CN212668897U - Large-stroke power generation driving elevator emergency rescue system - Google Patents

Abstract

The utility model discloses a large stroke electricity generation drive elevator emergency rescue system, the load simulator comprises a system body, the system body includes detection control panel, intelligent interlocking circuit breaker, generator system, control mainboard, sedan-chair top control panel, door machine system, elevator system and biosensor, detection control panel respectively with intelligent interlocking circuit breaker, generator system, control mainboard and biosensor signal connection, intelligent interlocking circuit breaker still respectively with generator system, elevator system and mains power supply electric connection, control mainboard and sedan-chair top control panel signal connection, sedan-chair top control panel and door machine system signal connection. The utility model has reasonable design, convenient use and high rescue safety; the battery rescue device can effectively avoid the defects caused by battery rescue in the using process, realizes a low-cost and high-efficiency power-off rescue mode, and is favorable for market popularization and application.

Description

Large-stroke power generation driving elevator emergency rescue system

Technical Field

The utility model relates to an elevator emergency rescue system technical field, concretely relates to big stroke electricity generation drive elevator emergency rescue system.

Background

Elevators are used more and more frequently in people's lives. With the development of science and technology, the number of tall buildings in cities is increasing, and elevators are also more and more popular. The elevator brings convenience to people and has great potential safety hazard in the use process, and elevator accidents frequently occur in this year, so people pay more and more attention to the use safety of the elevator. At present, elevators are installed in a plurality of scenic spots, generally, the lifting height of the elevator applied to the scenic spots is high, and landing doors are often arranged only at the bottom floor and the top floor, so that if power is cut off and visitors are carried in the elevator, if people cannot be saved immediately, the visitors in the elevator are easy to have a heatstroke condition in a hot hoistway, and the elevator can be seriously dizzy. In the prior art, the rescue device used by the elevator in power failure is an ARD (accident handling device in a power supply system), and an emergency power supply adopted by the ARD is a battery, so that the power supply capacity is limited, and the battery capacity becomes smaller and even damaged after a long time; thereby failing to satisfy the needs of people.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve above-mentioned problem, provide a reasonable in design, the safety in utilization is high, with low costs and rescue the big stroke electricity generation of efficient and drive elevator emergency rescue system.

The utility model adopts the following technical scheme:

the utility model provides a large-stroke power generation drive elevator emergency rescue system, includes the system body, the system body includes detection control panel, intelligent interlocking circuit breaker, generator system, control mainboard, sedan-chair top control panel, door machine system, elevator system and biosensor, detection control panel respectively with intelligent interlocking circuit breaker, generator system, control mainboard and biosensor signal connection, intelligent interlocking circuit breaker still respectively with generator system, elevator system and mains power electric connection, control mainboard and sedan-chair top control panel signal connection, sedan-chair top control panel and door machine system signal connection.

As an optimal technical scheme of the utility model, elevator system includes the elevator host computer and sets up the encoder on the elevator host computer, control mainboard and encoder signal connection.

As an optimal technical scheme of the utility model, be equipped with the transformer between generator system and the intelligent interlocking circuit breaker.

The utility model has the advantages that:

the utility model has reasonable structure design, convenient use and high rescue safety; the defect caused by battery rescue can be effectively avoided in the using process, and the power-off rescue mode with low cost and high efficiency is realized. The generator system and the mains supply are connected with the elevator system through the intelligent interlocking circuit breaker, when the emergency rescue system is used, the situation that the mains supply is suddenly electrified and the generator system causes power supply conflict in the using process of the emergency rescue system after power failure can be effectively avoided, and the safety of the emergency rescue system in the using process is effectively improved.

