DE202022102987U1 - Device for real-time temperature measurement of a voltage converter at the generator output - Google Patents

Abstract

Device for real-time temperature measurement of a voltage converter at the generator output, characterized in that it comprises the following assembly:
a mounting assembly (100) comprising a mounting plate (101), a mounting bolt (102) provided in the internal cavity of the mounting plate (101), and a placement slot (103) provided at the bottom of the mounting plate (101),
a mounting assembly (200) provided on the underside of the mounting assembly (100), having a driving part (201), a mounting part (202) provided at one end of the driving part (201), a rotating part (203),
which is provided at the other end of the driving part (201), and an auxiliary part (204) which is provided at one side of the driving part (201),
a monitoring assembly (300) arranged on the underside of the mounting assembly (100) and having a temperature monitoring element (301), a humidity monitoring element (302) arranged on the underside of the mounting plate (101) and an alarm element (303) is provided.

Description

technical field

This utility model relates to the technical field of thermal energy generation, in particular to a device for real-time temperature measurement of a voltage converter at the generator output.

background technology

Thermal power generation generally refers to the use in which coal, oil, natural gas and other fuels are burned to generate thermal energy to heat water. The heated water becomes steam at high temperature. The water vapor drives the generator to produce electricity. In China's thermal power plants, coal is the main fuel. The output voltage converter of the generator is resin-injected, which due to the high voltage level and accurate inspection and temperature measurement, may cause electric shock accidents during the operation of the equipment, resulting in the inability to effectively ensure the safety of people and the equipment. Due to the quality of the generator voltage converter and the gradually increasing load on the voltage converter, the operating temperature of the voltage converter needs to be tracked and checked urgently.

Content of the utility model

The purpose of this part is to outline some aspects of the embodiments of the utility model and to briefly describe some preferred embodiments. Some simplifications or omissions may be made in this part and in the summary of specification and utility model designation of this application in order not to obscure the purpose of this part, the summary of specification and utility model designation, and such simplifications or omissions cannot be used to to limit the scope of the utility model.

In view of the above-mentioned problems with the existing device for real-time temperature measurement of a voltage converter at the generator output, the utility model is proposed.

So the problem to be solved by the utility model is how to monitor the temperature of the voltage converter safely and in real time. In order to solve the above technical problems, the utility model provides the following technical solutions: a device for real-time temperature measurement of a voltage transformer at the generator output, which includes: a mounting assembly that includes a mounting plate, a mounting bolt that is inserted into the inner cavity of the mounting plate and a placement slot attached to the underside of the mounting plate, a mounting assembly located at the bottom of the mounting assembly, and a drive part, a mounting part located at one end of the drive part, and a rotary part located at the other end of the drive part, and an auxiliary part, which is arranged on one side of the drive element, and also a monitoring assembly, which is arranged on the bottom of the mounting assembly and a temperature monitoring element, a humidity monitoring element, which is arranged on the bottom of the mounting plate, s and includes an alarm element.

The device for real-time temperature measurement of a voltage transformer at the generator output in this utility model is considered a preferred solution, wherein the driving part comprises a support plate attached to the bottom of the mounting plate and a threaded rod inserted into the internal cavity of the support plate.

The device for real-time temperature measurement of a voltage transformer at the generator output in this utility model is considered as a preferred solution, wherein the mounting part comprises a mounting bracket attached to one end of the threaded rod and a rubber pad attached to one side of the mounting bracket.

The device for real-time temperature measurement of a voltage converter at the generator output in this utility model is considered as a preferred solution, wherein the rotary part comprises a rotary disc attached to one end of the threaded rod and a slot attached to the outside of the rotary disc.

The device for real-time temperature measurement of a voltage transformer at the generator output in this utility model is considered as a preferred solution, wherein the auxiliary part comprises an auxiliary rod attached to the side of the mounting bracket and an auxiliary roller attached to the outside of the auxiliary rod.

The device for real-time temperature measurement of a voltage converter at the generator output in this utility model is considered as a preferred solution, the tempera ture monitoring element includes a temperature sensor attached to the underside of the mounting plate and a temperature probe attached to the underside of the temperature sensor. The device for real-time temperature measurement of a voltage transformer at the generator output in this utility model is considered a preferred solution, wherein the humidity monitoring element comprises a humidity sensor attached to the underside of the mounting plate and a humidity detection head attached to the underside of the humidity sensor.

The device for real-time temperature measurement of a voltage transformer at the generator output in this utility model is considered a preferred solution, wherein the alarm element comprises a connection plate attached to the bottom of the mounting plate and a buzzer attached to the bottom of the connection plate.

