CN114858424A - Mechanical life detection device for rocker arm type electronic component and using method thereof - Google Patents

Abstract

The application discloses a mechanical life detection device for a rocker arm type electronic element, which is used for detecting at least one rocker arm type electronic element, the rocker arm type electronic element comprises a control main body and a rocker arm, the rocker arm is rotationally connected with the control main body and is used for controlling the control main body to be switched on or switched off, the rocker arm comprises a rocker arm body and a roller, the roller is rotationally connected with one end of the rocker arm body, which is far away from the roller, is connected with the control main body, the mechanical life detection device for the rocker arm type electronic element comprises a base with a swing mechanism, the base is arranged for supporting the rocker arm type electronic element, the with swing mechanism comprises a force application part and a driving part, the driving part is movably arranged on the base, the force application part is arranged on the driving part, the rocker arm is driven to rotate in a reciprocating mode by a preset angle relative to the control main body.

Description

Mechanical life detection device for rocker arm type electronic component and using method thereof

Technical Field

The invention relates to the technical field of electronic elements, in particular to a mechanical life detection device for a rocker arm type electronic element and a using method thereof.

Background

Rocker-arm electronic components are one of the common types of electronic components, and there are various types of rocker-arm electronic components, such as rocker-arm switches. When the rocker arm type electronic element is used, a user can apply force to the rocker arm roller of the rocker arm type electronic element to enable the rocker arm roller to rotate, the rocker arm roller moves and simultaneously drives internal parts of the rocker arm type electronic element to move, so that a contact inside the rocker arm type electronic element is switched between a connection state and a disconnection state, and when external force disappears, the rocker arm reversely rotates under the action of the self reaction force of the rocker arm type electronic element to enable the contact to return to an initial state. However, in the actual use process, after the rocker arm type electronic component is operated for a certain number of times, the rocker arm type electronic component is abraded to a certain extent along with moving internal parts, so that the internal parts cannot control the contacts, the contacts are not switched any more, the rocker arm type electronic component fails, and the mechanical life of the rocker arm type electronic component is ended at this time.

Therefore, before shipment of the rocker arm type electronic component, in order to determine the number of times the rocker arm type electronic component is turned on and off, it is necessary to test the number of times the rocker arm type electronic component is turned on and off. At present, when the rocker arm type electronic element is detected, a worker needs to manually swing the rocker arm of the rocker arm type electronic element. Because the operating force is not easy to control, the rocker arm rotates in an overtravel way during detection, so that the rocker arm impacts internal parts of the rocker arm type electronic element, the rocker arm type electronic element cannot be normally used before being detected, and the detection result of the rocker arm type electronic element is influenced. In addition, the staff usually detects the rocker arm type electronic components one by one, so that the detection efficiency is low, and the requirement of batch detection cannot be met.

Disclosure of Invention

One advantage of the present invention is to provide a mechanical life detection apparatus for a rocker arm type electronic component and a method for using the same, which can detect the number of times of turning on and off at least one rocker arm type electronic component, thereby avoiding manual operation, avoiding the situation that the rocker arm type electronic component is damaged due to the difficulty in controlling the operation strength, and increasing the convenience and effectiveness of detection of the rocker arm type electronic component.

Another advantage of the present invention is to provide a mechanical life detection apparatus for a rocker arm type electronic component and a method for using the same, which can detect a plurality of rocker arm type electronic components at the same time and has high detection efficiency.

The invention also provides a mechanical life detection device for the rocker arm type electronic element and a using method thereof.

Another advantage of the present invention is to provide a mechanical life detection device for a rocker arm type electronic component and a method for using the same, wherein the present invention provides a monitoring mechanism, which can monitor the control main body of the rocker arm in a rotating state, monitor the on-off state of the rocker arm type electronic component in real time and record the number of times of switching on and off the rocker arm type electronic component, and provide reliable data information for the life detection operation of the rocker arm type electronic component.

The invention also provides a mechanical life detection device for the rocker arm type electronic element and a use method thereof.

