阅读说明：本技术 一种去除静电的离子风机检测系统 (Ion fan detection system for removing static electricity ) 是由 王奎 贺冬 游誉 于 2021-07-08 设计创作，主要内容包括：本发明公开了一种去除静电的离子风机检测系统,属于离子风机除静电领域,涉及静电检测技术,用于明确离子风机的去静电效果且避免无法及时知晓离子风机故障的情况出现。通过静电检测装置、控制器、处理器、调节获取模块、角度调节装置以及静电报警模块的相互配合,通过静电检测的方式具现化静电离子电荷数,并通过角度调节装置调节离子风机至最佳除静电角度加快静电离子的去除,且当角度调节装置调节至最佳除静电角度但是静电没有去除时,判定离子风机故障,处理器发送故障维修信号至静电报警模块,静电报警模块进行离子风机故障报警,避免无法及时知晓离子风机故障的情况出现。(The invention discloses an ion fan detection system for removing static electricity, belongs to the field of static electricity removal of ion fans, relates to a static electricity detection technology, and is used for determining the static electricity removal effect of an ion fan and avoiding the situation that faults of the ion fan cannot be known in time. Through static detection device, a controller, the treater, adjust and acquire the module, mutually supporting of angle adjusting device and static alarm module, the static ion charge number has been realized to the mode through static detection, and adjust ion fan to best destatic angle through angle adjusting device and accelerate getting rid of static ion, and adjust to best destatic angle but when static does not get rid of to angle adjusting device, judge ion fan trouble, the treater sends trouble maintenance signal to static alarm module, static alarm module carries out ion fan malfunction alerting, avoid the condition appearance that can't in time know ion fan trouble.)

1. The system for detecting the ion fan for removing static electricity is characterized by comprising an ion fan, a static electricity detection device, a controller, a processor, an adjustment acquisition module, an angle adjustment device, a power supply module and a static electricity alarm module;

the ion fan is used for removing static electricity; an angle adjusting device is arranged below the ion fan and used for adjusting the angle of the ion fan, and the angle adjusting device is controlled by a controller; the angle adjusting device is provided with a rotating motor;

the static detection device is used for detecting the static electrification condition of the body of the operator, the detection result is the number of charges carried by the body of the operator, and the detected number of charges is sent to the processor;

the adjustment acquisition module is used for acquiring the angle of the current ion blower and the static ion removal state of an operator corresponding to the ion blower; the static ion removal state of the operator is represented by the number of charges carried by the body of the operator detected by the static detection device; the adjusting and acquiring module is electrically connected with the static detecting device;

the processor is used for judging whether the function of the ion fan is intact or not and finishing static electricity removal by combining the controller.

2. The system for detecting the ion blower to remove the static electricity as claimed in claim 1, wherein the processor is set with an upper limit Dm of the number of the electric charges carried by the body of the operator, and the static electricity detection device sends the detected number of the electric charges carried by the body of the operator to the processor in real time; the processor marks the number of detected charges as Di, wherein i represents that the time of detection means a time tag;

the processor compares Di to Dm.

3. The system for detecting the ion fan to remove the static electricity as claimed in claim 2, wherein when Di is larger than or equal to Dm, the Di represents that the static electricity exceeds the standard, the processor sends a starting signal to the controller, the controller is connected with the power supply module to supply power to the ion fan, and the ion fan removes the static electricity for an operator;

when Di < Dm, the number of the static charges is in the range, the electronic screen is not affected, and the processor does not send a signal to the controller.

4. The system for detecting the ion blower for removing the static electricity as claimed in claim 1, wherein when the controller is connected with the power supply module to supply power to the ion blower, the processor synchronously sends a secondary acquisition signal to the adjustment acquisition module, the adjustment acquisition module is connected with the static electricity detection device to detect the number of charges carried by the body of the operator and is marked as Dj, wherein j is a time label representing time;

arranging the acquired Dj according to the time sequence, and when the Dj is gradually reduced along with the time, until Dj < Dm, indicating that the ion fan is removing static electricity and does not need to carry out angle adjustment;

when Dj is unchanged along with the time, the processor sends an adjusting signal to the controller, and the controller sends a rotating signal to the angle adjusting device to adjust the angle to the optimal static electricity removing angle, wherein the adjusting signal indicates that the ion fan is in fault or needs to adjust the angle.

