CN204958199U - Tower crane positioner - Google Patents

Abstract

The utility model provides a tower crane positioner acquires the positional information of lifting hook through lifting hook monitor cell, first target monitor cell acquires the positional information who is hung the object, further through driver's cabin unit basis the positional information of lifting hook with the positional information who is hung the object will the lifting hook location extremely hang the position that positional information is corresponding of object to tower crane's work efficiency has been improved to the quick location of realizing tower crane.

Description

Tower crane positioning device

Technical field

The utility model relates to construction hoisting machinery signal detection and control field, particularly relates to a kind of tower crane positioning device.

Background technology

Tower crane is building operation especially requisite handling mechanical equipment in high-building construction.Tower crane generally adopts aloft work, namely operating personal is generally located in high-level operator's compartment needing the object of handling to carry out crane operation, because general distance ground is comparatively far away, especially just can complete often needing ground commanding to carry out commander's cooperation during hook hanging object at handling object.

Between tower-type crane operation person and ground control person, main semaphore or the gesture of adopting is got in touch with, and this liaison method exists the drawbacks such as information interchange is direct, labour intensity is large; Along with the progress of technology, current tower crane substantially changes into and adopts interphone to get in touch with, though this mode comparatively semaphore or gesture facilitates much, but the occasions such as, noise noisy in construction environment is larger, also there is the problems such as information interchange is not smooth, thus reduce the work efficiency of tower crane.

Utility model content

The utility model provides a kind of tower crane positioning device improving tower crane work efficiency.

First aspect of the present utility model is to provide a kind of tower crane positioning device, comprising: operator's compartment unit, suspension hook monitoring means and first object monitoring means;

Described suspension hook monitoring means is arranged on the suspension hook of tower crane; Described first object monitoring means is arranged on hanging object; Described operator's compartment unit is arranged in the operator's compartment of described tower crane.

In conjunction with first aspect, in the implementation that the first is possible, also comprise: the second target monitoring unit;

Described second target monitoring unit is arranged at the target location of described hanging object.

In conjunction with the first possible implementation of first aspect or first aspect, in the implementation that the second is possible, described operator's compartment unit comprises: the first microcontroller, the first wireless communication module, guidance panel and the first DC regulated power supply; Described first microcontroller is connected with described first wireless communication module and described guidance panel respectively;

Described suspension hook monitoring means comprises: the second microcontroller, the first locating module, the second wireless communication module and the second DC regulated power supply; Described second microcontroller is connected with described second wireless communication module with described first locating module respectively;

Described first object monitoring means comprises: the 3rd microcontroller, the second locating module, the 3rd wireless communication module and the 3rd DC regulated power supply; Described 3rd microcontroller is connected with the second locating module and described 3rd wireless communication module respectively.

In conjunction with the first possible implementation of first aspect, in the implementation that the third is possible, described second target monitoring unit comprises: the 4th microcontroller, the 3rd locating module, the 4th wireless communication module and the 4th DC regulated power supply; Described 4th microcontroller is connected with the 3rd locating module and described 4th wireless communication module respectively.

In conjunction with the first possible implementation of first aspect, in the 4th kind of possible implementation, described 3rd locating module, for obtaining the target position information of described hanging object;

Described 4th wireless communication module, for sending to described first wireless communication module by the target position information of described hanging object.

In conjunction with any one possible implementation above-mentioned of first aspect or first aspect, in the 4th kind of possible implementation, described guidance panel, comprising: Pattern Select Switch, tower machine controller and touch LCD screen;

Wherein, described Pattern Select Switch is connected with described first microcontroller; Described tower machine controller is connected with described first microcontroller; Described touch LCD screen is connected with described first microcontroller.

In conjunction with the 5th kind of possible implementation of first aspect, in the 6th kind of possible implementation, described first object monitoring means, also comprises: target positioning key, located key and feedback indicator lamp;

Wherein, described target positioning key is connected with described 3rd microcontroller; Described location completes key and is connected with described 3rd microcontroller; Described feedback indicator lamp is connected with described 3rd microcontroller.

In conjunction with any one possible implementation above-mentioned of first aspect, in the 7th kind of possible implementation, the location information of described suspension hook comprises longitude and latitude and the altitude data of described suspension hook; The location information of described hanging object comprises longitude and latitude and the altitude data of described hanging object; The target position information of described hanging object comprises longitude and latitude and the altitude data of the target location of described hanging object.

The tower crane positioning device that the utility model embodiment provides, obtains the location information of suspension hook by suspension hook monitoring means, described first object monitoring means obtains the location information of hanging object; Described suspension hook is positioned to position corresponding to the location information of described hanging object further by operator's compartment unit according to the location information of the location information of described suspension hook and described hanging object, thus realize the quick position of tower crane, improve the work efficiency of tower crane.

Accompanying drawing explanation

The structural representation of a kind of tower crane that Fig. 1 provides for the utility model embodiment;

The structural representation of a kind of tower crane positioning device that Fig. 2 provides for the utility model embodiment;

The deployment schematic diagram of a kind of tower crane positioning device that Fig. 3 provides for the utility model embodiment;

The structural representation of a kind of tower crane positioning device that Fig. 4 provides for the utility model embodiment;

The structural representation of the another kind of tower crane positioning device that Fig. 5 provides for the utility model embodiment;

The structural representation of the another kind of tower crane positioning device that Fig. 6 provides for the utility model embodiment;

The structural representation of the another kind of tower crane positioning device that Fig. 7 provides for the utility model embodiment;

The touch LCD screen circle signal face figure of a kind of operator's compartment unit that Fig. 8 provides for the utility model embodiment;

A kind of Pattern Select Switch structural representation that Fig. 9 provides for the utility model embodiment;

One first microcontroller that Figure 10 provides for the utility model embodiment and peripheral circuit diagram thereof;

One second microcontroller that Figure 11 provides for the utility model embodiment, the 3rd microcontroller and peripheral circuit diagram thereof;

The one first DC-stabilized circuit figure that Figure 12 provides for the utility model embodiment;

One second DC regulated power supply that Figure 13 provides for the utility model embodiment and the 3rd DC-stabilized circuit figure;

A kind of button driving circuit circuit diagram that Figure 14 provides for the utility model embodiment;

A kind of wireless communication module circuit diagram that Figure 15 provides for the utility model embodiment;

A kind of locating module circuit diagram that Figure 16 provides for the utility model embodiment;

The schematic flow sheet of a kind of tower crane positioning method that Figure 17 provides for the utility model embodiment;

The schematic flow sheet of the another kind of tower crane positioning method that Figure 18 provides for the utility model embodiment;

The schematic flow sheet of the another kind of tower crane positioning method that Figure 19 provides for the utility model embodiment;

The structural representation of the another kind of tower crane that Figure 20 and 21 provides for the utility model embodiment;

The schematic diagram of a kind of tower crane positioning method that Figure 22 provides for the utility model embodiment;

The schematic diagram of the another kind of tower crane positioning method that Figure 23 provides for the utility model embodiment.

