CN218888204U - Integrated power supply system - Google Patents

Abstract

The application discloses integrated power supply system, integrated power supply system is set up in an regulator cubicle to an external power and a load are connected to the electricity, and the regulator cubicle forms an accommodation space, and integrated power supply system includes a distribution subassembly, an at least UPS subassembly, an environmental data collection subassembly and a data monitoring subassembly. The power distribution assembly is electrically connected to an external power source in a controllable on-off manner. The UPS assembly is electrically connected to the power distribution assembly and electrically connected between the power distribution assembly and the load. The environmental data acquisition assembly comprises a plurality of sensors, is electrically connected with the power distribution assembly and is used for detecting environmental parameters of the accommodating space. The data monitoring assembly comprises a communication component, the communication component is electrically connected with the sensors at the same time and is in communication connection with the cloud processor, and the communication component is used for transmitting the environmental parameters detected by the sensors to the cloud processor.

Description

Integrated power supply system

Technical Field

The utility model relates to a power supply system technical field specifically is integrated power supply system.

Background

The UPS, also called an uninterruptible power supply, is an uninterruptible power supply including an energy storage device, and is used to provide an uninterrupted power supply for some equipment having a high requirement on the stability of the power supply. When the commercial power input is normal, the UPS supplies the commercial power to the load for use after stabilizing the voltage, and the UPS is an alternating current type voltage stabilizer and also charges the battery in the machine; when the commercial power is interrupted, for example, an accident power failure occurs, the UPS immediately converts the dc power of the battery into ac power and continues to supply 220V ac power to the load, so that the load maintains a normal working state.

The existing integrated power supply system is usually installed inside one or more electrical cabinets, and the integrated power supply system is equipped with a plurality of detection sensors, which can detect the environment around the electrical cabinets, for example, detect the temperature and humidity around the electrical cabinets through a temperature sensor and a humidity sensor, and send an alarm when the temperature or humidity exceeds a preset value, so as to ensure that the integrated power supply system is in a normal and stable working environment.

A plurality of detection sensors in the existing integrated power supply system are not connected together in a centralized mode, the sensors are all connected in the integrated power supply system independently, when the sensors need to be debugged, an operator needs to debug the sensors independently, the debugging steps are complex, and the period is long. In addition, since the sensors are individually connected in the integrated power supply system, uniform management of the sensors cannot be implemented.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an advantage lies in providing integrated power supply system, and wherein the data monitoring subassembly can be regulated and control a plurality of sensors uniformly, can also monitor the environmental parameter that a plurality of sensors detected simultaneously to when the sensor detected unusual environmental parameter, in time to external transmission signal.

In order to achieve the utility model discloses above at least one advantage, the utility model provides an integrated power supply system, integrated power supply system is set up in a regulator cubicle to an external power supply and a load are connected to the electricity, wherein the regulator cubicle forms an accommodation space, integrated power supply system includes:

the power distribution assembly is electrically connected with the external power supply in a controllable on-off manner;

at least one UPS assembly electrically and controllably connected between the power distribution assembly and the load;

the environment data acquisition assembly comprises a plurality of sensors, is electrically connected with the power distribution assembly and is used for detecting environment parameters of the accommodating space; and

a data monitoring subassembly, the data monitoring subassembly includes a communication component, the communication component is connected a plurality of electricity simultaneously the sensor, the communication component is connected with a high in the clouds treater communication, the communication component is used for with a plurality of the sensor detects the environmental parameter that obtains and transmits to the high in the clouds treater.

According to the utility model discloses an embodiment, environmental data gathers the subassembly and includes a temperature and humidity sensor and a water leakage detector, temperature and humidity sensor with the water leakage detector all set up in the regulator cubicle, wherein temperature and humidity sensor is close to accommodation space's the first half, the water leakage detector is close to accommodation space's bottom.

According to the utility model discloses an embodiment, environmental data gathers the subassembly and still includes a smoke transducer, smoke transducer be set up in the regulator cubicle, and be close to accommodation space's the first half.

According to the utility model discloses an embodiment, integrated power supply system still includes a display screen, the display screen with the communication component electricity is connected, is used for showing the environmental parameter that the subassembly was gathered is gathered to the environment.

