CN217935148U - Battery separation type elevator brake release power supply - Google Patents

Abstract

The utility model discloses a battery-separated elevator brake-releasing power supply, which comprises a battery device and an inverter board device which are separately arranged and matched with each other; the inverter board device is arranged in the elevator control cabinet and is matched with the elevator control unit for use, and comprises a battery access port for butting the battery device; the battery device and the inverter board device are separated and correspondingly arranged to form a battery separation type elevator brake release power supply structure, the battery device is in butt joint with the inverter board device through a battery access port to form a shared power supply plug-and-play structure, batteries with different capacities are compatible, and a high-universality battery separation type elevator brake release power supply is formed. The utility model discloses a simple and easy, promote product quality and service performance's brake release power supply structure, reduce elevator fortune dimension cost, realize that the special messenger maintains, promote elevator and self life.

Description

Battery separation type elevator brake release power supply

Technical Field

The utility model relates to a detection technology and special lifting equipment, the special design elevator and constitute structure calculation field, it is specific, a battery disconnect-type elevator power that declutches.

Background

The elevator classification comprises a machine room-free elevator, a main machine of the machine room-free elevator is installed in a hoistway, and a remote brake release operation device is required to be configured, wherein personnel are inconvenient to contact the machine room-free elevator; the conventional electric brake release device mainly comprises a charging plate, a battery, an inverter plate and auxiliary equipment, is integrally assembled into a finished product and is installed in elevator equipment, a power supply is not output outwards when the power supply is normal, after the power failure, when external personnel operate devices such as a brake release button and the like, the power supply can be output outwards, a host brake is opened remotely, and the purpose of brake release and sliding rescue is realized by utilizing the weight difference between an elevator car and a counterweight.

And the traditional brake release power supply device is provided with a battery, has a large volume, is difficult to integrate and arrange in a control cabinet on site, is usually arranged at the upper part of an elevator shaft, and is easy to neglect the maintenance of the brake release power supply device when an elevator maintainer arrives to maintain the elevator on site, so that the service life of the brake release power supply device is greatly reduced due to improper use and maintenance.

Therefore, it is necessary to provide a battery-separated power supply for releasing the brake of an elevator to solve the above problems.

SUMMERY OF THE UTILITY MODEL

One of the purposes of the utility model is to provide a battery disconnect-type elevator power that declutches, it reduces elevator fortune dimension cost through simple and easy, promotion product quality and service performance's declutch power structure, realizes that the special messenger maintains, promotes elevator and self life.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a battery separation type elevator brake release power supply comprises a battery device and an inverter board device which are arranged separately and used in a matched mode; the inverter board device is arranged in the elevator control cabinet and is matched with the elevator control unit for use, and comprises a battery access port for butting the battery device; the battery device and the inverter board device are separated and correspondingly arranged to form a battery separation type elevator brake release power supply structure, the battery device is in butt joint with the inverter board device through a battery access port to form a shared power supply plug-and-play structure, batteries with different capacities are compatible, and a high-universality battery separation type elevator brake release power supply is formed.

Further, the battery device includes: the battery packaging body, the switch release changeover switch and the switch release operating button are arranged on the battery packaging body; the battery packaging body shell is made of non-conductive materials, and devices such as a maintenance-free battery, a charging circuit board, a protection circuit board and the like are arranged in the battery packaging body shell; the brake release changeover switch is made of a bistable rotary switch, and the brake release operation button is effective only when the switch is arranged at an 'on' position; the brake release operation button is made of a self-reset button, and only when the brake release change-over switch is arranged at an 'on' position and a power input terminal is out of power, the power is output externally when the button is pressed.

Further, the battery device further includes: the power supply control system comprises a power supply input wiring, a fault indicator lamp, a charging indicator lamp, a low electric quantity indicator lamp, a buzzer and a power supply output wiring; the power input wiring is manufactured by adopting complete encapsulation, a 3-hole plug is arranged, the charging voltage is AC220V, the power charging can be realized by a conventional 3-hole socket of the socket, and the power supply can be output only in a non-charging state; the power output wiring is manufactured by complete packaging, is provided with a connector and is matched with the power input port connector in the inversion board; when the power supply is output, the power supply is output through the power supply output wiring, and the output voltage needs to be lower than the safe voltage as far as possible for safety consideration.