Detailed description of the invention

The structural representation of a kind of tower crane that Fig. 1 provides for the utility model embodiment, with reference to Fig. 1, this tower crane comprises: operator's compartment 1, frame 2, large arm 3, dolly 4, suspension hook 5;

The structural representation of a kind of tower crane positioning device that Fig. 2 provides for the utility model embodiment, with reference to Fig. 2, this tower crane is provided with the tower crane positioning device that the utility model embodiment provides, this tower crane positioning device, comprising: operator's compartment unit 10, suspension hook monitoring means 11 and first object monitoring means 12;

Wherein, operator's compartment unit 10 is arranged in operator's compartment; Described suspension hook monitoring means 11 is arranged on the suspension hook of tower crane; Described first object monitoring means 12 is arranged on hanging object.

Described suspension hook monitoring means 11, for obtaining the location information of suspension hook;

Described first object monitoring means 12, for obtaining the location information of hanging object;

Described operator's compartment unit 10, the position that the location information for according to the location information of described suspension hook and the location information of described hanging object described suspension hook being positioned to described hanging object is corresponding.

The tower crane positioning device that the utility model embodiment provides, obtains the location information of suspension hook by suspension hook monitoring means, described first object monitoring means obtains the location information of hanging object; Described suspension hook is positioned to position corresponding to the location information of described hanging object further by operator's compartment unit according to the location information of the location information of described suspension hook and described hanging object, thus realize the quick position of tower crane, improve the work efficiency of tower crane.

Preferably, by suspension hook and hanging object affixed after, a second target monitoring unit 13 can be set up, and this second target monitoring unit 13 is arranged on the target location of hanging object.Concrete, the deployment schematic diagram of a kind of tower crane positioning device that Fig. 3 provides for the utility model embodiment, with reference to Fig. 3, this second target monitoring unit 13, for obtaining the target position information of described hanging object;

Described operator's compartment unit 10, also for described suspension hook and described hanging object affixed after, according to the target position information of described hanging object, described hanging object is moved to the target location of described hanging object.

Optionally, in order to realize the scheme of above-described embodiment, set forth below is the implementation that operator's compartment unit 10, suspension hook monitoring means 11, first object monitoring means 12 and the second target monitoring unit 13 are feasible.

The structural representation of a kind of tower crane positioning device that Fig. 4 provides for the utility model embodiment, with reference to Fig. 4, described operator's compartment unit 10 comprises: the first microcontroller 10-1, the first wireless communication module 10-2, guidance panel 10-3 and the first DC regulated power supply 10-4; Described first microcontroller 10-1 is connected with described first wireless communication module 10-2 and described guidance panel 10-3 respectively;

Described suspension hook monitoring means 11 comprises: the second microcontroller 11-1, the first locating module 11-2, the second wireless communication module 11-3 and the second DC regulated power supply 11-4; Described second microcontroller 11-1 is connected with described second wireless communication module 11-3 with the first locating module 11-2 respectively;

Described first object monitoring means 12 comprises: the 3rd microcontroller 12-1, the second locating module 12-2, the 3rd wireless communication module 12-3 and the 3rd DC regulated power supply 12-4; Described 3rd microcontroller 12-1 is connected with the second locating module 12-2 and described 3rd wireless communication module 12-3 respectively.

On the basis of Fig. 4, the structural representation of the another kind of tower crane positioning device that Fig. 5 provides for the utility model embodiment, with reference to Fig. 5, described second target monitoring unit 13 comprises: the 4th microcontroller 13-1, the 3rd locating module 13-2, the 4th wireless communication module 13-3 and the 4th DC regulated power supply 13-4; Described 4th microcontroller 13-1 is connected with the 3rd locating module 13-2 and described 4th wireless communication module 13-3 respectively.

Concrete, described 3rd locating module 13-2, for obtaining the target position information of described hanging object;

Described 4th wireless communication module 13-3, for sending to described first wireless communication module 10-2 by the target position information of described hanging object.

Concrete, described first locating module 11-2, for obtaining the location information of described suspension hook;

Described second wireless communication module 11-3, for sending to described first wireless communication module 10-2 by the location information of described suspension hook;

Described second locating module 12-2, for obtaining the location information of described hanging object;

Described 3rd wireless communication module 12-3, for sending to described first wireless communication module 10-2 by the location information of described hanging object;

Described first microcontroller 10-1, to be positioned to position corresponding to the location information of described hanging object for the location information of described suspension hook that obtains according to described first wireless communication module 10-2 and the location information of described hanging object by described suspension hook.

Concrete, described first wireless communication module 10-2, also for confirm described hanging object at described first microcontroller 10-1 location information effectively after, send response message to described 3rd wireless communication module 12-3.

Optionally, on the basis of Fig. 4, the structural representation of the another kind of tower crane positioning device that Fig. 6 provides for the utility model embodiment, with reference to Fig. 6, described guidance panel 10-3, comprising: Pattern Select Switch 10-3a, tower machine controller 10-3b and touch LCD screen 10-3c;

Wherein, described Pattern Select Switch 10-3a is connected with described first microcontroller 10-1, and described Pattern Select Switch 10-3a is operated in automatic mode or manual mode for selecting tower crane;

Described tower machine controller 10-3b is connected with described first microcontroller 10-1, described tower machine controller 10-3b, for controlling the mode of operation of tower crane, described mode of operation comprise suspension hook vertical lift controls, dolly amplitude controls and large revolution of arm controls;

Described touch LCD screen 10-3c is connected with described first microcontroller 10-1, described touch LCD screen 10-3c for show tower crane normally work required controling parameters and display related status information;

On the basis of Fig. 4, the structural representation of the another kind of tower crane positioning device that Fig. 7 provides for the utility model embodiment, with reference to Fig. 7, described first object monitoring means 12, also comprises: target positioning key 12-5, locate key 12-6 and fed back indicator lamp 12-7;

Wherein, described target positioning key 12-5 is connected with described 3rd microcontroller 12-1; Described target positioning key 12-5, for starting described second locating module 12-2 to the detection of the location information of described hanging object;