According to an embodiment of the present invention, the electrical cabinet includes a cabinet body and at least one opening and closing door, the cabinet body forms the accommodating space, and the opening and closing door is openably and closably disposed on the cabinet body;

the environmental data acquisition assembly further comprises at least one microswitch, and the microswitch is arranged in the cabinet body and close to the opening and closing door and is used for detecting the opening and closing state of the opening and closing door.

According to the utility model discloses an embodiment, integrated power supply system still includes an at least pilot lamp, the pilot lamp set up in the top of the cabinet body, and with the micro-gap switch electricity is connected, is used for showing micro-gap switch's switching state.

According to an embodiment of the invention, the number of UPS elements is implemented as two, two the UPS elements are connected in parallel to the distribution element with between the load, two the UPS elements can be simultaneously right the load supplies power.

According to the utility model discloses an embodiment, every the UPS subassembly is the maintenance circuit that connects in parallel all, maintain the steerable break-make ground of circuit connect in the distribution subassembly with between the load.

According to the utility model discloses an embodiment, integrated power supply system still includes an at least cooling subassembly, the cooling subassembly with the distribution subassembly electricity is connected, the cooling subassembly is kept in near the cabinet body, the cooling subassembly is used for reducing temperature in the accommodation space.

According to the utility model discloses an embodiment, the cooling subassembly with the communication component electricity is connected.

Drawings

Fig. 1 shows a system block diagram of the integrated power supply system of the present invention.

Fig. 2 shows a circuit diagram of the integrated power supply system according to the present invention electrically connected to an external power source.

Fig. 3 shows a partial circuit diagram of the integrated power supply system of the present invention.

Fig. 4 shows a perspective view of the electrical cabinet of the present invention.

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 in the following description are given 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.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships that are based on those shown in the drawings, which are merely for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus the terms are not to be construed as limiting the invention.

It is understood that the terms "a" and "an" should be interpreted as meaning "at least one" or "one or more," i.e., that a quantity of one element may be one in one embodiment, while a quantity of another element may be plural in other embodiments, and the terms "a" and "an" should not be interpreted as limiting the quantity.

Referring to fig. 1 to 4, an integrated power supply system according to a preferred embodiment of the present invention will be described in detail below. The integrated power supply system is disposed in an electrical cabinet 900 and electrically connected to an external power source 800 and a load 700, so as to provide stable power to the load 700.

The integrated power supply system includes at least one UPS element 10, a power distribution element 20, an environmental data collection element 30, and a data monitoring element 40.

The power distribution assembly 20 is controllably electrically connected to the outside power source 800. The UPS element 10 is electrically and controllably connected to the power distribution element 20, and the UPS element 10 is electrically connected between the power distribution element 20 and the load 700 for providing stable power to the load 700.

The electrical cabinet 900 forms an accommodating space 901, and the UPS module 10, the power distribution module 20, and the environmental data collection module 30 are all located in the accommodating space 901. The environmental data collection assembly 30 includes a plurality of sensors, the plurality of sensors are disposed in the accommodating space 901 and electrically connected to the power distribution assembly 20, and the plurality of sensors are configured to detect environmental parameters of the accommodating space 901.

The data monitoring assembly 40 comprises a communication component 41, the communication component 41 is electrically connected with a plurality of sensors at the same time, the communication component 41 is in communication connection with a cloud processor, the communication component 41 is used for transmitting environmental parameters obtained by sensor detection to the cloud processor, the cloud processor can obtain a plurality of environmental parameters obtained by sensor detection, an alarm range is set according to each environmental parameter, and the environment parameters are monitored by the cloud processor. For example, when a certain environmental parameter exceeds the warning range set by the cloud processor, the cloud processor can transmit an electrical signal to the communication component 41, and then the communication component 41 transmits the electrical signal to the outside, so as to monitor the environmental parameter, notify the outside, and know the working environment of the UPS element 10 and the power distribution element 20 in real time, thereby ensuring that the UPS element 10 and the power distribution element 20 are in a reliable and stable working environment.

Preferably, the communication means 41 is embodied as a 4G communication module. The operator can then interact with the data monitoring component 40 by means of a mobile terminal, which may be a commercially available smartphone. An operator can know the environmental parameters transmitted by the data monitoring assembly 40 in the mobile terminal, so that the operator can know the environmental parameters of the cabinet body 910 in real time.