Furthermore, the low-battery indicator lamp adopts a nixie tube mode or a plurality of indicator lamp modes;

the adopted nixie tube mode is as follows: the nixie tube displays the lighting percentage of the battery, the percentage is lower than a set value of low electric quantity, and the buzzer gives an alarm;

the mode of adopting a plurality of indicator lights is as follows: there are a number of indicator lights, one of which is illuminated for 100% charge, two of which are illuminated for 90% charge, three of which are illuminated for 80% charge, and so on to 10% or 5% charge; the percentage that the light that lights is shown is less than the low battery setting value, and buzzer warning.

Furthermore, the battery device also comprises a handle for hand carrying during moving, a hanging rack fixedly used on site or in an office, and a battery use maintenance label for a user to know and warn the use maintenance of the battery.

Further, the inverter device further includes: the inverter board comprises an inverter board body, an output power supply plug-in, a fault output port and a power supply detection interface, wherein the inverter board body is formed by a PCB (printed circuit board); the inverter board body changes the output power supply of the battery device into required voltage to be output; the output power supply plug-in is directly connected to the brake-holding coil of the host; the fault output port is used for outputting switching value, and when the fault of the inverter board is detected, a switching value signal is output outwards; the power supply detection interface is a direct-current power supply detection interface and is used for periodically detecting whether the inverter board has faults or not for power supply.

Further, the inverter device further includes: power output pilot lamp, trouble pilot lamp.

Further, the inverter device further includes: an output time limit regulator and a mains supply detection plug-in unit; the output time limit regulator regulates the time for setting the external output power supply of the inverter device, and rotates and adjusts according to actual needs: one way is that the set time is 1 minute, when the battery device outputs, the battery device stops outputting, the power supply output is carried out again, and the time is counted again; the inverter is connected with the commercial power detection plug-in, and when the commercial power is detected to be normal, the output power plug-in does not output power to the outside.

Compared with the prior art, the utility model discloses a simple and easy, promote product quality and service performance's brake release power supply structure, reduce elevator fortune dimension cost, realize that the special messenger maintains, promote elevator and self life.

Drawings

Fig. 1 is one of the schematic diagrams of the present invention.

Fig. 2 is a second schematic diagram of the present invention.

Fig. 3 is a third schematic view of the present invention.

Fig. 4 is a fourth schematic diagram of the present invention.

Fig. 5 is a fifth schematic view of the present invention.

Fig. 6 is a sixth schematic view of the present invention.

Fig. 7 is a seventh schematic view of the present invention.

Detailed Description

Referring to fig. 1 to 4, the present embodiment shows a battery-separated power supply for releasing brake of an elevator, which includes a battery device 100 and an inverter board device 200 separately disposed and used in cooperation;

the inverter board device 200 is arranged in the elevator control cabinet and is used in cooperation with the elevator control unit, and comprises a battery access port 19 for butting a battery device;

the battery device 100 and the inverter board device 200 are separately and correspondingly arranged to form a battery-separated elevator brake-releasing power supply structure, and the battery device 100 is butted with the inverter board device 200 through the battery access port 19 to form a shared power supply plug-and-play structure, and is compatible with batteries with different capacities to form a high-universality battery-separated elevator brake-releasing power supply.

The battery device includes 100: the battery pack comprises a battery pack body 1, a switch release changeover switch 2 and a switch release operating button 3, wherein the switch release changeover switch 2 and the switch release operating button are arranged on the battery pack body 1; the shell of the battery packaging body 1 is made of non-conductive materials, and devices such as a maintenance-free battery, a charging circuit board, a protection circuit board and the like are arranged in the shell; the brake release changeover switch 2 is made of a bistable rotary switch, and the brake release operation button 3 is effective only when the switch is arranged at an 'on' position; the brake release operating button 3 is made of a self-reset button, and only when the brake release change-over switch is arranged at an 'on' position and a power input terminal is out of power, the power is output externally when the button is pressed.