Described location completes key 12-6 and is connected with described 3rd microcontroller 12-1; Described location completes key 12-6, sends lifting dead work ready information in ground for triggering described 3rd wireless communication module 12-3 to described first wireless communication module 10-2;

Described feedback indicator lamp 12-7 is connected with described 3rd microcontroller 12-1, described feedback indicator lamp 12-7, for when pressing described target positioning key 12-5 or described location completes key 12-6, shows the first state instruction; Described first state instruction represents that described in described 3rd wireless communication module 12-3 forward, the first wireless communication module 10-2 sends data message; When described 3rd wireless communication module 12-3 receives the described response message of described first wireless communication module 10-2 transmission, show the second state instruction; Described second state instruction represents that the location information of described hanging object is effective; When the location information of described hanging object is invalid, the instruction of the display third state; Described third state instruction represents that the location information of described hanging object is invalid; When described 3rd wireless communication module 12-3 receives the request message of described 4th wireless communication module 13-3 transmission, the instruction of display the 4th state; Described 4th state instruction represents the target location that described hanging object can be moved to described hanging object.

It should be noted that, Fig. 6 and Fig. 7 can also realize based on Fig. 5, and the utility model embodiment will not limit for said structure.

Optionally, the location information of described suspension hook comprises longitude and latitude and the altitude data of described suspension hook; The location information of described hanging object comprises longitude and latitude and the altitude data of described hanging object; The target position information of described hanging object comprises longitude and latitude and the altitude data of the target location of described hanging object.

Below by specific embodiment, hereinbefore embodiment is described.

With reference to shown in Fig. 6 and Fig. 7, the utility model comprises operator's compartment unit 10, suspension hook monitoring means 11 and first object monitoring means 12, and wherein operator's compartment unit 10 comprises the first microcontroller 10-1, the first wireless communication module 10-2, Pattern Select Switch 10-3a, tower machine controller 10-3b, touch LCD screen 10-3c and the first DC regulated power supply 10-4; Suspension hook monitoring means 11 comprises the second microcontroller 11-1, the first locating module 11-2, the second wireless communication module 11-3 and the second DC regulated power supply 11-4; First object monitoring means 12 comprises micro-3rd microcontroller 12-1, the second locating module 12-2, target positioning key 12-5, has located key 12-6, feeds back indicator lamp 12-7, the 3rd wireless communication module 12-3 and the 3rd DC regulated power supply 12-4.

Being two way communication between described operator's compartment unit 10 and first object monitoring means 12, is one way communication between operator's compartment unit 10 and suspension hook monitoring means 11.Namely the location information that the second locating module 12-2 detects is sent to operator's compartment unit 10 by first object monitoring means 12, operator's compartment unit 10 is after the location information receiving first object monitoring means 12 simultaneously, a confirmation can be fed back to first object monitoring means 12, represent that its location information receives; And the location information that the first locating module 11-2 detects only is sent to operator's compartment unit 10 by suspension hook monitoring means 11 in real time, and send corresponding feedback information without operator's compartment unit 10.When practical application, first object monitoring means 12 is placed in the object place of required handling, suspension hook monitoring means 11 is fixed on suspension hook top position, therefore the coordinate of first object monitoring means 12 is consistent with the coordinate of object, and the coordinate of suspension hook monitoring means 11 is consistent with the coordinate of tower crane lift hook.

In described a kind of tower crane positioning device, described first wireless communication module 10-2 is connected with the first microcontroller 10-1, described first wireless communication module 10-2 comes from the data message of first object monitoring means 12 and suspension hook monitoring means 11 transmission for receiving, feedback information is sent to first object monitoring means 12 simultaneously.

In described a kind of tower crane positioning device, described Pattern Select Switch 10-3a is connected with the first microcontroller 10-1, described Pattern Select Switch 10-3a is automatic mode or manual mode for selecting the mode of operation of tower crane, and default condition is after powering manual mode.The tower crane run under being in automatic mode, makes it be converted to manual mode by this select switch, and now tower crane will stop automatic mode running immediately and keep each several part invariant position, and tower crane can continue to run by manual mode afterwards; And if tower crane runs under being in manual mode, then do not make it be converted to automatic mode by this select switch, select automatic mode to carry out in an initial condition.

In described a kind of tower crane positioning device, described tower machine controller 10-3b is connected with the first microcontroller 10-1, described tower machine controller 10-3b is used for controlling the mode of operation of tower crane, comprises the vertical lift control of suspension hook, the control of dolly amplitude and large revolution of arm control etc.

In described a kind of tower crane positioning device, described touch LCD screen 10-3c is connected with the first microcontroller 10-1, and described touch LCD screen 10-3c is used for arranging tower crane and normally works required controling parameters and display related status information.

In described a kind of tower crane positioning device, described first locating module 11-2 is connected with the second microcontroller 11-1, and described first locating module 11-2 is used for the longitude and latitude and the altitude data information that detect tower crane lift hook present position in real time.

In described a kind of tower crane positioning device, described second wireless communication module 11-3 is connected with the second microcontroller 11-1, and described second wireless communication module 11-3 is used for the lift hook position information that the first locating module 11-2 detects to send to operator's compartment unit 10 in real time.

In described a kind of tower crane positioning device, described second locating module 12-2 is connected with the 3rd microcontroller 12-1, and described second locating module 12-2 is used for the longitude and latitude and the altitude data information that detect first object monitoring means 12 present position in real time.

In described a kind of tower crane positioning device, described target positioning key 12-5 is connected with the 3rd microcontroller 12-1, this key is used for starting the longitude and latitude of (often pressing one-shot once) the second locating module 12-2 to first object monitoring means 12 present position and the detection of altitude data, and detected data message is sent to operator's compartment unit 10.

In described a kind of tower crane positioning device, described location completes key 12-6 and is connected with the 3rd microcontroller 12-1, and this key is used for sending the ready information of ground lifting dead work to operator's compartment unit 10, can carry out lifting operation to point out chaufeur.

