CN220419462U - Multifunctional detection device - Google Patents

Abstract

The utility model belongs to the technical field of detection devices, and particularly relates to a multifunctional detection device, which comprises a motor, a test bench, a rotating wheel, a middle linkage mechanism and a multifunctional detection module, wherein a rotating shaft of the motor penetrates through the test bench along the height direction of the test bench and is connected with the rotating wheel so as to drive the rotating wheel to rotate on the top surface of the test bench; the periphery of the rotating wheel is provided with a plurality of first positioning holes, and the plurality of first positioning holes are used for fixedly mounting corresponding target to-be-detected pieces on the test board for detection according to the requirement; wherein, the rotating wheel or the middle linkage mechanism is connected with a target to-be-detected piece; one end of the middle linkage mechanism is connected to the rotating wheel, and the other end of the middle linkage mechanism is limited on the test board, so that when the rotating wheel rotates, the other end of the middle linkage mechanism can reciprocate in the same direction to contact the multifunctional detection module, and a test value of a target to-be-tested piece is obtained through the multifunctional detection module.

Description

Multifunctional detection device

Technical Field

The utility model relates to the technical field of detection devices, in particular to a multifunctional detection device.

Background

At present, innovative hardware products and structural components are rapidly emerging, and quality personnel perform reliability tests or real machine quality tests on new products or new components, and for some reciprocating and repeated work, such as door opening and closing aging of a cabinet door, product reliability or aging tests such as plug and socket plugging life and the like, if the product is repeatedly executed by manpower, the efficiency is very low, the accuracy is not high, and the body and mind of staff are hurt by frequent repeated labor.

The existing detection device can only test specific structures, if a special tool is introduced or customized for each product to test, once the structure of the product is changed or the project is changed, the test period is prolonged, the investment cost of equipment is high, the equipment utilization rate is low, and the like, namely the universality is low.

Disclosure of Invention

The utility model aims to provide a multifunctional detection device to solve the problems of low manual testing efficiency and low universality.

The utility model discloses a multifunctional detection device, which comprises a motor, a test bench, a rotating wheel, a middle linkage mechanism and a multifunctional detection module, wherein a rotating shaft of the motor penetrates through the test bench along the height direction of the test bench to be connected with the rotating wheel so as to drive the rotating wheel to rotate on the top surface of the test bench; the periphery of the rotating wheel is provided with a plurality of first positioning holes, and the first positioning holes are used for fixedly mounting corresponding target to-be-detected pieces on the test board for detection according to the requirement;

wherein the rotating wheel or the middle linkage mechanism is connected with a target to-be-detected member; one end of the middle linkage mechanism is connected to the rotating wheel, and the other end of the middle linkage mechanism is limited on the test table, so that when the rotating wheel rotates, the other end of the middle linkage mechanism can reciprocate in the same direction to contact the multifunctional detection module, and a test value of a target to-be-tested piece is obtained through the multifunctional detection module.

Optionally, the multifunctional detection device further comprises a control module, wherein the control module is arranged on the test bench; the control module is electrically connected with the motor so as to control the motor to rotate; the control module is connected with the multifunctional detection module to read signal data obtained by the multifunctional detection module.

Optionally, the control module includes a key setting module, the key setting module is arranged outside the test board, and the key setting module is used for setting a preset test value and controlling the multifunctional detection device to work through a key.

Optionally, the control module further includes a display module, where the display module is disposed outside the test board, and the display module is used to display the signal data and the abnormal operation error code of the multifunctional detection module read by the control module.

Optionally, the multifunctional detection device further comprises an information storage module, wherein the information storage module is used for storing the test value obtained by the multifunctional detection module and storing a preset work abnormality error code.

Optionally, the intermediate linkage mechanism includes a limit groove structure and a shaft member, the limit groove structure is disposed on the top surface of the test bench; one end of the shaft rod piece is connected to the rotating wheel, the middle part of the shaft rod piece is limited in the limiting groove structure, the other end of the shaft rod piece can reciprocate along the extending direction of the limiting groove structure when the rotating wheel is in transmission, and the shaft rod piece can be in contact with the multifunctional detection module, so that the multifunctional detection module can generate a test value for completing the test every time of contact.

Optionally, the rotating wheel is provided with a plurality of second positioning holes along the axial direction of the rotating wheel; the shaft rod piece comprises a transmission shaft rod and a linkage shaft rod, one end of the transmission shaft rod is connected with one end of the linkage shaft rod, and the other end of the transmission shaft rod can be connected with any one of the second positioning holes on the rotating wheel through a connecting piece; the other end of the linkage shaft lever can be contacted with the multifunctional detection module.

