CN217478800U - False floor safety elevator door control structure of autonomous escaping elevator system - Google Patents

Abstract

The utility model discloses an automatic elevator system that gets rid of poverty false layer safety elevator door control structure, including the building body and elevator control unit, the elevator room is installed in the left side of the building body, draw gear is installed at the top of elevator room, the elevator case is installed through towline and counterweight block to draw gear's output, false layer sensing module is installed in the left side on the positive surface of elevator case, flat layer sensing module is installed on the right side on the positive surface of elevator case. The utility model provides a current security performance of independently getting rid of stranded elevator system false floor safety elevator gate structure lower, when stranded personnel meet the cage of swift current car and move to the false floor stage under the swift current car, if stranded personnel this moment save oneself successfully and when rushing out the elevator, easily cause stranded personnel to receive certain injury, have certain potential safety hazard, can't satisfy user's demand, reduced the problem of independently getting rid of stranded elevator system false floor safety elevator gate structure practicality.

Description

False floor safety elevator door control structure of autonomous escaping elevator system

Technical Field

The utility model relates to an elevator technical field specifically is independently for taking off stranded elevator system false floor safety elevator gate structure.

Background

Elevator refers to a permanent transportation device serving several specific floors in a building, the car of which runs on at least two rows of rigid rails moving perpendicular to the horizontal plane or at an angle of inclination less than 15 ° to the vertical, also having a step type, the tread plates being mounted on a track for continuous running, commonly known as escalator or moving sidewalk, a fixed lifting device serving a specific floor, a vertical lift elevator having a car running between at least two rows of rigid guide rails perpendicular or at an angle of inclination less than 15 °, the size and the structural form of which are convenient for passengers to get in and out or load and unload goods, and it is customary to use the elevator as a generic name for vertical transportation means in a building regardless of the driving manner.

In the elevator, can often use the false layer safety elevator door control structure of elevator system of independently getting rid of poverty, the security performance of the current false layer safety elevator door control structure of elevator system of independently getting rid of poverty is lower, when stranded personnel meet the cage of swift current car and move to the false layer stage under the swift current car, if stranded personnel this moment save oneself successfully and when rushing out the elevator, easily cause stranded personnel to receive certain injury, there is certain potential safety hazard, unable user's demand of satisfying, the practicality of the false layer safety elevator door control structure of elevator system of independently getting rid of poverty has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at provides and independently take off stranded elevator system false floor safety elevator gate structure, possess the advantage that the security performance is high, the security performance of having solved current independent stranded elevator system false floor safety elevator gate structure of taking off is lower, when stranded personnel meet the elevator cab of swift current car and move down to false floor stage at the swift current car, if stranded personnel are saved oneself successfully this moment and when rushing out the elevator, easily cause stranded personnel to receive certain injury, there is certain potential safety hazard, can't satisfy user's demand, the problem of independently taking off stranded elevator system false floor safety elevator gate structure practicality has been reduced.

In order to achieve the above object, the utility model provides a following technical scheme: automatic get rid of poverty elevator system false floor safety elevator door control structure, including the building body and elevator control unit, the elevator room is installed in the left side of the building body, draw gear is installed at the top of elevator room, draw gear's output is installed the elevator case through towline and counterweight, false floor sensing module is installed in the left side on the positive surface of elevator case, flat floor sensing module is installed on the right side on the positive surface of elevator case, false floor sensing module is installed in the left side of elevator indoor chamber, flat floor sensing module is installed on the right side of elevator indoor chamber, elevator control unit respectively with false floor sensing module and flat floor sensing module both way signal connection, the output of false floor sensing module and the input signal connection of false floor sensing module, the output of flat floor sensing module and the input signal connection of flat floor sensing module, false floor sensing module includes first false floor sensing module, The sensor comprises a second false layer sensing module and a third false layer sensing module, wherein the false layer sensing module comprises a first false layer sensor, a second false layer sensor and a third false layer sensor.

