CN111258361B

CN111258361B - Detection device and detection method applied to anti-condensation controller

Info

Publication number: CN111258361B
Application number: CN202010361961.0A
Authority: CN
Inventors: 陈旋基; 温振兴; 谢杨; 林泽坤; 姚东廷; 黄志伟; 吴启明; 陈丽丹; 赖恩威
Original assignee: Huizhou Hongye Electric Power Co ltd; Huizhou Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Huizhou Hongye Electric Power Co ltd; Huizhou Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2020-09-04
Anticipated expiration: 2040-04-30
Also published as: CN111258361A

Abstract

The invention relates to a detection device and a detection method applied to an anti-condensation controller, which comprise the following steps: the box and set up heating module, the refrigeration module, the humidification module in the box, drive damp module, temperature and humidity detection module, the humidification module is used for carrying out the humidification to the setting value in the box, drives damp module and is used for taking out wet to the setting value in the box, heating module is used for heating up to the setting value in the box, the refrigeration module is used for cooling to the setting value to carrying out refrigeration in the box, temperature and humidity detection module is used for detecting temperature value and the humidity value inside and outside the box. The detection device and the detection method applied to the anti-condensation controller are provided with the heating module, the refrigerating module, the humidifying module and the moisture expelling module, and are used for matching the processes of heating, refrigerating, humidifying, dehumidifying and the like in the box body, and simulating different environments of triggering and stopping the anti-condensation controller, so that whether the anti-condensation controller normally works is checked.

Description

Detection device and detection method applied to anti-condensation controller

Technical Field

The invention relates to the technical field of operation and maintenance of power equipment, in particular to a detection device and a detection method applied to a condensation-preventing controller.

Background

The terminal box of the transformer substation is generally arranged outdoors, because the outdoor environment is easy to have adverse environments such as low temperature and rainy days, the terminal box is influenced by overhigh humidity and overlow temperature and is easy to form condensation inside, the condensation can corrode a terminal strip of the terminal box, and under the condition that the insulation performance of parts is reduced, the short circuit phenomenon is often caused, and accidents are caused seriously.

Among the prior art, in order to prevent the terminal box from taking place the condensation, generally set up in the terminal box and prevent condensation controller and the heater and the damp ware that drives that correspond, monitor the temperature and humidity of terminal box through preventing the condensation controller, when the humiture is not conform to the regulation, prevent that the condensation controller passes through control heater and drives the work of damp ware for the atmospheric control of terminal box is in certain extent, thereby effectively prevents the condensation and forms.

The condensation controller that prevents of transformer substation's terminal box is because ordinary lack of maintenance and increase along with equipment operation year, and its humiture sensor that is used for monitoring temperature and humidity takes place after unusual and be difficult to discover. At present, when the moistureproof function of the terminal box is checked, operation and maintenance personnel can only carry out indirect check by manually starting the function or manually setting the starting and stopping of the anti-condensation controller until the temperature and the humidity of the on-site environment meet the starting and stopping conditions, and the method belongs to a passive check mode and cannot scientifically and visually judge whether the anti-condensation controller can be normally started.

Therefore, we need a detection apparatus that can be used to detect whether the anti-condensation controller normally operates urgently to realize examining the anti-condensation controller operating condition, thereby guarantee the normal work of terminal box, reduce the potential safety hazard in the facility operation process.

Disclosure of Invention

In order to solve the technical problem that the anti-condensation controller cannot be scientifically and intuitively judged whether the anti-condensation controller can be normally started, the invention provides a detection device and a detection method applied to the anti-condensation controller.

According to a first aspect of the present invention, the present invention discloses a detection device applied to a condensation-preventing controller, comprising: the box and set up heating module, the refrigeration module, the humidification module in the box, drive damp module, temperature and humidity detection module, the humidification module is used for carrying out the humidification to the setting value in the box, drives damp module and is used for taking out wet to the setting value in the box, heating module is used for heating up to the setting value in the box, the refrigeration module is used for cooling to the setting value to carrying out refrigeration in the box, temperature and humidity detection module is used for detecting temperature value and the humidity value inside and outside the box.

