CN216713769U - Hanging basket working platform - Google Patents

Abstract

The utility model relates to a hanging basket working platform which comprises a hanging basket, an anemoscope, a tension sensor, an acquisition control card and a brake controller, wherein the hanging basket is fixedly connected with the anemoscope; the collection control card controls a motor of the hanging basket through a brake controller, and the anemoscope and the tension sensor are connected into the collection control card through a communication rope. The wind speed condition in the current working environment is acquired in real time through the anemoscope arranged on the hanging basket, the tension sensor monitors the load of the hanging basket, the data are transmitted to the acquisition control card, the received data are processed and analyzed, the working condition of the hanging basket is judged, and early warning is given. The wind speed meter and the tension sensor are used for monitoring various data of the hanging basket in the lifting and operating processes in real time, when a certain data is deviated, the acquisition control card can timely send out an alarm, an operator is assisted to timely and safely land the hanging basket on the ground, and the personal safety of each person is guaranteed.

Description

Hanging basket working platform

Technical Field

The utility model relates to the field of construction hanging baskets, in particular to a hanging basket working platform with the functions of monitoring weight and wind speed, alarming, delaying braking and stopping to a safe state.

Background

The construction hanging basket is a construction facility applied to high-altitude operation, and the operating characteristics of the construction hanging basket lead to certain danger, most accidents occur when the load of the hanging basket exceeds the rated load and the hanging basket excessively shakes due to environmental gust, and the fracture of a steel wire rope can occur to cause casualties. The hanging basket protection device designed on the market is only limited to the ascending of a hoist and the overload of the total load, and the overload device acts to cut off the power supply; therefore, the whole overload protection device reduces the practicability and the safety and reliability, and if the steel cable is broken, the hanging basket can still fall off, so that the safety of high-altitude operation personnel is not really protected.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the limitation of the conventional hanging basket working platform and provide the hanging basket working platform which is capable of monitoring weight and wind speed, alarming and delaying braking and stopping to a safe state. Therefore, the utility model adopts the following technical scheme:

a hanging basket working platform comprises a hanging basket and is characterized by further comprising an anemoscope, a tension sensor, an acquisition control card and a brake controller; the wind speed instrument is arranged on a hanging basket, the tension sensors are arranged at the positions, connected with steel wire ropes, of two sides of the hanging basket, the acquisition control card is arranged on the hanging basket, the brake controller is arranged on a motor of the hanging basket and connected with the acquisition control card, the acquisition control card controls the motor of the hanging basket through the brake controller, and the wind speed instrument and the tension sensors are connected into the acquisition control card through communication ropes.

Preferably, the acquisition control card comprises an instrument box and a controller, and the anemoscope and the tension sensor guide measured data into the instrument box and display the load of the hanging basket and the wind condition in the environment in real time.

Preferably, a roof anemometer is also arranged at the roof basket support and is connected to the acquisition control card through a communication rope.

When the lifting device is used, when the lifting command is received by the hanging basket to start lifting, the tension sensor starts to intervene, when the hanging basket is completely separated from the ground, the tension is full load, at the moment, the instrument box data exceeds the set data, namely, the instrument box data is determined to be overloaded, the control card sends a command to the alarm, the alarm sends an alarm to inform that the instrument box is overloaded, and meanwhile, the controller sends a command to the brake controller, so that the motor starts to reversely operate, and the hanging basket slowly falls to the ground.

Preferably, when the hanging basket is stopped in the air to operate, the anemoscope inputs data into the acquisition control card, the anemoscope displays real-time wind speed, when the wind speed exceeds a set numerical value, the environment is determined to be dangerous, the alarm gives an alarm to notify that the environment is dangerous, and meanwhile, the controller sends an instruction to the brake controller to enable the motor to start reverse operation and slowly descend to the ground.

Preferably, all the collected data are transmitted through a 5G network, state monitoring is carried out in an office of a project department at the same time, once a monitoring person finds that a problem risk exists, remote control can be carried out from the office, and the operation person is reminded that a hanging basket stops running and stops at a safe area.

The utility model has the beneficial effects that: 1. the utility model can monitor the state of the hanging basket in real time, can give an alarm in real time when the components change, and assists the operators to immediately descend the hanging basket to the ground, thereby fundamentally protecting the safety of the operators. 2. The utility model aims to solve the problem of using the bearing platform when the whole hanging basket is used, the fault rate is high because the hanging basket is a moving body, and the problem that the fault occurrence processing time is long and the potential safety hazard cannot be eliminated in time in use is solved. 3. The intelligent safety type hanging basket working platform can monitor the state of the hanging basket in real time, and when the parts are changed, the equipment can be stopped in real time, so that potential safety hazards are reduced, and the purposes of higher practicability and safety and reliability are achieved.

Drawings

Fig. 1 is a schematic structural diagram of a basic type hanging basket provided by the utility model.

Fig. 2 is a detailed view of a tension sensor of the gondola of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the utility model, but are not intended to limit the utility model in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the utility model. All falling within the scope of the present invention.

