object;

the detection unit comprises a plurality of detection connecting ends, and at least one group of detection connecting ends are arranged in each accommodating structure;

the result feedback unit is used for outputting a detection result;

the industrial personal computer is electrically connected with the detection unit and the result feedback unit, and is used for controlling the detection unit to detect the detection object so that the result feedback unit outputs a detection result.

According to the detection equipment provided by the embodiment of the utility model, as at least one group of detection connecting ends are arranged in each containing structure, the detection objects are connected through the detection connecting ends, and the industrial control computer is electrically connected with the detection unit and the result feedback unit, so that the detection unit can realize the simultaneous detection of a plurality of detection objects, the result feedback unit outputs the detection result, the detection is convenient, and the power-on and power-off detection efficiency of the detection objects such as a camera, an optical machine and the like before leaving factories is improved.

In one possible embodiment, the device body is a frame structure, and the accommodating structure is a first accommodating cavity partitioned inside the frame structure.

In one possible implementation manner, the device further comprises a plurality of detection platforms for installing the detection objects, wherein the detection platforms are connected with the device main body and are arranged at the accommodating structure positions.

In one possible implementation, the detection table includes a support plate, the support plate is provided with a fixing structure, the support plate is in abutting fit with the detection object, and the fixing structure is detachably connected with the detection object.

In one possible implementation, the detection platform further comprises a connecting piece connected with the supporting plate, the connecting piece is provided with a first connecting structure, the equipment main body is provided with a second connecting structure detachably connected with the first connecting structure, and the second connecting structure extends to the outer side of the accommodating structure or is arranged in the accommodating structure.

In one possible implementation, the detection table is mounted at an opening position of the accommodating structure in a hanging manner, and the supporting plate is connected to the device main body along a hanging direction;

the inspection station further includes a guard plate connected to the underside of the pallet and extending in a blocking direction, wherein the blocking direction intersects the hanging direction.

In one possible implementation manner, the detection platform further comprises a plug wire guiding structure connected with the supporting plate, and a mounting hole is formed in the plug wire guiding structure;

the detection connecting end is inserted into the mounting hole and is electrically connected with the detection object through the mounting hole.

In one possible implementation manner, the result feedback unit includes a display device, where the display device is electrically connected to the detection unit, and the display device is used to display the detection result; and/or

The result feedback unit comprises an indicating device, wherein the indicating device is electrically connected with the detection unit and is used for sending out indicating information.

In one possible implementation manner, the display device further comprises at least two screen cutters, and the at least two industrial personal computers are electrically connected to the display device through the screen cutters.

In one possible implementation manner, the device main body further comprises a lower cabinet body and a rear cabinet body, the lower cabinet body is arranged at the bottom of the frame structure, the rear cabinet body is arranged at the rear side of the frame structure and the lower cabinet body, a second accommodating cavity is formed in the rear cabinet body, and a wire passing hole communicated with the first accommodating cavity is formed in the side wall surface of the second accommodating cavity.

According to the detection equipment provided by the embodiment of the utility model, the accessed detection object is subjected to the power-on and power-off actions for a set number of times so as to test the working stability of the detection object, and when the fault is detected, an operator can be timely reminded of processing through the indicating device, so that the detection equipment is convenient to use.

In addition to the technical problems, technical features constituting the technical solutions, and beneficial effects caused by the technical features of the technical solutions described above, other technical problems that can be solved by the detection apparatus provided by the embodiment of the present utility model, other technical features included in the technical solutions, and beneficial effects caused by the technical features of the technical solutions are described in detail in the detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a detection device according to an embodiment of the present utility model;

fig. 2 is a schematic view of another perspective structure of an apparatus body of the detection apparatus according to the embodiment of the present utility model;

fig. 3 is a schematic view of another perspective structure of an apparatus body of the detection apparatus according to the embodiment of the present utility model;

fig. 4 is a schematic view of another perspective structure of an apparatus body of the detection apparatus according to the embodiment of the present utility model;

fig. 5 is a cross-sectional view of an apparatus main body of a detection apparatus provided in an embodiment of the present utility model;

fig. 6 is a cross-sectional view of a detection stage of a detection apparatus provided in an embodiment of the present utility model mounted to an apparatus main body;

fig. 7 is a schematic perspective view of a detection table of a detection device according to an embodiment of the present utility model;

fig. 8 is a schematic view of another perspective structure of a detection table of the detection apparatus according to the embodiment of the present utility model;

fig. 9 is a schematic view of another perspective structure of a detection table of the detection apparatus according to the embodiment of the present utility model;

fig. 10 is a schematic perspective view of a further detection table of the detection apparatus according to the embodiment of the present utility model;

FIG. 11 is an enlarged view of the structure at A of FIG. 6;

fig. 12 is a schematic view of another three-dimensional structure of a detection apparatus according to an embodiment of the present utility model;

fig. 13 is a control block diagram of a detection apparatus according to an embodiment of the present utility model.