If a plurality of in the environmental data collection component 30 when the sensor needs the parameter adjustment, communication component 41 connects a plurality of sensor electricity simultaneously, and operating personnel can implement data interaction with the help of mobile terminal with communication component 41 and a plurality of the sensor to be convenient for operating personnel to debug a plurality of the sensor uniformly, shorten the time of sensor debugging. Through data monitoring subassembly 40 with environmental data acquisition subassembly 30 electricity is connected, operating personnel can manage a plurality of the sensor in a unified way, do benefit to these the maintenance and the maintenance of sensor.

For example, when the cloud processor detects that a certain environmental parameter exceeds the warning range corresponding to the certain environmental parameter according to the data transmitted from the communication component 41, the cloud processor transmits an alarm signal to the communication component 41, and then the communication component 41 transmits the alarm signal to the mobile terminal, so that an operator can know the environmental change around the electrical cabinet 900 in time.

The environmental data collection assembly 30 includes a temperature and humidity sensor 31 and a water leakage detector 32, the temperature and humidity sensor 31 and the water leakage detector 32 are both disposed on the electrical cabinet 900, and the water leakage detector 32 is located at the bottom of the accommodating space 901. The temperature and humidity inside the accommodating space 901 can be detected by the temperature and humidity sensor 31 and the water leakage detector 32, so that the inside of the accommodating space 901 is in a normal state.

Specifically, the temperature and humidity sensor 31 is disposed above the electrical cabinet 900. When humidity or temperature exists in the electrical cabinet 900, moisture moves to the upper side of the accommodating space 901, and the temperature and humidity sensor 31 can preferentially detect the humidity or temperature inside the electrical cabinet 900, so that the temperature and humidity sensor 31 can detect the moisture in the electrical cabinet 900 conveniently. Preferably, as shown in fig. 4, the temperature and humidity sensor 31 is disposed on an inner sidewall of the electrical cabinet 900.

The water leak detector 32 is disposed below the electrical cabinet 900, and when water enters the electrical cabinet 900, the water leak detector 32 can contact the water earlier, so that the water leak detector 32 can be triggered quickly. Preferably, the water leak detector 32 is disposed on the inner bottom wall of the electrical cabinet 900.

The integrated power supply system further comprises a display screen 50, wherein the display screen 50 is electrically connected with the data monitoring assembly 40 and is used for displaying the environmental parameters acquired by the environment acquisition assembly 30, so that an operator can intuitively know the internal environment of the electrical cabinet 900.

Preferably, the display screen 50 is implemented as a touch display screen, and an operator can adjust and control parameters of the sensors by means of cooperation of the touch display screen and the data monitoring component 40. By means of the interaction of the touch display screen, the communication component 41 and the cloud processor, the warning range of a certain environment parameter can be adjusted. For example, the warning range of a certain environmental parameter is adjusted to be small, so that the data monitoring component 40 can give early warning to ensure that the UPS components 10 and the power distribution components 20 are in a good working environment.

The electrical cabinet 900 includes a cabinet body 910 and at least one opening and closing door 920, the accommodating space 901 is formed inside the cabinet body 910, the opening and closing door 920 is openably and closably disposed on the cabinet body 910, and when the opening and closing door 920 is opened or closed, the opening and closing condition between the accommodating space 901 and the outside can be changed.

The environmental data collecting assembly 30 further includes at least one micro switch 33, the micro switch 33 is disposed on the cabinet 910, and is close to the opening/closing door 920, and is configured to detect an opening/closing state of the opening/closing door 920. Specifically, when the opening and closing door 920 is in a closed state on the cabinet 910, the opening and closing door 920 contacts with the micro switch 33, the micro switch 33 is in a triggered state, and the accommodating space 901 is not communicated with the external space; when the opening and closing door 920 is in an open state, the microswitch 33 is in an unfired state, and the accommodating space 901 is communicated with an external space. Therefore, the activated state of the microswitch 33 can reflect the communication between the accommodating space 901 and the external space.