Optionally, the test bench comprises a base and a platen, and the platen is arranged on the top surface of the base; the bedplate is provided with a connecting hole and the first positioning hole, the motor is arranged in the base station, and a rotating shaft of the motor penetrates through the connecting hole to be connected with the rotating wheel; the rotating wheel, the intermediate linkage mechanism and the multifunctional detection module are positioned on the top surface of the bedplate.

Optionally, the bedplate is provided with a plurality of strip-shaped grooves, and each strip-shaped groove is distributed in a shape of a Chinese character 'mi' around the connecting hole; at least one first positioning hole is arranged between every two adjacent strip-shaped grooves, and the target detection piece is flexibly arranged on the corresponding position of the bedplate through the combination of the strip-shaped grooves and the first positioning holes.

Optionally, the limit groove structure is a strip-shaped plate concavely provided with a limit groove, and the strip-shaped plate is arranged on the top surface of the bedplate; the middle part of the shaft rod part is arranged in the limiting groove along the extending direction of the limiting groove, and the other end of the shaft rod part extends out of the limiting groove along the extending direction of the limiting groove.

Compared with the prior art, the multifunctional detection device provided by the embodiment of the utility model has the beneficial effects that: the test bench in the multifunctional detection device is provided with the plurality of first positioning holes, and corresponding target to-be-detected pieces can be fixedly arranged on the test bench for detection according to the needs through the plurality of first positioning holes, so that the test function of the multifunctional detection device is improved, the test application of multiple scenes and the detection of the to-be-detected pieces with different specifications are met, and the situation that corresponding test equipment is updated due to product updating is avoided; meanwhile, through rotation of the rotating wheel, one end of the middle linkage mechanism can reciprocate in the same direction to contact the multifunctional detection module, and a test value of a target to-be-tested piece is obtained through the multifunctional detection module. In a word, the multifunctional detection device can realize various reciprocating test scenes by matching the first positioning hole with other accessories such as the middle linkage mechanism, the multifunctional detection module and the like, so that multifunctional test is realized, and unnecessary manpower waste caused by simple repeated test is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. It is evident that the figures in the following description are only some embodiments of the utility model, from which other figures can be obtained without inventive effort for a person skilled in the art. In the drawings:

FIG. 1 is a schematic diagram of a multifunctional detecting device according to an embodiment of the present utility model;

FIG. 2 is a partial block diagram of the connection of the multifunctional detecting device according to the embodiment of the present utility model;

FIG. 3 is a schematic view of a part of a multifunctional detecting device according to an embodiment of the present utility model;

FIG. 4 is an exploded view of a multifunctional inspection device according to an embodiment of the present utility model;

fig. 5 is a schematic diagram of another structure of the multifunctional detecting device according to the embodiment of the present utility model.

Wherein, 100, the multi-functional detection device; 1. a motor; 2. a test bench; 21. a base station; 22. a platen; 221. a first positioning hole; 222. a connection hole; 223. a bar-shaped groove; 3. a rotating wheel; 31. a second positioning hole; 4. an intermediate linkage mechanism; 41. a limit groove structure; 411. a limit groove; 42. a shaft member; 421. a transmission shaft lever; 422. a linkage shaft lever; 5. a multifunctional detection module; 6. a control module; 61. a key setting module; 62. a display module; 7. an information storage module; 8. an extension rod; 9. and detecting the parts.

Detailed Description

It is to be understood that the terminology used herein, the specific structural and functional details disclosed are merely representative for the purpose of describing particular embodiments, but that the utility model may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

The utility model is described in detail below with reference to the attached drawings and alternative embodiments.

As shown in fig. 1 to 5, as an embodiment of the present utility model, a multifunctional detecting apparatus 100 is disclosed, the multifunctional detecting apparatus 100 includes a motor 1, a test board 2, a rotating wheel 3, an intermediate linkage mechanism 4 and a multifunctional detecting module 5, wherein a rotating shaft of the motor 1 passes through the test board 2 along a height direction of the test board 2 and is connected with the rotating wheel 3 so as to drive the rotating wheel 3 to rotate on a top surface of the test board 2; the periphery of the rotating wheel 3 is provided with a plurality of first positioning holes 221 on the test board 2, and the plurality of first positioning holes 221 are used for fixedly mounting corresponding target to-be-tested pieces on the test board 2 for detection according to the requirement; wherein, the rotating wheel 3 or the middle linkage mechanism 4 is connected with a target member to be detected; one end of the intermediate linkage mechanism 4 is connected to the rotating wheel 3, and the other end of the intermediate linkage mechanism 4 is limited on the test board 2, so that when the rotating wheel 3 rotates, the other end of the intermediate linkage mechanism 4 can reciprocate in the same direction to contact the multifunctional detection module 5, and a test value of a target to-be-tested piece is obtained through the multifunctional detection module 5.

