CN111258388B

CN111258388B - Intelligent main control box special for climbing frame

Info

Publication number: CN111258388B
Application number: CN202010078101.6A
Authority: CN
Inventors: 郝海涛; 尹正富; 顿海洋
Original assignee: Beijing Tosun Technology Development Co ltd
Current assignee: Beijing Tosun Technology Development Co ltd
Priority date: 2020-01-20
Filing date: 2020-02-02
Publication date: 2021-03-30
Anticipated expiration: 2040-02-02
Also published as: CN111258388A

Abstract

The embodiment of the invention provides an intelligent main control box special for a climbing frame, which comprises a box body, a machine position group setting device, a determining device, a machine position identifying device, a lifting control device, an alarm device and a main control screen, wherein the machine position group setting device is used for grouping machine positions; the machine position group determining device is used for determining a machine position group to be lifted; the machine position identification device is used for identifying the machine position; the lifting control device is used for judging whether the identified machine position information is consistent with the machine position information of all the machine positions included in the machine position group to be lifted or not according to the identification result, if not, the lifting is not carried out, and the alarm device is controlled to give an alarm; the main control screen is used for receiving user operation and information display. In the scheme, a plurality of sub-control boxes under the management of the same intelligent main control box can be divided into a plurality of groups for control, the main control box can identify the machine positions, and only after all the machine positions in one group are identified, the main control box can be started to ascend or descend, so that hidden dangers such as single-point ascending caused by various reasons can be prevented.

Description

Intelligent main control box special for climbing frame

Technical Field

Embodiments of the present invention relate generally to the field of climbing racks, and more particularly, to an intelligent master control box dedicated for a climbing rack.

Background

At present, more and more high-rise buildings are constructed, and the construction of the high-rise buildings needs to be operated by an intelligent climbing frame system, the intelligent climbing frame system mainly comprises a frame body part, an electric control part and a lifting system, wherein the electric control part mainly comprises a main control box, a plurality of sub-control boxes, a handheld remote control terminal, a plurality of sensors and the like, and the main control box special for the existing intelligent climbing frame, it can not divide a plurality of machine positions into a plurality of groups for grouping control according to the actual needs of users, and in the existing scheme, a plurality of machine positions are connected in series to supply power, and in this case, when the grouping control is carried out, the conditions that the branch control box of the previous group is not powered off or the branch control box of the current group is not opened and the like easily occur, however, in order to avoid such a problem, manual inspection is adopted to confirm, but the manual inspection is not only inefficient, but also prone to errors, so that potential safety hazards such as single-point lifting still exist.

Therefore, how to design an intelligent master control box which does not need manual inspection and confirmation, has high efficiency and is safer becomes a problem to be solved urgently at present.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

The invention provides the intelligent master control box special for the climbing frame based on the problems.

The invention provides a special intelligent main control box for a climbing frame, which is used for an intelligent climbing frame system, wherein the intelligent climbing frame system comprises the special intelligent main control box for the climbing frame, a plurality of machine positions connected with the special intelligent main control box for the climbing frame and a matched handheld remote control terminal, each machine position comprises a sub-control box connected with the special intelligent main control box for the climbing frame, and the special intelligent main control box for the climbing frame comprises:

a main control box body;

the machine position group setting device is arranged in the main control box body and used for receiving the setting of a user and grouping all the machine positions according to the setting of the user;

the machine position group determining device is arranged in the main control box body and used for receiving the operation of a user and determining the machine position group to be lifted according to the operation of the user;

the machine position identification device is arranged in the main control box body, is connected with the sub-control boxes of the multiple groups of machine positions and is used for identifying the machine positions which are communicated with the main control box and belong to the machine position group to be lifted;

the lifting control device is arranged in the main control box body, is connected with the machine position identification device and the machine position group determination device, and is used for judging whether the machine position information identified by the machine position identification device is consistent with the machine position information of all the machine positions included in the machine position group to be lifted according to the identification result of the machine position identification device, does not send a lifting instruction until the machine position information identified by the machine position identification device is consistent with the machine position information of all the machine positions included in the machine position group to be lifted, and controls the alarm device to alarm when the machine position information identified by the machine position identification device is judged to be inconsistent with the machine position information of all the machine positions included in the machine position group to be lifted, wherein each set of machine position information comprises the number of the machine positions, the model number of each machine position and/or the name of each machine position;

the alarm device is arranged in the main control box body and used for sending out an alarm prompt;

the main control screen is arranged on the main control box body and used for receiving the operation of a user so as to collect the input information of the user, and the main control screen is also used for displaying the information;

wherein the displayed information includes: the set of the machine positions selected by the user, the identified set information, the number of the identified machine positions, and the unidentified machine position information and the abnormal information are displayed.

Further, the lifting control device carries out normal receiving and sending of the lifting command after judging that the machine position information identified by the machine position identification device is consistent with the machine position information of all the machine positions included in the machine position group to be lifted.

In the above technical solution, preferably, the bottom of the main control box is provided with a five-core socket, and the plugging end of the five-core socket is exposed outside the main control box; the five-core plug can be inserted into the inserting end of the five-core socket outside the main control box body; the one end and the five-core plug connection of five-core cable, five-core cable include 3 three-phase power cords, 1 signal line and 1 ground wire, and the other end of five-core cable is used for being connected with the branch accuse case.

In any one of the above technical solutions, preferably, the intelligent master control box further includes a handheld remote control terminal, the handheld remote control terminal is provided with unique identity code information, and the intelligent master control box specially used for climbing a shelf further includes: the authority identification device is arranged in the main control box and used for receiving the unique identity code information sent by the handheld remote control terminal, judging whether the received unique identity code information is consistent with the preset identity code information or not, receiving and executing the instruction of the handheld remote control terminal after judging that the received unique identity code information is consistent with the preset identity code information, and ignoring the instruction sent by the handheld remote control terminal before judging that the received unique identity code information is inconsistent with the preset identity code information; and the authority information storage device is used for storing preset identity coding information.

In any one of the above technical solutions, preferably, the intelligent master control box special for climbing a shelf further includes: the timer is used for timing after the lifting control device sends a lifting instruction for first preset time; and the load processing device is connected with the timer and used for receiving the load data and preprocessing the load data according to the size of the received load data after the timer times a second preset time.