Another advantage of the present invention is to provide a mechanical life detection device for a rocker arm type electronic component and a method for using the same, wherein the force application member has a slot, the slot is formed by an inner wall, two inner side walls close to the inner wall, and two outer side walls far from the inner wall, and during rotation of the rocker arm, the outer side walls can control interaction force between a roller of the rocker arm and the force application member within a certain range, so as to prevent damage to the roller and the force application member due to infinite increase of interaction force between the roller and the force application member due to change of the angle of the rocker arm.

Another advantage of the present invention is to provide a mechanical life detection device for rocker arm type electronic components and a method for using the same, which does not require expensive or structural components to achieve the above objects, and successfully provides an economical and efficient solution.

To achieve at least one of the above advantages, the present invention provides a mechanical life detection device for a rocker arm type electronic component, for detecting at least one rocker arm type electronic component, wherein the rocker arm type electronic component includes a control main body and a rocker arm, the rocker arm is rotatably connected to the control main body for controlling the control main body to be turned on or off, the rocker arm includes a rocker arm body and a roller, the roller is rotatably connected to one end of the rocker arm body, and one end of the rocker arm body away from the roller is connected to the control main body, the mechanical life detection device for the rocker arm type electronic component includes:

a base configured to support the rocker arm electronics;

and the driving swing mechanism comprises a force application part and a driving part, the driving part is movably arranged on the base, and the force application part is arranged on the driving part and is used for driving the rocker arm to rotate in a reciprocating mode relative to the control main body by a preset angle.

According to an embodiment of the present invention, the driving member includes a moving body, the force applying member is disposed on the moving body, and the moving body is movably held on the base.

According to an embodiment of the present invention, the driving member further includes a guiding structure, the moving body is slidably mounted to the guiding structure at a predetermined distance along an extending direction of the guiding structure, and the guiding structure is disposed on the base.

According to an embodiment of the present invention, the force applying member has a slot for accommodating the roller, the slot is formed by an inner wall, two inner side walls close to the inner wall, and two outer side walls far from the inner wall, the two outer side walls are respectively formed by extending two inner side walls on one side far from the inner wall, a joint between the outer side wall and the inner side walls is defined as an anti-collision boundary, an included angle formed by the outer side walls and a central axis of the slot is larger than an included angle formed by the inner side walls and the central axis of the slot, the slot defines an outlet, and the outlet is located at a position opposite to the inner wall.

According to an embodiment of the present invention, the driving member is rotatably disposed on the base, and the driving member is configured to push the rocker arm through the force applying member, so that the rocker arm rotates reciprocally with respect to the control body.

According to an embodiment of the present invention, the belt swing mechanism further includes a power supply member, the power supply member is mounted to the moving body and is used for driving the moving body to move, the power supply member includes a power assembly and a driving member, the moving body is movably connected to the power assembly, and the power assembly is controlled to be connected to the driving member.

According to an embodiment of the present invention, the mechanical life detection device for a rocker arm type electronic component further includes a detection frequency adjusting element, the driving element is controllably connected to the detection frequency adjusting element, and the detection frequency adjusting element is used for adjusting the operating frequency of the driving element.

According to an embodiment of the present invention, the mechanical life detection device for a rocker arm type electronic component further includes a monitoring mechanism, wherein the monitoring mechanism is mounted on the base and is configured to be electrically connected to the control body.

According to an embodiment of the present invention, the mechanical life detection device for a rocker arm type electronic component further includes a step-up member, the step-up member is mounted on the base, and the guiding structure is disposed on the step-up member to increase the height of the moving body relative to the base.

To achieve at least one of the above advantages, the present invention provides a method for using a mechanical life detection device for a rocker arm type electronic component, comprising the steps of: the power supply component controls the driving piece to operate, and the driving piece drives the rocker arm to rotate in a reciprocating mode relative to the control main body through the force application piece.

Drawings

Fig. 1 is a perspective view showing the structure of a mechanical life detection device for a rocker arm type electronic component according to the present invention.

