CN201409098Y - Elevator power supply - Google Patents

Abstract

The utility model discloses an elevator power supply which comprises a mains supply input terminal and a second power supply input terminal. The elevator power supply is characterized in that a secondpower supply comprises a solar photovoltaic cell and an electrical energy recovery module; the solar energy is transformed into electrical energy by the solar photovoltaic cell; the electrical energygenerated by the elevator in electricity generation state is received by the electrical energy recovery module; the solar photovoltaic cell and the electrical energy recovery module are connected with an input terminal of a voltage preferential module; and an output terminal of the voltage preferential module is connected with an accumulator which supplies second power supply voltage for the elevator running by an inverter. The elevator power supply has the advantages that the solar energy is transformed into electrical energy and the electrical energy generated in the electricity generationof the elevator is input to the accumulator by the electricity recovery module, and the accumulator is taken as the second power supply for the elevator by the inverter, thereby being capable of partially replacing mains supply work, driving the elevator to run normally in case of mains power failure or outage, and improving the convenience of elevator usage.

Description

A kind of elevator power supply source

Technical field

The utility model relates to a kind of power supply (being called for short LPS) of elevator, belongs to power technique fields.

Background technology

The power supply of manned or cargo lift also includes emergency power supply except that connecting utility grid, as storage battery etc.At civil power just often, adopt civil power, drive elevator motor and rotate, realize the lifting of elevator elevator supply.And when utility grid has a power failure or cut off the power supply, can automatically switch to emergency power supply, utilize emergency power supply to drive elevator motor and rotate.In the elevator power supply source of prior art,, just drive the elevator motor running generally speaking, promptly stopping power supply with Elevator landing and after opening elevator door because the emergency power supply capacity is less.Realize the operate as normal of elevator even utilize emergency power supply continuation driving elevator motor to turn round, then along with the consumption of stand-by power supply energy, when mains failure or power-off time are longer, the emergency power supply depleted of energy, elevator is operate as normal again, thereby causes great inconvenience to people's life.

Summary of the invention

The utility model is at elevator power supply source above shortcomings in the prior art, a kind of elevator power supply source is provided, utilize conversion of solar energy to become the power supply of electric energy as elevator, can partly replace civil power work, and when mains failure or outage, drive the elevator operate as normal, improve the elevator ease of use.

For solving the problems of the technologies described above, the utility model is achieved by the following technical solutions:

A kind of elevator power supply source, comprise mains electricity input end and second source input, it is characterized in that, described second source includes solar-energy photo-voltaic cell, electric energy recycling module, described solar-energy photo-voltaic cell is an electric energy with conversion of solar energy, described electric energy recycling module receives the electric energy that sends under the elevator generating state, described solar-energy photo-voltaic cell is connected with voltage preferred module input with the electric energy recycling module, the output of described voltage preferred module is connected with storage battery, and described storage battery provides second supply power voltage by inverter for the elevator operation.

According to the utility model, described elevator power supply source includes the power supply handover module, described mains electricity input end connects an input terminal of described power supply handover module, the output of the inverter in the described second source connects another input terminal of described power transfer device, and the output of described power supply handover module connects described elevator power output end; When the voltage of described storage battery was enough, described power supply handover module turn-offed described mains-supplied path, and the described second source supply access of conducting provides supply power voltage by storage battery for the elevator operation by described solar-energy photo-voltaic cell and/or electric energy recycling module.

According to the utility model, the charging terminal of described storage battery connects the lead-out terminal of described solar-energy photo-voltaic cell; The lead-out terminal of described storage battery connects the input terminal of described inverter, and then connects an input terminal of described power supply handover module by described inverter.

According to the utility model, the electric energy that described electric energy recycling module produces when reclaiming the elevator operation, and described storage battery charged, to described storage battery, the charging terminal of described storage battery connects the lead-out terminal of described electric energy recycling module with described electrical power storage; The lead-out terminal of described storage battery connects the input terminal of described inverter, and then connects an input terminal of described power supply handover module by described inverter.

According to the utility model, include the electric energy preferred module that charging voltage is selected in the described elevator power supply source, the input terminal of described electric energy preferred module connects the lead-out terminal of described solar-energy photo-voltaic cell and the lead-out terminal of described electric energy recycling module respectively, and the output of described electric energy preferred module connects the charging terminal of described storage battery.

According to the utility model, between the two ends of described power supply handover module, also be parallel with normal open switch, described normal open switch described elevator power supply source just often disconnect and when described second power supply breaks down the service switch of closure.