The utility model relates to a hanging basket working platform with functions of weight and wind speed monitoring, alarming and assisting, which comprises a hanging basket 1, an anemoscope 6, a tension sensor 8, an acquisition control card 5 and a brake controller 2. Fig. 2 is a detailed view of the installation of the tension sensor 8, which includes a steel wire rope pulley 7 and a tension sensor 8, which are collectively denoted by reference numeral 3 in fig. 1, wherein the steel wire rope 4 of the basket 1 passes through the steel wire rope pulley 7 and then is connected with the tension sensor 8, the tension sensor 8 is connected with the basket 1 through the steel wire rope 4 between the tension sensor 8 and the basket 1, the tension sensor 8 is arranged close to the basket 1, and the steel wire rope pulley 7 is close to the tension sensor 3 to tighten the steel wire rope 4, so as to avoid the swinging of the steel wire rope pulley 7 from affecting the measurement accuracy. The wire rope pulley block 7 is generally composed of two or three pulleys mounted on a mounting frame, and the basket wire rope 4 is passed between these pulleys to be tensioned.

An anemoscope 6 is arranged on a hanging basket 1, tension sensors 8 are arranged on two sides of the hanging basket and connected with steel wire ropes 4, an acquisition control card 5 is arranged on the hanging basket 1, a brake controller 2 is arranged on a motor of the hanging basket and connected with the acquisition control card 5, the acquisition control card 5 controls the starting, the stopping, the positive rotation and the reverse rotation of the motor of the hanging basket through the brake controller 2, and the anemoscope 6 and the tension sensors 3 are connected into the acquisition control card 5 through communication ropes.

When the wind speed monitoring device is used, the controller of the acquisition control card 5 is in communication connection with the anemoscope 6 and the tension sensor 8 on the hanging basket respectively, measurement data of the tension sensor 8 and the anemoscope 6 are acquired, the acquisition control card 5 comprises an instrument panel and a controller, the instrument panel of the tension sensor 8 displays the integral gravity of the hanging basket, the instrument panel of the anemoscope 6 displays the wind speed in the environment, and the acquisition control card 5 compares the working condition of the hanging basket according to the preset limit value of the acquisition control card to make early warning. The controller is used for receiving the data transmitted by the sensor, comparing the data with a set limit value, and controlling the work of the motor, the alarm and the instrument panel.

Specifically, when actually lifting, the staff gets into the hanging flower basket and begins the operation, and the hanging flower basket begins to rise, and force sensor 8 receives the pulling force, and it transmits information to the controller through the communication rope, and force sensor 8's panel board shows the pulling force that wire rope 4 received at this moment. When the hanging basket is completely separated from the ground, the tension value is not increased any more, the value displayed by the instrument panel is the common gravity of the hanging basket and the load, the hanging basket also enters a primary hoisting stage, the controller judges whether the tension exceeds the preset rated load or not, if the tension exceeds the preset rated load, the controller sends an instruction to enable the alarm to give an alarm, and meanwhile, the controller sends an instruction to the brake controller, the motor reversely operates to enable the hanging basket to return to the ground, and the safety of personnel is guaranteed. If the tensile force is within the rated load, the controller judges that the basket normally operates, and the basket continuously rises to a working area.

Specifically, anemoscope 6 on the hanging flower basket links to each other with the controller in the collection control card 5, roofing anemoscope also is equipped with in roofing hanging flower basket support department simultaneously, roofing anemoscope passes through communication rope and inserts collection control card 5, when the hanging flower basket stagnation carries out the operation in the midair, anemoscope 6 on the hanging flower basket and roofing anemoscope are with data input collection control card, anemoscope shows real-time wind speed, the wind speed arbitrary department that measures when two anemometers 6 exceeds the settlement numerical value promptly confirms that the environment has danger, the siren sends out the alarm notice and has danger, the warning language is: "the hanging flower basket will begin to descend after 30 seconds, 30, 29 … …", let the operation personnel on the hanging flower basket perception dangerous existence immediately through the alarm, in time pick up the operation instrument and prepare falling, after 30 seconds, gather the control card and send the instruction to brake controller, make the motor begin reverse operation, let the hanging flower basket slowly descend to ground.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the utility model. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (3)

1. A hanging basket working platform comprises a hanging basket and is characterized by further comprising an anemoscope, a tension sensor, an acquisition control card and a brake controller; the wind speed instrument is arranged on a hanging basket, the tension sensors are arranged at the positions, connected with steel wire ropes, of two sides of the hanging basket, the acquisition control card is arranged on the hanging basket, the brake controller is arranged on a motor of the hanging basket and connected with the acquisition control card, the acquisition control card controls the motor of the hanging basket through the brake controller, and the wind speed instrument and the tension sensors are connected into the acquisition control card through communication ropes.

2. A basket work platform as claimed in claim 1, wherein the acquisition control card comprises a dashboard and a controller.

3. A basket work platform as claimed in claim 1, wherein a roof anemometer is also mounted on the roof basket support and is connected to the acquisition control card via a communication cable.

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