Preferably, an alarm module is installed on the top of the front surface of the elevator control unit, a manual switch is installed on the front surface of the elevator control unit and the bottom of the alarm module, a display screen is installed on the front surface of the elevator control unit and the top of the alarm module, an indicator lamp is installed on the front surface of the elevator control unit and the top of the display screen, the output end of the elevator control unit is electrically connected with an elevator door control, the input end of the elevator control unit is electrically connected with the output ends of the alarm module and the manual switch respectively, the elevator control unit is electrically connected with a storage module and a wireless receiving/transmitting module respectively in a bidirectional mode, the wireless receiving/transmitting module is connected with a terminal in a bidirectional signal mode, the output end of the elevator control unit is electrically connected with the input ends of the display screen, the elevator door control and the indicator lamp respectively, and the front surface of the elevator box and the front surfaces of the alarm module and the manual switch are connected with a protection module through buckles in a clamping manner And (4) a cover.

Preferably, the flat layer sensing module comprises a first flat layer sensing module, a second flat layer sensing module and a third flat layer sensing module, and the flat layer sensing module comprises a first flat layer inductor, a second flat layer inductor and a third flat layer inductor.

Preferably, the output end of the first dummy layer sensing module is in signal connection with the input end of the first dummy layer sensor, the output end of the second dummy layer sensing module is in signal connection with the input end of the second dummy layer sensor, and the output end of the third dummy layer sensing module is in signal connection with the input end of the third dummy layer sensor.

Preferably, an output end of the first flat-layer sensing module is in signal connection with an input end of the first flat-layer sensor, an output end of the second flat-layer sensing module is in signal connection with an input end of the second flat-layer sensor, and an output end of the third flat-layer sensing module is in signal connection with an input end of the third flat-layer sensor.

Preferably, a hydraulic buffer device is installed at the bottom of the inner cavity of the elevator chamber, and the number of the false floor sensing modules, the flat floor sensing modules and the flat floor sensing modules is a plurality of and is uniformly distributed in each floor on the building body.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a set up elevator control unit, alarm module, hand switch, the pilot lamp, a display screen, elevator door control, storage module, wireless receipts/send out the module, a terminal, first false floor sensing module, first false floor inductor, the false floor sensing module of second, the false floor inductor of second, the cooperation of third false floor sensing module and third false floor inductor is used, the security performance of having solved current automatic stranded elevator system false floor safety elevator door control structure of getting rid of is lower, the elevator cage that runs into the swift current car when the swift current car moves to false floor stage under the swift current car, if stranded personnel this moment save oneself successfully and when rushing out the elevator, easily cause stranded personnel to receive certain injury, there is certain potential safety hazard, can't satisfy user's demand, the problem of the automatic stranded elevator system false floor safety elevator door control structural practicality of getting rid of is reduced.

2. The utility model discloses a set up the pilot lamp, can play the effect of suggestion to the user, use through setting up wireless receipts/send out module and terminal cooperation, can be when the stranded elevator incasement of user, the user can contact with external personnel and talkback, use through setting up the cooperation of display screen and storage module, can broadcast distress data through the display screen, thereby indicate stranded personnel, through setting up the protection casing, can shelter from alarm module and hand switch, prevent that the pedestrian from touching alarm module and hand switch at will.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic front view of the structure of the elevator control unit of the present invention;

FIG. 3 is a schematic diagram of the system of the present invention;

fig. 4 is a schematic diagram of the false floor sensing module system of the present invention;

fig. 5 is a schematic diagram of the flat bed sensing module system of the present invention.