In any of the above technical solutions, preferably, the preprocessing performed by the load processing device according to the size of the received load data specifically includes: when the load value of any machine position exceeds 15% of the actual load value of the machine position, controlling an alarm device of the main control box to perform acousto-optic alarm, and sending an overload instruction to a sub-control box of the corresponding machine position; when the load value of any machine position exceeds 30% of the actual load value of the machine position, the alarm device of the main control box is controlled to carry out acousto-optic alarm, an overload instruction is sent to the sub-control box of the corresponding machine position, and meanwhile, the power supplies of all the machine positions of the machine position group where the overload machine position is located are cut off.

In any one of the above technical solutions, preferably, the intelligent master control box special for climbing a shelf further includes: the project data storage device is connected with the sub-control boxes of the multiple groups of machine positions and is used for acquiring and storing one or more project data from the sub-control boxes, the one or more project data comprise load data of each machine position and fault data in the construction process, and the data stored by the project data storage device further comprise construction progress data and project basic information data; and the wireless communication device is used for receiving the remote data calling request, acquiring corresponding project data from the project data storage device according to the content of the data calling request and sending the project data.

Further preferably, climb special intelligent master control case of frame still includes: the data screening device screens one or more items of data according to a preset screening rule before storing the one or more items of data, stores the screened data, and directly deletes the data which is not screened out; wherein, the preset screening rule comprises: and (4) retaining the initial data, the abnormal numerical value and the ending numerical value, and automatically deleting the intermediate normal redundant information.

In any one of the above technical solutions, preferably, the intelligent master control box dedicated for climbing a shelf further includes an authentication device for verifying the identity of an operator, and the authentication device includes: the input device is used for carrying out initial input of identity information and input of later-stage identity verification information; the identity information storage device is used for storing the initially input identity information; the verification device is connected with the input device and the identity information storage device and is used for judging whether the identity verification information input by the input device is consistent with the initially input identity information or not after the identity verification information is input by the input device, if so, the intelligent control box is awakened, and if not, the intelligent control box is controlled to sleep; the identity authentication device comprises one or more of a face recognition device, a fingerprint recognition device, a voice recognition device and an iris recognition device.

In any of the above technical solutions, preferably, the intelligent master control box further includes a signal receiver installed on the master control box body, and the signal receiver is configured to receive a signal sent by the handheld remote control terminal.

In any one of the above technical solutions, preferably, the intelligent master control box further includes a power supply device installed in the master control box, the power supply device includes a wired power supply device and/or a battery, and the wired power supply device includes a power line capable of being connected with an external power supply.

In any of the above technical solutions, preferably, the intelligent main control box further includes a working mode control device, the working mode control device can realize a barb function, a pre-tightening hook function, a lifting function, a descending function, and an emergency stop function, and the main control screen is provided with at least one of a barb key, a pre-tightening hook key, a lifting key, a stop key, a descending key, and an emergency stop key.

In any of the above technical solutions, preferably, the intelligent master control box further includes a current protection switch installed in the box body, the current protection switch is in a closed state in a normal state, and can be opened when the current is greater than a preset overload threshold value thereof, and can be automatically closed when the current on the circuit is less than or equal to the preset safety threshold value, and the preset overload threshold value is greater than the preset safety threshold value.

In any of the above technical solutions, preferably, the main control box is provided with a data transmission interface, the data transmission interface includes a USB interface and/or a memory card interface, and the data transmission interface can perform data transmission with an external storage device.

In any one of the above technical solutions, preferably, the main control box includes: a case housing having an accommodating chamber with a front opening; the panel is arranged at an opening on the front side of the box shell, a first mounting hole is formed in one end of the panel, a plurality of second mounting holes and at least one third mounting hole are formed in the other end of the panel, and the main control screen is embedded in the first mounting hole; the plurality of mechanical switches are arranged at the plurality of second mounting holes in a one-to-one correspondence mode, and comprise one or more of a lifting switch, a stop switch, a descending switch and an emergency stop switch; the air switch is arranged at the third mounting hole; the box still includes the apron of one side and the articulated installation of case shell, and the other end of apron can be opened and close relative to the panel, and when the apron was closed, was formed with the accommodation space who holds and open main control screen, mechanical switch and air switch between apron and the panel.

Further preferably, when the opposite face plate of the cover plate is closed, the periphery of the cover plate is in sealing fit with the box shell, so that the waterproof and dustproof performances of the box body can be improved, and the service life of internal parts of the box body is prolonged.

Further preferably, a partition board is arranged in the accommodating cavity, the partition board divides the accommodating cavity into two cavities, the first mounting hole is arranged on a part of the panel corresponding to one cavity, and the second mounting holes and the third mounting holes are arranged on a part of the panel corresponding to the other cavity. This kind of setting can separately place the inside part of intelligent electric cabinet to can prevent the inside part mutual interference of intelligent electric cabinet, thereby make every part normal work separately. Simultaneously, also make the inside line of walking of intelligence master control case more convenient like this, therefore can improve the inside clean and tidy of master control case, therefore be convenient for the maintenance and the maintenance of intelligence master control case later stage. And because the parts are placed in the cavities, when the wiring of a certain part is carried out, the part in the corresponding cavity is accessed with the wire, so that the wiring difficulty can be reduced, and the wiring error rate is reduced.

Preferably, the number of the air switches is two, one air switch is used for controlling the on-off of the power supply of the intelligent main control box and protecting the short circuit, the serious overload and the undervoltage of the intelligent main control box, and the other air switch is used for controlling the on-off of the power supply of all the branch control boxes and protecting the short circuit, the serious overload and the undervoltage of the branch control boxes.

Further preferably, the air switch is a leakage protection air switch.

Further preferably, a plurality of mounting rails are arranged in the housing, and the mounting rails are used for mounting structures of housing internal parts such as contactors, air switches and electric control boards.

Further preferably, the surface of panel is including being the first step face and the second step face of ladder setting, and the distance between the outer terminal surface of first step face and case shell is less than the distance between the outer terminal surface of second step face and case shell, and first mounting hole sets up on first step face, and second mounting hole and third mounting hole set up on the second step face.

