CN217484384U - Bluetooth function detection device for electric energy meter - Google Patents
Bluetooth function detection device for electric energy meter Download PDFInfo
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- CN217484384U CN217484384U CN202122978094.8U CN202122978094U CN217484384U CN 217484384 U CN217484384 U CN 217484384U CN 202122978094 U CN202122978094 U CN 202122978094U CN 217484384 U CN217484384 U CN 217484384U
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Abstract
The utility model discloses an electric energy meter bluetooth function detection device for detect electric energy meter's bluetooth function and go up the electric function, including first testing platform and second testing platform, first testing platform with be equipped with the belt track between the second testing platform, first testing platform is equipped with first crimping module, first crimping module with be located the electric energy meter electrical connection of one side of the orbital frock board of belt. The utility model discloses an electric energy meter bluetooth function detection device, its frock board that will be located belt track and load the electric energy meter transmits the detection station, then detects two rows of electric energy meters on the frock board through first testing platform and second testing platform respectively to know whether the last electric energy meter of each electric energy meter and bluetooth function are normal.
Description
Technical Field
The utility model belongs to the technical field of the electric energy meter bluetooth detects, concretely relates to electric energy meter bluetooth function detection device.
Background
Electric power, one of the most important energy sources in the 21 st century, is becoming an increasingly indispensable part of our daily lives. Meanwhile, with the continuous progress and development of economy and the continuous improvement of the living standard of people, the consumption of people on electric power is gradually increased. In order to effectively save and reasonably manage the power consumption, most of old mechanical electric meters have been basically replaced in China in recent years, and intelligent electric energy meters which are more convenient to measure and manage are adopted. Along with the increase of the construction scale and the management strength of the smart power grid year by year, power grid enterprises put forward new requirements on the detection and information acquisition functions of the smart power meters, and in order to meet the market demands and achieve the requirements of facilitating the detection and information acquisition of single-phase and three-phase power meters, part of power meter manufacturers have provided power meters with Bluetooth communication functions, so that the purposes of measuring detection and information acquisition can be achieved without connecting detection equipment with weak current terminals of the power meters in the detection and information acquisition processes of the power meters. All intelligent electric energy meters need a series of detections before leaving the factory, wherein the bluetooth function of the novel single three-phase electric energy meter is detected to be an important part. At present, in the test process, a single meter is manually installed on a meter calibration table by a test worker, then a computer controls a single Bluetooth verification module to be sequentially connected with a single electric energy meter in a pairing mode, and after the test is finished, a tester judges whether the Bluetooth function test of the electric energy meter is qualified according to the test result of test software, so that whether the Bluetooth function of the meter is normal is judged. After the test is finished, people are required to replace the tested electric energy meters with the next batch of electric energy meters which are not tested for detection. The detection mode has the advantages that the labor intensity of testers is high, the testers are easy to fatigue, potential safety hazards of power utilization exist, and the detection efficiency is very low.
Therefore, the above problems are further improved.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a main aim at provides electric energy meter bluetooth function detection device, its frock board that will be located and load the electric energy meter on the belt track transmits detection station (being equipped with to keep off and stopping the structure), then detects two rows of electric energy meters on the frock board respectively through first testing platform and second testing platform to know whether the last electric energy meter of each electric energy meter is normal with bluetooth function.
Another object of the utility model is to provide an electric energy meter bluetooth function detection device, it has stable in structure, precision height and efficient advantage.
In order to achieve the above object, the utility model provides an electric energy meter bluetooth function detection device for detect the bluetooth function of electric energy meter and go up the electric function, including first testing platform and second testing platform, first testing platform with be equipped with the belt track between the second testing platform, wherein:
the first detection platform is provided with a first compression joint module, and the first compression joint module is electrically connected with an electric energy meter positioned on one side of a tooling plate (positioned on a belt of the belt track) of the belt track;
the second detection platform is provided with a second crimping module, and the second crimping module is electrically connected with an electric energy meter which is positioned on one side of the tooling plate of the belt track, which is far away from the first crimping module;
the first detection platform and the second detection platform are both provided with Bluetooth converters.