In the figure: the elevator comprises a building body 1, an elevator room 2, a traction device 3, an elevator cage 4, a false floor sensing module 5, a flat floor sensing module 6, a false floor sensing module 7, a flat floor sensing module 8, an elevator control unit 9, an alarm module 10, a manual switch 11, an indicator light 12, a display screen 13, an elevator door control 14, a storage module 15, a wireless receiving/transmitting module 16, a terminal 17, a first false floor sensing module 18, a first false floor sensor 19, a second false floor sensing module 20, a second false floor sensor 21, a third false floor sensing module 22, a third false floor sensor 23, a first false floor sensing module 24, a first false floor sensor 25, a second false floor sensing module 26, a second false floor sensor 27, a third false floor sensing module 28 and a third false floor sensor 29.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model provides a building body 1, elevator room 2, draw gear 3, elevator case 4, false floor sensing module 5, flat floor sensing module 6, false floor sensing module 7, flat floor sensing module 8, elevator control unit 9, alarm module 10, hand switch 11, pilot lamp 12, display screen 13, elevator door control 14, storage module 15, wireless receipt/send module 16, terminal 17, first false floor sensing module 18, first false floor inductor 19, second false floor sensing module 20, second false floor inductor 21, third false floor sensing module 22, third false floor inductor 23, first flat floor sensing module 24, first flat floor inductor 25, second flat floor sensing module 26, second flat floor inductor 27, third flat floor sensing module 28 and third flat floor inductor 29 etc. parts are general standard component or the part that technical person in the art knows, its structure and principle all can learn through the technical manual or learn through conventional experimental method for technical person in the art and learn to know .

Referring to fig. 1-5, the automatic escaping elevator system false floor safety elevator door control structure comprises a building body 1 and an elevator control unit 9, wherein an elevator chamber 2 is installed on the left side of the building body 1, a hydraulic buffer device is installed at the bottom of the inner cavity of the elevator chamber 2, a traction device 3 is installed at the top of the elevator chamber 2, an elevator cage 4 is installed at the output end of the traction device 3 through a traction rope and a counterweight, a false floor sensing module 5 is installed on the left side of the front surface of the elevator cage 4, a flat floor sensing module 6 is installed on the right side of the front surface of the elevator cage 4, a false floor sensing module 7 is installed on the left side of the inner cavity of the elevator chamber 2, a flat floor sensing module 8 is installed on the right side of the inner cavity of the elevator chamber 2, the number of the false floor sensing module 5, the false floor sensing module 7, the flat floor sensing module 6 and the flat floor sensing module 8 are all a plurality of and are uniformly distributed in each building layer on the building body 1, the elevator control unit 9 is respectively connected with the false floor sensing module 5 and the flat floor sensing module 6 in a bidirectional signal mode, the output end of the false floor sensing module 5 is in signal connection with the input end of the false floor sensing module 7, the output end of the flat floor sensing module 6 is in signal connection with the input end of the flat floor sensing module 8, the false floor sensing module 5 comprises a first false floor sensing module 18, a second false floor sensing module 20 and a third false floor sensing module 22, the false floor sensing module 7 comprises a first false floor sensor 19, a second false floor sensor 21 and a third false floor sensor 23, the output end of the first false floor sensing module 18 is in signal connection with the input end of the first false floor sensor 19, the output end of the second false floor sensing module 20 is in signal connection with the input end of the second false floor sensor 21, the output end of the third false floor sensing module 22 is in signal connection with the input end of the third false floor sensor 23, the top of the positive surface of the elevator control unit 9 is provided with the alarm module 10, the manual switch 11 is arranged on the positive surface of the elevator control unit 9 and at the bottom of the alarm module 10, the front surface of the elevator control unit 9 and the top of the alarm module 10 are provided with a display screen 13, the front surface of the elevator control unit 9 and the top of the display screen 13 are provided with an indicator light 12, the elevator control unit 9 can play a role of prompting a user by setting the indicator light 12, the output end of the elevator control unit 9 is electrically connected with an elevator door control 14, the input end of the elevator control unit 9 is respectively and electrically connected with the alarm module 10 and the output end of the manual switch 11, the elevator control unit 9 is respectively and bidirectionally electrically connected with a storage module 15 and a wireless receiving/transmitting module 16, the distress data can be played through the display screen 13 by setting the display screen 13 and the storage module 15 to be matched, so as to prompt trapped people, the wireless receiving/transmitting module 16 is bidirectionally connected with a terminal 17 by signals, and the wireless receiving/transmitting module 16 and the terminal 17 are matched for use, when a user is trapped in the elevator cage 4, the user can communicate with external personnel, the output end of the elevator control unit 9 is respectively electrically connected with the input ends of the display screen 13, the elevator door control 14 and the indicator light 12, the front surface of the elevator cage 4 and the front surfaces of the alarm module 10 and the manual switch 11 are respectively clamped with a protective cover through a buckle, the alarm module 10 and the manual switch 11 can be shielded by arranging the protective cover, the pedestrian is prevented from randomly touching the alarm module 10 and the manual switch 11, the flat sensing module 6 comprises a first flat sensing module 24, a second flat sensing module 26 and a third flat sensing module 28, the flat sensing module 8 comprises a first flat sensor 25, a second flat sensor 27 and a third flat sensor 29, the output end of the first flat sensing module 24 is in signal connection with the input end of the first flat sensor 25, the output end of the second flat layer sensing module 26 is in signal connection with the input end of the second flat layer sensor 27, the output end of the third flat layer sensing module 28 is in signal connection with the input end of the third flat layer sensor 29, and the first dummy layer sensing module 18, the second dummy layer sensing module 20, the third dummy layer sensing module 22, the first flat layer sensing module 24, the second flat layer sensing module 26 and the third flat layer sensing module 28 are all in bidirectional electrical connection with the elevator control unit 9.