The battery device 100 further includes: a power input wiring 4, a fault indicator lamp 5, a charging indicator lamp 6, an electric quantity low indicator lamp 7, a buzzer 8 and a power output wiring 9; the power input wiring 4 is manufactured by complete packaging, is provided with a 3-hole plug, has charging voltage of AC220V, can realize power charging by a conventional 3-hole socket, and is possible to output power to the outside only in a non-charging state; the power output wiring 9 is manufactured by complete encapsulation, is provided with a connector and is matched with the power input port connector in the inverter board; when the power supply is output, the power supply is output through the power supply output wiring, and the output voltage needs to be lower than the safe voltage as far as possible for safety consideration.

The low-power indicator lamp 7 adopts a nixie tube mode or a plurality of indicator lamp modes;

the digital tube mode is adopted as follows: the nixie tube displays the lighting percentage of the battery, the percentage is lower than a set value of low electric quantity, and the buzzer gives an alarm;

the mode of adopting a plurality of indicator lamps is as follows: there are a number of indicator lights, one of which is illuminated for 100% charge, two of which are illuminated for 90% charge, three of which are illuminated for 80% charge, and so on to 10% or 5% charge; the percentage that the light that lights is shown is less than the low battery setting value, and buzzer warning.

The battery device 100 further includes a handle 10 for hand-carrying use when moving, a hanger 11 for fixed use on the spot or in the office, and a battery use maintenance label 12 for a user to know and warn about the use of battery use maintenance.

The operation of the battery device 100 is described with reference to fig. 6.

The inverter device 200 further includes: an inverter board body 13, an output power supply plug-in 14, a fault output port 15 and a power supply detection interface 17 which are formed by PCB boards; the inverter board body 13 changes the output power supply of the battery device into required voltage and outputs the voltage; the output power supply plug-in 14 is directly connected to the main machine brake-holding coil; the fault output port 15 is used for outputting a switching value, and when detecting that the inverter board has a fault, the switching value signal is externally output; the power detection interface 17 is a dc power detection interface, and periodically detects whether the inverter board is out of order for power supply.

The inverter device 200 further includes: power output indicator light 16, fault indicator light 21.

The inverter device 200 further includes: an output time limit regulator 18, a mains detection plug-in 20; the output time limit regulator 18 regulates the time for setting the inverter to output power externally, and adjusts the time according to actual needs: one way is that the set time is 1 minute, when the battery device outputs, the battery device stops outputting, the power supply output is carried out again, and the time is counted again; the inverter is connected with a mains supply detection plug-in unit 20, and when the mains supply is detected to be normal, the output power supply plug-in unit does not output power to the outside.

The operational considerations for use of the inverter device 200 are discussed with reference to fig. 7.

In this embodiment, the operation and maintenance method can be performed when the elevator is in failure and people are trapped, referring to fig. 5, the steps are as follows:

1) The battery device 100 detects: whether the fault indicator lamp 5 of the battery device 100 is lightened is judged, if the fault indicator lamp is lightened, the battery device is in a fault state and returns to the factory for maintenance or is scrapped; if the battery power low indicator light 7 is lightened, the battery power is lower than the requirement, the commercial power is connected to charge the device until the charging indicator light is lightened, and the power input wiring is pulled down to finish charging;

2) The battery device 100 is carried to a use site, and the lack of power and the failure of the battery device are confirmed again when the battery device is used;

3) The maintenance personnel dock the battery device 100 to the inverter board device 200: the inverter board device 200 indicates a fault to replace the inverter board body, and the commercial power interface of the inverter board is disconnected if the inverter board device has no fault indication;

4) Operating the brake release changeover switch to an open position, pressing a brake release operation button after confirming that no problem exists, releasing the brake of the elevator main machine, sliding the car to a position in front of the door, and stopping releasing the brake;

5) Opening the elevator door, and releasing the trapped people to finish the operation and maintenance of the elevator;

6) And (5) pulling out the battery output wiring and recovering the field.

Compared with the prior art, the utility model discloses a through simple and easy, promote product quality and service performance's the power supply structure that declutches, reduce elevator fortune dimension cost, realize that the special messenger maintains, promote elevator and self life.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which all fall within the scope of the invention.

