CN114675229B - Electric meter photoelectric detection turning method - Google Patents
Electric meter photoelectric detection turning method Download PDFInfo
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- CN114675229B CN114675229B CN202210138235.1A CN202210138235A CN114675229B CN 114675229 B CN114675229 B CN 114675229B CN 202210138235 A CN202210138235 A CN 202210138235A CN 114675229 B CN114675229 B CN 114675229B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R35/00—Testing or calibrating of apparatus covered by the other groups of this subclass
- G01R35/04—Testing or calibrating of apparatus covered by the other groups of this subclass of instruments for measuring time integral of power or current
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
The invention discloses a method for collecting and turning photoelectric detection of an ammeter, which comprises the following steps of S1: the ammeter position detection module judges whether an ammeter to be photoelectrically detected is placed in an ammeter placement unit of the ammeter detection device or not, so that corresponding first ammeter information is generated, and the ammeter position detection module detects the placement state of the ammeter in the ammeter placement unit to judge whether the ammeter is placed according to a preset position, so that corresponding second ammeter information is generated. The invention discloses a photoelectric detection and turning method for an ammeter, which is linked through an ammeter position detection module, a control module, a photoelectric turning module and an analysis module, so that the ammeter arranged on an ammeter detection device is subjected to rapid, centralized and automatic photoelectric sampling detection, and the method has the advantages of improving the detection benefit of the ammeter, saving labor force, having high detection precision and the like.
Description
Technical Field
The invention belongs to the technical field of ammeter photoelectric detection, and particularly relates to an ammeter photoelectric detection turning method.
Background
Along with improvement of living standard and living quality of people, the intelligent electric meter is popularized and used on a large scale, the existing intelligent electric meter is required to pass inspection before leaving a factory, whether the intelligent electric meter meets standard requirements or not is detected through photoelectricity, and electric meter performance detection is the most important link in electric meter production, wherein photoelectricity information sampling is an important link in electric meter detection. At present, the photoelectric detection of the traditional electric energy meter is to manually take the photoelectric sampling head to the corresponding position to read information, and the photoelectric detection device has the problems of low efficiency, labor waste, large error and the like.
Accordingly, the above problems are further improved.
Disclosure of Invention
The invention mainly aims to provide a photoelectric detection and turning method for an ammeter, which is used for linking an ammeter position detection module, a control module, a photoelectric turning module and an analysis module so as to perform rapid, centralized and automatic photoelectric sampling detection on the ammeter arranged on an ammeter detection device, and has the advantages of improving the detection benefit of the ammeter, saving labor, having high detection precision and the like.
In order to achieve the above object, the present invention provides a method for collecting and turning electric meters, which is used for collecting and photoelectrically detecting electric meters on an electric meter detection device, and comprises the following steps:
step S1: the method comprises the steps that an ammeter position detection module judges whether an ammeter to be photoelectrically detected is placed in an ammeter placement unit of an ammeter detection device or not, so that corresponding first ammeter information is generated, and detects the placement state of the ammeter in the ammeter placement unit to judge whether the ammeter is placed according to a preset position or not, so that corresponding second ammeter information is generated;
step S2: the ammeter position detection module transmits the generated first ammeter information and second ammeter information to the control module, so that the control module obtains the placement state (whether an ammeter exists) of each ammeter placement unit of the ammeter detection device and the position state (whether a standard is placed) of the ammeter placed in the ammeter placement unit;
step S3: the photoelectric collecting and turning device receives a detection start instruction transmitted by the control module and then performs a first action, so that a photoelectric acquisition unit arranged on the photoelectric collecting and turning device moves to a photoelectric acquisition position of the ammeter, and further performs photoelectric acquisition on the ammeter and transmits acquired photoelectric acquisition data to the control module;
step S4: the control module judges whether the electric meters which are placed on the electric meter placement unit according to the first electric meter information and the second electric meter information and are currently standard are all collected by the photoelectric collection unit, if so, the photoelectric collection turning device receives the detection end instruction transmitted by the control module and then performs the second action, so that the photoelectric collection turning device moves to the position to be detected, if not, the control module transmits the generated first fault information to the analysis module, the analysis module performs fault analysis on the first fault information, and after the fault is removed, the control module transmits the detection end instruction to the photoelectric collection turning device.