In described a kind of tower crane positioning device, described feedback indicator lamp 12-7 is connected with the 3rd microcontroller 12-1, and this feedback indicator lamp 12-7 is three-color LED light, and three kinds of colors represent three kinds of different running statees respectively.Namely when pressing target positioning key 12-5 or location completes key 12-6, being redness, representing that first object monitoring means 12 forward operator's compartment unit 10 sends data message; Operator's compartment unit 10 will process this data message afterwards, if when judging that these data are valid data, then operator's compartment unit 10 will send a data actv. feedback signal to first object monitoring means 12, and now this feedback indicator lamp 12-7 is green; If data invalid, then this feedback indicator lamp 12-7 will with certain frequency by three look circulation flickers; And if this target monitoring unit receives location that another target monitoring unit sends when completing information, this feedback indicator lamp 12-7 is yellow, represent that the object of institute's handling is carried out handling by another place and prepared, come by the position (i.e. handling destination) of handling to this target monitoring unit place, require that this target monitoring unit presses target positioning key 12-5 in time to send its location information to operator's compartment unit 10, provide its location information to this destination to handling object.If this target monitoring unit does not receive any information within a period of time, then this feedback indicator lamp 12-7 automatic distinguishing.

In described a kind of tower crane positioning device, described 3rd wireless communication module 12-3 is connected with the 3rd microcontroller 12-1, described 3rd wireless communication module 12-3 is used for sending the location information of this first object monitoring means 12 to operator's compartment unit 10 and lifting by crane the ready information of dead work, or receive the respective feedback information of operator's compartment unit 10 transmission, and send to another target monitoring unit or receive about the ready information of lifting dead work.

In described a kind of tower crane positioning device, described first DC regulated power supply 10-4, the second DC regulated power supply 11-4 and the 3rd DC regulated power supply 12-4 are respectively operator's compartment unit 10, suspension hook monitoring means 11 and first object monitoring means 12 and provide working power.

The touch LCD screen interface schematic diagram of a kind of operator's compartment unit that Fig. 8 provides for the utility model embodiment, with reference to Fig. 8, this interface is used for operator's compartment unit and carries out coordinate parameters correction and display related data information, wherein, 10-3c-1 represents the position data of hanging object, also be the longitude of first object monitoring means present position, latitude, sea level elevation and distance, wherein front 3 item numbers obtain according to being detected by the second locating module 12-2, last item number refers to the horizontal linear distance between first object monitoring means to operator's compartment unit according to " distance ", this distance is by the warp of first object monitoring means, the warp of latitude coordinate and operator's compartment unit, latitude coordinate calculates.10-3c-2 represents lift hook position data, also be the longitude of suspension hook monitoring means present position, latitude, sea level elevation and distance, similar with 10-3c-1, wherein front 3 item numbers obtain according to being detected by the first locating module 11-2, last item number refers to the horizontal linear distance between suspension hook monitoring means to operator's compartment unit according to " distance ", and this distance is calculated by the warp of the warp of suspension hook monitoring means, latitude coordinate and operator's compartment unit, latitude coordinate equally.10-3c-3 represents two working station indicators, wherein, indicator lamp 1 is used to indicate and working relation between first object monitoring means, when this lamp is green light, represent the location information receiving first object monitoring means and send, require, according to this location information, suspension hook is moved to first object monitoring means place; And this lamp is when being red light, represent and receive the ready information of handling dead work that first object monitoring means sends, instruction chaufeur can start handling object; If do not receive any information that first object monitoring means sends within a period of time, then system enters readiness for action, and this lamp is shown as yellow.Whether the data that indicator lamp 2 is used to indicate the transmission of first object monitoring means are effective, if when the horizontal linear distance between the first object monitoring means that the longitude and latitude data sent by first object monitoring means calculate and operator's compartment unit is between dolly minimum amplitude and maximum amplitude, this lamp is shown in green, represents that the data that first object monitoring means sends are effective; Otherwise, if when the horizontal linear distance between the first object monitoring means that the longitude and latitude data sent by first object monitoring means calculate to operator's compartment unit is less than dolly minimum amplitude or is greater than dolly maximum amplitude, tower crane cannot carry out crane operation to the object of first object monitoring means position, this lamp is shown in red, represents the data invalid that first object monitoring means sends; If do not receive any information that first object monitoring means sends within a period of time, this lamp is shown as yellow.10-3c-4 represents tower crane rotation direction and angle mandatory sign, this mark is used for driver assistance and carries out revolution operation: system is by according to the longitude and latitude data of suspension hook monitoring means, first object monitoring means and operator's compartment unit and centered by operator's compartment unit, calculate from suspension hook monitoring means in the direction of the clock to the angle between first object monitoring means, and this angle is presented at the top of arrow; If this angle is less than 180 degree, then show before angle numerical value "+" number, show arrow to the right simultaneously, represent that tower crane should be close to object to realize suspension hook to right-hand rotation; And if this angle is greater than 180 degree, then this angle and 360 degree is subtracted each other, and show before difference "-" number, show arrow left simultaneously, represent that tower crane should turn round left to realize suspension hook close to object.Therefore can know according to the direction of arrow should pivotal direction for chaufeur, known by the angle value of display and need pivotal angular dimension, when the angle value shown is 0, illustrate that suspension hook monitoring means and first object monitoring means have been located in the same direction.Aligning key 10-3c-5 comprises aligning key 1 and aligning key 2, wherein aligning key 1 is for arranging the location information at operator's compartment unit place, its operating process is as follows: first first object monitoring means is positioned over Tower-type-crane cab and close large arm place, highly slightly lower than the large arm height of tower crane, then on first object monitoring means, target positioning key is pressed, by the time when on touch LCD screen, indicator lamp 1 becomes green, click aligning key 1, now, system can by the longitude and latitude coming from first object monitoring means that just received and altitude data autostore, as the position data of operator's compartment unit.Aligning key 2 is for arranging the minimum and maximum luffing limit of dolly, method is: under first making operator's compartment unit and suspension hook monitoring means all be in normal working, then the inside luffing of driver's operation dolly, until trigger the inside luffing limiting device of tower crane, then after the data stabilization waiting suspension hook monitoring means to measure, click aligning key 2, the longitude and latitude data that the longitude and latitude data measured according to suspension hook monitoring means and operator's compartment unit store are calculated minimum radius by correlation formula by system, then store; Corresponding, when arranging maximum luffing, with above-mentioned to arrange minimum luffing method the same, the just outside luffing of driver's operation dolly, until trigger the outside luffing limit switch of tower crane.

A kind of Pattern Select Switch structural representation that Fig. 9 provides for the utility model embodiment, with reference to Fig. 9, wherein 10-3a-1 is automatic mode indicator lamp, and 10-3a-2 is button switch, and 10-3a-3 is manual mode indicator lamp.Wherein button switch 10-3a-2 is point driving switch, and for carrying out mode of operation selection, be automatic mode as current, then become manual mode after pressing, vice versa.In elected during certain mode of operation, to should the indicator lamp of pattern bright, otherwise indicator lamp extinguishes.