Reference numerals illustrate:

10-an apparatus body;

11-a frame structure;

111-separator;

112-a first receiving chamber;

1121-a second connection structure;

113-a top panel;

114-a bottom panel;

115-a back plate;

116-side baffles;

117-via holes;

118-a fixed block;

12-lower cabinet body;

121-a movable door;

122-perspective window;

123-a bottom support plate;

124-hinge;

125-door lock;

13-a rear cabinet body;

131-a second accommodation chamber;

20-a detection unit;

21-a detection connection;

30-a result feedback unit;

31-a display device;

32-indicating means;

40-an industrial personal computer;

50-a screen cutter;

60-a detection table;

61-supporting plates;

62-connecting piece;

621-a first connection structure;

622-a first panel;

623-a second panel;

63-a wire guide structure;

631-mounting holes;

64-handle;

65-guard plates;

70-detecting the object.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In order to ensure the quality of products such as cameras and optomachines which are introduced into the market, it is necessary to evaluate the stability of the operation of the products such as cameras and optomachines in industrial production. The method also considers that products such as cameras and the like can perform data acquisition to realize the intellectualization of industrial operation, so that the stability requirement is very high, otherwise, the data acquisition is inaccurate, and the accuracy of the subsequent intellectualization operation is affected.

In the related art, the stability of the detection object is evaluated by the up-down electric detection so as to discover the abnormality such as the start fault as soon as possible, but each time one detection object is detected, the efficiency is low, and the increase requirement of the productivity cannot be met.

In view of the above background, the detection device provided by the embodiment of the utility model can perform up-and-down electrical detection on a plurality of detection objects at the same time, is convenient to use, and improves the detection efficiency of the detection objects before leaving the factory.

The detection apparatus provided by the embodiment of the present utility model is described below with reference to the accompanying drawings.

Referring to fig. 1, 2 and 13, the present utility model provides a detection apparatus for detecting a detection object 70 such as a camera, a camera light machine, a camera carrier plate, etc., the detection apparatus including: the apparatus main body 10, the detection unit 20, the result feedback unit 30, and the industrial personal computer 40, the apparatus main body 10 is provided with a plurality of accommodation structures capable of accommodating the detection object 70. Referring to fig. 1, 7 and 13, the detecting unit 20 includes a plurality of detecting connection terminals 21, at least one group of detecting connection terminals 21 is disposed in each accommodating structure, the result feedback unit 30 is configured to output a detecting result, the industrial personal computer 40 is electrically connected to the detecting unit 20 and the result feedback unit 30, and the industrial personal computer 40 is configured to control the detecting unit 20 to detect the detecting object 70, so that the result feedback unit 30 outputs the detecting result.

According to the detection device provided by the embodiment of the utility model, the device body 10 can accommodate a plurality of detection objects 70, the detection connecting end 21 is electrically connected with the detection objects 70, and the industrial personal computer 40 is electrically connected with the detection unit 20 and the result feedback unit 30, so that the detection unit 20 can detect the plurality of detection objects 70 at the same time, and the result feedback unit 30 outputs detection results, thereby providing convenience for up-and-down electric detection and improving the detection efficiency before delivery.

The detection object 70 includes, but is not limited to, a camera, an optical machine, a carrier board, etc., and the detection device provided in this embodiment is used for performing a set up and down electrical operation on the accessed detection object 70 to test the working stability of the detection object 70.

In one possible implementation, the detection unit 20 may be a programmable logic controller (Programmable Logic Controller, abbreviated as PLC), which stores therein a program for detecting the detection object 70, such as an up-down electrical stability detection program for controlling the number of times of switching on and off of the connection circuit of the detection object 70. The serial port communication software is operated in the industrial personal computer 40, the serial port of the industrial personal computer 40 is electrically connected to the detection unit 20, after the detection unit 20 receives the instruction sent by the industrial personal computer 40, the program for detecting the detection objects 70 is started, and the detection result is output through the result feedback unit 30, for example, whether the working state of the detection objects 70 is normal or not can be reflected after the detection of the upper and lower electrical stability of each detection object 70, or the corresponding alarm information with the stability lower than the set standard is output.