Fig. 2 is a structural plan view showing a mechanical life detection device for a rocker arm type electronic component according to the present invention.

Fig. 3 is a perspective view showing the structure of a first embodiment of the mechanical life detecting apparatus for a rocker arm type electronic component according to the present invention.

Fig. 4 is a perspective view showing the structure of a second embodiment of the mechanical life detecting apparatus for a rocker arm type electronic component according to the present invention.

Fig. 5 is a plan view showing the structure of a rocker arm type electronic component mechanical life detecting apparatus according to a second embodiment of the present invention.

Fig. 6 is a plan view showing the structure of a second embodiment of the mechanical life detecting apparatus for a rocker arm type electronic component according to the present invention in another state.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 6, a mechanical life detection device for a rocker arm type electronic component according to a preferred embodiment of the present invention will be described in detail below, the mechanical life detection device for a rocker arm type electronic component is used for testing at least one rocker arm type electronic component 90, the rocker arm type electronic component 90 includes a control main body 91 and a rocker arm 92, the rocker arm 92 is rotatably connected to the control main body 91 for controlling the control main body 91 to be turned on or off, the rocker arm 92 includes a rocker arm body 921 and a roller 922, the roller 922 is rotatably connected to one end of the rocker arm body 921, and one end of the rocker arm body 921 remote from the roller 922 is connected to the control main body 91.

The mechanical life detection device for the rocker arm type electronic component comprises a base 10, a band swing mechanism 20 and a detection frequency adjusting piece 30.

The base 10 is configured to support the rocker arm electronics 90. The belt swing mechanism 20 is mounted on the base 10 and configured to drive the swing arm 92 to rotate reciprocally relative to the control body 91 by a predetermined angle. The tape pendulum mechanism 20 is controllably connected to the detection frequency adjusting member 30, and the detection frequency adjusting member 30 is used for adjusting the movement frequency of the tape pendulum mechanism 20, so as to adjust the rotation frequency of the rocker arm 92, and further detect the use condition of the control main body 91 under different switch frequencies.

Preferably, the detection frequency adjusting member 30 is implemented as a governor. The speed regulator can adjust the operating frequency of the belt swing mechanism 20, so that the belt swing mechanism 20 operates at different frequencies, and the control condition of the rocker arm 92 on the control main body 91 is detected under different rotating frequencies. The speed regulator can also control the belt swing mechanism 20 to change between different operating frequencies, and the rocker arms 92 synchronously operate, so that the operating conditions of the control main body 91 at different operating frequencies are detected, and the authenticity of the test is improved.

Further, the pendulum mechanism 20 includes an urging member 21 and a driving member 22, and the urging member 21 is disposed on the driving member 22. The driver 22 is movably disposed on the base 10. The force application member 21 is used for controlling the rotation of the rocker arm 92, so that when the driving member 22 drives the force application member 21 to move, the force application member 21 drives the rocker arm 92 to rotate reciprocally by a predetermined angle relative to the control main body 91, thereby testing the control condition of the rocker arm 92 on the control main body 91.

It should be noted that the motion track of the force application member 21 partially coincides with the rotation track of the rocker arm 92, and the force application member 21 is configured to drive the rocker arm 92 to rotate reciprocally by a predetermined angle.

The driver 22 includes a moving body 221, the force application member 21 is disposed on the moving body 221, and the moving body 221 is movably held on the base 10.

The driving member 22 further includes a guiding structure 222, the moving body 221 is slidably mounted on the guiding structure 222 along an extending direction of the guiding structure 222 for a predetermined distance, and the guiding structure 222 is disposed on the base 10.

Specifically, when the moving body 221 moves along the extending direction of the guiding structure 222, the force applying member 21 moves along with the moving body 221, and the force applying member 21 pushes the rocker arm 92 to rotate, so that the control main body 91 is turned on or off. Preferably, the guiding structure 222 is implemented as a groove provided on the base 10, and the moving body 221 is formed with a protrusion matching with the groove. The guiding structure 222 can also be implemented as a rib formed on the base 10. The moving body 221 is formed in a structure matched with the guide structure 222 so as to be slidable along the extending direction of the guide structure 222.