When the elevator door control device is used, in an initial state, a worker stores 'self-rescue video data' in the storage module 15, when the trapped person is trapped in the elevator cage 4, the elevator control unit 9 transmits the 'self-rescue video data' in the storage module 15 to the display screen 13 to prompt the trapped person, when the trapped person is in a flat floor condition during the escape operation of the trapped person, the first flat sensor module 24, the second flat sensor module 26 and the third flat sensor module 28 respectively sense with the first flat sensor 25, the second flat sensor 27 and the third flat sensor 29, when the sensing is successful, the first flat sensor module 24, the second flat sensor module 26 and the third flat sensor module 28 transmit signals to the elevator control unit 9, the elevator control unit 9 controls the indicator lamp 12 to be turned on to prompt the trapped person, then the worker operates the manual switch 11 and turns on the elevator 14 through the elevator control unit 9, when the trapped person encounters a false floor, the first false floor sensing module 18, the second false floor sensing module 20 and the third false floor sensing module 22 respectively sense with the first false floor sensor 19, the second false floor sensor 21 and the third false floor sensor 23, if the sensing is successful, the first false floor sensing module 18, the second false floor sensing module 20 and the third false floor sensing module 22 transmit signals into the elevator control unit 9, the elevator control unit 9 controls the manual switch 11 to be powered off, so that the trapped person can not open the elevator door control 14 through the manual switch 11, thereby preventing the trapped person from rushing out of the elevator door due to emotional stress when the elevator box 4 is at the position of the false floor, further preventing the trapped person from being damaged and reducing the potential danger of casualty, and when the trapped person can not self-rescue, the trapped person can transmit a distress signal to the terminal 17 through the alarm module 10, the elevator control unit 9 and the wireless receiving/transmitting module 16 to ask for help, external personnel accessible terminal 17 obtains distress signal and rescues stranded personnel the very first time, and external personnel also can come to go on with stranded personnel will through terminal 17 simultaneously.

In conclusion: the door control structure of the false floor safety elevator of the autonomous escaping elevator system solves the problem that the existing door control structure of the false floor safety elevator of the autonomous escaping elevator system has lower safety performance by arranging an elevator control unit 9, an alarm module 10, a manual switch 11, an indicator lamp 12, a display screen 13, an elevator door control 14, a storage module 15, a wireless receiving/transmitting module 16, a terminal 17, a first false floor sensing module 18, a first false floor sensor 19, a second false floor sensing module 20, a second false floor sensor 21, a third false floor sensing module 22 and a third false floor sensor 23, when stranded personnel meet the cage of swift current car and move to false floor stage under the swift current car, if stranded personnel save oneself successfully this moment and when rushing out the elevator, easily cause stranded personnel to receive certain injury, have certain potential safety hazard, can't satisfy user's demand, reduced the problem of the false floor safety elevator gate structure practicality of elevator system of independently getting rid of poverty.