Principle of work of the present utility model is as follows:

After completing the calibration of operator's compartment cell position and mode of operation selection, first object monitoring means is placed in lifting object place, press target positioning key 12-5, first object monitoring means is then by its location information (warp, latitude and altitude data) send to operator's compartment unit, suspension hook monitoring means also can automatically by its location information (warp simultaneously, latitude and altitude data) send to operator's compartment unit, operator's compartment unit calculates both and the horizontal linear distance of being separated by between it respectively according to the above-mentioned two unit longitude and latitude data received, and these data are shown respectively in the target position data district 10-3c-1 of touch LCD screen and lift hook position data field 10-3c-2, if the horizontal linear distance between the first object monitoring means calculated to operator's compartment unit is between dolly minimum amplitude and maximum amplitude, then indicator lamp 2 is green, represent that the data that first object monitoring means sends are effective, otherwise, indicator lamp 2 reddens look, represents the data invalid that first object monitoring means sends, simultaneously operator's compartment unit also will send corresponding feedback information by the first wireless communication module to first object monitoring means, represent operator's compartment unit received data message that first object monitoring means sends and this data message whether effective.If chaufeur selects manual mode, then chaufeur can carry out operational tower machine controller according to the location information of liquid crystal display screen display and corresponding information, makes suspension hook move quickly into object place, to complete the associative operation of object handling.Here a kind of preferred method of operation is recommended: first make suspension hook rise to highest point, then the amplitude of dolly is adjusted according to the range data in target position data 10-3c-1 and lift hook position data 10-3c-2, and make both range data identical, carry out operational tower machine by tower machine gyratory directions and angle mandatory sign 10-3c-4 again to turn round, angle data are observed in turning course, when angle data are shown as 0, stop revolution; And then operate hook lifting, when lift hook position data 10-3c-2 is consistent with the sea level elevation in target position data 10-3c-1, illustrate that suspension hook has arrived object place.

After operator's compartment unit receives the ready information of ground lifting dead work that first object monitoring means sends, adopting another first object monitoring means to send object by above-mentioned identical method to operator's compartment unit again needs handling to arrive the location information of destination, after operator's compartment unit receives this new target position information, by above-mentioned identical method, the object of lifting is transported to destination, so far a handling process completes.

If selection automatic operation mode, then the first microcontroller will control tower crane by tower machine controller and automatically perform above-mentioned crane operation.Unlike, only have when first operator's compartment unit have received the ready information of ground dead work that first object monitoring means sends, after also receiving the object unloading position information that another second target monitoring unit being placed in handling destination sends, just understand the automatic handling work of performance objective object simultaneously.

Before selection automatic mode, chaufeur should assess whether be applicable to use automatic mode under existing condition, and when using automatic mode, chaufeur will note the running state of tower crane the moment, if find to perform automatic mode when there will be potential or significantly dangerous, tower crane should be manual mode from automatic mode switch by Pattern Select Switch 10-3a by chaufeur immediately, thus avoids the generation of accident.

One first microcontroller that Figure 10 provides for the utility model embodiment and peripheral circuit diagram thereof, with reference to Figure 10, first microcontroller and microcontroller I employing model are 32 micro controller systems of STM32F103ZET6, wherein the 6th pin connects back-up area feed circuit, 25th pin welding system reset circuit, the 8th, 9 pin connect RTC crystal oscillating circuit, the 138th, 48 pin connect start-up circuit, 24th, 23 pin welding system clock crystal oscillator circuit, 101 pin, 102 pin connect GPS locating module; 74,75,76,91,92,93 wireless communication module is connect.4th pin connects Pattern Select Switch.Remaining I/O pin (having identifier marking) connects touch LCD screen.

Further, to the explanation of microcontroller peripheral circuit:

(1) reset circuit is when program runs break down (being commonly called as " race flies "), can force program is reruned from reference position by triggering reset circuit, trigger reset circuit to be triggered by an inching button, press and just trigger reset, loose one's grip and just stop resetting, after reset, program brings into operation from reference position.

(2) back-up area feed circuit are when external power cut-off, and only for powering to the reserve area of microcontroller, general back-up area power acquisition button cell, is used for ensureing that the data of microcontroller reserve area are not lost and maintain the operation of RTC clock.

(3) about start-up circuit: (a total Three models)

If generally want to download code with serial ports, then must configure BOOT0 is 1 (high level), BOOT1 is 0 (low level), if and want to allow STM32 (microprocessor) once starting to run code by reset key, configuration BOOT0 is then needed to be that 0, BOOT1 can be arranged arbitrarily.If want to carry out code debugging, then BOOT0 is 1, B00T1 is 1.Therefore, selectable start-up circuit is set, is mainly software upgrading in the future and provides convenience!

(4) system clock crystal oscillating circuit is a prerequisite link of microcontroller, the utility model provides required clock frequency by external active crystal oscillator to microcontroller, the crystal oscillator frequency that system clock crystal oscillating circuit provides is higher, and the running velocity of microcontroller is faster; The execution of all instructions of microcontroller is all be based upon on the basis of the clock frequency that system clock crystal oscillating circuit provides.

(5) RTC clock crystal oscillator circuit provides clock frequency to the RTC clock of microcontroller.

(6) VREF (Voltage Reference): when being mainly used in analog-to-digital, as the reference of analog voltage.

One second microcontroller that Figure 11 provides for the utility model embodiment, the 3rd microcontroller and peripheral circuit diagram thereof, with reference to Figure 11, second microcontroller, the 3rd microcontroller and microcontroller II, microcontroller III employing model are 8 micro controller systems of STC15f2k60s2, wherein, pin 18,19 welding system clock crystal oscillator circuit, pin 9 welding system reset circuit.P0 mouth (34-39 pin) connects wireless communication module, and 24-26 pin connects feedback indicator lamp.10,11 pin connect GPS locating module.

The one first DC-stabilized circuit figure that Figure 12 provides for the utility model embodiment, with reference to Figure 12, the front end of the first DC regulated power supply is step-down rectifier filtering output circuit, is 12V direct current (DC) by AC conversion.MP2359 is voltage reduction module, and it is input as the 12V direct current (DC) that front end exports, and is 5V through this module step-down, is also 3.3V through the step-down of AMS1117-3.3 module simultaneously, powers to main computer unit.(MP2359: input voltage range: 4.5-24V, export: 5V; AMS1117-3.3: input: 5V, exports: 3.3V).