As a further preferable technical solution of the above technical solution, the first crimping module includes a first cylinder transmission mechanism, a second cylinder transmission mechanism, a third cylinder transmission mechanism, a first meter holder, a second meter holder, and a third meter holder, wherein:
the first cylinder transmission mechanism is positioned on one side, far away from the belt track, of the first meter support, the first cylinder transmission mechanism is in driving connection with the first meter support, and a first connection contact pin is arranged on one side, close to the belt track, of the first meter support;
the second cylinder transmission mechanism is positioned on one side, far away from the belt track, of the second meter support, the second cylinder transmission mechanism is in driving connection with the second meter support, and a second connection contact pin is arranged on one side, close to the belt track, of the second meter support;
the third cylinder drive mechanism is located the third table holds in the palm and keeps away from orbital one side of belt, third cylinder drive mechanism with the third table holds in the palm the drive and is connected, the third table holds in the palm and is close to orbital one side of belt is equipped with the third and connects the contact pin.
As a further preferable technical solution of the above technical solution, the second crimping module includes a fourth cylinder transmission mechanism, a fifth cylinder transmission mechanism, a sixth cylinder transmission mechanism, a fourth gauge holder, a fifth gauge holder, and a sixth gauge holder, wherein:
the fourth cylinder transmission mechanism is positioned on one side, far away from the belt track, of the fourth meter support, the fourth cylinder transmission mechanism is in driving connection with the fourth meter support, and a fourth connecting contact pin is arranged on one side, close to the belt track, of the fourth meter support;
the fifth cylinder transmission mechanism is positioned on one side, far away from the belt track, of the fifth surface support, the fifth cylinder transmission mechanism is in driving connection with the fifth surface support, and a fifth connecting contact pin is arranged on one side, close to the belt track, of the fifth surface support;
sixth cylinder drive mechanism is located sixth table holds in the palm and keeps away from the orbital one side of belt, sixth cylinder drive mechanism with sixth table holds in the palm the drive and is connected, sixth table holds in the palm and is close to orbital one side of belt is equipped with sixth connecting pin.
As a further preferable technical scheme of the above technical scheme, the tooling plate is provided with a first electric meter station, a second electric meter station, a third electric meter station, a fourth electric meter station, a fifth electric meter station and a sixth electric meter station;
the first connecting contact pin is electrically connected with a connecting end of the electric energy meter positioned at a first electric meter station (the first cylinder transmission mechanism is driven by the electromagnetic valve to move towards the direction of the belt track so as to drive the first meter support to move, and then the first connecting contact pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and Bluetooth detection);
the second connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the second electric meter station (the second cylinder transmission mechanism is driven by the electromagnetic valve to move towards the direction of the belt track so as to drive the second meter support to move, and then the second connecting contact pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and Bluetooth detection);
the third connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the third electric meter station (the third cylinder transmission mechanism is driven by the electromagnetic valve to move towards the direction of the belt track so as to drive the third meter support to move, and then the third connecting contact pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and Bluetooth detection);
the fourth connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the fourth electric meter station (the fourth cylinder transmission mechanism is driven by the electromagnetic valve to move towards the belt track so as to drive the fourth meter support to move, and the fourth connecting contact pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and Bluetooth detection);
the fifth connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the fifth electric meter station (the fifth cylinder transmission mechanism is driven by the electromagnetic valve to move towards the belt track so as to drive the fifth meter support to move, and the fifth connecting contact pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and Bluetooth detection);
sixth connection contact pin with be located the link electric connection of the electric energy meter of sixth ammeter station (remove to the orbital direction of belt through solenoid valve drive sixth cylinder drive mechanism to drive sixth table and hold in the palm the removal, and then the link of electric energy meter is inserted to sixth connection contact pin, thereby electrify the electric energy meter, in order to carry out electrification detection and bluetooth detection).
As a further preferable technical solution of the above technical solution, the bluetooth converter is in bluetooth communication connection with the electric energy meter.
Drawings
Fig. 1 is the utility model discloses a bluetooth function of electric energy meter detection device's schematic structure diagram.
Fig. 2 is the utility model discloses a structure schematic diagram of a first crimping module of electric energy meter bluetooth function detection device.
Fig. 3 is a schematic structural diagram of the second crimping module of the bluetooth function detection apparatus for electric energy meter.
Fig. 4 is the utility model discloses a structural schematic diagram of electric energy meter bluetooth function detection device's frock board.