According to a second aspect of the present invention, the present invention discloses a detection method applied to an anti-condensation controller, comprising the following steps:

step A: setting the detection temperature control range of the detection device of the first aspect of the present invention to (a, B) and the detection humidity control range to (D, C);

and B: a temperature and humidity sensor of the anti-condensation controller is arranged in the box body;

and C: detecting the real-time temperature WO, judging whether the real-time temperature WO is within the detection temperature control range and the temperature control state of the anti-condensation controller, and heating or refrigerating the detection device according to the judgment result to enable the real-time temperature WO to be outside the detection temperature control range;

step D: detecting real-time humidity RH0, judging whether the real-time humidity RH0 is located in a detection humidity control range and judging the temperature control state of an anti-condensation controller, and detecting the humidification or dehumidification of the device according to the judgment result to enable the real-time humidity RH0 to be located outside the detection humidity control range; and

step E: and judging whether the anti-condensation controller fails according to whether the anti-condensation controller is in a corresponding control state after the real-time temperature WO is out of the detection temperature control range or the real-time humidity RH0 is out of the detection humidity control range.

According to an embodiment of the present invention, step C includes: detecting the real-time temperature WO, if the real-time temperature WO is greater than A, judging whether the anti-condensation controller is in a temperature control stop state, if so, refrigerating the detection device to 0.8A, otherwise, heating the detection device to 1.5B; and if the real-time temperature WO is less than A, judging whether the anti-condensation controller is in a temperature control starting state, if so, heating the detection device to 1.2B, otherwise, refrigerating the detection device to 0.5A.

According to an embodiment of the present invention, step D includes: detecting real-time humidity RH0, if the real-time humidity RH0 is larger than C, judging whether the anti-condensation controller is in a humidity control starting state, if so, dehumidifying to 0.8D by the detection device, otherwise, humidifying to 1.5C by the detection device; and if the real-time humidity RH0 is smaller than C, judging whether the anti-condensation controller is in a temperature control stop state, if so, humidifying the detection device to 1.2C, otherwise, dehumidifying the detection device to 0.5D.

According to an embodiment of the present invention, step C is not consecutive to step D.

According to an embodiment of the present invention, the detection method further includes: step F, before step C and step D: and C, detecting the external environment temperature value or humidity value of the box body, and judging whether to start the energy-saving ventilation module to carry out the cooling and heating processes in the step C and the humidifying and dehumidifying processes in the step D according to the external environment temperature value or humidity value.

According to an embodiment of the present invention, step F further includes: detecting whether a temperature control state and a humidity control state shared work indicator lamp exists in the anti-condensation controller, and if not, judging whether an energy-saving ventilation module is started to carry out the heating and cooling process in the step C and the humidifying and dehumidifying process in the step D according to an external environment temperature value or a humidity value; if yes, the energy-saving ventilation module is not started.

According to one embodiment of the invention, the operation process of the energy-saving ventilation module comprises the following steps: and D, after the energy-saving ventilation module is started to operate for a preset time, detecting whether the real-time temperature WO is reduced to 0.8A or heated to 1.2B or the real-time humidity RH0 is humidified to 1.2B or dehumidified to 0.8D, if so, continuing to perform the step E, otherwise, starting the heating module or the refrigerating module or the humidifying module or the moisture expelling module to continue the temperature rise and temperature reduction process in the step C and the humidifying and dehumidifying process in the step D.

The detection device and the detection method applied to the anti-condensation controller are provided with the heating module, the refrigerating module, the humidifying module and the moisture expelling module which are matched with the processes of heating, refrigerating, humidifying, dehumidifying and the like in the box body, and different environments of triggering work and stopping work of the anti-condensation controller are simulated, so that whether the anti-condensation controller works normally or not is checked and verified, meanwhile, the energy-saving ventilation module is also arranged, the energy-saving ventilation module is used for preferentially utilizing the external environment temperature and humidity to regulate and control the environment in the detection device, energy is effectively saved, and the endurance time of the detection device is prolonged.