The force application member 21 has a slot 2101 for accommodating the roller 922, so that when the moving body 221 moves along the guiding structure 222, the force application member 21 moves along the moving body 221 in a direction parallel to the guiding structure 222, and the force application member 21 drives the roller 922 disposed in the slot 2101 to rotate and rotate with the rocker body 921 integrally relative to the control body 91, so that the rocker-arm electronic component 90 is switched between the open state and the closed state.

The clamping groove 2101 is formed by an inner wall 211, two inner side walls 212 close to the inner wall 211 and two outer side walls 213 far away from the inner wall 211, the two outer side walls 213 are respectively formed by extending one sides of the two inner side walls 212 far away from the inner wall 211, the connection part of the outer side walls 213 and the inner side walls 212 is defined as an anti-collision boundary, and the included angle formed by the outer side walls 213 and the central axis of the clamping groove 2101 is larger than the included angle formed by the inner side walls 212 and the central axis of the clamping groove 2101. The notch 2101 defines an outlet 2102, and the outlet 2102 is located opposite the inner wall 211. The outer sidewall 213 is configured to control the interaction force between the roller 922 and the moving body 221 within a certain range, so as to prevent the change of the angle of the rocker arm 92 from causing an infinite increase of the interaction force between the roller 922 and the moving body 221, which may cause damage on one hand.

Further, the belt swing mechanism 20 further includes a power supply member 23, and the power supply member 23 is mounted on the moving body 221, and is used for driving the moving body 221 to move and providing power for the operation of the moving body 221.

Further, the power supply member 23 includes a power assembly 231 and a driving member 232, the moving body 221 is movably connected to the power assembly 231, the power assembly 231 is mounted on the driving member 232, and the driving member 232 is used for driving the power assembly 231 to operate and providing power for the operation of the power assembly 231, so that the power assembly 231 can drive the moving body 221 to move. The driving member 232 is controllably connected to the detection frequency adjusting member 30, and the detection frequency adjusting member 30 is used for adjusting the operating frequency of the driving member 232, so as to control the operating frequency of the moving body 221, and further control the testing frequency of the rocker arm type electronic component 90. Specifically, the driver 22 is movably mounted to the power assembly 231.

Further, the power assembly 231 includes a driving member 2311 and a driven member 2312, the driving member 2311 is mounted on the driving member 232 so that the driving member 232 can drive the driving member 2311 to move, and the driven member 2312 is movably mounted on the driving member 2311 and connected to the driving member 22 so as to drive the driving member 22 to operate.

Preferably, the driving member 232 is implemented as a motor, and the driving member 2311 is implemented as a rotating disc, in which case the driven member 2312 is implemented as a link. It should be noted that the driven member 2312 is connected between the moving body 221 and the driving member 2311, and one end of the driven member 2312 away from the moving body 221 is eccentrically connected to the driving member 2311.

Specifically, the driving member 232 controls the driving member 2311 to operate, the driving member 2311 drives the moving body 221 to reciprocate along the guiding structure 222 through the driven member 2312, and the force application member 21 synchronously moves and drives the rocker arm 92 connected to the force application member 21 to rotate in a reciprocating manner relative to the control main body 91, so as to test the operation condition of the control main body 91.

The driven member 2312 may be implemented as a pulling rope which is mounted to the driving member 2311 in a manner to be able to be wound and released and is connected to the moving body 221, and an elastic member which is mounted to a side of the moving body 221 away from the pulling rope and is mounted to the base 10, as a deformable manner. When the driving part 232 controls the driving part 2311 to rotate, the driving part 2311 drives the pulling rope to change between a winding state and a releasing state, when the pulling rope is in the winding state, the pulling rope pulls the moving body 221 to move along the guide structure 222 and stretches the elastic element, when the pulling rope is in the releasing state, the moving body 221 is moved in an opposite direction under the resetting action of the elastic element, so that the moving body 221 is driven to reciprocate, the moving body 221 drives the force application part 21 to synchronously move, and the force application part 21 drives the rocker arm 92 connected to the moving body 221 to reciprocate relative to the control main body 91, so as to test the operation condition of the control main body 91.