The reference numerals include: 100. a first detection platform; 110. a first crimping module; 111. a first cylinder transmission mechanism; 112. a second cylinder drive mechanism; 113. a third cylinder transmission mechanism; 114. a first watch holder; 115. a second watch holder; 116. a third meter support; 117. a first connecting pin; 118. a second connecting pin; 119. a third connecting pin; 200. a second detection platform; 210. a second crimping module; 211. a fourth cylinder transmission mechanism; 212. a fifth cylinder transmission mechanism; 213. a sixth cylinder transmission mechanism; 214. a fourth watch support; 215. a fifth watch support; 216. a sixth watch support; 217. a fourth connecting pin; 218. a fifth connecting pin; 219. a sixth connecting pin; 300. assembling a plate; 310. a first meter station; 320. a second meter station; 330. a third electricity meter station; 340. a fourth meter station; 350. a fifth ammeter station; 360. a sixth meter station; 400. a belt track.
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 described below are 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.
The utility model discloses an electric energy meter bluetooth function detection device combines preferred embodiment below, further describes utility model's concrete embodiment.
In the embodiment of the utility model, the technical personnel in the field notice, the utility model relates to an electric energy meter, master control host computer system, detect special plane and electrical control system etc. can be regarded as prior art.
Preferred embodiments.
The utility model discloses an electric energy meter bluetooth function detection device for detect the bluetooth function of electric energy meter and go up the electric function, including first testing platform 100 and second testing platform 200, first testing platform 100 with be equipped with belt track 400 between the second testing platform 200, wherein:
the first detection platform 100 is provided with a first crimping module 110, and the first crimping module 110 is electrically connected with an electric energy meter on one side of the tooling plate 300 (on the belt of the belt track) of the belt track 400;
the second detection platform 200 is provided with a second crimping module 210, and the second crimping module 210 is electrically connected with an electric energy meter which is positioned on one side of the tooling plate 300 of the belt track 400, which is far away from the first crimping module 110;
the first detection platform 100 and the second detection platform 200 are both provided with bluetooth converters.
Specifically, the first crimping module 110 includes a first cylinder transmission mechanism 111, a second cylinder transmission mechanism 112, a third cylinder transmission mechanism 113, a first meter support 114, a second meter support 115, and a third meter support 116, wherein:
the first cylinder transmission mechanism 111 is located on one side of the first watch holder 114 far away from the belt track 400, the first cylinder transmission mechanism 111 is in driving connection with the first watch holder 114, and a first connecting pin 127 is arranged on one side of the first watch holder 114 close to the belt track 400;
the second cylinder transmission mechanism 112 is located on one side of the second watch holder 115 far away from the belt track 400, the second cylinder transmission mechanism 112 is in driving connection with the second watch holder 115, and a second connecting pin 128 is arranged on one side of the second watch holder 115 close to the belt track 400;
the third cylinder transmission mechanism 113 is located at a side of the third support 116 far away from the belt track 400, the third cylinder transmission mechanism 113 is in driving connection with the third support 116, and a third connecting pin 129 is arranged at a side of the third support 116 close to the belt track 400.
More specifically, the second crimping module 210 includes a fourth cylinder transmission 211, a fifth cylinder transmission 212, a sixth cylinder transmission 213, a fourth cradle 214, a fifth cradle 215 and a sixth cradle 216, wherein:
the fourth cylinder transmission mechanism 211 is located on one side of the fourth watch holder 214 far away from the belt track 400, the fourth cylinder transmission mechanism 211 is in driving connection with the fourth watch holder 214, and a fourth connecting pin 217 is arranged on one side of the fourth watch holder 214 close to the belt track 400;
the fifth cylinder transmission mechanism 212 is located on one side of the fifth watch holder 215 far away from the belt track 400, the fifth cylinder transmission mechanism 212 is in driving connection with the fifth watch holder 215, and a fifth connecting pin 218 is arranged on one side of the fifth watch holder 215 close to the belt track 400;
the sixth cylinder transmission mechanism 213 is located on one side of the sixth watch holder 216 away from the belt track 400, the sixth cylinder transmission mechanism 213 is in driving connection with the sixth watch holder 216, and a sixth connecting pin 219 is arranged on one side of the sixth watch holder 216 close to the belt track 400.