In one possible implementation, referring to fig. 2 and 3, the apparatus body 10 is a frame structure 11, and the receiving structure is a first receiving cavity 112 partitioned inside the frame structure 11. Optionally, a multi-layered partition 111 is provided within the frame structure 11 to isolate a first receiving cavity 112. The device body 10 is light and convenient to realize more first accommodating cavities 112, and space is saved.

The shape of the apparatus body 10 is not limited to the above example, as long as the apparatus body 10 is provided so as to be able to support and house a plurality of detection objects 70, which can allow the arrangement of a plurality of housing structures. For example, the apparatus body 10 may have a frame structure having another shape and partitioned by a non-plate structure such as a grill, or the apparatus body 10 may have a table shape capable of accommodating a plurality of objects to be detected 70, and the accommodating structure may be a plurality of accommodating grooves or the like provided on a table surface in a distributed manner.

In one possible implementation manner, referring to fig. 1, 7 and 8, the detection apparatus provided in this embodiment further includes a plurality of detection platforms 60 for mounting the detection objects 70, where the detection platforms 60 are connected to the apparatus main body 10 and disposed at the location of the accommodating structure. By providing a plurality of detection stages 60, a plurality of detection objects 70 can be fixed at the same time, and the detection efficiency can be greatly improved. Here, the "the detection stage 60 is disposed at the housing structure position" may include at least one of a case where the detection stage 60 is disposed inside the housing structure and a case where the detection stage 60 is disposed on the apparatus main body 10 outside and near the housing structure. In addition, the number of the detection objects 70 that can be fixed per detection stage 60 may be one or a plurality.

In one possible implementation, the detection stage 60 is fixed to the partition 111.

In one possible implementation manner, two or more layers of partition plates 111 are disposed in the first accommodating cavity 112, and a plurality of detection platforms 60 are disposed on each partition plate 111, so that multiple rows of detection platforms 60 can be disposed on the apparatus main body 10, and the number of detection platforms 60 in each row can be 2, 3, 4 or 5, etc., which is beneficial to improving the detection efficiency.

In one possible implementation manner, each row of detection platforms 60 may be the same detection platform 60, or may be different detection platforms 60, so as to conveniently fix a plurality of detection objects 70 with different types, and improve flexibility of use.

In one possible implementation, referring to fig. 8, 9 and 10, the inspection bench 60 includes a pallet 61, the pallet 61 is provided with a fixing structure, the inspection object 70 is placed on the pallet 61 in a state where the inspection object 70 is mounted, the pallet 61 is in abutting engagement with the inspection object 70, and the fixing structure is detachably connected with the inspection object 70. The supporting plate 61 plays a role of bearing the detection object 70, and can improve the stability of fixing the detection object 70 through the fixing structure, prevent the detection object 70 from shifting and other problems, and avoid influencing the detection effect.

In one possible implementation, the fixing structure may be a mounting hole, such as a through hole allowing a fastener to pass through or a screw hole capable of being screwed with the fastener, and the detection object 70 is provided with a structure for being in connection with the fastener so as to connect the detection object 70 and the supporting plate 61 together by the fastener; the fixing structure may be a locking structure that can accommodate and restrict the locking of the detection object 70, such as a locking groove that allows the detection object 70 to be locked, or a structure that cooperates with a certain portion of the detection object 70 to achieve locking, such as a locking tongue that is a suitable protruding portion of the detection object 70, and the fixing structure is provided as a locking structure that can cooperate with the locking tongue. The detection object 70 is fixed on the supporting plate 61 through the clamping and matching of the clamping structure and the detection object 70; in addition, the fixing structure can also be a clamp, such as a caliper, and the structure of the clamp can be flexibly selected according to the type or model of the detection object 70, so that the detection object 70 is fixed through the clamping effect of the clamp on the detection object 70, and the detection object 70 is convenient to detach. Those skilled in the art can flexibly adjust the shape of the fixing structure according to the specific fixing requirement of the detection object 70, and the changes in the form of the fixing structure are all within the protection scope of the present utility model.