It should be understood that the statements herein reciting aspects are not intended to limit the critical or essential features of any embodiment of the invention, nor are they intended to limit the scope of the invention. Other features of the present invention will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of various embodiments of the present invention will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:

fig. 1 is a block diagram of the overall structure of a dedicated intelligent master control box for a climbing frame provided by an embodiment of the invention;

fig. 2 is a schematic partial structural view of a dedicated intelligent master control box for a climbing frame provided in an embodiment of the present invention;

fig. 3 is another schematic diagram of a partial structure of the rack-climbing dedicated intelligent master control box provided according to the embodiment of the invention;

fig. 4 is another schematic diagram of a partial structure of the intelligent master box dedicated for climbing racks according to the embodiment of the invention;

FIG. 5 is a schematic structural diagram of a case shell of the intelligent main control case special for the climbing frame;

FIG. 6 is a schematic structural diagram of a case shell with a mechanical switch of the intelligent main control case special for climbing a shelf;

FIG. 7 is another schematic structural diagram of the case shell of the rack-climbing special-purpose intelligent master control case;

fig. 8 is a schematic structural diagram of a panel of the rack-climbing dedicated intelligent master control box provided according to the embodiment of the invention;

wherein, the correspondence between the reference numbers and the component names in fig. 1 to 8 is:

1 box body, 12 box shell, 120 containing cavity, 122 fourth mounting hole, 124 first guide rail, 126 second guide rail, 128 third guide rail, 129 boss, 14 panel, 140 first mounting hole, 142 second mounting hole, 144 third mounting hole, 146 first step face, 148 second step face, 16 cover plate, 18 mechanical switch, 182 emergency stop switch, 184 button switch, 192 signal receiver, 194 power supply device, 196 current protection switch, 22 machine position group setting device, 24 machine position group determining device, 26 machine position identification device, 3 lifting control device, 4 alarm device, 5 main control screen, 62 authority identification device, 64 authority information storage device, 72 timer, 74 load processing device, 82 project data storage device, 84 wireless communication device, 86 data screening device, 9 identity authentication device, 92 input device, 94 identity information storage device and 96 authentication device.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The intelligent master control box dedicated for the climbing frame provided by the embodiment of the invention is described in detail with reference to fig. 1 to 8.

In a first aspect of the present invention, an intelligent main control box dedicated for climbing rack is provided, which is used for an intelligent climbing rack system, the intelligent climbing rack system includes an intelligent main control box dedicated for climbing rack, a plurality of machine positions connected with the intelligent main control box dedicated for climbing rack and a matched hand-held remote control terminal, each machine position includes a sub-control box connected with the intelligent main control box dedicated for climbing rack, specifically, as shown in fig. 1, the intelligent main control box dedicated for climbing rack includes a main control box body 1, a machine position group setting device 22, a machine position group determining device 24, a machine position identifying device 26, a lifting control device 3, an alarm device 4 and a main control screen 5, wherein:

the machine position group setting device 22 is arranged in the main control box body 1 and used for receiving the setting of a user and grouping all machine positions according to the setting of the user;

the machine position group determining device 24 is arranged in the main control box body 1 and used for receiving the operation of a user and determining the machine position group to be lifted according to the operation of the user;

the machine position identification device 26 is arranged in the main control box body 1, is connected with the sub-control boxes of a plurality of groups of machine positions, and is used for identifying the machine positions which are communicated with the main control box and belong to the machine position group to be lifted;

the lifting control device 3 is arranged in the main control box body 1, is connected with the machine position identification device 26 and the machine position group determination device 24, and is used for judging whether the machine position information identified by the machine position identification device 26 is consistent with the machine position information of all the machine positions included in the machine position group to be lifted according to the identification result of the machine position identification device 26, does not send a lifting instruction before judging that the machine position information identified by the machine position identification device 26 is consistent with the machine position information of all the machine positions included in the machine position group to be lifted, and controls the alarm device 4 to alarm when judging that the machine position information identified by the machine position identification device 26 is inconsistent with the machine position information of all the machine positions included in the machine position group to be lifted, and each set of machine position information comprises the number of the machine positions, the model number of each machine position and/or the name of each machine position;

the alarm device 4 is arranged in the main control box body 1 and used for sending out an alarm prompt;

the main control screen 5 is installed on the main control box body 1 and used for receiving the operation of a user to collect the input information of the user, and the main control screen 5 is also used for displaying the information;

The intelligent main control box special for the climbing frame is used for an intelligent climbing frame system, the intelligent climbing frame system mainly comprises a frame body part, an electric control part and a lifting system, and the electric control part mainly comprises the intelligent main control box, a plurality of sub control boxes, a handheld remote control terminal, sensors and the like. In the present application, the intelligent main control box mainly comprises a main control box body 1, a machine position group setting device 22, a machine position group determining device 24,

The machine position identification device 26, the lifting control device 3, the alarm device 4 and the main control screen 5, the main control box body 1 is a shell as a special intelligent main control box and is used for installing and protecting internal parts, the machine position group setting device 22 is used for grouping a plurality of machine positions according to the operation of an operator, and thus, the plurality of machine positions can be divided into a plurality of groups for control through the machine position setting device, and the machine positions of the whole building can be divided into a plurality of groups for grouping lifting and control. After the stations are grouped, when a specific elevator body is required, the station group to be lifted can be selected by the station group determining device 24, for example, a button of each station group can be displayed on the main control screen 5, so that an operator can select different station groups to be lifted by a key on the main control screen 5. The machine position identification device 26 is used for identifying the machine position information which is communicated with the main control box and belongs to the machine position group to be lifted, so that whether the machine positions under the corresponding group are connected with the intelligent main control box or not can be determined through the machine position identification device 26, and whether other unnecessary machine positions are connected with the intelligent main control box or not can be determined. The lifting control device 3 is used for judging whether the identified machine position is consistent with the machine position corresponding to the machine position group to be lifted or not according to the identified machine position, if so, the machine position can be controlled to lift normally, if not, the intelligent main control box can not start lifting operation, and meanwhile, the alarm device 4 is controlled to give out alarm prompts, the alarm device 4 is mainly used for giving out alarm prompts in various abnormal states, the type of the alarm device 4 can be sound alarm, light alarm, voice alarm or vibration alarm, and certainly, the alarm window can be popped out through the main control screen 5 to give out abnormal alarm. The main control screen 5 is used for receiving the operation of a user to realize the functions of setting machine position groups, collecting information and the like, and meanwhile, the main control screen 5 is also used for displaying various information of the intelligent main control box special for the climbing frame, such as fault information, communication connection information with the sub-control boxes, state information of each machine position and the like. This kind of climb a professional intelligent master control case of frame can be grouped a plurality of machine positions, when needs go up and down, operating personnel selects the group of the machine position that needs go up and down according to actual need earlier, then alright divide into group lifting control, makes like this and can divide into the multiunit and carry out the independent control between a plurality of branch control casees under the same intelligent master control case management. Meanwhile, the structure can automatically identify each machine position of the group through the machine position identification device 26, obtain the identified machine position information, judge whether the identified machine position information is completely consistent with the machine position information of the group to be lifted through the lifting control device 3, if the identified machine position information is not completely consistent with the machine position information of the group to be lifted, such as missing of the machine position number, wrong machine position type or name, or the number of multiple machine positions or the name of the multiple machine positions, the lifting control device 3 controls the alarm device 4 to send an alarm prompt and does not send a lifting instruction, and the lifting control device 3 does not send the lifting instruction until the identified machine position information is completely consistent with the machine position information of the group to be lifted, but only after the identified machine position information is completely consistent with the machine position information of the group to be lifted, just can carry out the transmission of lifting command according to normal requirement to carry out normal lifting operation, just also can start to go up and down in the whole normal rear of all stands of discerning in a set of, just so alright prevent hidden danger such as single-point promotion that leads to because of various reasons, for example avoid going up and down under the condition of stand disappearance, perhaps avoid when current group goes up and down, the stand of last group is followed and is gone up and down together, just so can ensure that the stand that prepares to go up and down neither lacks nor unnecessary, and then can ensure the safety of grouping lift. Simultaneously, this kind of structure, machine position recognition device 26 can automatic identification machine position, therefore does not need the manual work to go to check and confirm one by one, consequently, can improve the artificial work load of operation, and machine automatic identification's the correct rate and efficiency obviously more than the correct rate and the efficiency of people's inspection, therefore still can raise the efficiency, reduce the error rate to further ensure the lift installation of support body.