According to the utility model, described elevator power supply source also is provided with display module.Described display module is preferably the LCD LCDs.

Compared with prior art, advantage of the present utility model and good effect are: described elevator power supply source is by inserting solar-energy photo-voltaic cell, with powering for the elevator operation after the solar energy-electric energy storage, can make full use of solar energy resources and come the instead of part utility grid energy; And when civil power outage or power failure, can utilize storage battery is elevator operation power supply, guarantees that elevator normally moves, and improves the service efficiency of elevator.

Description of drawings

Fig. 1 is the utility model elevator power supply source access way structural representation;

Fig. 2 is the structured flowchart of an embodiment of elevator power supply source among Fig. 1.

Embodiment

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

Figure 1 shows that the utility model elevator power supply source access way structural representation.As shown in the figure, elevator power supply source connects civil power and elevator electrical control cabinet, on the one hand civil power or second power supply self electric energy stored are introduced in the elevator electrical control cabinet, for elevator operation provides supply power voltage, on the other hand can by in the electrical control cabinet but the electric energy that produces when can recycling module reclaiming and storing the elevator operation.

Fig. 2 shows the structured flowchart of an embodiment of elevator power supply source among Fig. 1.In this embodiment, elevator power supply source includes sub-a in mains electricity input end and power output terminal b, the sub-a in described mains electricity input end is used for connecting utility grid, civil power is introduced into elevator power supply source, and described power output terminal b is used for connecting the elevator electrical control cabinet, for elevator is carried supply power voltage.

Also be provided with second power supply in described embodiment, described second power supply includes inverter/module, and described inverter can be realized invert function under the control of controller.Inverter adopts independently inverter module composition.Described second power supply also includes and can carry out the power supply handover module that switch switches between the duplex feeding path, the sub-a in described mains electricity input end connects an input terminal of described power supply handover module on the one hand by switch k1, connects charging input end of described inverter on the other hand; The lead-out terminal of described power supply handover module connects power output terminal b by switch k2.Described power supply handover module is realized the mutual switching between the mains-supplied path and second supply access under described controller control.

In described embodiment, for guarantee mains failure or when outage elevator power supply source still can provide supply power voltage to drive elevator work, being provided with conversion of solar energy in second power supply is the solar-energy photo-voltaic cell of electric energy and the storage battery that stores direct current energy.The lead-out terminal of described solar-energy photo-voltaic cell is connected with the electric energy preferred module that charging voltage is selected, and then connects the charging terminal of storage battery on the one hand by described electric energy preferred module, is charge in batteries; The output of described storage battery connects the input terminal of inverter, and when the needs storage battery power supply, the electric energy of storage battery is an alternating current through the inverter inversion, and then provides supply power voltage by described power supply handover module for the elevator operation.

Because elevator can produce electric energy in running, described embodiment is for reclaiming this part electric energy, in second power supply, be provided with the electric energy recycling module, the output of described electric energy recycling module connects the charging terminal of described storage battery by described electric energy preferred module, so with the electrical power storage that reclaims to described storage battery.

Break down when needing repairing in any part of described second power supply, for not influencing the civil power normal power supply, described embodiment also is parallel with service switch k3 between described switch k1 and described switch k2.Described service switch k3 all just often disconnects at the second power supply each several part, and when the arbitrary part of described second power supply breaks down closure, civil power provides supply power voltage by the branch road at described service switch k3 place for elevator.

The operation principle of the foregoing description elevator power supply source is as follows:

When civil power has electricity, storage battery electric energy deficiency, controller is controlled described power supply handover module conducting mains-supplied path, civil power is by described switch k1, described power supply handover module and switch k2, from described power output terminal b output, for the elevator operation provides supply power voltage.

When the solar-energy photo-voltaic cell power supply is sufficient, solar-energy photo-voltaic cell charges in storage battery, after the electric weight in the storage battery is full of, control described power supply handover module by controller and turn-off the mains-supplied path, is alternating current by storage battery by the inverter module inversion, and then export from described power output terminal b by described power transfer device and described switch k2, for moving, elevator provides second supply power voltage.

In the running process of elevator, when producing electric energy, described electric energy recycling module is given described charge in batteries with the electric energy that reclaims by described electric energy preferred module, and described storage battery is standby with described electrical power storage.