As a deformable manner, the moving body 221 has a screw hole with a size adapted to the power assembly 231, the power assembly 231 may be implemented as a screw, and at this time, the driving member 232 is implemented as a reciprocating motor, so that when the driving member 232 drives the power assembly 231 to rotate reciprocally, the power assembly 231 can drive the moving body 221 to move reciprocally along the guiding structure 222, and the force applying member 21 moves synchronously and drives the rocker arm 92 connected to the force applying member 21 to rotate reciprocally relative to the control main body 91, so as to test the operation condition of the control main body 91.

It will be understood by those skilled in the art that the power supply member 23 can be implemented as a cylinder, and the power supply member 23 operates to drive the moving body 221 to reciprocate, thereby controlling the swing arm 92 connected to the force application member 21 to rotate reciprocally.

The driver 22 is rotatably provided on the base 10 in a deformable manner, and the urging member 21 is rotatable with the driver 22, and the urging member 21 is provided to urge the rocker arm 92 to rotate reciprocally.

Preferably, the driving member 22 is implemented as a turntable, the power supply member 23 is implemented as a reciprocating motor, and the force applying member 21 is implemented as a pair of protrusions symmetrically distributed with reference to a central axis of the turntable, and the two protrusions are distributed on two sides of the rocker-arm electronic component 90 disposed on the base 10. When the reciprocating motor drives the turntable to rotate in a reciprocating manner, the protrusions rotate synchronously with the turntable, and the two protrusions push the rocker arm 92 in a reciprocating manner, so that the rocker arm 92 rotates in a reciprocating manner, and the operation condition of the control main body 91 is tested.

It should be noted that when the force application member 21 rotates along with the driving member 22 and drives the rocker arm 92 to rotate to a predetermined angle, the rocker arm 92 is no longer in contact with the force application member 21, so that when the force application member 21 continues to rotate along the movement direction, the force application member 21 no longer pushes the rocker arm 92 to rotate, so as to avoid rigid damage to the force application member 21 and the rocker arm 92 due to over-rotation.

It should be noted that the power supply component 23 operates to control the movement of the driving component 22, and the force application component 21 operates synchronously and drives the swing arm 92 disposed on the base 10 to swing. The rocker arm 92 swings within a predetermined time, if the rocker arm 92 breaks, the rocker arm 92 cannot control the operation of the control body 91, and at this time, a user can visually observe the use condition of the rocker arm electronic component 90, so as to detect the service life of the rocker arm electronic component 90.

Further, the mechanical life detection device for rocker arm type electronic components further comprises a monitoring mechanism 40, wherein the monitoring mechanism 40 is mounted on the base 10 and electrically connected with the control body 91 for monitoring whether the control body 91 normally operates.

The monitoring mechanism 40 includes at least one wire connection member 41 and at least one monitoring member 42, the wire connection member 41 being electrically connected to the monitoring member 42 and being configured to be electrically connected to the control body 91 such that the wire connection member 41 electrically connects the monitoring member 42 and the control body 91. The monitoring member 42 is used for monitoring the operation condition of the control main body 91.

In other words, when the rocker arm 92 rotates and controls the control body 91 to switch between the open state and the closed state, the monitoring member 42 monitors the number of times the control body 91 is in the open state or the number of times the control body 91 is in the closed state, and the monitoring member 42 can also monitor both conditions of the control body 91.

It is worth mentioning that the number of the wiring members 41 corresponds to the number of the monitoring members 42.

Preferably, the monitoring member 42 is implemented as a counter.

Further, the mechanical life detection device for the rocker arm type electronic component further includes a raised piece 50, the raised piece 50 is mounted on the base 10, the guiding structure 222 is disposed on the raised piece 50, and the raised piece 50 is used to increase the height of the moving body 221 relative to the base 10, so that the force applying member 21 can control the operation of the rocker arm 92, and the detection operation can be performed normally.