Further preferably, the lifting control device 3 performs normal transmission and reception of the lifting command after determining that the machine location information recognized by the machine location recognition device 26 matches the machine location information of all the machine locations included in the machine location group to be lifted.

Further preferably, after the machine location group is redetermined by the machine location group determining device 24, the machine location identifying device 26 performs machine location redetermination, the lifting control device 3 determines whether to send a lifting command according to a determination result of the machine location recognization by the machine location identifying device 26, if the redetermined information is consistent with the machine location information of the redetermined machine location group, the lifting command is normally sent and received, otherwise, the lifting command is not sent and received, and the alarm device 4 is controlled to alarm.

In the above embodiment, preferably, the bottom of the main control box 1 is provided with a five-core socket (not shown in the figure), and the plugging end of the five-core socket is exposed outside the main control box 1; the five-core plug can be inserted into the inserting end of the five-core socket outside the main control box body 1; the one end and the five-core plug connection of five-core cable, five-core cable include 3 three-phase power cords, 1 signal line and 1 ground wire, and the other end of five-core cable is used for being connected with the branch accuse case.

In these schemes, the intelligent master control box further comprises a five-core socket installed at the bottom of the box body 1, a five-core plug matched with the five-core socket, and a five-core cable connected with the five-core plug. As shown in fig. 5 and 6, the bottom of the cabinet 12 is provided with a fourth mounting hole 122 for mounting a five-core receptacle. This kind of setting can be connected intelligent master control case with other branch control casees through five-core socket, five-core plug and five-core cable, and this kind of connected mode compares current four-core and connects, has merged signal line and power cord and ground wire together to reduce the use of a cable, thereby simplified the structure. Preferably, a differential transmission industrial field bus, that is, a 5-wire power supply cable, which includes 3 three-phase power wires, a ground wire, and a signal wire, is used, so that a common control signal transmission mode can be performed by using an industrial bus signal transmission mode. Preferably, a unique gateway-type local area network may be employed to improve interference rejection. Meanwhile, signal lines among different main control boxes are not communicated, so that mutual interference can be avoided during cluster construction.

The signal line in the present application is mainly used for transmitting a load signal, a control signal, and the like.

In any of the above embodiments, preferably, the intelligent master control box further includes a matched handheld remote control terminal, and the handheld remote control terminal is provided with unique identity code information, as shown in fig. 1, the intelligent master control box dedicated for climbing a rack further includes: the authority identification device 62 is installed in the main control box body 1 and is used for receiving the unique identity code information sent by the handheld remote control terminal, judging whether the received unique identity code information is consistent with the preset identity code information or not, receiving and executing the instruction of the handheld remote control terminal after judging that the received unique identity code information is consistent with the preset identity code information, and ignoring the instruction sent by the handheld remote control terminal before judging that the received unique identity code information is inconsistent with the preset identity code information; and the authority information storage device 64 is used for storing preset identity code information.

In the schemes, the intelligent master control box is provided with a matched handheld remote control terminal, and the handheld remote control terminal is provided with unique identity code information which represents an identity and can be identified by the authority identification device 62 in the intelligent master control box. The intelligent master control box further comprises an authority identification device 62, such as an RFID device, and an electronic tag, such as an RFID tag, having unique identity code information stored therein may be provided on the handheld terminal. According to the arrangement, when the handheld remote control terminal carries out remote control operation on the main control box, the unique identity code information in the handheld remote control terminal can be sent to the main control box together, so that the main control box can identify the identity of the handheld terminal conveniently, if the identity passes the identification, the instruction of the handheld terminal is received and executed, if the identity cannot be identified, the instruction is ignored, and the prompt information of the unique identity code information verification failure is sent to the handheld terminal, so that each intelligent main control box can be ensured to only receive the remote control operation of the corresponding handheld terminal, and can not be controlled by other handheld terminals on site. Because, in the actual work progress, often be the cluster construction that many buildings were under construction together, will have a lot of sets of intelligence like this and climb a system at the job site, and this application sets up like this, can ensure that the signal between intelligent master control case and the supporting handheld remote control terminal does not receive any interference, stable effective, can avoid taking wrong handheld terminal and realize the condition of maloperation like this. Meanwhile, in order to avoid signal interference between the intelligent main control box and each sub-control box controlled by the intelligent main control box, a corresponding unique ID code and a permission identification device 62 for identifying the handheld terminal can be arranged on the sub-control box.

In any of the above embodiments, preferably, as shown in fig. 1, the rack-climbing dedicated intelligent master control box further includes: a timer 72 for timing after the lifting control device 3 sends a lifting instruction for a first preset time; and the load processing device 74 is connected with the timer 72 and is used for receiving the load data and preprocessing the load data according to the size of the received load data after the timer 72 times a second preset time.