The beneficial effect of the utility model is: by rotating the threaded rod, the mounting bracket can also be driven to rotate and thus the temperature sensor can be fixed. This improves the stability of the temperature sensor during its operation. The rubber pad on the side of the mounting bracket increases the frictional force between the side of the mounting bracket and the temperature sensor, which further improves the stability of the temperature sensor. When the mounting bracket moves, the auxiliary rod will be synchronized to follow the movement, with the auxiliary roller, the process will again improve the stability of the mounting bracket. With the help of the temperature sensor and the temperature measuring head, the operating temperature of the voltage converter is monitored in real time. The temperature data obtained through monitoring can be displayed through the external decentralized controller for users' reference without the user monitoring manually, resulting in both the person and the voltage converter being safe during the working operation.

character list

• 1: ein Strukturdiagramm der Vorrichtung zur Echtzeit-Temperaturmessung des Spannungswandlers am Generatorausgang.
• 2: ein Strukturdiagramm der Montagebaugruppe der Vorrichtung zur Echtzeit-Temperaturmessung des Spannungswandlers am Generatorausgang in einer anderen Ansicht.
• 3: ein schematisches Diagramm der Vorrichtung zur Echtzeit-Temperaturmessung des Spannungswandlers am Generatorausgang in einer anderen Ansicht.
• 4: ein Strukturdiagramm der Befestigungsbaugruppe der Vorrichtung zur Echtzeit-Temperaturmessung des Spannungswandlers am Generatorausgang.

In order to more clearly illustrate the technical solution of the utility model, in the following, in the description of the embodiment, the need to use the attached drawings will be briefly explained. It is obvious that the following description of the attached drawings are just some embodiments of the utility model, for those skilled in the art, according to these attached drawings, still other drawings can be obtained without using the premise of creative work. Among them are:

• 1 : a structural diagram of the device for real-time temperature measurement of the voltage converter at the generator output.
• 2 : a structural diagram of the mounting assembly of the device for real-time temperature measurement of the voltage converter at the generator output in a different view.
• 3 : a schematic diagram of the device for real-time temperature measurement of the voltage converter at the generator output in a different view.
• 4 : a structural diagram of the mounting assembly of the device for real-time temperature measurement of the voltage converter at the generator output.

Specific Embodiments

In order to make the above purpose, features and advantages of the utility model clearer and easier to understand, the following detailed description of the specific implementation of the utility model is made in conjunction with the accompanying drawings of the specification.

However, the utility model can also be implemented in ways other than those described herein, and a person skilled in the art can make similar extensions without violating the meaning of the utility model, so the utility model is not limited by the specific embodiments disclosed below.

Second, as used herein, the term "an embodiment" or "embodiment" refers to a specific feature, structure, or characteristic that may be included in at least one embodiment of the utility model. The words "in one embodiment" appearing in various places in this specification do not all refer to the same embodiment, nor are they separate or selective, mutually exclusive embodiments with other embodiments.

Embodiment 1

With reference to 1 , 2 and 3 This first embodiment of the utility model provides a device for real-time temperature measurement of the voltage converter at the generator output, which comprises a mounting assembly 100, a fastening assembly 200 and a monitoring assembly 300. By inserting the assembly assembly 100, it is for User easy to install the device at the top of the voltage transformer cabinet cavity, and by inserting the mounting assembly 200, it is easy for the user to install or disassemble the temperature monitoring components in the device, and by inserting the monitoring assembly 300, the voltage transformer can be real-time be monitored without the user having to manually monitor it, which effectively ensures the safety of people and equipment during the inspection of the operation.

Specifically, the mounting assembly 100 includes a mounting plate 101, a mounting bolt 102 inserted into the internal cavity of the mounting plate 101, and a placement slot 103 inserted into the bottom of the mounting plate 101. FIG. The temperature monitor element 301 can be inserted into the placement slot 103 .

Preferably, the mounting assembly 200, which is attached to the underside of the mounting assembly 100, comprises a driving part 201, a fastening part 202, which is attached to one end of the driving part 201, a rotary part 203, which is attached to the other end of the driving part 201, and a Auxiliary part 204 attached to one side of the driving part 201. The auxiliary part 204 can improve the stability of the fastening part 202, thereby improving the fastening effect of the fastening part 202 to the temperature monitor element 301. Preferably, the monitoring assembly 300, which is attached to the underside of the mounting assembly 100, comprises a temperature monitoring element 301, a humidity monitoring element 302, which is attached to the underside of the mounting plate 101, and an alarm element 303. The temperature monitoring element 301 can monitor the temperature of the voltage converter in real time , and the data obtained from the monitoring can be displayed to the user via an external decentralized control system. The temperature monitoring element 302 can also monitor the temperature of the voltage converter via the temperature monitoring element 301 . The humidity monitor element 302 can also monitor the humidity in the voltage converter cabinet, which further improves the range of application of the device. When the voltage converter temperature is abnormal, the alarm element 303 can be controlled by the external decentralized control system to alarm the user.