As a further preferable technical solution of the above technical solution, step S2 is specifically implemented as the following steps:
step S2.1: the control module receives first ammeter information, and if the first ammeter information is the information of the placed ammeter, the current ammeter placing unit is indicated to place the ammeter to be subjected to photoelectric detection;
step S2.2: the control module receives first ammeter information, and if the first ammeter information is the ammeter information which is not placed, the current ammeter placing unit is indicated that the ammeter to be subjected to photoelectric detection is not placed;
step S2.3: the control module receives second ammeter information, and if the second ammeter information is ammeter standard placement information, the ammeter of the current ammeter placement unit is indicated to be placed in a standard manner;
step S2.4: the control module receives second ammeter information, and if the second ammeter information is that the ammeter does not have standard placement information, the ammeter of the current ammeter placement unit is indicated to be not placed in a standard manner.
As a further preferable technical solution of the above technical solution, in step S2.4, if the second electric meter information is that the electric meter has no standard placement information, the control module transmits the generated second fault information to the analysis module, and the analysis module performs fault analysis on the second fault information and executes step S3 after removing the fault.
As a further preferable technical solution of the foregoing technical solution, in step S4, if the information corresponding to the current electric meter placement unit is no electric meter placement information or no standard electric meter placement information, the control module determines whether the electric meters currently placed on the electric meter placement unit are all collected by the photoelectric collection unit without being included in the determination range.
As a further preferable technical scheme of the above technical scheme, the photoelectric collecting and turning device comprises a transmission assembly, a linkage pull rod and a turning assembly, wherein:
the transmission assembly comprises a driving motor, a rotating rod and a chassis, wherein the rotating rod is connected with the driving motor and is arranged on the chassis;
one end of the linkage pull rod is connected with one end of the rotating rod, which is far away from the driving motor, and one end of the linkage pull rod, which is far away from the rotating rod, is connected with the overturning assembly;
the overturning assembly comprises a first assembly, a second assembly and a third assembly, the second assembly is connected with the first assembly and the third assembly, and the third assembly is provided with a photoelectric acquisition unit;
one end of the linkage pull rod, which is far away from the rotating rod, is connected with the connecting end of the first component and the second component;
one end of the first component, which is far away from the second component, is connected with an ammeter detection device;
the third assembly includes integrally formed first and second components, wherein:
one end of the first component, which is far away from the second component, is connected with an ammeter detection device, one end of the second component, which is far away from the first component, is connected with the first component, the photoelectric acquisition unit is arranged at one end of the second component, which is far away from the first component, and the second component is arc-shaped;
the photoelectric acquisition unit is electrically connected with the control module.
Drawings
FIG. 1 is a schematic diagram of a method for collecting and turning photoelectric detection of an electric meter according to the present invention.
Fig. 2 is a schematic diagram of a method for collecting and turning photoelectric detection of an electric meter according to the present invention.
The reference numerals include: 1. a first electricity meter; 2. a second electricity meter; 100. a transmission assembly; 110. a rotating lever; 120. a chassis; 200. a linkage pull rod; 300. a flip assembly; 310. a first component; 320. a second component; 330. a third component; 331. a first component; 332. a second component; 400. a photoelectric acquisition unit; 500. an ammeter detecting device.
Detailed Description
The following description is presented to enable one of ordinary skill in the art to make and use the invention. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the invention 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.
In a preferred embodiment of the present invention, it should be noted by those skilled in the art that the electricity meter and the like to which the present invention relates can be regarded as the prior art.
Preferred embodiments.
The invention discloses a method for collecting and turning electric meter photoelectric detection, which is used for carrying out concentrated photoelectric detection on an electric meter positioned on an electric meter detection device and comprises the following steps:
step S1: the method comprises the steps that an ammeter position detection module judges whether an ammeter to be photoelectrically detected is placed in an ammeter placement unit of an ammeter detection device or not, so that corresponding first ammeter information is generated, and detects the placement state of the ammeter in the ammeter placement unit to judge whether the ammeter is placed according to a preset position or not, so that corresponding second ammeter information is generated;
step S2: the ammeter position detection module transmits the generated first ammeter information and second ammeter information to the control module, so that the control module obtains the placement state (whether an ammeter exists) of each ammeter placement unit of the ammeter detection device and the position state (whether a standard is placed) of the ammeter placed in the ammeter placement unit;
step S3: the photoelectric collecting and turning device receives a detection start instruction transmitted by the control module and then performs a first action, so that a photoelectric acquisition unit arranged on the photoelectric collecting and turning device moves to a photoelectric acquisition position of the ammeter, and further performs photoelectric acquisition on the ammeter and transmits acquired photoelectric acquisition data to the control module;
step S4: the control module judges whether the electric meters which are placed on the electric meter placement unit according to the first electric meter information and the second electric meter information and are currently standard are all collected by the photoelectric collection unit, if so, the photoelectric collection turning device receives the detection end instruction transmitted by the control module and then performs the second action, so that the photoelectric collection turning device moves to the position to be detected, if not, the control module transmits the generated first fault information to the analysis module, the analysis module performs fault analysis on the first fault information, and after the fault is removed, the control module transmits the detection end instruction to the photoelectric collection turning device.