One second DC regulated power supply that Figure 13 provides for the utility model embodiment and the 3rd DC-stabilized circuit figure, with reference to Figure 13, L7805 is Voltage stabilizing module, input voltage range is the direct current (DC) of 9 ~ 35V, be 5V through this module step-down, be also 3.3V through the step-down of AMS1117-3.3 module simultaneously, power to main computer unit.(L7805: input voltage range: 9 ~ 35VDC, export: 5V; AMS1117-3.3: input: 5V, exports: 3.3V).

A kind of button driving circuit circuit diagram that Figure 14 provides for the utility model embodiment, with reference to Figure 14, this driving circuit comprises target positioning key and location completes key, 74LS00 is two 4 input nand gates, include two group of 4 NAND gate, adopt this chip can solve the problem of the maloperation that mechanical key produces because of shake.

A kind of wireless communication module circuit diagram that Figure 15 provides for the utility model embodiment, with reference to Figure 15, described first wireless communication module, the second wireless communication module and the 3rd wireless communication module all adopt the circuit structure shown in Figure 15, this circuit adopts NRF24L01 chip, adopts 3.3V Power supply.

A kind of locating module circuit diagram that Figure 16 provides for the utility model embodiment, with reference to Figure 16, first locating module, the second locating module and the 3rd locating module all can adopt the circuit structure shown in Figure 16 above, it can adopt GPS to position, i.e. GPS locating module circuit, adopts the NEO-6M module of UBLOX company, has 50 passages, follow the trail of sensitivity up to-161dBm, measure output frequency and reach as high as 5Hz.This module carries high-performance passive ceramic antenna (as in indoor use, need connect external active antenna), compatible 3.3V and 5V Single Chip Microcomputer (SCM) system, and carries Chargeable backup battery (supporting startup temperature or warm start).

It should be noted that, the circuit diagram above shown in Figure 10 to Figure 16, be only described each embodiment of the present utility model as a kind of example, it is not limited for specific implementation of the present utility model.

The schematic flow sheet of a kind of tower crane positioning method that Figure 17 provides for the utility model embodiment, described method is applied on tower crane, and described tower crane comprises: operator's compartment unit, suspension hook monitoring means and first object monitoring means; Wherein, described operator's compartment unit is arranged in the operator's compartment unit of described tower crane; Described suspension hook monitoring means is arranged on described suspension hook; Described first object monitoring means is arranged on hanging object; With reference to Figure 17, described method, comprises the steps:

Step 100, described suspension hook monitoring means obtain the location information of suspension hook;

Step 101, described first object monitoring means obtain the location information of hanging object;

Described suspension hook to be positioned to position corresponding to the location information of described hanging object according to the location information of the location information of described suspension hook and described hanging object by step 102, described operator's compartment unit.

A kind of tower crane positioning device that the utility model embodiment provides, obtains the location information of suspension hook by suspension hook monitoring means, described first object monitoring means obtains the location information of hanging object; Described suspension hook is positioned to position corresponding to the location information of described hanging object further by operator's compartment unit according to the location information of the location information of described suspension hook and described hanging object, thus realize the quick position of tower crane, improve the work efficiency of tower crane.

Optionally, described tower crane, also comprises: the second target monitoring unit;

Then on the basis of Figure 17, the schematic flow sheet of the another kind of tower crane positioning method that Figure 18 provides for the utility model embodiment, with reference to Figure 18, after step 102, also comprises:

Step 103, described second target monitoring unit obtain the target position information of described hanging object;

Step 104, described operator's compartment unit described suspension hook and described hanging object affixed after, according to the target position information of described hanging object, described hanging object is moved to the target location of described hanging object.

Concrete, before step 104, the location that described operator's compartment unit receives the transmission of described first object monitoring means completes message;

Then a kind of feasible implementation of step 104 is:

Described in step 104-1, described operator's compartment unit controls, suspension hook is raised up to extreme higher position;

Step 104-2, described operator's compartment unit rotate the large arm of described tower crane according to the action radius information of described suspension hook, directly over the target location described suspension hook being moved to described hanging object;

Described suspension hook is positioned to the target location of described hanging object by step 104-3, described operator's compartment unit.

Optionally, also comprise a kind of possible implementation: described operator's compartment unit, after confirming that the location information of described hanging object is effective, sends response message to described first object monitoring means.

On the basis of Figure 17, the schematic flow sheet of the another kind of tower crane positioning method that Figure 19 provides for the utility model embodiment, with reference to Figure 19, before step 100, also comprises:

Step 105, described operator's compartment unit obtain the location information of described operator's compartment unit;

The restraining position that suspension hook monitoring means described in step 106, described operator's compartment unit controls moves to the large arm of described tower crane obtains the location information of the restraining position of the large arm of described tower crane;

Step 107, described operator's compartment unit determine the action radius information of described suspension hook according to the location information of the restraining position of the location information of described operator's compartment unit and the large arm of described tower crane;

Then step 102 specifically comprises:

Described suspension hook to be positioned to position corresponding to the location information of described hanging object according to the action radius information of the location information of described suspension hook, the location information of described hanging object and described suspension hook by step 102-1, described operator's compartment unit.

For above-mentioned steps 105, it can have multiple possible implementation, provides several feasible implementation below and is described:

Mode one: manually suspension hook monitoring means is moved to position residing for described operator's compartment unit to obtain the location information of described operator's compartment unit;

Mode two: owing to there is an alternate position spike between dolly minimum luffing end position and described operator's compartment unit, can obtain this alternate position spike by artificial measurement, and alternate position spike be preset in operator's compartment unit.After putting up tower crane at every turn, described operator's compartment unit controls suspension hook monitoring means moves to minimum luffing end position, obtain the suspension hook monitoring means location information at this minimum luffing end position, then determine the location information of described operator's compartment unit according to the location information of this minimum luffing end position and preset alternate position spike;

Mode three: set up a locating module for obtaining the location information of described operator's compartment unit on operator's compartment unit.

Below by specific embodiment, tower crane positioning method is described.

The structural representation of the another kind of tower crane that Figure 20 and 21 provides for the utility model embodiment, be operator's compartment unit with reference to Figure 20 and Figure 21, A, B is target monitoring unit, and C is suspension hook monitoring means, and X is dolly; D1 refers to the horizontal linear distance between operator's compartment unit and target monitoring unit, i.e. the length of Radius A B in figure; D2 is the horizontal linear distance between operator's compartment unit and suspension hook monitoring means, i.e. the length of AC in figure; L1 is the vertical line distance of suspension hook monitoring means and target monitoring unit; L2 is the vertical line distance of operator's compartment unit and suspension hook monitoring means.