5. The system of claim 1, wherein the processor sends a reacquisition signal to the adjustment acquisition module after the angle adjustment device adjusts the angle to the optimal destaticizing angle;

the adjusting and acquiring module is connected with the static detecting device to detect the number of charges carried by the body of the operator and mark the number as Dp, wherein p is a time label representing time;

arranging the acquired Dp in a time sequence, and when the Dp is gradually reduced along with the time, until the Dp < Dm, indicating that the ion fan is removing static electricity;

when the Dp does not change along with the lapse of time, the fault of the ion fan is indicated, the processor sends a fault maintenance signal to the electrostatic alarm module, and the electrostatic alarm module gives an alarm to the fault of the ion fan.

6. The system of claim 5, wherein the determination of the optimal static charge removing angle comprises:

when the ion fan removes static electricity, the angle adjusting device adjusts the angle and obtains the charge number in real time through the static electricity detection device, the angle is fixed, the initial charge number is recorded as D0, and the time to when the charge number is reduced to Dm is recorded, wherein o represents the angle; and selecting the angle corresponding to the time to with the least time, and marking the angle as the optimal static electricity removing angle.

7. The system of claim 1, wherein the power module is configured to supply power to the ion blower, the static electricity detection device, the controller, the processor, the adjustment acquisition module, the angle adjustment device, and the static electricity alarm module; and the power module is controlled by the controller.

8. The system of claim 1, wherein the angle of the angle adjusting device is in a range of 0-120 degrees.

Technical Field

The invention belongs to the field of static elimination of an ion fan, relates to a static detection technology, and particularly relates to a static elimination ion fan detection system.

Background

The ion fan has the main function of static elimination, has superior static elimination performance, prevents static pollution and damage, and is used for preventing electrostatic discharge (ESD) phenomenon in an electronic production line and maintaining ideal equipment in personal Electrostatic Protection Areas (EPA) such as tables and the like. The ion blower is designed for local areas, has the characteristics of small volume, light weight, convenient installation and the like, can be installed in a building block mode, and is suitable for various places. The static eliminator is a static eliminator which conveys ionized air to a remote place to eliminate static electricity. The corona discharger, the high-voltage power supply and the air supply system are mainly used for forming the corona discharger. It is designed and manufactured according to the principle of point discharge and positive and negative electricity 'neutralization'. It can eliminate static electricity on insulating material and articles. The air quantity of the electrostatic eliminator of the ion fan can be adjusted, so that the range of an electricity eliminating space is wider.

The existing ion fan is mostly used in the occasion that static electricity is completely absent, the occasion can be a production workshop for producing electronic screens in a factory, the production workshop for producing the electronic screens is required to carry out static electricity detection frequently, no clear representation method exists for the static electricity removing result of the ion fan, and the condition that the fault of the ion fan cannot be known in time exists.

Therefore, the ion fan detection system for removing static electricity is provided.

Disclosure of Invention

The invention provides an ion fan detection system for removing static electricity, which is used for determining the static electricity removing effect of an ion fan and avoiding the situation that the fault of the ion fan cannot be known in time. Through static detection device, a controller, the treater, adjust and acquire the module, mutually supporting of angle adjusting device and static alarm module, the static ion charge number has been realized to the mode through static detection, and adjust ion fan to best destatic angle through angle adjusting device and accelerate getting rid of static ion, and adjust to best destatic angle but when static does not get rid of to angle adjusting device, judge ion fan trouble, the treater sends trouble maintenance signal to static alarm module, static alarm module carries out ion fan malfunction alerting, avoid the condition appearance that can't in time know ion fan trouble.

The purpose of the invention can be realized by the following technical scheme:

an ion fan detection system for removing static electricity comprises an ion fan, a static electricity detection device, a controller, a processor, an adjustment acquisition module, an angle adjustment device, a power supply module and a static electricity alarm module;

the ion fan is used for removing static electricity; an angle adjusting device is arranged below the ion fan and used for adjusting the angle of the ion fan, and the angle adjusting device is controlled by a controller; the angle adjusting device is provided with a rotating motor;

the static detection device is used for detecting the static electrification condition of the body of the operator, the detection result is the number of charges carried by the body of the operator, and the detected number of charges is sent to the processor;

the adjustment acquisition module is used for acquiring the angle of the current ion blower and the static ion removal state of an operator corresponding to the ion blower; the static ion removal state of the operator is represented by the number of charges carried by the body of the operator detected by the static detection device; the adjusting and acquiring module is electrically connected with the static detecting device;

the processor is used for judging whether the function of the ion fan is intact or not and finishing static electricity removal by combining the controller.