In use, the device can be moved through the mounting plate 101 to the top of the internal cavity of the voltage transformer cavity and then the mounting bolt 102 can be rotated into external attachment to complete the attachment. The temperature monitor element 301 can be placed in the placement slot 103 . After the temperature monitor element 301 is placed in the placement slot 103 , the driving part 201 can be driven by the rotating part 203 to move the fixing part 202 and then to fix the temperature monitor element 301 . The auxiliary part 204 can improve the stability of the fixing part 202 to improve the fixing effect of the fixing part 202 to the temperature monitor element 301 . The temperature monitor element 301 can monitor the temperature of the voltage converter in real time, and the monitored data can be displayed through the external distributed control system for a reference to the users, and through the humidity monitor element 302, the humidity monitor element 302 can also monitor the humidity inside the voltage converter cavity, which further improves the field of application of this device. When the voltage converter temperature is abnormal, the alarm element 303 can be controlled by the external decentralized control system to alarm the user.

Embodiment 2

Referring to 3 and 4 the second embodiment of the utility model is presented based on the previous embodiment. In particular, the driving part 201 comprises a support plate 201a arranged on the underside of the mounting plate 101 and a threaded rod 201b inserted into the inner cavity of the support plate 201a. The outside of the threaded rod 201b is screwed to the inner wall of the support plate 201a, and rotating the threaded rod 201b can drive the fixing bracket 202a to fix the temperature sensor 301a and improve the stability of the temperature sensor 301 in the process of use.

Specifically, the attachment member 202 includes an attachment bracket 202a attached to one end of the threaded rod 201b and a rubber pad 202b attached to one side of the attachment bracket 202a. The rubber pad 202b on a side of the mounting bracket 202a can improve the friction between the side of the mounting bracket 202a and the temperature sensor 301a, thereby further improving the stability of the temperature sensor 301a.

In particular, the auxiliary part 204 comprises an auxiliary rod 204b, which is arranged on one side of the mounting brackets 202a, and an auxiliary roller 204a arranged on the outside of the auxiliary bar 204b. One end of the auxiliary rod 204b is fixed to one side of the mounting bracket 202a, one end of the auxiliary roller 204a is fixed to one side of the support plate 201a, and the outside of the auxiliary rod 204b is slidably connected to the inner wall of the auxiliary roller 204a. As the mounting bracket 202a moves, the auxiliary rod 204b follows its synchronous movement, thus cooperating with the auxiliary roller 204a to improve the stability of the mounting bracket 202a as it moves. Preferably, the temperature monitoring element 301 comprises a temperature sensor 301a attached to the underside of the mounting plate 101 and a temperature measuring head 301b attached to the underside of the temperature sensor 301a. The temperature sensor 301a and the temperature measuring head 301b use the gas property of the rising hot air to monitor the operating temperature of the voltage converter in real time, and the data obtained from the monitoring can be used to display the temperature data through an external decentralized control system without the need of the User has to monitor them manually, which effectively ensures the safety of people and equipment while checking the operation of the voltage converter.

Preferably, the alarm element 303 includes a connection plate 303a on the bottom of the mounting plate 101 and a buzzer 303b on the bottom of the connection plate 303a, which can be controlled by the external decentralized control system to warn the user when the temperature of the voltage converter is in an abnormal state is.

In use, after inserting the temperature sensor 301a into the placement slot 103, by rotating the threaded rod 201b, the fixing bracket 202a can be moved to fix the temperature sensor 301a, thereby improving the stability of the temperature sensor 301a in the use process. The rubber pad 202b on the side of the mounting bracket 202a can improve the friction between the side of the mounting bracket 202a and the temperature sensor 301a, thereby further improving the stability of the temperature sensor 301a. When the mounting bracket 202a moves, the auxiliary rod 204b will follow its synchronous movement to cooperate with the auxiliary roller 204a and improve the stability of the mounting bracket 202a. The voltage converter is monitored during its operation by the temperature sensor 301a with the temperature measuring head 301b using the gas properties of the rising, healthy air. The data obtained from the monitoring can be displayed by the external decentralized control system as a reference for the users without the user having to monitor them manually, thereby checking the safety of the people and the devices used during the operation of the voltage converter are effectively guaranteed.

Embodiment 3

According to the 3 and 4 is the third embodiment of the utility model, which is based on the first two embodiments.