In one possible implementation, the fixing structure provided on the support plate 61 may be a type for fixing one type of the test object 70, for example, a camera, so that the test table 60 is dedicated to such test object 70.

In one possible implementation, two or more fixing structures may be provided on the supporting plate 61 to fix different types of detection objects 70, and optionally, three fixing structures for fixing the camera, the optical machine and the carrier are provided on the supporting plate 61, so that the fixed camera, the optical machine and the carrier may be arranged side by side.

In one possible implementation, the detection platform 60 and the device main body 10 are detachably connected, so as to adapt to the situation that the detection platform 60 is maintained and replaced, each part of the detection device needs to be detached and transported, the shape of the detection platform 60 on the device main body 10 is adjusted according to the change of the detection object 70, and the like. In this case, the inspection station 60 further includes a connection member 62 connected to the pallet 61, and stable connection of the inspection station 60 to the apparatus body 10 is achieved by the connection member 62. The problem that the detection table 60 falls down due to the fact that the assembled detection device is accidentally bumped by the device main body 10 is prevented, so that the detection object 70 is effectively protected, and economic losses are avoided.

In one possible implementation, the connection piece 62 includes a first connection structure 621, the apparatus body 10 is provided with a second connection structure 1121 detachably connected to the first connection structure 621, the second connection structure 1121 is provided within the housing structure, or at least a portion of the second connection structure 1121 is provided on the apparatus body 10 at a position outside the housing structure. In the case where at least a part of the second connection structure 1121 is located outside the housing structure, the inspection stage 60 is suspended outside the housing structure opening (i.e., the opening into which the inspection object 70 is put in, taken out) by the connection fitting of the first connection structure 621 and the second connection structure 1121, facilitating the inspection of the inspection object 70 on the inspection stage 60 by the inspection person. Alternatively, in the case where the second connection structure 1121 is provided in the housing structure, the second connection structure 1121 may be provided inside the housing structure so that the inspection station 60 is fixed in the housing structure by the connection fitting of the first connection structure 621 and the second connection structure 1121, and a person skilled in the art may flexibly select the arrangement position of the second connection structure 1121 and adjust the fixing position of the inspection station 60 on the apparatus body 10 according to the use requirement.

In one possible implementation, the connection element 62 may be a corner bracket, where the corner bracket includes a first panel 622 and a second panel 623 that are connected to each other, where the first panel 622 of the corner bracket is attached to a side of the support plate 61 facing away from the detection object 70, and is connected to a side of the support plate 61 facing away from the detection object 70 by screwing, riveting, welding, or the like, and the second panel 623 of the corner bracket is connected to the apparatus main body 10 by a screw (as in a case where the detection table 60 is suspended from a lower portion of the apparatus main body 10 shown in fig. 11).

In one possible implementation, the first connecting structure 621 is an end of the second panel 623 away from the first panel 622, and the second connecting structure 1121 is a groove portion formed on a bottom wall surface of the accommodating structure, so as to facilitate insertion or extraction of at least a portion of the second panel 623 into or from the groove portion. The end of the support plate 61 away from the second panel 623 abuts against the inner bottom wall of the accommodating structure so as to assist the snap fit at the groove portion to collectively limit the detection stage 60, thereby achieving connection and disconnection of the detection stage 60 with the apparatus main body 10 (as in the case where the detection stage 60 at the upper portion of the apparatus main body 10 is fixed in the accommodating structure shown in fig. 11).

In one possible implementation manner, the first connection structure 621 may be a through hole formed in the second panel 623, the second connection structure 1121 may be a threaded hole or a through hole formed in a bottom wall surface of the accommodating structure, and the first connection structure 621 and the second connection structure 1121 are sequentially threaded through fasteners, or the first connection structure 621 is threaded with the second connection structure 1121, so that the connection between the detection platform 60 and the device main body 10 is realized, the stability of fixing the detection platform 60 is improved, and the problem that the detection platform 60 falls is avoided.

In one possible implementation, the first connection structure 621 may be a hanging hole formed in the second panel 623, the hanging hole may be a through hole, the second connection structure 1121 is a hanging tab connected to the apparatus main body 10 and extending to the outer side of the accommodating structure, and the hanging tab is inserted into the hanging hole to connect the detection table 60 and the apparatus main body 10, so that the detection table 60 is also convenient to be detached.