Drawings

Fig. 1 is a general connection schematic diagram of a large-stroke power generation driving elevator emergency rescue system of the utility model;

FIG. 2 is a schematic diagram of the control board circuit connection of the present invention;

FIG. 3 is a schematic diagram of the circuit connection of the intelligent interlocking circuit breaker of the present invention;

fig. 4 is a schematic diagram of the power supply of the generator system of the present invention;

FIG. 5 is a schematic diagram of power supply of the gantry crane system of the present invention;

the symbols in the drawings illustrate that:

an encoder A-1;

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the large-stroke power generation driven elevator emergency rescue system comprises a system body, wherein the system body comprises a detection control panel, an intelligent interlocking circuit breaker, a generator system, a control main board, a car roof control panel, a door motor system, an elevator system and a biosensor, the detection control panel is respectively in signal connection with the intelligent interlocking circuit breaker, the generator system, the control main board and the biosensor, the intelligent interlocking circuit breaker is also respectively in electrical connection with the generator system, the elevator system and a mains supply, the control main board is in signal connection with the car roof control panel, and the car roof control panel is in signal connection with the door motor system;

the elevator system comprises an elevator host and an encoder A-1 arranged on the elevator host, and the control main board is in signal connection with the encoder; and a transformer is arranged between the generator system and the intelligent interlocking circuit breaker.

The utility model discloses the use profile is as follows:

in the using process of the elevator, if sudden power failure occurs, the intelligent interlocking circuit breaker connected with the mains supply transmits power failure information to the detection control panel after detecting that the mains supply is powered off, and then the detection control panel starts a biosensor (which is noteworthy to be arranged inside a lift car of the elevator in use) to detect whether trapped people exist inside the lift car of the elevator and feed back a detection result to the detection control panel;

at the moment, if the biosensor detects that no person is trapped in the elevator car, the detection control panel transmits a control signal to the intelligent interlocking circuit breaker, and the intelligent interlocking circuit breaker performs normal power failure processing on the mains supply, namely the whole elevator is in a power failure unavailable state at the moment;

if the biosensor detects that a person is trapped in the elevator car, the detection control panel transmits a control signal to the intelligent interlocking circuit breaker, and the intelligent interlocking circuit breaker performs power-off processing on the mains supply; meanwhile, the detection control panel also transmits a control signal to a generator system, the generator system is started to generate electricity, and power is supplied to the elevator system through a transformer and an intelligent interlocking circuit breaker; meanwhile, when the generator system starts to generate power, the working signal is fed back to the detection control board, and when the detection control board receives the working signal fed back by the generator system, the detection control board sends a rescue signal to the control main board; after receiving the rescue signal sent by the detection control panel, the control main board sends a control signal to the elevator system to control the elevator system to carry out near leveling operation;

when the elevator system reaches the nearby flat floor, the control main board transmits the control signal to the car top control panel, the car top control panel controls the door motor system to open the elevator door, and then trapped passengers can come out from the interior of the elevator car; it is worth noting that in the process of using the emergency rescue system, the biosensor is in a continuous working state, and after all trapped passengers come out of the elevator car, when the biosensor detects that no person is trapped in the elevator car, the detection control panel transmits a control signal to the generator system, the generator system is closed, and at the moment, the whole elevator is in a power-off unavailable state.

Finally, it should be noted that: these embodiments are merely illustrative of the present invention and do not limit the scope of the invention. In addition, other variations and modifications will be apparent to persons skilled in the art based on the foregoing description. And are neither required nor exhaustive of all embodiments. And obvious changes and modifications may be made without departing from the scope of the present invention.

Claims (3)

1. The utility model provides a large-stroke electricity generation driving elevator emergency rescue system, includes the system body, its characterized in that: the system body comprises a detection control panel, an intelligent interlocking circuit breaker, a generator system, a control mainboard, a car top control panel, a door motor system, an elevator system and a biosensor, wherein the detection control panel is respectively in signal connection with the intelligent interlocking circuit breaker, the generator system, the control mainboard and the biosensor, the intelligent interlocking circuit breaker is also respectively in signal connection with the generator system, the elevator system and a mains supply, the control mainboard is in signal connection with the car top control panel, and the car top control panel is in signal connection with the door motor system.

2. The large-stroke power generation driven elevator emergency rescue system according to claim 1, characterized in that: the elevator system comprises an elevator host and an encoder (A-1) arranged on the elevator host, and the control main board is in signal connection with the encoder.

3. The large-stroke power generation driven elevator emergency rescue system according to claim 1, characterized in that: and a transformer is arranged between the generator system and the intelligent interlocking circuit breaker.

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