First, by the aligning key 1 on touch LCD screen and target monitoring unit, the longitude and latitude data of operator's compartment unit and altitude data are measured, and be stored in the first microcontroller; Then measured the minimum and maximum luffing amplitude of dolly by suspension hook monitoring means, and be stored in (method of measurement is shown in the explanation of above-mentioned detailed description of the invention) in the first microcontroller.Then the longitude and latitude that sends of operator's compartment unit receiving target monitoring means and suspension hook monitoring means and altitude data, longitude and latitude data according to operator's compartment unit and target monitoring unit can calculate distance D1, distance D2 can be calculated equally according to the longitude and latitude data of operator's compartment unit and suspension hook unit, again according to operator's compartment unit, the longitude and latitude data of target monitoring unit and suspension hook monitoring means can calculate angle Θ, and (this Θ angle is ∠ CAB, with AC for initial line, AB is for stopping limit, angle along clockwise) (D1, D2 and Θ can utilize existing mathematical formulae directly to calculate).In addition, the sea level elevation that the sea level elevation measured by suspension hook monitoring means and target monitoring unit are measured is subtracted each other, and can obtain L1, and the sea level elevation that the sea level elevation measured by operator's compartment unit and suspension hook unit are measured is subtracted each other, and can obtain L2.

Concrete, first manually operated by the amplitude D2 of dolly or automatic operation is adjusted to equal with D1, then suspension hook monitoring means and target monitoring unit will be in circumferentially same; And then adjust Θ angle, if the Θ calculated is greater than 180 °, then illustrate that tower machine could should arrive above target monitoring unit faster by counterclockwise revolution, otherwise should by turning round clockwise, specifically can regulate according to the direction of arrow on touch LCD screen, when Θ angle is transferred to 0, then illustrate that suspension hook monitoring means and target monitoring unit have been on same perpendicular line; Then adjust the sea level elevation of suspension hook, when L1 value close to 0 time, illustrate that suspension hook monitoring means and target monitoring unit are in same sea level elevation.So far, suspension hook has been made to be moved on the object of required handling.

Wherein, the method of calculating of D1, D2: namely the longitude and latitude data of known 2 calculate the distance of point-to-point transmission, because the distance of described point-to-point transmission is relative to the earth, very small, therefore the distance of this point-to-point transmission can be similar to and regard straight-line distance as, and the longitude and latitude data of 2 can regard the artesian coordinates of 2 as, therefore the problems referred to above are exactly the straight-line distance calculating point-to-point transmission according to the artesian coordinates of 2.

Computing formula is: in formula: x1, x2 and y1, y2 represent the longitude and latitude data of 2 respectively.

The method of calculating at Θ angle: the size namely calculating ∠ CAB angle, because the coordinate of A, B, C 3 is known, therefore can show that AB vectorial sum AC vector comes, then can obtain angle ∠ CAB next (having ready-made computing formula) by this two vector.

For L1 and L2, the sea level elevation that can directly measure according to each measuring unit is calculated, that is:

L1=suspension hook monitoring means sea level elevation-target monitoring unit sea level elevation;

L2=operator's compartment unit sea level elevation-suspension hook monitoring means sea level elevation.

Further, in automatic mode, tower machine is when handling object, have the lifting operation mode of a specification: namely first by suspension hook vertical uplift to maximum height (L1+L2, this height is a little less than the height of operator's compartment unit), then the amplitude of horizontal adjustment dolly, the amplitude D2 value of dolly is made to adjust to equal with D1, Θ angle is adjusted again by the large arm of turret machine, and make Θ be adjusted to 0 °, the last suspension hook that vertically declines again, make its sea level elevation consistent with the sea level elevation of the first ground monitoring unit (namely being hung the reference position of object), even if also the value of L1 is 0, so far complete and suspension hook is moved to object place, also the first step of object handling is namely completed.

In the process of handling object, operator's compartment unit need receive " location completes " order of first object monitoring means and " target positioning " order of the second target monitoring unit (destination locations of object is hung in this unit position namely) simultaneously, then suspension hook hit the ceiling (L1+L2) is made, the amplitude of horizontal adjustment dolly again, the range value D2 of dolly is made to adjust to equal with D1, and then adjust Θ angle by the large arm of turret machine, and make Θ angle adjust to 0 °, the last object that vertically declines, make its sea level elevation consistent with the sea level elevation of the second ground monitoring unit, even if also the value of L1 is 0, so far just achieve and its destination address has been arrived in object handling, complete the crane operation of object.

In above-mentioned lifting operation mode, due to first by suspension hook vertical uplift to maximum height, and then adjust dolly amplitude and revolution, finally vertically decline suspension hook again, therefore generally can avoiding obstacles.

In automatic mode, because adopted lifting operation mode generally can avoiding obstacles, the moving velocity of tower machine is fixing in addition, generally there will not be dangerous situation.

In automatic mode, if chaufeur finds to occur dangerous situation, then chaufeur can pass through Pattern Select Switch, exits automatic mode immediately, then enters manual mode.After exiting automatic mode, tower machine is constant by maintaining the running state exiting automatic mode moment, and tower machine can run by manual mode afterwards.

No matter in that mode, operator's compartment unit all can judge that whether the longitude and latitude data that target monitoring unit sends are effective in advance, namely judges whether the D1 calculated is within the minimum and maximum luffing interval of dolly.

Optionally, when operator's compartment unit have received " target positioning " information (i.e. the longitude and latitude of target monitoring unit position and the altitude data) that target monitoring unit sends, operator's compartment unit calculates according to the longitude and latitude data received the horizontal linear distance D1 that target monitoring unit is separated by with it, and judges whether this distance D1 is between dolly minimum amplitude and maximum amplitude; If D1 is between dolly minimum amplitude and maximum amplitude, then operator's compartment unit can send a data actv. feedback signal to target monitoring unit, otherwise by the feedback signal of a transmission data invalid; If operator's compartment unit does not receive " target positioning " information that target monitoring unit sends, then operator's compartment unit can not send corresponding feedback information.

Receive " location completes " information of target monitoring unit transmission at operator's compartment unit after, operator's compartment unit only will feed back one to target monitoring unit and represent the feedback signal having received this information, and can not carry out analysis judgement to the information received.