Further, the tooling plate 300 is provided with a first electric meter station 310, a second electric meter station 320, a third electric meter station 330, a fourth electric meter station 340, a fifth electric meter station 350 and a sixth electric meter station 360;
the first connecting pin 117 is electrically connected to the connecting end of the electric energy meter at the first electric meter station 310 (the first cylinder transmission mechanism is driven by the electromagnetic valve to move towards the belt track, so as to drive the first meter holder to move, and then the first connecting pin is inserted into the connecting end of the electric energy meter, so as to power up the electric energy meter, so as to perform power-up detection and bluetooth detection);
the second connecting pin 118 is electrically connected with the connecting end of the electric energy meter at the second electric meter station 320 (the second cylinder transmission mechanism is driven by the electromagnetic valve to move towards the belt track so as to drive the second meter support to move, and then the second connecting pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and bluetooth detection);
the third connecting pin 119 is electrically connected with the connecting end of the electric energy meter at the third electric meter station 330 (the third cylinder transmission mechanism is driven by the electromagnetic valve to move towards the belt track so as to drive the third meter support to move, and the third connecting pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter, so as to perform electrification detection and bluetooth detection);
the fourth connecting pin 217 is electrically connected with the connecting end of the electric energy meter at the fourth electric meter station 340 (the fourth cylinder transmission mechanism is driven by the electromagnetic valve to move towards the belt track so as to drive the fourth meter support to move, and the fourth connecting pin is inserted into the connecting end of the electric energy meter so as to electrify the electric energy meter for electrifying detection and Bluetooth detection);
the fifth connecting pin 218 is electrically connected to the connecting end of the electric energy meter at the fifth electric meter station 350 (the fifth cylinder transmission mechanism is driven by the solenoid valve to move in the direction of the belt track, so as to drive the fifth meter holder to move, and the fifth connecting pin is inserted into the connecting end of the electric energy meter, so as to power up the electric energy meter, so as to perform power-up detection and bluetooth detection);
sixth connecting pin 219 with be located the link electric connection of the electric energy meter of sixth ammeter station 360 (remove to the orbital direction of belt through solenoid valve drive sixth cylinder drive mechanism to the drive sixth table holds in the palm the removal, and then the link of sixth connecting pin inserted the electric energy meter, thereby goes up electricity to the electric energy meter, in order to go up electricity and detect and bluetooth detects).
Furthermore, the Bluetooth converter is in Bluetooth communication connection with the electric energy meter.
Preferably, the principle of the utility model is that:
firstly, a master control upper computer system and an electrical control system interact to enter tooling plate instruction information, the electrical control electrical system receives an instruction and then sequentially conveys a first tooling plate close to the front of a detection station to a stop position of the detection station through a belt track, after the first tooling plate is fixed, meter supports of all meter positions are pressed into a terminal of an electric energy meter through an electromagnetic valve and a cylinder transmission mechanism (a crimping module) to be connected, and after the crimping is normal, the electrical control electrical system replies a crimping in-place instruction to the master control upper computer system;
secondly, after receiving the crimping in-place information replied by the electrical control system, the master control upper computer system sends a test starting instruction to the special detection machine, transmits the Bluetooth addresses of the 6 meters on the tooling plate tray to the special detection machine, and controls the program-controlled power source to output corresponding voltage to electrify the electric energy meter through the electric energy meter loaded by the meter support so as to carry out electrification detection; and simultaneously, addresses of the six meters sent by the master control upper computer system are distributed to the 6 Bluetooth converters from the lower part, the six Bluetooth converters are respectively in Bluetooth connection with the electric energy meters corresponding to the respective sub-machines, after the connection is successful, the special detection machine reads the information in the electric energy meters through the Bluetooth converters to judge whether the Bluetooth functions of the electric energy meters are normal, and reads the information of the electric energy meters through Bluetooth communication to judge whether the electric energy meters transmit information through Bluetooth. After the test is finished, the special detection machine controls the power source to close voltage and current output, the Bluetooth is switched to disconnect, and a test conclusion is uploaded to the master control upper computer system. The main control upper computer system sends a test ending instruction to the electrical control system after receiving the conclusion information uploaded by the special detection machine;
and finally, after receiving the test completion interaction information of the master control upper computer system, the electrical control system controls the cylinder transmission mechanism to withdraw the meter support wiring column mechanism from the electric energy meter through the electromagnetic valve, the tooling plate stop and stop positioning mechanism is opened to release the tooling plate, after the release of the tooling plate is completed, the electrical control system gives release completion information to the master control upper computer system, and after receiving the release completion information, the master control upper computer system starts to branch the next tooling plate and enters the next test flow.
It is worth mentioning, the utility model discloses a technical characterstic such as electric energy meter, master control host computer system, the special plane of detection and electrical control system that the patent application relates to should be regarded as prior art, and the concrete structure of these technical characterstic, theory of operation and the control mode that probably involves, spatial arrangement mode adopt in this field conventional selection can, should not be regarded as the utility model discloses an invention point place, the utility model discloses a do not do further specifically expand the detailing.