According to the multifunctional detection device 100, the plurality of first positioning holes 221 are formed in the test bench 2, corresponding target to-be-detected pieces can be fixedly installed on the test bench 2 for detection according to the needs through the plurality of first positioning holes 221, the test function of the multifunctional detection device 100 is improved, the test application of multiple scenes and the detection of the to-be-detected pieces with different specifications are met, and accordingly the situation that corresponding test equipment is updated due to product updating is avoided; meanwhile, through the rotation of the rotating wheel 3, one end of the intermediate linkage mechanism 4 can reciprocate in the same direction to contact the multifunctional detection module 5, and a test value of a target to-be-tested piece is obtained through the multifunctional detection module 5. In addition, the multifunctional detection device 100 of the present utility model can implement multiple reciprocating test scenarios by matching the first positioning hole 221 with other accessories, so as to implement multifunctional test, and reduce unnecessary manpower waste caused by simple repeated test.

Specifically, the test stand 2 includes a base 21 and a platen 22, the platen 22 being provided on the top surface of the base 21; the platen 22 is provided with a connecting hole 222 and the first positioning hole 221, the motor 1 is arranged in the base 21, and a rotating shaft of the motor 1 passes through the connecting hole 222 to be connected with the rotating wheel 3 so as to drive the rotating wheel 3 to rotate. The bedplate 22 is also provided with a plurality of strip-shaped grooves 223, and each strip-shaped groove 223 surrounds the connecting hole 222 to form a Chinese character 'mi'; at least one first positioning hole 221 is provided between each two adjacent bar grooves 223, and the object detecting member is flexibly mounted at a corresponding position of the platen 22 through the combination of the bar grooves 223 and the first positioning holes 221. According to different test scenes, different detection parts 9 can be added to the multifunctional detection device 100 (as shown in fig. 5, the added detection parts 9 can be transmission mechanisms such as a rotating wheel 3 and an extension rod 8), and the detection parts 9 with different specifications and sizes can be fixed in the strip-shaped grooves 223 and the first positioning holes 221 of the bedplate 22 in different directions and different angles, and can be operated in cooperation with the rotating wheel 3, so that various reciprocating test scenes can be realized.

Optionally, as shown in fig. 1 and 2, the multifunctional detecting device 100 further includes a control module 6, where the control module 6 is disposed on the test bench 2; the control module 6 is electrically connected with the motor 1 to control the motor 1 to rotate; the control module 6 is connected to the multifunctional detecting module 5 to read signal data obtained by the multifunctional detecting module 5.

Specifically, as shown in fig. 1, the control module 6 includes a key setting module 61, the key setting module 61 is externally provided to the test stand 2, and the key setting module 61 is used for setting a preset test value and controlling the operation of the multifunctional detecting device 100 through keys; the control module 6 further comprises a display module 62, the display module 62 is arranged outside the test board 2, and the display module 62 is used for displaying the signal data and the work abnormality error code of the multifunctional detection module 5 read by the control module 6.

More specifically, the key setting module 61 includes a power switch key (not shown) of the multifunctional detecting device 100, a detection start key, a detection stop key, and a motor rotation setting key, where the power switch key controls the on and off of the multifunctional detecting device 100, and after the multifunctional detecting device 100 is turned on, the rotation speed and rotation angle of the motor 1 are set by the motor rotation setting key, so as to meet the test requirement of the object to be tested; the detection start key controls the start of the test of the multi-function detection device 100, and the detection stop key may control the suspension and end of the test of the multi-function detection device 100. The display module 62 includes a display screen disposed on the surface of the multifunctional detecting device 100, and the control module 6 can read the detected signal data and the abnormal operation error code through the multi-channel signal detecting module and display the detected signal data and the abnormal operation error code through the display screen. Further, by pressing the motor rotation setting key, the display screen can be switched to the motor 1 rotation setting information display so as to accurately adjust and set the rotation speed and rotation angle of the motor 1.

Optionally, as shown in fig. 2 to 4, the multifunctional detecting device 100 further includes an information storage module 7, where the information storage module 7 is configured to store the test value obtained by the multifunctional detecting module 5, and is capable of storing a preset operation anomaly error code.