Specifically, the step S2 is specifically implemented as the following steps:
step S2.1: the control module receives first ammeter information, and if the first ammeter information is the information of the placed ammeter, the current ammeter placing unit is indicated to place the ammeter to be subjected to photoelectric detection;
step S2.2: the control module receives first ammeter information, and if the first ammeter information is the ammeter information which is not placed, the current ammeter placing unit is indicated that the ammeter to be subjected to photoelectric detection is not placed;
step S2.3: the control module receives second ammeter information, and if the second ammeter information is ammeter standard placement information, the ammeter of the current ammeter placement unit is indicated to be placed in a standard manner;
step S2.4: the control module receives second ammeter information, and if the second ammeter information is that the ammeter does not have standard placement information, the ammeter of the current ammeter placement unit is indicated to be not placed in a standard manner.
More specifically, in step S2.4, if the second electric meter information is that the electric meter has no standard placement information, the control module transmits the generated second fault information to the analysis module, and the analysis module performs fault analysis on the second fault information and performs step S3 after removing the fault.
More specifically, in step S4, if the information corresponding to the current electric meter placement unit is no electric meter placement information or no standard electric meter placement information, the control module determines whether the electric meters currently placed on the electric meter placement unit are all collected by the photoelectric collection unit and are not included in the determination range.
Preferably, the optoelectronic flip-up device comprises a transmission assembly 100, a linkage rod 200 and a flip-up assembly 300, wherein:
the transmission assembly 100 comprises a driving motor, a rotating rod 110 and a chassis 120, wherein the rotating rod 110 is connected with the driving motor, the rotating rod 110 is installed on the chassis 120 (the rotating rod is connected with a rotor of the motor so that the rotating rod rotates along with the rotation of the rotor in the rotating process, the chassis is provided with a mounting hole, and the rotating rod is connected with the driving motor hidden in the ammeter detection device through the mounting hole);
one end of the linkage pull rod 200 is connected with one end of the rotating rod 110 away from the driving motor, and one end of the linkage pull rod 200 away from the rotating rod 110 is connected with the overturning assembly 300;
the flipping assembly 300 includes a first assembly 310, a second assembly 320, and a third assembly 330, the second assembly 320 is connected to the first assembly 310 and the third assembly 330, and the third assembly 330 is mounted with the photoelectric acquisition unit 400.
Specifically, an end of the linkage rod 200 away from the rotation rod 110 is connected to the connection ends of the first component 310 and the second component 320.
More specifically, an end of the first component 310 remote from the second component 320 is connected to the electricity meter detecting device 500.
Further, the third assembly 330 includes a first part 331 and a second part 332 integrally formed, wherein:
the end of the first component 331 far away from the second component 320 is connected with the ammeter detection device 500, the end of the second component 320 far away from the first component 310 is connected with the first component 331, the photoelectric acquisition unit 400 is mounted at the end of the second component 332 far away from the first component 331, and the second component 332 is arc-shaped.
Further, the photoelectric collection unit 400 is electrically connected to the control module (for transmitting the collected photoelectric data of the electric meter to the control module for management).
Preferably, the principle of the invention is:
as shown in fig. 1 and 2, the electricity meter detection device is provided with a first electricity meter 1 in the upper row and a second electricity meter 2 in the lower row, each row of electricity meters is provided with a corresponding electricity meter photoelectric detection collection turning device, when photoelectric sampling detection is performed, the turning assembly is in an undetected state (such as the turning assembly matched with the second electricity meter 2 in fig. 1), firstly, the driving motor receives a driving signal from the control module and then rotates, so as to drive the rotating rod to rotate, and then the turning assembly is turned through a linkage pull rod hinged with the rotating rod, so that a photoelectric acquisition unit mounted on the turning assembly moves to a photoelectric sampling position of the electricity meter (the turning assembly processes a detection state at the moment, such as the turning assembly matched with the first electricity meter 1 in fig. 1), photoelectric sampling is performed on the electricity meter, sampling data is transmitted to the control module, and after sampling is finished, the turning assembly is turned to the undetected state through the driving motor and the linkage pull rod.
The invention adopts lever principle in mechanical structure, combines rotation driving force, matches (servo) driving motor and control module control, intensively turns over (moves) the turning component of fixed point detection and provided with photoelectric acquisition unit to the detection position of the electric energy meter, automatically executes photoelectric detection task, and returns the detection task to the original point after the detection task is ended.