In these solutions, the timer 72 is used for timing, the lifting control device 3 is used for timing after sending a lifting command for a first preset time, for example, timing when starting lifting, and the load processing device 74 is connected to the timer 72 and is used for receiving load data and preprocessing the load data according to the size of the received load data after the timer 72 times a second preset time, for example, 10s, so that the load can be automatically collected when the frame body is normally lifted or lowered, and then the lifting structure and/or the frame body and the like can be protected based on the size of the load. Here, the load refers to a load detected by the gravity sensor.

Preferably, the preprocessing performed by the load processing device 74 according to the size of the received load data specifically includes: when the load value of any machine position exceeds 15 percent of the actual load value of the machine position, controlling the alarm device 4 of the intelligent main control box to carry out sound-light alarm and sending an overload instruction to the sub-control box of the corresponding machine position; when the load value of any machine position exceeds 30 percent of the actual load value of the machine position, the alarm device 4 of the intelligent main control box is controlled to carry out sound-light alarm, an overload instruction is sent to the sub-control box of the corresponding machine position, and meanwhile, the power supplies of all the machine positions of the machine position group where the overload machine position is located are cut off to stop lifting.

Further preferably, when the load exceeds 15% and does not act within 30 seconds of fluctuation within 30%, an alarm is issued after exceeding 30 seconds without stopping, exceeds 30% and does not exceed 40%, does not stop within 15 seconds, alarms and stops within 15 seconds, or immediately alarms and stops exceeding 40% of the first reference value, the data base takes the value within 10 seconds of fluctuation within 10% of the last base as a new reference value of an average value, but the new reference value also alarms and stops exceeding 40% of the first reference value of starting.

In any of the above embodiments, preferably, as shown in fig. 1, the rack-climbing dedicated intelligent master control box further includes: the project data storage device 82 is connected with the sub-control boxes of the multiple sets of machine positions and is used for acquiring and storing one or more project data from the sub-control boxes, the one or more project data comprise load data of each machine position and fault data in the construction process, and the data stored by the project data storage device 82 further comprise construction progress data and project basic information data; the wireless communication device 84 is used for receiving the remote data call request, and acquiring and sending the corresponding project data from the project data storage device 82 according to the content of the data call request.

In the schemes, the intelligent main control box special for the climbing frame further comprises a project data storage device 82, the project data storage device 82 is used for acquiring and storing one or more project data from the sub-control box, the one or more project data comprise load data of each machine position and fault data in the construction process, and are stored, and meanwhile, the data stored in the project data storage device 82 further comprise construction progress data and project basic information data for surface project names, building numbers and other data). Meanwhile, the intelligent master control box special for the climbing frame further comprises a wireless communication device 84, which is used for receiving a remote data calling request, and then obtaining corresponding data from the data stored in the project data storage device 82 according to the calling request and sending the corresponding data, such as sending the corresponding data to a remote server or a cloud of a remote monitoring terminal or a mobile terminal, and the like, so that the information of basic information, construction progress information, faults and the like of the project can be obtained through the remote server or the mobile terminal, thereby facilitating remote personnel to remotely call any project, each machine position dynamic state of any building, load data and frame construction progress (the construction progress can be represented by the floor where the frame is located) in the past lifting process, and the like at any time, facilitating the remote personnel to perform processing such as project analysis, subsequent preparation and the like according to actual conditions, and providing data for progress settlement of operation departments, for example, the construction progress data, load data or other fault data of each machine position of any building in the dynamic and past lifting process can be used as big data to provide basis for subsequent improvement of equipment or used as parameters for project safety evaluation and the like. Preferably, a special mobile phone APP can be set for the monitoring function of the intelligent master control box, so that a user can conveniently perform integral monitoring on a project on the mobile phone.

In the actual process, the data can be transmitted on the master control box by adopting an internet of things scheme, and the 4G module is used as a data link. Of course, data transmission can also be performed in other manners, such as a WIFI module, a bluetooth module, and the like.

Further preferably, as shown in fig. 1, the rack-climbing dedicated intelligent master control box further includes: a data screening device 86 for screening one or more items of data according to a preset screening rule before storing the one or more items of data, storing the screened data, and directly deleting the data which is not screened out; wherein, the preset screening rule comprises: and (4) retaining the initial data, the abnormal numerical value and the ending numerical value, and automatically deleting the intermediate normal redundant information. The arrangement can ensure that the stored information is simple and clear, is beneficial to the transmission and storage of data, and the derivation of the data can be checked on the mobile phone by scanning the two-dimensional code.

In any of the above embodiments, preferably, as shown in fig. 1, the rack-climbing dedicated intelligent master control box further includes an identity verification device 9 for verifying the identity of the operator, where the identity verification device 9 includes: the entry device 92 is used for performing initial entry of identity information and entry of later-stage identity verification information; an identity information storage device 94 for storing initially entered identity information; the verification device 96 is connected with the entry device 92 and the identity information storage device 94 and is used for judging whether the identity verification information entered by the entry device 92 is consistent with the initially entered identity information or not after the identity verification information is entered by the entry device 92, waking up the intelligent control box if the identity verification information is consistent with the initially entered identity information, and controlling the intelligent control box to sleep if the identity verification information is inconsistent with the initially entered identity information; the identity authentication device 9 includes one or more of a face recognition device, a fingerprint recognition device, a voice recognition device and an iris recognition device.

In the schemes, the intelligent master control box special for climbing a shelf also comprises an identity verification device 9 for verifying the identity of an operator, the identity verification device 9 mainly comprises an input device 92 for acquiring identity information, an identity information storage device 94 and a verification device 96, the input device 92 can be embodied as a camera device, a sound recording device or a fingerprint device, an iris recognition device and the like, the storage device is used for storing initial information input for the first time, for example, the operator information with operation qualification can be input into a system before the shelf is lifted for the first time, then before the shelf is lifted each time, the operator needs to perform identity verification, and the intelligent master control box can be started only after the operator verifies the identity through the identity verification device, so that the situation that an unspecified operator cannot start the electric control box can be ensured, thereby avoiding the intentional or malicious operation of other personnel, avoiding the occurrence of abnormal accidents such as accidental lifting or accidental start and stop, thereby ensuring the construction safety of the frame body. In addition, because in the work progress of climbing the frame, also need operating personnel to go regularly to support body etc. maintain and overhaul, and all rely on personnel's consciousness in the past, and can't go regularly to maintain or inspect to operating personnel and supervise, consequently, still can utilize authentication equipment to verify the discernment back at authentication device 9, the time of record verification at every turn to in attendance to operating personnel, like this alright avoid operating personnel lazily not go the scene and belong to the phenomenon emergence of careless management to the project.