It will be apparent to those skilled in the art that modifications and variations can be made in the above-described embodiments, or some features of the invention may be substituted or omitted, and any modification, substitution, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.
Claims (5)
1. The utility model provides an electric energy meter bluetooth function detection device for detect the bluetooth function of electric energy meter and go up the electric function, its characterized in that, including first testing platform and second testing platform, first testing platform with be equipped with the belt track between the second testing platform, wherein:
the first detection platform is provided with a first compression joint module, and the first compression joint module is electrically connected with an electric energy meter positioned on one side of the tooling plate of the belt track;
the second detection platform is provided with a second crimping module, and the second crimping module is electrically connected with an electric energy meter which is positioned on one side of the tooling plate of the belt track, which is far away from the first crimping module;
first testing platform with second testing platform all is equipped with the bluetooth converter.
2. The Bluetooth function detecting device of the electric energy meter according to claim 1, wherein the first crimping module comprises a first cylinder transmission mechanism, a second cylinder transmission mechanism, a third cylinder transmission mechanism, a first meter support, a second meter support and a third meter support, wherein:
the first cylinder transmission mechanism is positioned on one side, far away from the belt track, of the first meter support, the first cylinder transmission mechanism is in driving connection with the first meter support, and a first connecting contact pin is arranged on one side, close to the belt track, of the first meter support;
the second cylinder transmission mechanism is positioned on one side, far away from the belt track, of the second meter support, the second cylinder transmission mechanism is in driving connection with the second meter support, and a second connecting contact pin is arranged on one side, close to the belt track, of the second meter support;
the third cylinder drive mechanism is located the third table holds in the palm and keeps away from orbital one side of belt, third cylinder drive mechanism with the third table holds in the palm the drive and is connected, the third table holds in the palm and is close to orbital one side of belt is equipped with the third and connects the contact pin.
3. The Bluetooth function detecting device of the electric energy meter according to claim 2, wherein the second crimping module comprises a fourth cylinder transmission mechanism, a fifth cylinder transmission mechanism, a sixth cylinder transmission mechanism, a fourth meter support, a fifth meter support and a sixth meter support, wherein:
the fourth cylinder transmission mechanism is positioned on one side, far away from the belt track, of the fourth meter support, the fourth cylinder transmission mechanism is in driving connection with the fourth meter support, and a fourth connecting contact pin is arranged on one side, close to the belt track, of the fourth meter support;
the fifth cylinder transmission mechanism is located on one side, far away from the belt track, of the fifth surface support, the fifth cylinder transmission mechanism is in driving connection with the fifth surface support, and a fifth connecting contact pin is arranged on one side, close to the belt track, of the fifth surface support;
sixth cylinder drive mechanism is located sixth table holds in the palm and keeps away from the orbital one side of belt, sixth cylinder drive mechanism with sixth table holds in the palm the drive and is connected, sixth table holds in the palm and is close to orbital one side of belt is equipped with sixth connecting pin.
4. The Bluetooth function detection device for the electric energy meter according to claim 3, wherein the tooling plate is provided with a first electric meter station, a second electric meter station, a third electric meter station, a fourth electric meter station, a fifth electric meter station and a sixth electric meter station;
the first connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the first electric meter station;
the second connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the second electric meter station;
the third connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the third electric meter station;
the fourth connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the fourth electric meter station;
the fifth connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the fifth electric meter station;
and the sixth connecting contact pin is electrically connected with the connecting end of the electric energy meter positioned at the sixth electric meter station.
5. The device for detecting the Bluetooth function of the electric energy meter as claimed in claim 4, wherein the Bluetooth converter is in communication connection with the Bluetooth of the electric energy meter.
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CN202122978094.8U CN217484384U (en) | 2021-11-29 | 2021-11-29 | Bluetooth function detection device for electric energy meter |
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CN202122978094.8U CN217484384U (en) | 2021-11-29 | 2021-11-29 | Bluetooth function detection device for electric energy meter |
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CN217484384U true CN217484384U (en) | 2022-09-23 |
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CN202122978094.8U Active CN217484384U (en) | 2021-11-29 | 2021-11-29 | Bluetooth function detection device for electric energy meter |
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- 2021-11-29 CN CN202122978094.8U patent/CN217484384U/en active Active
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