It should be noted that technical features such as an ammeter related to the present application should be regarded as the prior art, and specific structures, working principles, and control modes and spatial arrangement modes possibly related to the technical features should be selected conventionally in the art, and should not be regarded as the invention point of the present application, and the present application is not further specifically developed in detail.
Modifications of the embodiments described above, or equivalents of some of the features may be made by those skilled in the art, and any modifications, equivalents, improvements or etc. within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (4)
1. The utility model provides a ammeter photoelectric detection collection turns over method for concentrate photoelectric detection is carried out to ammeter that is located ammeter detection device, its characterized in that includes following step:
step S1: the method comprises the steps that an ammeter position detection module judges whether an ammeter to be photoelectrically detected is placed in an ammeter placement unit of an ammeter detection device or not, so that corresponding first ammeter information is generated, and detects the placement state of the ammeter in the ammeter placement unit to judge whether the ammeter is placed according to a preset position or not, so that corresponding second ammeter information is generated;
step S2: the ammeter position detection module transmits the generated first ammeter information and second ammeter information to the control module, so that the control module obtains the placement state of each ammeter placement unit of the ammeter detection device and the position state of the ammeter placed in the ammeter placement unit;
the step S2 is specifically implemented as the following steps:
step S2.1: the control module receives first ammeter information, and if the first ammeter information is the information of the placed ammeter, the current ammeter placing unit is indicated to place the ammeter to be subjected to photoelectric detection;
step S2.2: the control module receives first ammeter information, and if the first ammeter information is the ammeter information which is not placed, the current ammeter placing unit is indicated that the ammeter to be subjected to photoelectric detection is not placed;
step S2.3: the control module receives second ammeter information, and if the second ammeter information is ammeter standard placement information, the ammeter of the current ammeter placement unit is indicated to be placed in a standard manner;
step S2.4: the control module receives second ammeter information, and if the second ammeter information is that the ammeter does not have standard placement information, the ammeter of the current ammeter placement unit is indicated not to be placed in a standard manner;
step S3: the photoelectric collecting and turning device receives a detection start instruction transmitted by the control module and then performs a first action, so that a photoelectric acquisition unit arranged on the photoelectric collecting and turning device moves to a photoelectric acquisition position of the ammeter, and further performs photoelectric acquisition on the ammeter and transmits acquired photoelectric acquisition data to the control module;
step S4: the control module judges whether the electric meters which are placed on the electric meter placement unit according to the first electric meter information and the second electric meter information and are currently standard are all collected by the photoelectric collection unit, if so, the photoelectric collection turning device receives the detection end instruction transmitted by the control module and then performs the second action, so that the photoelectric collection turning device moves to the position to be detected, if not, the control module transmits the generated first fault information to the analysis module, the analysis module performs fault analysis on the first fault information, and after the fault is removed, the control module transmits the detection end instruction to the photoelectric collection turning device.
2. The method according to claim 1, wherein in step S2.4, if the second meter information is that the meter has no standard placement information, the control module transmits the generated second fault information to the analysis module, and the analysis module performs fault analysis on the second fault information and performs step S3 after removing the fault.
3. The method according to claim 2, wherein in step S4, if the information corresponding to the current meter placement unit is no meter placement information or no standard placement information of the meter, the control module determines whether the meters placed on the current meter placement unit are all collected by the photoelectric collection unit and are not included in the determination range.
4. A method of collecting and turning over a photoelectric detector of an electric meter according to claim 3, wherein the photoelectric collecting and turning over device comprises a transmission assembly, a linkage pull rod and a turning over assembly, wherein:
the transmission assembly comprises a driving motor, a rotating rod and a chassis, wherein the rotating rod is connected with the driving motor and is arranged on the chassis;
one end of the linkage pull rod is connected with one end of the rotating rod, which is far away from the driving motor, and one end of the linkage pull rod, which is far away from the rotating rod, is connected with the overturning assembly;
the overturning assembly comprises a first assembly, a second assembly and a third assembly, the second assembly is connected with the first assembly and the third assembly, and the third assembly is provided with a photoelectric acquisition unit;
one end of the linkage pull rod, which is far away from the rotating rod, is connected with the connecting end of the first component and the second component;
one end of the first component, which is far away from the second component, is connected with an ammeter detection device;
the third assembly includes integrally formed first and second components, wherein:
one end of the first component, which is far away from the second component, is connected with an ammeter detection device, one end of the second component, which is far away from the first component, is connected with the first component, the photoelectric acquisition unit is arranged at one end of the second component, which is far away from the first component, and the second component is arc-shaped;
the photoelectric acquisition unit is electrically connected with the control module.
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