In any of the above embodiments, preferably, as shown in fig. 1, the intelligent master control box further includes a signal receiver 192 installed on the master control box body 1, and the signal receiver 192 is configured to receive a signal sent by the handheld remote control terminal.

In these embodiments, the intelligent master box further includes a signal receiver 192, so that the signal receiver 192 can receive and send information with the handheld remote control terminal, thereby enabling the intelligent master box to be used for remote control.

Preferably, as shown in fig. 1, the intelligent master control box further includes a power supply unit 194 installed in the master control box body 1, the power supply unit 194 includes a wired power supply unit 194 and/or a battery, and the wired power supply unit 194 includes a power line capable of being connected to an external power supply.

In these embodiments, the wired power supply 194 can be connected to the power line of the construction site through a power line, so that the intelligent main control box can be powered by the power supply of the construction site. Meanwhile, some rechargeable batteries or lithium batteries can be arranged in the intelligent master control box, so that part of electric energy can be stored, and temporary power supply can be performed after on-site power failure.

In any of the above embodiments, preferably, the intelligent main control box further includes a working mode control device, the working mode control device can further implement a barb function, a pre-tightening hook function, a lifting function, a lowering function, and an emergency stop function, and the main control screen 5 is provided with at least one of a barb key, a pre-tightening hook key, a lifting key, a stop key, a lowering key, and an emergency stop key.

In these schemes, the mode control device can also realize barb function, pretension hook function, raising and lowering functions, decline function, scram function, just so make intelligent master control case except the normal lift of control support body, the stop function can also carry out functions such as barb, pretension hook, scram, and can ensure the safety of support body lift in-process from many aspects through functions such as barb, pretension hook, scram, improve operation safety.

In any of the above embodiments, preferably, the intelligent master control box further includes a current protection switch 196 installed in the box body 1, where the current protection switch 196 is in a closed state in a normal state, and can be opened when a current is greater than a preset overload threshold value thereof, and can be automatically closed when the current on the circuit is less than or equal to the preset safety threshold value, and the preset overload threshold value is greater than the preset safety threshold value.

In these schemes, the current protection switch 196 can be used to protect the smart master box from overload, so as to prevent the current in the smart master box from exceeding a set threshold, thereby ensuring the safety of power utilization. The current protection switch 196 is normally closed, and can be opened when the current is greater than the preset overload threshold value, and can be automatically closed when the current on the circuit drops to or below the preset safety threshold value, so that the current protection switch 196 can be automatically restored after the circuit is opened due to the overlarge circuit, and the current protection switch 196 can be reused, thereby reducing the cost. Of course, in other embodiments, a fuse may be energized to protect against current overload. The preset overload threshold may be set according to actual needs, for example, 10% of the overload threshold is exceeded, or 20% of the overload threshold is exceeded.

In any of the above embodiments, preferably, the main control box 1 is provided with a data transmission interface, the data transmission interface includes a USB interface and/or a memory card interface, and the data transmission interface can perform data transmission with an external storage device.

In the schemes, the data transmission interface is used for realizing data exchange between the intelligent main control box and other equipment, so that the initial authentication information of an operator or other data needing initial setting can be directly input into the intelligent main control box through the data transmission interface without field input. Meanwhile, in daily use, the intelligent main control box can also transmit the frame state data and fault data acquired by the intelligent main control box, load data in the lifting process and the like to the outside through the data transmission interface for storage and use. The type of the data transmission interface can be set as a USB interface and/or a storage card interface according to actual needs.

In any of the above embodiments, preferably, as shown in fig. 2 to 7, the main control cabinet 1 includes a cabinet 12, a panel 14, a cover 16, and a plurality of mechanical switches 18. Wherein, as shown in fig. 6 and 7, the cabinet 12 has a receiving chamber 120 opened at the front side; as shown in fig. 5 and 7, the panel 14 is installed at an opening at the front side of the cabinet 12, a first installation hole 140 is provided at one end of the panel 14, a plurality of second installation holes 142 and at least one third installation hole 144 are provided at the other end of the panel 14, and as shown in fig. 2 and 3, the main control screen 5 is installed at the first installation hole 140 in an embedded manner; as shown in fig. 3 and 6, a plurality of mechanical switches 18 are installed at the plurality of second installation holes 142 in a one-to-one correspondence, the plurality of mechanical switches 18 including one or more of a lifting switch, a stop switch, a lowering switch, and an emergency stop switch 182; an air switch (not shown) installed at the third installation hole 144; as shown in fig. 2 and 3, a cover 16 is hingedly installed at one side of the cabinet 1, the other end of the cover 16 can be opened and closed with respect to the panel 14, and when the cover 16 is closed, a receiving space for receiving the main control panel 5, the mechanical switch 18, and the air switch is formed between the cover 16 and the panel 14.

In these embodiments, the main control box 1 includes a box 12, a panel 14, a plurality of mechanical switches 18, and an air switch, wherein the box 12 has a receiving cavity 120 with an open front, and the panel 14 is installed at an opening on the front side of the box 12, so that a space for installing parts such as the station group setting device 22, the station group determining device 24, the station identifying device 26, the lifting control device 3, the alarm device 4, and the main control screen 5 can be formed by the box 12 and the panel 14. And the main control screen 5 is installed at the first installation hole 140 of the panel 14, and the plurality of mechanical switches 18 may be one or more of a lifting, stopping, lowering and emergency stop switch 182, etc., by which the lifting, stopping, lowering and emergency stop of the smart control box can be controlled by the mechanical switches 18. And air switch mainly used climbs the power control of the whole intelligent control system of frame, when the machine was not used for a long time, alright through air switch with climb the whole intelligent control system's of frame power cut off like this, for example all cut off the power of main control box and the power of branch accuse case, and the going outage of a branch accuse case is not used, alright avoid taking place to leak phenomenon such as outage and take place like this. The cover 16 is hinged to one side of the case 1 and can be opened and closed relative to the panel 14 like a door, and when the cover 16 is closed, a certain space for accommodating parts on the panel 14 is left between the cover 16 and the panel 14 of the case 1, so that the parts on the panel 14 can be prevented from being impacted when the cover 16 is closed, and the parts on the panel 14 can be prevented from being impacted by the cover 16. The intelligent main control box of this kind of structure, the opening part of case shell 12 is provided with panel 14, and the panel 14 outside still is provided with apron 16, has just so formed the structure of a double-deck lid at the opening part of case shell 12 to can carry out better protection to parts such as position group setting device 22, position group confirming device 24, position recognition device 26, lift control device 3, alarm device 4 and main control screen 5 in the case shell 12. Specifically, for example, when the intelligent master control box is not used or is carried, the cover plate 16 may be closed to protect the master control screen 5, the mechanical switch 18, the air switch and the like mounted on the panel 14 from being directly exposed to the outside, so as to improve the safety index of the master control screen 5, the mechanical switch 18, the air switch and the like, prolong the service life of the master control screen 5, the mechanical switch 18, the air switch and the like, and reduce the probability that parts of the master control screen 5, the mechanical switch 18, the air switch and the like are damaged by collision during transportation or at a construction site.