Claims (6)

1. Automatic elevator system that gets rid of poverty false layer safety elevator door control structure, including building body (1) and elevator control unit (9), its characterized in that: the elevator comprises a building body (1), an elevator room (2) is installed on the left side of the building body (1), a traction device (3) is installed at the top of the elevator room (2), an elevator cage (4) is installed at the output end of the traction device (3) through a traction rope and a counterweight block, a false floor sensing module (5) is installed on the left side of the front surface of the elevator cage (4), a flat floor sensing module (6) is installed on the right side of the front surface of the elevator cage (4), a false floor sensing module (7) is installed on the left side of the inner cavity of the elevator room (2), a flat floor sensing module (8) is installed on the right side of the inner cavity of the elevator room (2), an elevator control unit (9) is respectively in bidirectional signal connection with the false floor sensing module (5) and the flat floor sensing module (6), the output end of the false floor sensing module (5) is in signal connection with the input end of the false floor sensing module (7), and the output end of the flat floor sensing module (6) is in signal connection with the input end of the flat floor sensing module (8), the false layer sensing module (5) comprises a first false layer sensing module (18), a second false layer sensing module (20) and a third false layer sensing module (22), and the false layer sensing module (7) comprises a first false layer sensor (19), a second false layer sensor (21) and a third false layer sensor (23).

2. The automatic elevator door control structure for the false floor of the elevator system for getting rid of trouble of claim 1, characterized in that: the elevator control system is characterized in that an alarm module (10) is installed at the top of the front surface of an elevator control unit (9), a manual switch (11) is installed at the bottom of the alarm module (10) on the front surface of the elevator control unit (9), a display screen (13) is installed at the top of the alarm module (10) on the front surface of the elevator control unit (9), an indicator lamp (12) is installed at the top of the display screen (13) on the front surface of the elevator control unit (9), an elevator door control (14) is electrically connected with the output end of the elevator control unit (9), the input end of the elevator control unit (9) is electrically connected with the alarm module (10) and the output end of the manual switch (11) respectively, a storage module (15) and a wireless receiving/transmitting module (16) are electrically connected with the elevator control unit (9) in a bidirectional mode respectively, and a terminal (17) is connected with the wireless receiving/transmitting module (16) in a bidirectional signal mode, the output of elevator control unit (9) respectively with display screen (13), elevator door control (14) and pilot lamp (12) input electric connection, the positive surface of elevator case (4) just is located alarm module (10) and manual switch (11) and all has the protection casing through the buckle joint on the positive surface.

3. The door control structure of the self-trapped-escape elevator system false floor safety elevator as claimed in claim 1, characterized in that: the flat layer sensing module (6) comprises a first flat layer sensing module (24), a second flat layer sensing module (26) and a third flat layer sensing module (28), and the flat layer sensing module (8) comprises a first flat layer inductor (25), a second flat layer inductor (27) and a third flat layer inductor (29).

4. The door control structure of the self-trapped-escape elevator system false floor safety elevator as claimed in claim 1, characterized in that: the output end of the first false layer sensing module (18) is in signal connection with the input end of the first false layer sensor (19), the output end of the second false layer sensing module (20) is in signal connection with the input end of the second false layer sensor (21), and the output end of the third false layer sensing module (22) is in signal connection with the input end of the third false layer sensor (23).

5. The door control structure of the self-trapped-escape elevator system false floor safety elevator according to claim 3, characterized in that: the output end of the first flat-layer sensing module (24) is in signal connection with the input end of the first flat-layer sensor (25), the output end of the second flat-layer sensing module (26) is in signal connection with the input end of the second flat-layer sensor (27), and the output end of the third flat-layer sensing module (28) is in signal connection with the input end of the third flat-layer sensor (29).

6. The door control structure of the self-trapped-escape elevator system false floor safety elevator as claimed in claim 1, characterized in that: the hydraulic buffer device is installed to the bottom of elevator room (2) inner chamber, the quantity of false layer sensing module (5), false layer response module (7), flat bed sensing module (6) and flat bed response module (8) is a plurality of and each floor of evenly distributed on building body (1).

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