CN203827280U - Remote monitoring type photovoltaic junction box based on Hall sensor and WIFI transmission - Google Patents

Abstract

The utility model discloses a remote monitoring type photovoltaic junction box based on a Hall sensor and WIFI transmission. The remote monitoring type photovoltaic junction box comprises a diode string, two photovoltaic cable interfaces, a Hall effect sensor module and an MCU microprocessor. The diode string comprises a plurality of diodes which are connected in series in the same direction, the number of the diodes is same with that of photovoltaic cells, and the diodes are in corresponding parallel connection with the photovoltaic cells. The two photovoltaic cable interfaces are respectively connected to the two ends of the diode string. The Hall effect sensor module is respectively connected to the line of each diode in the diode string, and the output end of the Hall effect sensor module is connected with the MCU microprocessor. The MCU microprocessor is connected with a control host machine outside the photovoltaic junction box through WIFI. According to the remote monitoring type photovoltaic junction box, a Hall effect sensor is used to detect the current which passes through the diode string, the MCU microprocessor with a monitoring function is integrated, when the Hall effect sensor defects that the current which passes through the diode is too high, the monitored abnormal state is transmitted to the control host machine through the WIFI, and the real-time monitoring of the temperature of the photovoltaic junction box is realized.

Description

Remote monitoring type photovoltaic junction box based on Hall element and WIFI transmission

Technical field

The utility model relates to field of photovoltaic power generation, relates in particular to the photovoltaic junction box being applied in photovoltaic generating system, particularly a kind of remote monitoring type photovoltaic junction box based on Hall element and WIFI transmission.

Background technology

In the electric connection technology of photovoltaic generating system, conventionally adopting photovoltaic junction box to realize photovoltaic module is the electrical connection between solar battery group and inverter.Current photovoltaic junction box arranges an installation cavity between box body, with the conducting strip of diode, is arranged in installation cavity.The quantity of diode is identical with the quantity of solar cell, and with solar cell one by one correspondence be connected in parallel.The effect of diode is to utilize the principle of its forward conduction, oppositely cut-off to prevent that reverse charging from damaging solar battery group, and prevents that the solar cell from opening circuit and cause whole solar battery group all cannot use.When solar battery group all when normal, do not have electric current to flow through diode; When having a solar cell because fortuitous event is cannot normal power generation time, diode protection state starts, and has larger electric current and flows through diode.Because diode is wanted the electric current of the about 10A of conducting when working, can cause a large amount of hot stacks, produce higher temperature, continuous rising along with diode temperature, resistance in diode will constantly increase, cause diode to produce more heat, thereby waste more electric power resource, enter vicious circle.Therefore, in order to guarantee the reliably working of photovoltaic junction box, the temperature of diode can not be very high, and the real-time monitoring of temperature is seemed to particularly important.

Utility model content

For the problems referred to above of existing photovoltaic junction box, applicant, through Improvement, provides a kind of remote monitoring type photovoltaic junction box based on Hall element and WIFI transmission, realizes the real-time monitoring of photovoltaic junction box temperature.

The technical solution of the utility model is as follows:

A kind of remote monitoring type photovoltaic junction box based on Hall element and WIFI transmission, comprise the upper cover and the base that mutually cover, between upper cover and base, form cavity, in described cavity, comprise diode string, photovoltaic cable interface, hall effect sensor module and MCU microprocessor; Described diode string comprises the diode of a plurality of series aiding connections, and the quantity of diode is identical with the quantity of photovoltaic cell, and with photovoltaic cell one by one correspondence be connected in parallel; Described photovoltaic cable interface has two, is connected to respectively the two ends of diode string; Described hall effect sensor module is connected on the circuit of each diode in diode string, and for detecting the electric current that flows through each diode, the output of described hall effect sensor module connects MCU microprocessor; Described MCU microprocessor connects the main control system outside photovoltaic junction box by WIFI.

Useful technique effect of the present utility model is:

The utility model is used hall effect sensor to detect the large electric current of the diode string of flowing through, and the integrated MCU microprocessor with monitoring function, at hall effect sensor, detect and flow through diode current when too high, the abnormality monitoring is transferred to main control system by WIFI, has realized the real-time monitoring of photovoltaic junction box temperature.

Advantage of the present utility model will provide in embodiment description partly below, and part will become obviously from the following description, or recognize by practice of the present utility model.

Accompanying drawing explanation

Fig. 1 is electrical block diagram of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described further.

As shown in Figure 1, photovoltaic junction box of the present utility model, by comprising diode string 1, photovoltaic cable interface 2, hall effect sensor module 3 and MCU microprocessor 4 in the cavity forming between upper cover and base.Diode string 1 comprises the diode of a plurality of series aiding connections, and the quantity of diode is identical with the quantity of photovoltaic cell 5, and with photovoltaic cell 5 one by one correspondence be connected in parallel.Two photovoltaic cable interfaces 2 are connected to respectively the two ends of diode string 1.A plurality of hall effect sensor modules 3 are connected on the circuit of each diode in diode string 1, and for detecting the electric current that flows through each diode, the output of each hall effect sensor module 3 connects MCU microprocessor 4.MCU microprocessor 4 connects the output of each hall effect sensor module 3, and the output of MCU microprocessor connects the main control system 6 outside photovoltaic junction box by WIFI.In hall effect sensor module 3, the electric current of the diode of flowing through detected when too high, illustrate that this diode temperature is too high, the abnormal data of acquisition is transferred out to main control system 6 with WIFI by MCU microprocessor 4, realize the temperature remote real-time monitoring of photovoltaic junction box.Hall effect sensor module 3 described in the utility model and MCU microprocessor 4, main control system 6 are commercial goods.

Above-described is only preferred implementation of the present utility model, and the utility model is not limited to above embodiment.Be appreciated that the oher improvements and changes that those skilled in the art directly derive or associate under the prerequisite that does not depart from spirit of the present utility model and design, within all should thinking and being included in protection range of the present utility model.

Claims (1)

1. the remote monitoring type photovoltaic junction box based on Hall element and WIFI transmission, comprise the upper cover and the base that mutually cover, between upper cover and base, form cavity, it is characterized in that: in described cavity, comprise diode string (1), photovoltaic cable interface (2), hall effect sensor module (3) and MCU microprocessor (4); Described diode string (1) comprises the diode of a plurality of series aiding connections, and the quantity of diode is identical with the quantity of photovoltaic cell (5), and same photovoltaic cell (5) one by one correspondence be connected in parallel; Described photovoltaic cable interface (2) has two, is connected to respectively the two ends of diode string (1); Described hall effect sensor module (3) is connected on the circuit of each diode in diode string (1), for detecting the electric current that flows through each diode, the output of described hall effect sensor module (3) connects MCU microprocessor (4); Described MCU microprocessor (4) connects the main control system (6) outside photovoltaic junction box by WIFI.