Specifically, the rotary member 203 includes a rotary disc 203a provided at one end of the screw rod 201b and a slot 203b provided on the outside of the rotary disc 203a. One end of the rotary disc 203a is fixedly connected to one end of the screw rod 201b, and by providing the rotary disc 203a, it is easy for the user to rotate the screw rod 201b, and the slit 203b is also provided on the outside of the rotary disc 203a to to make it easy for the user to grip the turntable 203a. Preferably, the humidity monitoring element 302 includes a humidity sensor 302a provided on the underside of the mounting plate 101 and a humidity probe 302b provided on the underside of the humidity sensor 302a. The humidity sensor 302a together with the humidity probe 302b can monitor the humidity inside the voltage converter cavity, thereby improving the usability of the device.

In use, after inserting the temperature sensor 301a into the placement slot 103, by rotating the threaded rod 201b, the fixing bracket 202a can be moved to fix the temperature sensor 301a, thereby improving the stability of the temperature sensor 301a in the use process. The rubber pad 202b on the side of the mounting bracket 202a can improve the friction between the side of the mounting bracket 202a and the temperature sensor 301a, thereby further improving the stability of the temperature sensor 301a. When the mounting bracket 202a moves, the auxiliary rod 204b will follow its synchronous movement to cooperate with the auxiliary roller 204a and improve the stability of the mounting bracket 202a. The voltage converter is monitored during its operation by the temperature sensor 301a with the temperature measuring head 301b using the gas properties of the rising, healthy air. the Data obtained from the monitoring can be displayed by the external decentralized control system as a reference for the users without the user having to monitor them manually, thereby checking the safety of the people and the devices that are checked during the operation of the voltage converter , effectively guaranteed. By inserting the rotary disc 203a, the user can easily rotate the threaded rod 201b, and the outside of the rotary disc 203a is also provided with a slot 203b, so that the user can easily grasp the rotary disc 203a, and the humidity sensor 302a can be connected together with the humidity measuring head 302b monitor the humidity in the voltage transformer cavity, which improves the application range of this device.

It should be noted that the above embodiments only serve to illustrate the technical solution of the utility model. They are not limitations. Although the utility model is described in detail with reference to the better embodiments, the person of ordinary skill in the art should understand that the technical solution of the utility model can be modified or substituted equivalently without departing from the spirit and scope of the technical solution of the utility model, which should be covered by the claims of the utility model. And the scope of the utility model should also be covered.

Claims (8)

Device for real-time temperature measurement of a voltage converter at the generator output, characterized in that it comprises the following assembly: a mounting assembly (100) having a mounting plate (101), a mounting bolt (102) provided in the internal cavity of the mounting plate (101), and a placement slot (103) provided at the bottom of the mounting plate (101), a mounting assembly (200) provided at the bottom of the mounting assembly (100), having a driving part (201), a mounting part (202), provided at one end of the driving part (201), a rotary part (203) provided at the other end of the driving part (201), and an auxiliary part (204) provided at one side of the driving part (201). Monitoring assembly (300), which is arranged on the underside of the mounting assembly (100), and with a temperature monitoring element (301), a humidity monitoring element (302) on the underside the mounting plate (101) is arranged, and an alarm element (303) is provided. Device for real-time temperature measurement of a voltage converter at the generator output claim 1 , characterized in that the drive part (201) comprises a support plate (201a) attached to the bottom of the mounting plate (101) and a threaded rod (201b) inserted into the internal cavity of the support plate (201a). Device for real-time temperature measurement of a voltage converter at the generator output claim 2 , characterized in that the attachment part (202) comprises an attachment bracket (202a) attached to one end of the threaded rod (201b) and a rubber pad (202b) attached to one side of the attachment bracket (202a). Device for real-time temperature measurement of a voltage converter at the generator output claim 3 , characterized in that the rotary member (203) comprises a rotary disc (203a) attached to one end of the threaded rod (201b) and a slot (203b) attached to the outside of the rotary disc (203a). Device for real-time temperature measurement of a voltage converter at the generator output claim 3 , characterized in that the auxiliary part (204) comprises an auxiliary rod (204b) attached to one side of the mounting bracket (202a) and an auxiliary roller (204a) attached to the outside of the auxiliary rod (204b). Device for real-time temperature measurement of a voltage converter at the generator output claim 2 , characterized in that the temperature monitoring element (301) comprises a temperature sensor (301a) attached to the underside of the mounting plate (101) and a temperature measuring head (301b) attached to the underside of the temperature sensor (301a). Device for real-time temperature measurement of a voltage converter at the generator output claim 6 , characterized in that the humidity monitoring element (302) comprises a humidity sensor (302a) attached to the underside of the mounting plate (101) and a humidity detection head (302b) attached to the underside of the humidity sensor (302a). Device for real-time temperature measurement of a voltage converter at the generator output claim 7 , characterized in that the alarm element (303) comprises a connection plate (303a) attached to the underside of the mounting plate (101) and a buzzer (303b) attached to the underside of the connection plate (303a).

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