Furthermore, the processor is provided with an upper limit Dm of the number of charges carried by the body of the operator, and the static electricity detection device sends the detected number of charges carried by the body of the operator to the processor in real time; the processor marks the number of detected charges as Di, wherein i represents that the time of detection means a time tag;

the processor compares Di to Dm.

Further, when Di is larger than or equal to Dm, the static electricity exceeds the standard, the processor sends a starting signal to the controller, the controller is connected with the power supply module to supply power to the ion fan, and the ion fan removes the static electricity for an operator;

when Di < Dm, the number of the static charges is in the range, the electronic screen is not affected, and the processor does not send a signal to the controller.

Further, after the controller is connected with the power supply module to supply power to the ion fan, the processor synchronously sends a secondary acquisition signal to the adjustment acquisition module, the adjustment acquisition module is connected with the static detection device to detect the number of charges carried by the body of the operator and is marked as Dj, wherein j is a time label to indicate time;

arranging the acquired Dj according to the time sequence, and when the Dj is gradually reduced along with the time, until Dj < Dm, indicating that the ion fan is removing static electricity and does not need to carry out angle adjustment;

when Dj is unchanged along with the time, the processor sends an adjusting signal to the controller, and the controller sends a rotating signal to the angle adjusting device to adjust the angle to the optimal static electricity removing angle, wherein the adjusting signal indicates that the ion fan is in fault or needs to adjust the angle.

Further, after the angle adjusting device adjusts the angle to the optimal static electricity removing angle, the processor sends a reacquiring signal to the adjustment acquiring module;

the adjusting and acquiring module is connected with the static detecting device to detect the number of charges carried by the body of the operator and mark the number as Dp, wherein p is a time label representing time;

arranging the acquired Dp in a time sequence, and when the Dp is gradually reduced along with the time, until the Dp < Dm, indicating that the ion fan is removing static electricity;

when the Dp does not change along with the lapse of time, the fault of the ion fan is indicated, the processor sends a fault maintenance signal to the electrostatic alarm module, and the electrostatic alarm module gives an alarm to the fault of the ion fan.

Further, the determination process of the optimal static electricity elimination angle comprises the following steps:

when the ion fan removes static electricity, the angle adjusting device adjusts the angle and obtains the charge number in real time through the static electricity detection device, the angle is fixed, the initial charge number is recorded as D0, and the time to when the charge number is reduced to Dm is recorded, wherein o represents the angle; and selecting the angle corresponding to the time to with the least time, and marking the angle as the optimal static electricity removing angle.

Furthermore, the power supply module is used for supplying power to the ion fan, the static detection device, the controller, the processor, the adjustment acquisition module, the angle adjustment device and the static alarm module; and the power module is controlled by the controller.

Further, the adjusting angle range of the angle adjusting device is 0-120 degrees.

Compared with the prior art, the invention has the beneficial effects that:

through the mutual cooperation of the static detection device, the controller, the processor, the adjustment acquisition module, the angle adjusting device and the static alarm module, the charge number of the static ions is realized in a static detection mode, and the angle adjusting device is used for adjusting the ion fan to the optimal static removing angle to accelerate the removal of the static ions;

when the angle adjusting device is adjusted to the best static electricity removing angle but static electricity is not removed, the fault of the ion fan is judged, the processor sends a fault maintenance signal to the static electricity alarm module, the static electricity alarm module carries out fault alarm of the ion fan, and the situation that the fault of the ion fan cannot be known in time is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a structural diagram of an ion blower detection system for removing static electricity according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an ion blower detection system for removing static electricity includes an ion blower, a static electricity detection device, a controller, a processor, an adjustment acquisition module, an angle adjustment device, a power supply module, and a static electricity alarm module;

the ion fan mainly has the functions of static elimination, has superior static elimination performance and prevents static pollution and damage; an angle adjusting device is arranged below the ion fan and used for adjusting the angle of the ion fan, and the angle adjusting device is controlled by a controller; the angle adjusting device is provided with a rotating motor, and when the angle adjusting device is arranged at a specific position, the angle can be adjusted in a rotating mode of the rotating motor, so that the angle of the ion fan is adjusted; the controller controls the rotation angle of the rotating motor in an electric signal mode to control the angle adjusting device;

the static detection device is used for detecting the static electrification condition of the body of the operator, the detection result is the number of charges carried by the body of the operator, and the detected number of charges is sent to the processor;