When described storage battery electric energy storage is full, described controller is controlled the described storage battery power supply path of described power supply handover module conducting, direct current in the described storage battery is an alternating current through described inverter inversion, export from described power output terminal b by described power transfer device and described switch k2 then, for the elevator operation provides second supply power voltage.When the electric energy of described storage battery discharges 60%, described controller controls described power supply handover module and cuts out described storage battery power supply path, the described mains-supplied path of conducting, provide supply power voltage by civil power to elevator, and retain 40% electric energy in the storage battery, use during in order to mains failure or outage.

When solar-energy photo-voltaic cell and two kinds of electric energy of electric energy recycling module existed to described charge in batteries simultaneously, described electric energy preferred module selected the highest a kind of of voltage wherein to come to described charge in batteries.

When civil power has a power failure suddenly or cuts off the power supply, described controller will continue normal the operation to ensure elevator at the extremely short described power supply handover module of time inner control conducting second supply access.

In addition, the elevator power supply source of described embodiment also includes LCD LCDs (not shown), is used for showing parameters such as input voltage, output voltage, is convenient to understand in real time, easily the running status of elevator power supply source.

Elevator power supply source described in the utility model adopts solar-energy photo-voltaic cell to insert, and can make full use of solar energy resources; Adopt the electric energy recycling module to reclaim the electric energy that produces in the running process of elevator, energy-saving effect is obvious; By selecting the bigger storage battery of capacity for use, in the unexpected power failure of civil power or outage, when the solar cell electric energy is not enough, can in the extremely short time, switch to storage battery power supply, ensure that elevator can operate as normal in a period of time, and behind the city power recovery, can switch back mains-supplied rapidly again.The various powering modes of described elevator power supply source can be changed automatically, need not personnel's post, and power supply is reliable, simple, easy to use, long service life is installed, and can be widely used in the place that residential building, hotel, office building etc. use elevator.

Certainly; the above only is a kind of preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection range of the present utility model.

Claims (8)

1, a kind of elevator power supply source, comprise mains electricity input end and second source input, it is characterized in that, described second source includes solar-energy photo-voltaic cell, electric energy recycling module, described solar-energy photo-voltaic cell is an electric energy with conversion of solar energy, described electric energy recycling module receives the electric energy that sends under the elevator generating state, described solar-energy photo-voltaic cell is connected with voltage preferred module input with the electric energy recycling module, the output of described voltage preferred module is connected with storage battery, and described storage battery provides second supply power voltage by inverter for the elevator operation.

2, elevator power supply source according to claim 1, it is characterized in that, described elevator power supply source includes the power supply handover module, described mains electricity input end connects an input terminal of described power supply handover module, the output of the inverter in the described second source connects another input terminal of described power transfer device, and the output of described power supply handover module connects described elevator power output end; When the voltage of described storage battery was enough, described power supply handover module turn-offed described mains-supplied path, and the described second source supply access of conducting provides supply power voltage by storage battery for the elevator operation by described solar-energy photo-voltaic cell and/or electric energy recycling module.

3, elevator power supply source according to claim 2 is characterized in that, the charging terminal of described storage battery connects the lead-out terminal of described solar-energy photo-voltaic cell; The lead-out terminal of described storage battery connects the input terminal of described inverter, and then connects an input terminal of described power supply handover module by described inverter.

4, elevator power supply source according to claim 3, it is characterized in that, the electric energy that described electric energy recycling module produces when reclaiming the elevator operation, and described storage battery charged, to described storage battery, the charging terminal of described storage battery connects the lead-out terminal of described electric energy recycling module with described electrical power storage; The lead-out terminal of described storage battery connects the input terminal of described inverter, and then connects an input terminal of described power supply handover module by described inverter.

5, elevator power supply source according to claim 4, it is characterized in that, include the electric energy preferred module that charging voltage is selected in the described elevator power supply source, the input terminal of described electric energy preferred module connects the lead-out terminal of described solar-energy photo-voltaic cell and the lead-out terminal of described electric energy recycling module respectively, and the output of described electric energy preferred module connects the charging terminal of described storage battery.

6, according to each described elevator power supply source in the claim 1 to 5, it is characterized in that, between the two ends of described power supply handover module, also be parallel with normal open switch, described normal open switch described elevator power supply source just often disconnect and when described second power supply breaks down the service switch of closure.

7, elevator power supply source according to claim 6 is characterized in that, described elevator power supply source also is provided with display module.

8, elevator power supply source according to claim 7 is characterized in that, described display module is the LCD LCDs.

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