Drawings

FIG. 1 is a schematic structural diagram of a detection apparatus according to the present invention.

Detailed Description

The following describes in detail a detection apparatus and a detection method applied to the anti-condensation controller according to the present invention with reference to the specific embodiments and the accompanying drawings.

Please refer to fig. 1, which is a schematic structural diagram of the detecting device of the present invention.

The invention provides a detection device applied to an anti-condensation controller, which mainly comprises: box 10 and set up heating module 20 in box 10, refrigeration module 30, humidification module 40, drive damp module 50, temperature and humidity detection module 60, wherein humidification module 20 is used for humidifying to the setting value in the box 10, drive damp module 50 is used for dehumidifying to the setting value in the box 10, heating module 20 is used for heating to the setting value in the box 10, refrigeration module 30 is used for refrigerating to the setting value in the box, temperature and humidity detection module 60 is used for detecting temperature value and humidity value in the box 10 and outside box 10.

According to the detection device, the temperature and humidity sensors of the anti-condensation controller are arranged in the box body 10, and then the heating module 20, the refrigerating module 30, the humidifying module 40 and the moisture expelling module 50 are used for matching the processes of heating, refrigerating, humidifying, dehumidifying and the like in the box body, so that different environments of triggering work and stopping work of the anti-condensation controller are simulated, and whether the anti-condensation controller works normally or not is checked and verified.

The detection device further comprises an energy-saving ventilation module 70 arranged on the box body 10, wherein the energy-saving ventilation module 70 is used for ventilating the inside and the outside of the box body 10, so that the inside of the box body 10 is heated, cooled, humidified, dehumidified and the like by utilizing the temperature and the humidity of the environment outside the box body 10, and the energy consumption of other modules is reduced. In addition, the detection device is also provided with a rechargeable power supply, and the rechargeable power supply provides a working power supply for the detection device, so that the detection device is more convenient to carry and move, the detection device is suitable for a scene that terminal boxes in a transformer substation are distributed discretely, and the convenience for the detection work of the condensation-preventing controller is improved.

The detection device further comprises a control module 80, the control module 80 is electrically connected with the heating module 20, the refrigerating module 30, the humidifying module 40, the moisture expelling module 50, the temperature and humidity detection module 60 and the energy-saving ventilation module 70 respectively, other modules are controlled to work through the control module, and therefore the normal operation of the detection device is guaranteed, and specifically, the control module can be a single chip microcomputer.

During specific application, be provided with the mounting structure who is used for setting up the temperature and humidity sensor who prevents the condensation controller on the box 10, for example, mounting structure sets up and in the box 10, prevents in the temperature and humidity sensor installation of condensation controller is fixed in mounting structure, for example, mounting structure sets up on the tank wall of box 10, through locating the condensation controller with box 10 direct cover to the realization will prevent that the temperature and humidity sensor of condensation controller sets up in box 10.

The invention also provides a detection method applied to the anti-condensation controller, and the anti-condensation controller is quickly detected mainly through the detection device.

The detection method applied to the anti-condensation controller mainly comprises the following steps A-D.

Step A: the detection temperature control range of the detection device is set to (A, B) and the detection humidity control range is set to (D, C). Wherein A is less than B, and wherein D is less than C. Wherein detection device's detection temperature control range and detection humidity control range are unanimous with preventing the condensation controller, in other words, under the normal condition, when the temperature is less than A, prevent that condensation controller control heater heats, when the temperature is greater than B, prevent condensation controller stop work, when humidity is greater than C, prevent that condensation controller control drives the moisture trap and dehumidifies, when humidity is less than D, prevent condensation controller stop work.

And B: the temperature and humidity sensor of the anti-condensation controller is arranged in the box body 10. For example, the temperature and humidity sensor that the dew controller is used for detecting the humiture can be set in the box 10 of the detection device in a detachable mode, for example, the box 10 is directly sleeved on the dew controller, so that the whole dew controller is located in the box 10, and the temperature and humidity sensor that the dew controller is set in the detection device can be realized.