It is worth mentioning that the elevating member 50 may be integrally formed with the base 10.

It should be noted that the step-up member 50 and the force applying member 21 can be replaced by different specifications, so as to meet the mechanical life detection of the rocker arm type electronic component 90 with different sizes, so that the mechanical life detection device for the rocker arm type electronic component can detect the rocker arm type electronic components 90 with various specifications.

The use method of the mechanical life detection device for the rocker arm type electronic component is provided, and comprises the following steps: the power supply component 23 controls the operation of the driver 22, and the driver 22 drives the rocker arm 92 to rotate reciprocally relative to the control body 91 through the force application member 21.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The advantages of the present invention have been fully and effectively realized. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (10)

1. The mechanical life detection device for the rocker arm type electronic element is used for detecting at least one rocker arm type electronic element, the rocker arm type electronic element comprises a control main body and a rocker arm, the rocker arm is rotationally connected with the control main body and used for controlling the control main body to be switched on or switched off, the rocker arm comprises a rocker arm body and a roller, the roller is rotationally connected with one end of the rocker arm body, far away from the roller, is connected with the control main body, and the mechanical life detection device for the rocker arm type electronic element is characterized by comprising:

a base configured to support the rocker arm electronics;

and the driving swing mechanism comprises a force application part and a driving part, the driving part is movably arranged on the base, and the force application part is arranged on the driving part and is used for driving the rocker arm to rotate in a reciprocating mode relative to the control main body by a preset angle.

2. The mechanical life detecting device for rocker-arm type electronic components as claimed in claim 1, wherein the driving member comprises a moving body, the force applying member is disposed on the moving body, and the moving body is movably held on the base.

3. The mechanical life detecting apparatus for rocker-arm type electronic components as claimed in claim 2, wherein the actuator further comprises a guide structure, the movable body is slidably mounted to the guide structure at a predetermined distance along an extension direction of the guide structure, and the guide structure is provided on the base.

4. The mechanical life detecting device of claim 3, wherein the force applying member has a slot for receiving the roller, the slot is formed by an inner wall, two inner sidewalls close to the inner wall, and two outer sidewalls far from the inner wall, the two outer sidewalls are respectively formed by extending two inner sidewalls at a side far from the inner wall, a junction between the outer sidewall and the inner sidewalls is defined as an anti-collision boundary, an included angle formed by the outer sidewall and a central axis of the slot is larger than an included angle formed by the inner sidewall and the central axis of the slot, the slot defines an outlet, and the outlet is located at a position opposite to the inner wall.

5. The mechanical life detecting device for rocker arm type electronic components as claimed in claim 4, wherein the driving member is rotatably disposed on the base, and the driving member is configured to push the rocker arm by the force applying member so as to make the rocker arm rotate reciprocally with respect to the control body.

6. The mechanical life detection device for rocker arm type electronic components as claimed in any one of claims 2 to 5, wherein said pendulum mechanism further comprises a power supply member, said power supply member being mounted to said moving body for driving said moving body to move, said power supply member comprising a power assembly and a driving member, said moving body being movably connected to said power assembly, said power assembly being controlled to be connected to said driving member.

7. The mechanical life detection device for rocker arm type electronic components of claim 6 further comprising a detection frequency adjustment member, said driving member being controllably connected to said detection frequency adjustment member, said detection frequency adjustment member being adapted to adjust the frequency at which said driving member operates.

8. The mechanical life detection device for rocker arm type electronic components of claim 7, further comprising a monitoring mechanism mounted to said base and configured to be electrically connected to said control body.

9. The mechanical life detection device of claim 8, further comprising a step-up member, wherein the step-up member is mounted on the base, and the guide structure is disposed on the step-up member to increase the height of the moving body relative to the base.

10. The use method of the mechanical life detection device for the rocker arm type electronic component comprises the following steps: the power supply component controls the driving piece to operate, and the driving piece drives the rocker arm to rotate in a reciprocating mode relative to the control main body through the force application piece.

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