In one possible embodiment, referring to fig. 6, 10 and 11, the inspection stage 60 is suspended from the opening position of the accommodating structure, and the pallet 61 is connected to the apparatus body 10 in the suspension direction; the detection stage 60 further comprises a guard plate 65, the guard plate 65 being connected to the underside of the carrier 61, and the guard plate 65 extending in a blocking direction, wherein the blocking direction intersects the suspension direction.

In one possible embodiment, in the case where the inspection table 60 is suspended from the opening of the housing structure, the screw hole may be directly formed in the bracket 61, and the bracket 61 may be connected to the apparatus main body 10 by a screw without the above-mentioned connector 62.

In one possible implementation, the guard plate 65 is connected to the lower edge of the supporting plate 61, and the guard plate 65 plays a role in protecting the detection object 70, so as to prevent the detection object 70 from falling and breaking caused by loosening.

In one possible implementation, the suspension direction refers to the direction indicated by the arrow Y in fig. 11, the blocking direction refers to the direction indicated by the arrow X in fig. 11, and in this example, the blocking direction is perpendicular to the suspension direction, that is, the plate surface of the guard plate 65 is perpendicular to the plate surface of the supporting plate 61, or, of course, the included angle between the blocking direction and the suspension direction is smaller than 90 °, which can also prevent the problem of dropping and breaking of the detection object 70.

In one possible implementation, referring to fig. 10 and 12, the detection platform 60 further includes a wire guiding structure 63 connected to the support plate 61, and the wire guiding structure 63 is provided with a mounting hole 631; the detection connection terminal 21 is plugged into the mounting hole 631, and is electrically connected to the detection object 70 through the mounting hole 631. The fixing of the detection link 21 is facilitated by the mounting hole 631.

In one possible implementation, the wire guide structure 63 is located on the same side of the blade 61 as the securing structure, providing for ease of wire connection.

In one possible implementation manner, the detection connection end 21 may be directly and electrically connected to the detection object 70 through the mounting hole 631, or a switching terminal may be disposed in the mounting hole 631, where the detection connection end 21 is connected to one end of the switching terminal, and the detection object 70 is connected to the other end of the switching terminal through a wire, so as to facilitate the detection signal to be accessed to the detection object 70.

In one possible implementation, the wire guide structure 63 may be a wire retention plate that is attached to one side edge of the blade 61, such as to one side edge of the blade 61 opposite the guard 65.

In one possible implementation, the detecting platform 60 further includes two handles 64, where the handles 64 may be respectively connected to two ends of the supporting plate 61, so as to facilitate the picking and placing of the detecting platform 60 by holding the handles 64.

In one possible implementation, referring to fig. 4 and 5, the frame structure 11 includes a skeleton, a back plate 115 connected to a back end surface of the skeleton, side baffles 116 connected to two sides of the skeleton, a top plate 113 connected to a top end of the skeleton, and a bottom plate 114 connected to a bottom of the skeleton, and the front end of the frame structure 11 is an opening of the first accommodating cavity 112, so as to facilitate taking the test object 70.

In one possible implementation manner, the framework may be formed by overlapping section bars, which has high strength and low cost, and is convenient to process, in order to facilitate the fixing of the back plate 115, the side baffle 116, the top panel 113 and the bottom panel 114, the fixing blocks 118 may be disposed on the framework, and the back plate 115, the side baffle 116, the top panel 113 and the bottom panel 114 may be connected to the fixing blocks 118 by screws, so as to achieve the fixing. The structure ensures the stability of the structure of the frame structure 11, is convenient for installing and later reforming the frame structure 11, and has good practicability.

In one possible implementation, the back plate 115, the side baffles 116, the top panel 113, and the bottom panel 114 may also be connected to the frame by welding.

In one possible implementation manner, the door panel is disposed at the opening of the frame structure 11, and the door panel may be connected to the side wall surface of the frame structure 11 by the hinge 124, or may be connected to the opening of the first accommodating cavity 112 by a sliding manner, so that the door panel is convenient to be opened to achieve the effect of taking the detection object 70, and the dustproof effect is also achieved.

In one possible implementation, the hinge 124 includes a first hinge plate and a second hinge plate hinged by a pin, where the first hinge plate is fixedly connected to the door plate, and the second hinge plate is fixedly connected to an inner wall surface of the frame structure 11, so that the door plate can be opened and closed, and is convenient to use.