Claims (10)

1. The utility model provides a battery disconnect-type elevator power that declutches which characterized in that: the device comprises a battery device and an inverter board device which are arranged separately and used in a matching way; the inverter board device is arranged in the elevator control cabinet and is matched with the elevator control unit for use, and comprises a battery access port for butting the battery device; the battery device and the inverter board device are separated and correspondingly arranged to form a battery separation type elevator brake release power supply structure, the battery device is in butt joint with the inverter board device through a battery access port to form a shared power supply plug-and-play structure, batteries with different capacities are compatible, and a high-universality battery separation type elevator brake release power supply is formed.

2. The battery-powered elevator brake release power supply of claim 1, characterized by: the battery device includes: the battery packaging body, the switch release changeover switch and the switch release operating button are arranged on the battery packaging body; the battery packaging body shell is made of non-conductive materials, and a maintenance-free battery, a charging circuit board and a protection circuit board device are arranged in the battery packaging body shell; the brake release change-over switch is made of a bistable rotary switch, and the brake release operation button is effective only when the switch is arranged at an 'on' position; the brake release operation button is made of a self-reset button, and only when the brake release change-over switch is arranged at an 'on' position and a power input terminal is out of power, the power is output externally when the button is pressed.

3. The battery-separated elevator brake release power supply according to claim 2, characterized in that: the battery device further includes: the power supply control system comprises a power supply input wiring, a fault indicator lamp, a charging indicator lamp, a low electric quantity indicator lamp, a buzzer and a power supply output wiring; the power input wiring is manufactured by complete packaging, a 3-hole plug is arranged, the charging voltage is AC220V, the power charging can be realized by a conventional 3-hole socket of the socket, and the power can be output only in a non-charging state; the power output wiring is manufactured by complete packaging, is provided with a connector and is matched with the power input port connector in the inversion board; when the power supply is output, the power supply is output through the power supply output wiring, and the output voltage needs to be lower than the safe voltage as much as possible for safety consideration.

4. The battery-separated elevator brake release power supply according to claim 3, characterized in that: the low-power indicator lamp adopts a nixie tube mode or a plurality of indicator lamp modes; the digital tube mode is adopted as follows: the nixie tube displays the lighting percentage of the battery, the percentage is lower than a set value of low electric quantity, and the buzzer gives an alarm; the mode of adopting a plurality of indicator lamps is as follows: there are many indicator lights, one of which lights is illuminated to represent 100% charge, two of which are illuminated to represent 90% charge, three of which are illuminated to represent 80% charge, and so on to 10% or 5% charge; the percentage that the light is lighted shows is lower than the low-power setting value, and the buzzer alarms.

5. The battery-powered elevator brake release power supply of claim 4, characterized by: the battery device also comprises a handle for hand carrying during moving, a hanging rack fixedly used on site or in an office, and a battery use maintenance label for a user to know and warn the use maintenance of the battery.

6. The battery-powered elevator brake release power supply of claim 5, characterized by: the inverter device further includes: the contravariant board body, output power plug-in components, trouble delivery outlet, power detection interface that the PCB board constitutes.

7. The battery-powered elevator brake release power supply of claim 6, characterized by: the inverter board body changes the output power supply of the battery device into required voltage to be output; the output power supply plug-in is directly connected to the brake-holding coil of the host; the fault output port is used for outputting switching value, and when the fault of the inverter board is detected, a switching value signal is output outwards; the power supply detection interface is a direct-current power supply detection interface and is used for periodically detecting whether the inverter board has faults or not for power supply.

8. The battery-powered elevator brake release power supply of claim 7, characterized by: the inverter device further includes: power output indicator light, trouble lamp.

9. The battery-powered elevator brake release power supply of claim 8, characterized by: the inverter device further includes: output time limit regulator, commercial power detection plug-in components.

10. The battery-powered elevator brake release power supply of claim 9, characterized by: the output time limit regulator regulates the time for setting the external output power supply of the inverter device, and rotates and adjusts according to actual needs: one mode is that the set time is 1 minute, when the battery device outputs, the battery device is timed, the output of the battery device is cut off, the power supply output is performed again, and the time is counted again; the inverter is connected with the commercial power detection plug-in, and when the commercial power is detected to be normal, the output power plug-in does not output power to the outside.

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