The utility model relates to the field of chargers, in particular to a two in one charging stand for vacuum cleaners.
[background technology]
Nowadays, the charger of vacuum cleaner usually charges the vacuum cleaner or the battery separately. In the case of only one battery, when the battery has no power, it can only wait for recharging. In order to increase the service time and reduce the waiting time for charging, some of them are equipped with multiple batteries. However, since the charger can only charge one battery, when the battery is fully charged, it is necessary to remind to replace it to charge other batteries. If a person is in the state of leaving or forgetting to replace, then only one of the batteries is in the fully charged state. After using, it needs to wait for charging, resulting in that even if there are multiple batteries, they can not play their best role.
Currently, the chargers of DC vacuum cleaners on the market can only charge the product or battery, that is, it is designed to charge the product itself (in this case, the rechargeable battery is located inside the product), or it is only used to charge the battery (in this case, it is generally equipped with extra batteries that can be replaced).
The shortage of the first kind of charger is that the service time of the product is limited. As long as the battery is out of power, it needs to be recharged and reused.
The second kind of charger can only charge one battery. It is obviously unrealistic to always remember to replace the battery for charging in order to ensure that both batteries are fully charged. However, when the vacuum cleaner is used, the power of one battery may not be enough to maintain one cleaning, so additional batteries are needed.
[contents of utility model]
In order to solve the above technical problem, the utility model provides a two in one charging stand for vacuum cleaner, which can not only charge the battery but also charge the product, and can solve the problem that the DC product is limited to the service time.
A technical scheme adopted by the utility model is: to provide a two in one charging stand for vacuum cleaner, including a charger base and a charging base shell assembled on the charger base. The charging base shell is provided with charging ports. The charging ports include two groups of charging ports, which are machine charging ports and battery pack charging ports respectively. The machine charging ports include at least four shrapnel, The battery pack charging port includes a plug-in holder. In a better embodiment of the utility model, the charger base comprises a bottom shell, an upper cover covered on the bottom shell, and a PCB board arranged between the bottom shell and the upper cover. The charging base shell comprises a front cover and a rear cover which are assembled on the upper cover.
In a better embodiment of the utility model, the PCB board is provided with two groups of indicator lights, each group of indicator lights includes a power indicator and a charging indicator respectively.
In a better embodiment of the utility model, the shrapnel comprises a positive pole shrapnel, a negative pole shrapnel, a grounding shrapnel and a communication shrapnel.
In a better embodiment of the utility model, the shrapnel and the insert seat are fixed on the back cover, and are respectively connected with the PCB through wires.
In a better embodiment of the utility model, the indicator lamp is an LED lamp.
In a better embodiment of the utility model, the indicator light is fixed on the upper cover.
In a better embodiment of the utility model, the input voltage of the PCB board is 110 ~ 240V AC.
In a better embodiment of the utility model, the PCB board is fixed on the bottom shell through screws.
The beneficial effect of the utility model is: the two in one charging stand for the vacuum cleaner of the utility model can not only charge the battery, but also charge the product. When the product is in use, the charger charges the other battery, when the power of the product is used up, the other battery is replaced to continue to use, and the product is put back on the charging base after use. Several batteries are still in full charge state in the next use, which effectively solves the problem that DC products are limited to the use time.