Meanwhile, as shown in fig. 3 and 6, because some mechanical switches 18 are further arranged on the panel 14 of the intelligent main control box, and some touch switches such as barbs, pre-tightening hooks, lifting, stopping, descending, emergency stopping and the like are also arranged on the main control screen 5, the advantages of the mechanical switches 18 and the touch switches can be combined to carry out operation control on the main control box, and the intelligent main control box is not limited to a single switch form, so that the switch control of the intelligent main control box can be ensured to be safer and more accurate through double switches.

As shown in fig. 2 and 3, the plurality of mechanical switches 18 includes an emergency stop switch 182 and a push button switch 184, and the push button switch 184 may be one of a lift switch, a drop switch, a stop switch, a barb switch, a warning hook switch, and the like.

Further preferably, as shown in fig. 4, when the cover 16 is closed with respect to the panel 14, the periphery of the cover 16 is in sealing contact with the housing 12, so as to improve the waterproof and dustproof performance of the housing 1 and prolong the service life of the internal parts of the housing 1.

It is further preferred that the top side of housing 12 be provided with a ledge 129, as shown in FIG. 6, and that the outer surface of cover 16 be flush with the outer surface of ledge 129 when cover 16 is closed against panel 14, as shown in FIG. 4. Therefore, the contact position of the box shell 12 and the cover plate 16 on the top can be shielded by the top of the box shell 12, and the waterproof and dustproof performance of the master control box can be improved.

It is further preferable that a partition plate is provided in the accommodating chamber 120, the partition plate divides the accommodating chamber 120 into two chambers, the first mounting hole 140 is provided on a portion of the panel 14 corresponding to one chamber, and the plurality of second mounting holes 142 and the third mounting hole 144 are provided on a portion of the panel 14 corresponding to the other chamber. This kind of setting can separately place the inside part of intelligent electric cabinet to can prevent the inside part mutual interference of intelligent electric cabinet, thereby make every part normal work separately. Simultaneously, also make the inside line of walking of intelligence master control case more convenient like this, therefore can improve the inside clean and tidy of master control case, therefore be convenient for the maintenance and the maintenance of intelligence master control case later stage. And because the parts are placed in the cavities, when the wiring of a certain part is carried out, the part in the corresponding cavity is accessed with the wire, so that the wiring difficulty can be reduced, and the wiring error rate is reduced.

Further preferably, the air switch is a leakage protection air switch.

Further preferably, a plurality of mounting rails are provided in the housing 12, and the mounting rails are used for mounting components inside the housing 12, such as contactors, air switches, and circuit boards. Preferably, as shown in fig. 6 and 7, the plurality of mounting rails includes a first rail 124 on which the circuit board or the like is mounted, a second rail 126 on which the air switch is mounted, and a third rail 128 on which the contactor is mounted.

It is further preferable that the outer surface of the panel 14 includes a first step surface 146 and a second step surface 148 which are stepped, a distance between the first step surface 146 and the outer end surface of the cabinet 12 is smaller than a distance between the second step surface 148 and the outer end surface of the cabinet 12, the first mounting hole 140 is provided on the first step surface 146, and the second mounting hole 142 and the third mounting hole 144 are provided on the second step surface 148.

In this embodiment, the outer surface of the panel 14 includes a first step surface 146 and a second step surface 148 which are arranged in a stepped manner, and the distance between the first step surface 146 and the outer end surface of the cabinet 12 is smaller than the distance between the second step surface 148 and the outer end surface of the cabinet 12, that is, the first step surface 146 is relatively higher and the second step surface 148 is relatively lower. Since the main control panel 5 has a relatively flat structure, after being mounted on the first step surface 146, the height of the main control panel is relatively lower than that of the first step surface 146, since the mechanical switch 18 and the air switch are thicker, the first mounting hole 140, i.e., the hole for mounting the main control panel 5, is formed on the higher first step surface 146, so that the main control panel 5 having a thinner thickness can be mounted on the higher step surface, and the mechanical switch 18 and the air switch with thicker thickness are arranged on the lower step surface, so after the main control screen 5, the mechanical switch 18, the air switch and the like are arranged, it is possible to make the outer end faces of the mechanical switch 18 and the air switch approximately as high as the outer surface of the main control panel 5, just so can ensure the planarization of intelligent electric cabinet after the installation, prevent that the panel 14 outside from leading to the phenomenon of height unevenness because of the difference in height of installing the part to it installs apron 16 additionally in the outside of panel 14 more to be convenient.

On the basis of any of the above solutions, preferably, the portion of the cover plate 16 corresponding to the main control screen 5 is a transparent structure. The transparent structure enables a user to view information displayed on the main control screen 5 through the transparent structure, so that the cover plate 16 does not need to be opened when only the information needs to be viewed without operating the main control box, and the user experience can be improved.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a climb special intelligent master control case of frame for intelligence climbs a system, intelligence climbs a system and includes climb special intelligent master control case of frame, with climb a plurality of machine positions and supporting handheld remote control terminal that special intelligent master control case of frame is connected, each machine position include one with climb the branch accuse case that special intelligent master control case of frame is connected, its characterized in that, climb special intelligent master control case of frame and include:

a main control box body;

the machine position identification device is arranged in the main control box body, is connected with the sub-control boxes of a plurality of groups of machine positions and is used for identifying the machine positions which are communicated with the main control box and belong to the machine position group to be lifted;

a lifting control device arranged in the main control box body and connected with the machine position identification device and the machine position group determination device, used for judging whether the machine position information identified by the machine position identification device is consistent with the machine position information of all the machine positions included in the machine position group to be lifted or not according to the identification result of the machine position identification device, the lifting instruction is not sent until the machine position information identified by the machine position identification device is judged to be consistent with the machine position information of all the machine positions included in the machine position group to be lifted, when the machine position information identified by the machine position identification device is judged to be inconsistent with the machine position information of all the machine positions included in the machine position group to be lifted, an alarm device is controlled to give an alarm, and each group of machine position information comprises the number of the machine positions, the model of each machine position and/or the name of each machine position;

2. The intelligent main control box special for the climbing frame according to claim 1, wherein a five-core socket is arranged at the bottom of the main control box body, and a plugging end of the five-core socket is exposed outside the main control box body;

the five-core plug can be inserted into the inserting end of the five-core socket outside the main control box body;

the five-core cable, the one end of five-core cable with five-core plug connection, five-core cable includes 3 three-phase power cords, 1 signal line and 1 ground wire, the other end of five-core cable is used for being connected with the branch control box.