the adjustment acquisition module is used for acquiring the angle of the current ion blower and the static ion removal state of an operator corresponding to the ion blower; the static ion removal state of the operator is represented by the number of charges carried by the body of the operator detected by the static detection device; the adjusting and acquiring module is electrically connected with the static detecting device;

the processor is provided with an upper limit Dm of the number of charges carried by the body of the operator, and the static electricity detection device sends the detected number of charges carried by the body of the operator to the processor in real time; the processor marks the number of detected charges as Di, wherein i represents that the time of detection means a time tag;

the processor compares Di with Dm;

when Di is larger than or equal to Dm, the static exceeds the standard, the processor sends a starting signal to the controller, the controller is connected with the power supply module to supply power to the ion fan, and the ion fan removes static for an operator;

when Di is less than Dm, the static charge number is in a controllable range, the electronic screen is not influenced, and the processor does not send signals to the controller.

It should be noted that, after the controller is connected with the power supply module to supply power to the ion blower, the processor synchronously sends a secondary acquisition signal to the adjustment acquisition module, and the adjustment acquisition module is connected with the static detection device to detect the number of charges carried by the body of the operator and is marked as Dj, wherein j is a time label to indicate time;

arranging the acquired Dj according to the time sequence, and when the Dj is gradually reduced along with the time, until the Dj is less than Dm, indicating that the ion fan is removing static electricity and does not need to adjust the angle;

when Dj is unchanged along with the lapse of time, the processor sends an adjusting signal to the controller, and the controller sends a rotating signal to the angle adjusting device to adjust the angle to the optimal static electricity removing angle, wherein the adjusting signal indicates that the ion fan is in fault or needs to adjust the angle;

meanwhile, the processor sends a reacquisition signal to the adjustment acquisition module, the adjustment acquisition module is connected with the static detection device to detect the number of charges carried by the body of the operator and is marked as Dp, wherein p is the time represented by the time label;

arranging the acquired Dp in a time sequence, and when the Dp is gradually reduced along with the time, until the Dp is less than Dm, indicating that the ion fan is removing static electricity;

when the Dp does not change along with the lapse of time, the fault of the ion fan is indicated, the processor sends a fault maintenance signal to the electrostatic alarm module, and the electrostatic alarm module gives an alarm to the fault of the ion fan.

It should be noted that, when the ion blower removes static electricity, the angle adjusting device adjusts the angle and obtains the charge number in real time through the static electricity detection device, the angle is fixed, the initial charge number is recorded as D0, and the time to when the charge number is reduced to Dm is recorded, where o represents the angle; selecting an angle corresponding to the least time to and marking the angle as an optimal static electricity removing angle; because the heights and other special influences of the operators are inconsistent, the operators have different optimal static electricity removing angles o according to different operators;

it should be noted that the power supply module is used for supplying power to the ion blower, the static electricity detection device, the controller, the processor, the adjustment acquisition module, the angle adjustment device and the static electricity alarm module; and the power module is controlled by the controller.

It should be noted that the adjustment angle of the angle adjustment device has a certain limitation, and the adjustment angle range is 0 to 120 degrees.

The above formulas are all calculated by removing dimensions and taking numerical values thereof, the formula is a formula which is obtained by acquiring a large amount of data and performing software simulation to obtain the closest real situation, and the preset parameters and the preset threshold value in the formula are set by the technical personnel in the field according to the actual situation or obtained by simulating a large amount of data.

The working principle of the invention is as follows: through static detection device, a controller, the treater, adjust and acquire the module, mutually supporting of angle adjusting device and static alarm module, the static ion charge number has been realized to the mode through static detection, and adjust ion fan to best destatic angle through angle adjusting device and accelerate getting rid of static ion, and adjust to best destatic angle but when static does not get rid of to angle adjusting device, judge ion fan trouble, the treater sends trouble maintenance signal to static alarm module, static alarm module carries out ion fan malfunction alerting, avoid the condition appearance that can't in time know ion fan trouble.

In the embodiments provided by the present invention, it should be understood that the disclosed apparatus, device and method can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and there may be other divisions when the actual implementation is performed; the modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of the embodiment.

It will also be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms second, etc. are used to denote names, but not any particular order.

Finally, it should be noted that the above examples are only intended to illustrate the technical process of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical process of the present invention without departing from the spirit and scope of the technical process of the present invention.