And C: and detecting the real-time temperature WO, judging whether the real-time temperature WO is positioned in a detection temperature control range and judging the temperature control state of the anti-condensation controller, and heating or refrigerating the detection device according to a judgment result to enable the real-time temperature WO to be positioned outside the detection temperature control range.

When the method is applied specifically, the step C comprises the following steps: detecting a real-time temperature WO, if the real-time temperature WO is greater than A, namely the temperature in the box body 10 is greater than the minimum value of a detection temperature control range of the anti-condensation controller, judging whether the anti-condensation controller is in a temperature control stop state, if so, refrigerating the detection device to 0.8A, for example, refrigerating and cooling through a refrigerating module 30, and if not, heating the detection device to 1.5B, for example, heating through a heating module 20; if the real-time temperature WO is less than a, that is, the temperature in the box 10 is less than the minimum value of the detection temperature control range of the anti-condensation controller, it is determined whether the anti-condensation controller is in the temperature control start state, if so, the detection device is heated to 1.2B, for example, heated by the heating module 20, and if not, the detection device is cooled to 0.5A, for example, cooled by the cooling module 30.

Step D: and detecting the real-time humidity RH0, judging whether the real-time humidity RH0 is positioned in the detection humidity control range and the temperature control state of the anti-condensation controller, and humidifying or dehumidifying by the detection device according to the judgment result to ensure that the real-time humidity RH0 is positioned outside the detection humidity control range.

In specific application, the step D comprises the following steps: detecting real-time humidity RH0, if the real-time humidity RH0 is greater than C, that is, the humidity in the box body 10 is greater than the maximum value of the detection temperature control range of the anti-condensation controller, determining whether the anti-condensation controller is in a humidity control starting state, if so, dehumidifying the detection device to 0.8D, for example, dehumidifying through the moisture-expelling module 50, and if not, humidifying the detection device to 1.5C, for example, humidifying through the humidifying module 40; if the real-time humidity RH0 is less than C, that is, the humidity in the box 10 is less than the maximum value of the temperature control range detected by the anti-condensation controller, it is determined whether the anti-condensation controller is in the temperature control stop state, if so, the detection device humidifies to 1.2C, for example, through the humidifying module 40, and if not, the detection device dehumidifies to 0.5D, for example, through the dehumidifying module 50.

In the invention, the step C and the step D are not in sequence, wherein the temperature and humidity conditions in the detection device are changed through the step C and the step D, so that the condensation-preventing controller is controlled to change the working state.

Step E: according to whether the real-time temperature WO of the anti-condensation controller is outside the detection temperature control range or the real-time humidity RH0 is outside the detection humidity control range and then is in a corresponding control state, the temperature and humidity conditions in the detection device are changed through the step C and the step D, and whether the working state of the anti-condensation controller is changed along with the judgment of the anti-condensation controller is judged, so that whether the anti-condensation controller breaks down is judged.

For example, the real-time temperature WO is greater than a, the anti-condensation controller is in a temperature control stop state, the detection device cools to 0.8A, and then it is determined whether the anti-condensation controller starts the heater for heating, if so, the heating control function of the anti-condensation controller is normal, and if not, the heating control function of the anti-condensation controller fails. For example, the real-time temperature WO is greater than a, the anti-condensation controller is in a temperature control start state, that is, the heater starts heating, the detection device heats to 1.5B, which is much greater than the maximum value of the detection temperature control range, and then it is determined whether the anti-condensation controller stops heating by the heater, if the anti-condensation controller stops heating, the deviation of the heating control function of the anti-condensation controller is large, and if the anti-condensation controller does not stop heating, the heating control function of the anti-condensation controller fails. For example, the real-time temperature WO is less than a, the anti-condensation controller is in a temperature control start state, the detection device is heated to 1.2B, and then it is determined whether the anti-condensation controller stops heating by the heater, if so, the heating control function of the anti-condensation controller is normal, and if not, the heating control function of the anti-condensation controller is failed. For another example, if the real-time temperature WO is lower than a, the anti-condensation controller is in a temperature control stop state, the detection device cools to 0.5A, and then determines whether the anti-condensation controller starts the heater for heating, if so, the deviation of the heating control function of the anti-condensation controller is large, and if not, the heating control function of the anti-condensation controller fails. Wherein whether the humidity control function that detection device detected the condensation controller is normal is similar with its temperature control function that detects the condensation controller, and it is no longer repeated here.