3. The intelligent master control box special for the climbing frame according to claim 1, further comprising a matched handheld remote control terminal, wherein the handheld remote control terminal is provided with unique identity code information, and the intelligent master control box special for the climbing frame further comprises:

the authority identification device is arranged in the main control box and used for receiving the unique identity code information sent by the handheld remote control terminal, judging whether the received unique identity code information is consistent with the preset identity code information or not, receiving and executing the instruction of the handheld remote control terminal after judging that the received unique identity code information is consistent with the preset identity code information, and ignoring the instruction sent by the handheld remote control terminal before judging that the received unique identity code information is inconsistent with the preset identity code information;

and the authority information storage device is used for storing the preset identity coding information.

4. The intelligent master control box special for climbing frames according to claim 1, further comprising:

the timer is used for timing after the lifting control device sends a lifting instruction for first preset time;

and the load processing device is connected with the timer and used for receiving the load data and preprocessing the load data according to the size of the received load data after the timer times a second preset time.

5. The intelligent master control box special for the climbing frame according to claim 4, wherein the preprocessing according to the size of the received load data specifically comprises:

when the load value of any machine position exceeds 15% of the actual load value of the machine position, controlling an alarm device of the main control box to perform acousto-optic alarm, and sending an overload instruction to a sub-control box of the corresponding machine position;

when the load value of any machine position exceeds 30% of the actual load value of the machine position, the alarm device of the main control box is controlled to carry out acousto-optic alarm, an overload instruction is sent to the sub-control box of the corresponding machine position, and meanwhile, the power supplies of all the machine positions of the machine position group where the overload machine position is located are cut off.

6. The intelligent master control box special for climbing frames according to claim 1, further comprising:

the project data storage device is connected with the sub-control boxes of the multiple groups of machine positions and is used for acquiring and storing one or more project data from the sub-control boxes, the one or more project data comprise load data of each machine position and fault data in the construction process, and the data stored by the project data storage device further comprise construction progress data and project information data;

and the wireless communication device is used for receiving the remote data calling request, acquiring corresponding project data from the project data storage device according to the content of the data calling request and sending the project data.

7. The intelligent master control box special for climbing frames according to claim 5, further comprising:

the data screening device screens one or more items of data according to a preset screening rule before storing the one or more items of data, stores the screened data, and directly deletes the data which is not screened out;

wherein, the preset screening rule comprises: and (4) retaining the initial data, the abnormal numerical value and the ending numerical value, and automatically deleting the intermediate normal redundant information.

8. The rack-climbing dedicated intelligent master control box according to any one of claims 1 to 7, further comprising an authentication device for verifying the identity of an operator, wherein the authentication device comprises:

the input device is used for carrying out initial input of identity information and input of later-stage identity verification information;

the identity information storage device is used for storing the initially input identity information;

the verification device is connected with the input device and the identity information storage device and is used for judging whether the identity verification information input by the input device is consistent with the initially input identity information or not after the identity verification information is input by the input device, if so, the intelligent master control box is awakened, and if not, the intelligent master control box is controlled to sleep;

wherein the identity authentication device comprises one or more of a face recognition device, a fingerprint recognition device, a voice recognition device and an iris recognition device.

9. The rack-climbing dedicated intelligent master control box according to any one of claims 1 to 7,

the intelligent main control box also comprises a signal receiver arranged on the main control box body, and the signal receiver is used for receiving signals sent by the handheld remote control terminal; and/or

The intelligent master control box also comprises a power supply device arranged in the master control box body, wherein the power supply device comprises a wired power supply device and/or a battery, and the wired power supply device comprises a power line which can be connected with an external power supply; and/or

The intelligent main control box further comprises a working mode control device, the working mode control device can realize a barb function, a pre-tightening hook function, a lifting function, a descending function and an emergency stop function, and at least one of a barb key, a pre-tightening hook key, a lifting key, a stop key, a descending key and an emergency stop key is arranged on the main control screen; and/or

The intelligent main control box also comprises a current protection switch arranged in the box body, wherein the current protection switch is in a closed state in a normal state, can be switched off when the current is greater than a preset overload threshold value of the current protection switch, and can be automatically switched on when the current on a circuit is less than or equal to a preset safety threshold value, and the preset overload threshold value is greater than the preset safety threshold value; and/or

The main control box body is provided with a data transmission interface, the data transmission interface comprises a USB interface and/or a memory card interface, and the data transmission interface can perform data transmission with a peripheral storage device.

10. The intelligent master control box special for climbing racks according to claim 9, wherein the master control box body comprises:

a case housing having a receiving chamber with a front opening,

the panel is arranged at an opening on the front side of the box shell, a first mounting hole is formed in one end of the panel, a plurality of second mounting holes and at least one third mounting hole are formed in the other end of the panel, and the main control screen is mounted at the first mounting hole in an embedded mode;

the plurality of mechanical switches are arranged at the plurality of second mounting holes in a one-to-one correspondence mode, and comprise one or more of a lifting switch, a stop switch, a descending switch and an emergency stop switch;

the air switch is arranged at the third mounting hole;

the box body further comprises a cover plate, one side of the cover plate is hinged to the box shell, the other end of the cover plate can be opposite to the panel to be opened and closed, when the cover plate is closed, a containing space for containing the main control screen, the mechanical switch and the air switch is formed between the cover plate and the panel, and/or

The outer surface of the panel comprises a first step surface and a second step surface which are arranged in a stepped mode, the distance between the first step surface and the outer end face of the box shell is smaller than the distance between the second step surface and the outer end face of the box shell, the first mounting hole is formed in the first step surface, and the second mounting hole and the third mounting hole are formed in the second step surface.