In one possible implementation manner, a first sliding groove may be formed in a surface of the top panel 113 facing the bottom panel 114, a second sliding groove may be formed in a surface of the bottom panel 114 facing the top panel 113, the first sliding grooves may be two side by side arranged, the second sliding grooves are also two side by side arranged, the positions of the two second sliding grooves correspond to those of the two first sliding grooves, the door panels are two, bottoms of the two door panels slide in the two second sliding grooves respectively, tops of the two door panels slide in the two first sliding grooves respectively correspondingly, and the door panels are pushed to open.

In one possible implementation, the apparatus main body 10 further includes a lower cabinet 12, the lower cabinet 12 is disposed at the bottom of the frame structure 11, and the detection unit 20 is disposed in the lower cabinet 12. The lower cabinet body 12 plays a role of supporting the frame structure 11, and the frame structure 11 is lifted, so that an operator does not need to squat down to operate when taking and fixing the detection object 70, the detection object 70 is more convenient to take and fix, and the use comfort is improved.

In one possible implementation, the lower cabinet 12 is located below the bottom panel 114, where the bottom panel 114 of the frame structure 11 becomes the top surface of the lower cabinet 12, two side baffles 116 of the frame structure 11 respectively extend downward to form two side walls of the lower cabinet 12, and a back panel 115 of the frame structure 11 extends downward to form the back surface of the lower cabinet 12, and in addition, the bottom of the lower cabinet 12 has a bottom support 123.

In one possible implementation, referring to fig. 1, the result feedback unit 30 includes a display device 31, where the display device 31 is electrically connected to the detection unit 20, and the display device 31 is used to display the detection result. The result feedback unit 30 is capable of feeding back the electrical parameter or the detection result of each detection object 70.

In a possible implementation, the result feedback unit 30 includes an indicating device 32, where the indicating device 32 is electrically connected to the detecting unit 20, and the indicating device 32 is used to send out indication information.

In one possible implementation, the display device 31 may be a display screen, for example, displaying parameters such as voltage. The display device 31 may be directly placed on top of the frame structure 11, which is flexible to use and facilitates removal of the display device 31.

In one possible implementation, the display device 31 may also be fixed on the top end of the frame structure 11, for example, the top panel 113 of the frame structure 11 is connected to a fixing frame, so that the display device 31 is fixed on the fixing frame, which improves the stability of fixing the display device 31 and prevents the display device 31 from being damaged due to falling down.

In one possible implementation manner, in actual use, the operator often does not know whether the detection object 70 and the detection unit 20 are on or whether the power supply is in poor contact, so that, for better notification of the operator, the result feedback unit 30 includes the indicating device 32, where the indicating device 32 is disposed on the detection unit 20, and the indicating device 32 is used to send out indication information, so as to prompt the operator to perform fault analysis or continue to perform detection in time, which is of high practicability.

In one possible implementation, the indication device 32 is an indicator light and/or a buzzer. The indicator light may be a Light Emitting Diode (LED), and may flash or change color when the fault of the detection object 70 is detected or when the communication between the detection object 70 and the detection unit 20 is interrupted, and the buzzer emits an alarm sound, so as to achieve the purpose of reminding the operator. For example, the yellow indicator light may be turned on during the detection of the detection object 70, and the green indicator light may be turned on after the detection of the detection object 70 is completed, and the red indicator light may be turned on when the detection of the detection object 70 is failed, so that the buzzer may give an alarm to prompt the operator in time, and the operator may determine the detected state according to the color of the indicator light.

In one possible implementation, referring to fig. 1 and 2, a movable door 121 is connected to the front end of the lower cabinet 12, and the movable door 121 has a see-through window 122. The movable door 121 shields the detection unit 20, thereby having a certain attractive effect, and preventing an operator from touching the detection unit 20 by mistake, thereby avoiding safety accidents. The operator can conveniently observe the working state of the detecting unit 20 in the lower cabinet 12 through the perspective window 122.

In one possible implementation, the through hole is formed in the movable door 121, and the transparent window 122 may be transparent glass or transparent plastic installed in the through hole, which has a simple structure, a wide source, low cost, ensures light transmittance, and also shields dust and impurities.

In one possible implementation, the movable door 121 may be connected to the lower cabinet 12 by a hinge 124, and a handle may be provided on the movable door 121 to facilitate opening and closing of the movable door 121.