In order to reduce the energy consumption of the detection device and prolong the service life of equipment, the detection method further comprises the following steps: step F before step C and step D, specifically, step F includes: and (4) detecting the temperature value or the humidity value of the external environment of the box body, and judging whether to start the energy-saving ventilation module 70 to carry out the cooling and heating processes in the step C and the humidifying and dehumidifying processes in the step D according to the temperature value or the humidity value of the external environment. The environment temperature and the humidity are preferentially changed from the outside to regulate and control the environment in the detection device, so that the energy is effectively saved, and the endurance time of the detection device is prolonged.

When the external environment temperature is less than 0.8A or higher than 1.2B, the energy-saving ventilation module 70 can be used for performing corresponding cooling and heating processes, and when the external environment humidity is less than 0.8D or higher than 1.2C, the energy-saving ventilation module 70 can be used for performing corresponding dehumidifying and humidifying processes. In specific applications, the operation process of the energy-saving ventilation module 70 includes: after the energy-saving ventilation module 70 is started to operate for a preset time, for example, 10s, it is detected whether the real-time temperature WO is reduced to 0.8A or heated to 1.2B, and it is detected whether the real-time humidity RH0 is humidified to 1.2B or dehumidified to 0.8D, if so, the step E is continued, otherwise, the heating module or the refrigerating module or the humidifying module or the dehumidifying module is started to continue the temperature rise and temperature reduction process in the step C and the humidifying and dehumidifying process in the step D. By setting the working time of the energy-saving ventilation module 70, if the temperature or the humidity can not reach the standard within the preset time, other corresponding modules are switched to work continuously, so that the time consumption of the detection device is shortened, the detection efficiency is improved, and the effectiveness of the detection process is ensured.

In order to apply the above situation, the detection method of the present invention further includes a step G before the step C and the step D, where the step G includes determining whether the temperature control state and the humidity control state shared operation indicator exist in the anti-condensation controller, and if not, controlling the non-detection parameter to a level at which the anti-condensation controller stops operating before the step C or the step D, e.g., controlling the humidity value to be maintained at 0.8D to 0.9D, e.g., controlling the temperature value to be maintained at 1.2 to 1.3B, e.g., 1.2B, e.g., continuing the next step in the step D. And G, reducing the interference of non-detection factors to the detection process, thereby improving the detection accuracy. It is further noted that step F further includes detecting whether the anti-condensation controller has a temperature control state and a humidity control state shared working indicator, and if yes, continuing to determine whether to start the energy-saving ventilation module to perform the temperature rise and temperature reduction process in step C and the humidification and dehumidification process in step D according to the external environment temperature value or humidity value; if not, the energy-saving ventilation module is not started, so that the non-detection condition is not damaged when the energy-saving ventilation module is adopted, the interference of the non-detection factor on the detection process is further ensured, and the stability of the detection process is improved.

In summary, the detection device and the detection method applied to the anti-condensation controller provided by the invention are provided with the heating module, the refrigerating module, the humidifying module and the moisture expelling module, and are used for matching the processes of heating, refrigerating, humidifying, dehumidifying and the like in the box body, and simulating different environments of triggering work and stopping work of the anti-condensation controller, so that whether the anti-condensation controller works normally is checked and verified, and meanwhile, the detection device is also provided with the energy-saving ventilation module, and the energy-saving ventilation module preferentially utilizes the external environment temperature and humidity to regulate and control the environment in the detection device, so that the energy is effectively saved, and meanwhile, the endurance time of the detection device is prolonged.

In the description of the present invention, it is to be understood that terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, which indicate orientations or positional relationships, are used based on the orientations or positional relationships shown in the drawings only for the convenience of describing the present invention and for the simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

While the invention has been described in conjunction with the specific embodiments set forth above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, all such alternatives, modifications, and variations are intended to be included within the spirit and scope of the present invention.