Specifically, the information storage module 7 is capable of storing the test value obtained by the multifunctional detection module 5 and transmitting the test value to the display module 62 for display on the display screen. In addition, the information storage module 7 can store a preset work abnormality error code, and if the multifunctional detection device 100 has a corresponding abnormality in the test process, the display screen can display the preset work abnormality error code to prompt, and meanwhile, can set a fault alarm lamp or an alarm horn to perform fault alarm. Wherein, one form of the preset work abnormal error code is as follows: e1 corresponds to the motor clamping; E2X corresponds to one path of probe abnormality, wherein X in E2X represents the X path of probe abnormality, for example, when E2X is E21, the X represents the corresponding first path of probe abnormality; e3 corresponds to voltage abnormality; e4 corresponds to the abnormality of the whole machine current. It should be noted that the above preset operation anomaly error code is only a simple example, and can be set in other forms in actual production.

Alternatively, as shown in fig. 1 to 5, the intermediate linkage mechanism 4 includes a limit groove structure 41 and a shaft member 42, where the limit groove structure 41 is disposed on the top surface of the test bench 2; one end of the shaft member 42 is connected to the rotating wheel 3, the middle part is limited to the limit groove structure 41, and the other end of the shaft member 42 can reciprocate along the extending direction of the limit groove structure 41 when the rotating wheel 3 is in transmission and can be in contact with the multifunctional detection module 5, so that the multifunctional detection module 5 generates a test value for completing the test every time of contact.

Specifically, the limiting groove structure 41 is a strip-shaped plate with a concave limiting groove 411, and the strip-shaped plate is mounted on the top surface of the bedplate 22; the middle part of the shaft member 42 is installed in the limit slot 411 along the extending direction of the limit slot 411, and the other end extends out of the limit slot 411 along the extending direction of the limit slot 411 and is limited by the multifunctional detection module 5. The rotating wheel 3 is provided with a plurality of second positioning holes 31 along the axial direction; the shaft member 42 comprises a transmission shaft lever 421 and a linkage shaft lever 422, one end of the transmission shaft lever 421 is connected with one end of the linkage shaft lever 422, the other end of the transmission shaft lever 421 can be connected with any one of the second positioning holes 31 on the rotating wheel 3 through a connecting piece so as to adjust the movable distance of the shaft member 42 in the limiting slot 411, wherein the transmission shaft lever 421 and the linkage shaft lever 422 are detachably connected so as to be replaced according to test requirements; meanwhile, the other end of the linkage shaft 422 can be in contact with the multifunctional detection module 5; the target to-be-detected piece is fixed on the platen 22 through the first positioning hole 221, the rotating speed and the rotating angle of the motor 1 are set through the motor rotating setting key, the motor 1 drives the rotating wheel 3 to rotate through the set value, the rotating wheel 3 drives the transmission shaft lever 421 and the linkage shaft lever 422 to reciprocate in the limiting slot 411, and the linkage shaft lever 422 is contacted or collided with the sensor on the multifunctional detection module 5, so that the multifunctional detection module 5 counts, and a test value is generated.

More specifically, in a plug-in and plug-out test case, the socket can be fixed on the platen 22 through the first positioning hole 221, the socket is externally connected with a first sensing probe, and the plug is externally connected with a second sensing probe; wherein the first sensing probe is fixed on the collision surface of the multifunctional detection module 5, and the second sensing probe is fixed on the collision surface of the linkage shaft 422; the linkage shaft lever 422 reciprocates in the limit slot 411 under the transmission of the motor 1 and the rotating wheel 3 and collides with the multifunctional detection module 5, so that the first induction probe and the second induction probe are contacted, which is equivalent to the plug being inserted into the socket, and the socket is detected by testing whether the socket is conducted or not; each time the first sensing probe and the second sensing probe are contacted, the multifunctional detection module 5 counts once, and the count value is displayed on the display screen to form a test result.

In another test example, the multifunctional detecting device 100 can detect the door opening and closing type reciprocating motion, specifically referring to fig. 5, when detecting the door opening and closing of the cabinet door, one end of an extension rod 8 can be fixed on the rotating wheel 3 through a second positioning hole 31 arranged on the rotating wheel 3, and the other end of the extension rod 8 is connected with the door handle through other connecting pieces such as ropes, so as to increase torque and rotation range; and the control module 6 is externally connected with a touch switch, wherein the two sensing ends of the touch switch limit the rotation angle of the cabinet door, so that the motor 1 is controlled to make the rotating wheel 3 reciprocally rotate in a certain angle correspondingly through the collision of the cabinet door and the two sensing ends, the effect of opening and closing the door is achieved, and meanwhile, the number of times of opening and closing the door of the cabinet door is counted through the collision of the linkage shaft lever 422 and the multifunctional detection module 5 and is displayed through the display screen. The above test examples are only examples, and the multifunctional detecting device 100 of the present utility model is not limited to the above-described detection.