In one possible implementation, in order to improve the safety of use, a door lock 125 may be provided on the movable door 121, and a key is required to open the movable door 121, preventing other people from opening the movable door 121, affecting the operation of the detection unit 20.

In one possible implementation, the movable door 121 may be one, two, three, or the like, and is flexibly set according to the use requirement.

In one possible implementation, a heat dissipating component, such as a fan, may also be disposed within the lower cabinet 12 for dissipating heat from the detection unit 20.

In one possible implementation, the bottom of the lower cabinet 12 is provided with a moving wheel. The movable wheels can be universal wheels, so that the detection equipment can be conveniently pushed to move, the position of the detection equipment is changed, the movable wheels can be multiple, the movable wheels are respectively distributed at the four corner positions of the bottom of the lower cabinet body 12, and the moving stability of the detection equipment is improved.

In one possible implementation, the moving wheel may be a roller with a self-locking function, and the moving wheel is locked against random movement when the detection device does not need to be moved.

In one possible implementation, the industrial personal computer 40 may be disposed on a side wall surface of the lower cabinet 12, or a side wall surface or a top surface of the frame structure 11. The mounting frame may be provided on a side wall surface of the lower cabinet 12 or a side wall surface of the frame structure 11, and the industrial personal computer 40 is provided in the mounting frame.

In one possible implementation manner, referring to fig. 1, the detection apparatus provided in this embodiment further includes a screen cutter 50, where the number of the industrial personal computers 40 is two or more, and the industrial personal computers 40 are electrically connected to the display device 31 through the screen cutter 50. The connection state of the two or more industrial computers 40 and the display device 31 can be switched by the screen cutter 50, so that the industrial computers 40 working in the two or more industrial computers 40 are correspondingly connected with the display device 31.

In one possible implementation, the screen 50 may be provided on a side wall surface of the lower cabinet 12, or a side wall surface or top surface of the frame structure 11.

In one possible implementation manner, the screen cutter 50 may be placed on top of the frame structure 11, or may be fixed on top of the frame structure 11, and through the screen cutter 50, two or more industrial personal computers 40 may share one display device 31, so as to display detection results, and save production cost.

In one possible implementation, referring to fig. 5 and 6, the apparatus main body 10 further includes a rear cabinet 13, the rear cabinet 13 is disposed at a rear side of the frame structure 11 and the lower cabinet 12, and a second accommodating cavity 131 is formed in the rear cabinet 13, and the second accommodating cavity 131 may be used to dispose electrical apparatuses such as a switch, a power supply, a router, and the like.

In one possible implementation, the bottom supporting plate 123 at the bottom of the lower cabinet 12 extends backwards to cover the bottom of the second accommodating cavity 131, the top surface plate 113 extends backwards to cover the top of the second accommodating cavity 131, the side baffle 116 extends backwards to cover both sides of the second accommodating cavity 131, and the back of the second accommodating cavity 131 covers the vertical plate, so that the second accommodating cavity 131 is closed.

The side wall surface of the second accommodating cavity 131 is provided with a wire passing hole 117 communicated with the first accommodating cavity 112, the backboard 115 enables the first accommodating cavity 112 and the second accommodating cavity 131 to be separated, in order to facilitate the electrical connection between the electrical equipment in the second accommodating cavity 131 and the detection object 70, the wire passing hole 117 is formed in the backboard 115, the position of the wire passing hole 117 corresponds to the position of each detection table 60, so that the detection connecting end 21 is conveniently led out through the wire passing hole 117 to supply power for the detection object 70 fixed on each detection table 60. And the redundancy of the circuit is avoided.

According to the detection equipment provided by the embodiment of the utility model, the stability of fixing the detection object 70 can be improved through the detection table 60, the detection effect is improved, the detection table 60 is convenient to take down for updating after the detection object 70 is updated, and the later-stage transformation is convenient.

The detection device provided in the embodiment of the utility model can detect the stability of the detection device by testing the power on and off of the optical machine, the camera or the carrier plate, and can adjust the result feedback unit 30 according to the change of the detection object, for example, when the camera is detected, the display device 31 can be a computer display screen for displaying the relevant detection data of each camera.

According to the detection equipment provided by the embodiment of the utility model, the detection object 70 is fixed on the detection table 60, and after a circuit is connected, power-on test can be performed, so that the labor intensity is reduced, the quality of the detection object 70 is ensured, and the test efficiency and stability are greatly improved.