Specifically, the integrated power supply system further includes an indicator light, which is disposed at the top of the cabinet body 910, and is electrically connected to the micro switch 33, for displaying the on/off state of the micro switch 33.

Preferably, the indicator lights can emit lights of different colors, and the states of the micro switch 33 and the opening/closing door 920 can be reflected by the lights of different colors. Specifically, the indication lamp can emit green and red colors, for example, when the micro switch 33 is in the activated state, the indication lamp emits green light, and when the micro switch 33 is in the non-activated state, the indication lamp emits red light. With the micro switch 33 and the indicator lamp, an operator can know the open or closed state of the opening/closing door 920 from the color of the indicator lamp. When a plurality of the cabinet bodies 910 are placed side by side, an operator can quickly see the opening and closing door 920 which is opened by means of the color of the indicator lamp, so that the opening and closing door 920 can be conveniently and abnormally opened by the operator.

Further preferably, the microswitch 33 is electrically connected with the communication component 41 and the touch display screen at the same time, and the touch display screen can display the trigger state of the microswitch 33, so as to reflect the communication condition between the cabinet body 910 and the outside, and facilitate the operator to process the opening and closing door 920 in time. For example, when the opening/closing door 920 is opened abnormally, the microswitch 33 is in an unfired state, and the communication component 41 can send an abnormal opening electric signal to the mobile terminal of the operator, so that the operator can know the real-time state of the opening/closing door 920, and the operator can timely handle the opening/closing door 920.

The environmental data collecting assembly 30 further includes at least one smoke sensor 34, the smoke sensor 34 is disposed in the cabinet 910 and located above the accommodating space 901 for detecting whether smoke exists in the accommodating space 901, and the smoke sensor 34 is electrically connected to the display screen 50, so that data detected by the smoke sensor 34 can be displayed through the display screen 50, and an operator can know the condition inside the accommodating space 901.

The number of the existing UPS components is only one, and a single UPS component supplies power to a load, so that the UPS component is often in a high-load working state, and the damage of the UPS component is easily caused.

The number of UPS elements 10 is implemented as two, and two UPS elements 10 are connected in parallel between the power distribution assembly 20 and the load 700, so that the integrated power system employs two UPS elements 10 to simultaneously power the load 700. This application is right with the help of two UPS subassembly 10 the load is supplied power, can guarantee every UPS subassembly 10 is in lower load at the in-process of power supply, can prolong the life of UPS subassembly 10 reduces the frequency that UPS subassembly 10 was maintained or was maintained can guarantee load 700 normally works.

Specifically, the UPS element 10 is electrically connected to the power distribution element 20 and two ends of the load 700 and is electrically connected to at least one control switch, and the control switch is used for controlling the on/off states of the UPS element 10 and the power distribution element 20.

When the UPS element 10 needs to be maintained and repaired, because the integrated power supply system has two UPS elements 10, it is possible to repair two UPS elements 10 one by one, i.e. one UPS element 10 is used for supplying power to the load 700, and the other UPS element 10 is powered off and maintained and repaired by an operator, and it is possible to complete the maintenance and repair of the UPS elements 10 without affecting the normal operation of the load 700.

In addition, each UPS element 10 is connected in parallel to a maintenance circuit 11, and the maintenance circuit 11 is electrically connected between the power distribution assembly 20 and the load 700 in a controllable manner.

If two when the UPS subassembly 10 need maintain the maintenance simultaneously, can be with parallelly connected every this moment on the UPS subassembly 10 maintain circuit 11 and switch on, at this moment, external power source 800 directly passes through distribution assembly 20 is right load 700 power supply, UPS subassembly 10 quilt maintain circuit 11 short circuit, will again control switch among the UPS subassembly 10 breaks off, also can be right the UPS subassembly 10 is maintained and is overhauld, it can deal with two to maintain circuit 11 the condition that the UPS subassembly 10 need maintain the maintenance simultaneously.