The schematic diagram of a kind of tower crane positioning method that Figure 22 provides for the utility model embodiment, with reference to Figure 22, is complete job flow process of the present utility model, in the figure, A is operator's compartment unit, and B is target monitoring unit, C is suspension hook monitoring means, and D is the second target monitoring unit.Its complete working process following (ignoring the vertical lift process of suspension hook):

First, by adjustment dolly amplitude, dolly is moved to L place by K, then by revolution large arm, make Θ angle be 0 °, namely suspension hook is moved to M place by L, now namely reach the vertical direction of target monitoring unit B, then the sea level elevation of suspension hook is adjusted, the final horizontal surface arriving target monitoring unit B place.So far, first stage completes.

In subordinate phase, in like manner, by adjustment dolly amplitude, dolly is moved to N place by M, then by revolution large arm, makes α angle be 0 °, namely suspension hook is moved to O place by N, now namely reach the vertical direction of the second target monitoring cells D, then adjust the sea level elevation of suspension hook, the final horizontal surface arriving target monitoring cells D place.

Further, the schematic diagram of the another kind of tower crane positioning method that Figure 23 provides for the utility model embodiment, with reference to Figure 23, comprises the steps:

Step 200, the longitude and latitude passing through " aligning key 1 " and " aligning key 2 " acquisition operator's compartment unit and altitude data, and the spacing distance at tower crane large arm two ends;

Whether step 201, detection tower machine are in automatic mode;

Whether step 202, detection have received " target positioning " information that target monitoring unit sends;

Step 203, this information to be processed, calculate the horizontal linear distance D1 of operator's compartment unit to target monitoring unit, and suspension hook monitoring means and target monitoring unit are relative to the angle Θ of operator's compartment unit, and related data information is shown;

Step 204, suspension hook is risen to maximum height;

Step 205, suspension hook is made to equal D1 to the distance of operator's compartment unit by adjusting the amplitude of dolly;

Step 206, by turret machine large arm, angle Θ is made to be 0 °;

Step 207, suspension hook vertically to be transferred, until consistent with the sea level elevation of target monitoring unit;

Step 208, out of service, whether receive " target positioning " information of " location completes " that target monitoring unit sends and the transmission of the second target monitoring unit;

Step 209, the information received to be processed, calculate the horizontal linear distance D3 of operator's compartment unit to the second target monitoring unit, and suspension hook monitoring means and the second target monitoring unit are relative to the angle Θ 1 of operator's compartment unit, and related data information is shown;

Step 210, object hung rise to maximum height;

The amplitude of step 211, adjustment dolly makes suspension hook equal D3 to the horizontal linear distance of operator's compartment unit;

Step 212, by turret machine large arm, angle Θ 1 is made to be 0 °;

Step 213, object vertically to be transferred, until consistent with the sea level elevation of the second target monitoring unit;

Step 214, out of service, unloaded of cargo, a handling end cycle.

The utility model above-described embodiment, first target monitoring unit is placed in the object place needing handling, then the target positioning key on target monitoring unit is pressed, the hanging object longitude and latitude that second locating module detects by target monitoring unit and altitude data send to operator's compartment unit through the 3rd wireless communication module, and show in real time on touch LCD screen, meanwhile, the longitude and latitude of the suspension hook position that the first locating module also detects by suspension hook monitoring means and altitude data send to operator's compartment unit, and show in real time on touch LCD screen, operator's compartment unit processes for the two groups of data received, if tower crane is operated in automatic mode, then the first microcontroller will make suspension hook automatically move to object place by sending corresponding control command to tower machine controller, if and tower crane is operated in manual mode, then chaufeur can carry out operational tower machine controller according to two of liquid crystal display screen display group longitude and latitude and altitude data and corresponding information, suspension hook is made to move quickly into object place, realize the quick position of suspension hook to object, thus reach the object improving handling work efficiency.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (8)

1. a tower crane positioning device, is characterized in that, comprising: operator's compartment unit, suspension hook monitoring means and first object monitoring means;

Described suspension hook monitoring means is arranged on the suspension hook of tower crane; Described first object monitoring means is arranged on hanging object; Described operator's compartment unit is arranged in the operator's compartment of described tower crane.

2. tower crane positioning device according to claim 1, is characterized in that, also comprise: the second target monitoring unit;

Described second target monitoring unit is arranged at the target location of described hanging object.

3. tower crane positioning device according to claim 2, is characterized in that, described operator's compartment unit comprises: the first microcontroller, the first wireless communication module, guidance panel and the first DC regulated power supply; Described first microcontroller is connected with described first wireless communication module and described guidance panel respectively;

Described suspension hook monitoring means comprises: the second microcontroller, the first locating module, the second wireless communication module and the second DC regulated power supply; Described second microcontroller is connected with described second wireless communication module with described first locating module respectively;

Described first object monitoring means comprises: the 3rd microcontroller, the second locating module, the 3rd wireless communication module and the 3rd DC regulated power supply; Described 3rd microcontroller is connected with the second locating module and described 3rd wireless communication module respectively.

4. tower crane positioning device according to claim 3, is characterized in that, described second target monitoring unit comprises: the 4th microcontroller, the 3rd locating module, the 4th wireless communication module and the 4th DC regulated power supply; Described 4th microcontroller is connected with the 3rd locating module and described 4th wireless communication module respectively.

5. tower crane positioning device according to claim 4, is characterized in that, described 3rd locating module, for obtaining the target position information of described hanging object;

Described 4th wireless communication module, for sending to described first wireless communication module by the target position information of described hanging object.

6. tower crane positioning device according to claim 5, is characterized in that, described guidance panel, comprising: Pattern Select Switch, tower machine controller and touch LCD screen;

Wherein, described Pattern Select Switch is connected with described first microcontroller; Described tower machine controller is connected with described first microcontroller; Described touch LCD screen is connected with described first microcontroller.

7. tower crane positioning device according to claim 6, is characterized in that, described first object monitoring means, also comprises: target positioning key, located key and feedback indicator lamp;

Wherein, described target positioning key is connected with described 3rd microcontroller; Described location completes key and is connected with described 3rd microcontroller; Described feedback indicator lamp is connected with described 3rd microcontroller.

8. the tower crane positioning device according to claim 4-7 any one, is characterized in that, the location information of described suspension hook comprises longitude and latitude and the altitude data of described suspension hook; The location information of described hanging object comprises longitude and latitude and the altitude data of described hanging object; The target position information of described hanging object comprises longitude and latitude and the altitude data of the target location of described hanging object.