The utility model provides detection equipment, which adopts the equipment main body 10 with simple structure, low cost, good stability and high practicability.

It should be noted that, the numerical values and numerical ranges referred to in the present utility model are approximate values, and may have a certain range of errors due to the influence of the manufacturing process, and those errors may be considered to be negligible by those skilled in the art.

In the description of the present utility model, it should be understood that the terms "center", "length", "width", "thickness", "top", "bottom", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", "axial", "circumferential", etc. are used to indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the referred location or element must have a specific orientation, in a specific configuration and operation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly attached, detachably attached, or integrally formed; can be mechanically connected, electrically connected or can be communicated with each other; can be directly connected or indirectly connected through an intermediate medium, and can lead the interior of two elements to be communicated or lead the two elements to be in interaction relationship. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (10)

1. A detection apparatus, characterized in that the detection apparatus comprises:

an apparatus main body (10), the apparatus main body (10) being provided with a plurality of accommodation structures capable of accommodating a detection object (70);

the detection unit (20), the detection unit (20) includes a plurality of detection connecting ends (21), each said hold structure is provided with at least a set of said detection connecting ends (21) inside;

a result feedback unit (30), wherein the result feedback unit (30) is used for outputting a detection result;

the industrial personal computer (40), the industrial personal computer (40) is electrically connected with the detection unit (20) and the result feedback unit (30), and the industrial personal computer (40) is used for controlling the detection unit (20) to detect the detection object (70) so that the result feedback unit (30) outputs a detection result.

2. The detection device according to claim 1, characterized in that the device body (10) is a frame structure (11), the receiving structure being a first receiving cavity (112) divided inside the frame structure (11).

3. The inspection apparatus according to claim 1, further comprising a plurality of inspection stations (60) for mounting the inspection object (70), the inspection stations (60) being connected to the apparatus body (10) and disposed at the accommodation structure positions.

4. A detection apparatus according to claim 3, characterized in that the detection station (60) comprises a pallet (61), the pallet (61) being provided with a fixing structure, the pallet (61) being in abutment engagement with the detection object (70), the fixing structure being detachably connected to the detection object (70).

5. The detection apparatus according to claim 4, wherein the detection stage (60) further comprises a connection member (62) connected to the pallet (61), the connection member (62) having a first connection structure (621), the apparatus body (10) being provided with a second connection structure (1121) detachably connected to the first connection structure (621), the second connection structure (1121) extending outside the housing structure or being provided within the housing structure.

6. The detection apparatus according to claim 4, wherein the detection stage (60) is suspended from an opening position of the housing structure, and the pallet (61) is connected to the apparatus main body (10) in a suspension direction;

the detection table (60) further comprises a guard plate (65), the guard plate (65) is connected to the underside of the pallet (61), and the guard plate (65) extends in a blocking direction, wherein the blocking direction intersects the hanging direction.

7. The detection apparatus according to claim 4, wherein the detection station (60) further comprises a wire guide structure (63) connected to the support plate (61), and wherein the wire guide structure (63) is provided with mounting holes (631);

the detection connection end (21) is inserted into the mounting hole (631) and is electrically connected with the detection object (70) through the mounting hole (631).

8. The detection apparatus according to any one of claims 1 to 7, wherein the result feedback unit (30) comprises a display device (31), the display device (31) being electrically connected to the detection unit (20), the display device (31) being adapted to display the detection result; and/or

The result feedback unit (30) comprises an indicating device (32), the indicating device (32) is electrically connected to the detection unit (20), and the indicating device (32) is used for sending out indicating information.

9. The detection apparatus according to claim 8, further comprising a screen cutter (50), wherein the number of the industrial personal computers (40) is at least two, and at least two of the industrial personal computers (40) are electrically connected to the display device (31) through the screen cutter (50).

10. The detection apparatus according to claim 2, wherein the apparatus main body (10) further includes a lower cabinet body (12) and a rear cabinet body (13), the lower cabinet body (12) is disposed at the bottom of the frame structure (11), the rear cabinet body (13) is disposed at the rear sides of the frame structure (11) and the lower cabinet body (12), a second accommodating cavity (131) is formed in the rear cabinet body (13), and a wire passing hole (117) communicating with the first accommodating cavity (112) is formed in a side wall surface of the second accommodating cavity (131).