The above description of the utility model in connection with specific alternative embodiments is further detailed and it is not intended that the utility model be limited to the specific embodiments disclosed. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims (10)

1. The multifunctional detection device is characterized by comprising a motor, a test bench, a rotating wheel, an intermediate linkage mechanism and a multifunctional detection module, wherein a rotating shaft of the motor penetrates through the test bench along the height direction of the test bench to be connected with the rotating wheel so as to drive the rotating wheel to rotate on the top surface of the test bench; the periphery of the rotating wheel is provided with a plurality of first positioning holes, and the first positioning holes are used for fixedly mounting corresponding target to-be-detected pieces on the test board for detection according to the requirement;

wherein the rotating wheel or the middle linkage mechanism is connected with a target to-be-detected member; one end of the middle linkage mechanism is connected to the rotating wheel, and the other end of the middle linkage mechanism is limited on the test board, so that when the rotating wheel rotates, the other end of the middle linkage mechanism can reciprocate in the same direction to contact the multifunctional detection module, and a test value of a target to-be-tested piece is obtained through the multifunctional detection module.

2. The multi-function test device of claim 1, further comprising a control module disposed at the test station; the control module is electrically connected with the motor so as to control the motor to rotate; the control module is connected with the multifunctional detection module to read signal data obtained by the multifunctional detection module.

3. The device of claim 2, wherein the control module comprises a key setting module, the key setting module is externally arranged on the test bench, and the key setting module is used for setting a preset test value and controlling the operation of the device through keys.

4. The multifunctional detection device according to claim 2, wherein the control module further comprises a display module, the display module is externally arranged on the test bench, and the display module is used for displaying the signal data and the abnormal operation error code of the multifunctional detection module read by the control module.

5. The device according to claim 1, further comprising an information storage module for storing the test value obtained by the multifunctional detection module and capable of storing a preset operation abnormality error code.

6. The multifunctional inspection device of any one of claims 1 to 5, wherein the intermediate linkage mechanism comprises a limit slot structure and a shaft member, the limit slot structure being disposed on a top surface of the test bench; one end of the shaft rod piece is connected to the rotating wheel, the middle part of the shaft rod piece is limited in the limiting groove structure, the other end of the shaft rod piece can reciprocate along the extending direction of the limiting groove structure when the rotating wheel is in transmission, and the shaft rod piece can be in contact with the multifunctional detection module, so that the multifunctional detection module can generate a test value for completing the test every time of contact.

7. The multifunctional detecting device according to claim 6, wherein the rotating wheel is provided with a plurality of second positioning holes along the axial direction thereof; the shaft rod piece comprises a transmission shaft rod and a linkage shaft rod, one end of the transmission shaft rod is connected with one end of the linkage shaft rod, and the other end of the transmission shaft rod can be connected with any one of the second positioning holes on the rotating wheel through a connecting piece; the other end of the linkage shaft lever can be contacted with the multifunctional detection module.

8. The multi-purpose testing device of claim 6, wherein the test station comprises a base station and a platen, the platen being disposed on a top surface of the base station; the bedplate is provided with a connecting hole and the first positioning hole, the motor is arranged in the base station, and a rotating shaft of the motor penetrates through the connecting hole to be connected with the rotating wheel; the rotating wheel, the intermediate linkage mechanism and the multifunctional detection module are positioned on the top surface of the bedplate.

9. The multifunctional inspection device of claim 8, wherein the platen is provided with a plurality of bar-shaped grooves, each of the bar-shaped grooves being arranged in a zig-zag pattern around the connection hole; at least one first positioning hole is arranged between every two adjacent strip-shaped grooves, and the target detection piece is flexibly arranged on the corresponding position of the bedplate through the combination of the strip-shaped grooves and the first positioning holes.

10. The multifunctional inspection device according to claim 8, wherein the limit groove structure is a strip-shaped plate provided with a limit groove in a concave manner, and the strip-shaped plate is mounted on the top surface of the bedplate; the middle part of the shaft rod part is arranged in the limiting groove along the extending direction of the limiting groove, and the other end of the shaft rod part extends out of the limiting groove along the extending direction of the limiting groove.