Claims

1. A detection method applied to an anti-condensation controller, comprising a detection device applied to the anti-condensation controller, wherein the detection device comprises: the box and set up in heating module, refrigeration module, humidification module, drive damp module, humiture detection module in the box, the humidification module is used for carrying out humidification to the setting value in the box, it is used for taking out the moisture to the setting value in the box to drive damp module, the heating module is used for heating to the setting value in the box, the refrigeration module is used for cooling to the setting value to carrying out refrigeration in the box, humiture detection module is used for detecting temperature value and humidity value inside and outside the box, its characterized in that includes following step:

step A: setting the detection temperature control range (A, B) and the detection humidity control range (D, C) of the detection device;

and C: detecting the real-time temperature WO, judging whether the real-time temperature WO is within the detection temperature control range and the temperature control state of the anti-condensation controller, and controlling the detection device to heat or refrigerate according to the judgment result to enable the real-time temperature WO to be outside the detection temperature control range;

step D: detecting real-time humidity RH0, judging whether the real-time humidity RH0 is located in a detection humidity control range and judging the temperature control state of an anti-condensation controller, and controlling the detection device to humidify or dehumidify according to the judgment result so that the real-time humidity RH0 is located outside the detection humidity control range; and

step E: judging whether the anti-condensation controller fails according to whether the anti-condensation controller is in a corresponding control state after the real-time temperature WO is out of the detection temperature control range or the real-time humidity RH0 is out of the detection humidity control range;

wherein the step C comprises: detecting the real-time temperature WO, if the real-time temperature WO is greater than A, judging whether the anti-condensation controller is in a temperature control stop state, if so, refrigerating the detection device to 0.8A, otherwise, heating the detection device to 1.5B; and if the real-time temperature WO is less than A, judging whether the anti-condensation controller is in a temperature control starting state, if so, heating the detection device to 1.2B, otherwise, refrigerating the detection device to 0.5A.

2. The detection method applied to the anti-condensation controller according to claim 1, wherein the step D comprises: detecting real-time humidity RH0, if the real-time humidity RH0 is larger than C, judging whether the anti-condensation controller is in a humidity control starting state, if so, dehumidifying to 0.8D by the detection device, otherwise, humidifying to 1.5C by the detection device; and if the real-time humidity RH0 is smaller than C, judging whether the anti-condensation controller is in a humidity control stop state, if so, humidifying the detection device to 1.2C, otherwise, dehumidifying the detection device to 0.5D.

3. The detection method applied to the anti-condensation controller according to any one of claims 1 to 2, wherein the step C is not separated from the step D.

4. The detection method applied to the anti-condensation controller according to claim 3, characterized in that the detection method further comprises: step F, located before step C and step D, said step F: and D, detecting the external environment temperature value or humidity value of the box body, and judging whether to start the energy-saving ventilation module to carry out the heating and cooling process in the step C and the humidifying and dehumidifying process in the step D according to the external environment temperature value or humidity value.

5. The detection method applied to the anti-condensation controller according to claim 4, wherein the step F further comprises: detecting whether a temperature control state and a humidity control state shared work indicator lamp exists in the anti-condensation controller, and if not, judging whether an energy-saving ventilation module is started to carry out the heating and cooling process in the step C and the humidifying and dehumidifying process in the step D according to the external environment temperature value or the humidity value; if yes, the energy-saving ventilation module is not started.

6. The detection method applied to the anti-condensation controller according to claim 5, wherein the operation process of the energy-saving ventilation module comprises the following steps: and E, after the energy-saving ventilation module is started to operate for a preset time, detecting whether the real-time temperature WO is reduced to 0.8A or heated to 1.2B or the real-time humidity RH0 is humidified to 1.2B or dehumidified to 0.8D, if so, continuing the step E, and otherwise, starting the heating module or the refrigerating module or the humidifying module or the moisture expelling module to continue the temperature rise and temperature reduction process in the step C and the humidifying and dehumidifying process in the step D.