The integrated power supply system further includes at least one cooling component 60, the cooling component 60 is electrically connected to the power distribution component 20, the cooling component 60 is held near the cabinet 910, the cooling component 60 has an air outlet, the air outlet is used for guiding air into the accommodating space 901 to reduce the temperature inside the accommodating space 901, so that the power distribution component 20 and the UPS component 10 in the accommodating space 901 are at proper temperatures, and a good working environment is provided for the power distribution component 20 and the UPS component 10. Specifically, the cooling assembly 60 may be implemented as a fan or an air conditioner, and the fan or the air conditioner is disposed such that an air outlet of the fan or the air conditioner is aligned with the accommodating space 901, so as to introduce cold air into the accommodating space 901, thereby achieving the purpose of reducing the temperature inside the cabinet 910.

Preferably, the cooling assembly 60 is in communication connection with the communication component 41, so that the cloud processor can send an electric signal to the cooling assembly 60 by means of the communication component 41, thereby controlling the working state of the cooling assembly 60. For example, when the temperature and humidity sensor 31 detects that the temperature inside the cabinet body 910 is too high, the temperature and humidity sensor 31 generates a high temperature alarm signal to the communication component 41, and then the communication component 41 and the cloud processor transmit the high temperature alarm signal to the mobile terminal, so that an operator can know the condition that the temperature inside the cabinet body 910 is too high, at this time, the operator can interact with the cooling component 60 by means of the mobile terminal, increase the power of the cooling component 60, increase the rate at which the cooling component 60 reduces the temperature inside the accommodating space 901, and reduce the temperature inside the accommodating space 901 by means of the cooling component 60.

It will be understood by those skilled in the art that the embodiments of the present invention described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The advantages of the present invention are complete and effective. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. The integrated power supply system is arranged on an electrical cabinet and electrically connected with an external power supply and a load, and the electrical cabinet forms an accommodating space, and the integrated power supply system is characterized by comprising:

the power distribution assembly is electrically connected with the external power supply in a controllable on-off manner;

at least one UPS assembly electrically and controllably connected between the power distribution assembly and the load;

the environment data acquisition assembly comprises a plurality of sensors, is electrically connected with the power distribution assembly and is used for detecting environment parameters of the accommodating space; and

a data monitoring subassembly, the data monitoring subassembly includes a communication component, the communication component is connected a plurality of electricity simultaneously the sensor, the communication component is connected with a high in the clouds treater communication, the communication component is used for with a plurality of the sensor detects the environmental parameter that obtains and transmits to the high in the clouds treater.

2. The integrated power supply system of claim 1, wherein the environmental data collection assembly comprises a temperature and humidity sensor and a water leakage detector, the temperature and humidity sensor and the water leakage detector are both disposed on the electrical cabinet, the temperature and humidity sensor is close to an upper half portion of the accommodating space, and the water leakage detector is close to a bottom portion of the accommodating space.

3. The integrated power supply system of claim 2, wherein the environmental data collection assembly further comprises a smoke sensor disposed in the electrical cabinet proximate to the upper portion of the receiving space.

4. The integrated power supply system of claim 3, further comprising a display screen electrically connected to the communication member for displaying the environmental parameters collected by the environmental collection assembly.

5. The integrated power supply system according to claim 4, wherein the electrical cabinet comprises a cabinet body and at least one opening and closing door, the cabinet body forms the accommodating space, and the opening and closing door is openably and closably arranged on the cabinet body;

the environmental data acquisition assembly further comprises at least one microswitch, and the microswitch is arranged in the cabinet body and close to the opening and closing door and is used for detecting the opening and closing state of the opening and closing door.

6. The integrated power supply system according to claim 5, further comprising at least one indicator light, wherein the indicator light is disposed on the top of the cabinet and electrically connected to the micro switch for displaying an on/off state of the micro switch.

7. The integrated power supply system of claim 1, wherein the number of UPS elements is implemented as two, two UPS elements being connected in parallel between the power distribution element and the load, the two UPS elements being capable of simultaneously supplying power to the load.

8. The integrated power supply system of claim 7, wherein each of the UPS elements is electrically connected in parallel with a maintenance circuit that is controllably electrically connected between the power distribution element and the load.

9. The integrated power supply system of claim 5, further comprising at least one temperature reduction assembly electrically connected to the power distribution assembly, the temperature reduction assembly being maintained proximate to the cabinet, the temperature reduction assembly configured to reduce a temperature within the receiving space.

10. The integrated power supply system of claim 9, wherein the cooling assembly is electrically connected to the communication member.

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