CN113074681A - Intelligent measuring tool for building electromechanical installation engineering and measuring method thereof - Google Patents

Abstract

The invention discloses an intelligent measuring tool for building electromechanical installation engineering and a measuring method thereof, and the intelligent measuring tool comprises a main body and a measuring assembly, wherein a PLC (programmable logic controller) is embedded and installed on the front surface of a box body, an electricity storage box is welded at the inner bottom of the box body, a storage battery is arranged in the electricity storage box, a welding plate is fixedly installed at the top of the electricity storage box, two charging seats are respectively welded on two sides of the upper surface of the welding plate, two coordinate sensing mechanisms are respectively matched with the charging seats, a lithium battery is arranged at the bottom of each coordinate sensing mechanism, a circuit board is installed above the lithium battery in each coordinate sensing mechanism through bolts, a data processing module, a central processing module, a wireless signal module and a gps positioning module are integrated on the surface of the circuit board, and a coordinate sensor is embedded and installed; the invention is convenient, portable and convenient to use, can quickly calculate the measurement of the linear distance or the path length between two sets of coordinate sensors, ensures the measurement accuracy and greatly improves the measurement efficiency.

Description

Intelligent measuring tool for building electromechanical installation engineering and measuring method thereof

Technical Field

The invention relates to the technical field of measurement of electrical installation engineering of public buildings, in particular to an intelligent measuring tool for the electrical installation engineering of buildings and a measuring method thereof.

Background

Public building (public building) refers to buildings for people to perform various public activities, and generally includes office buildings, commercial buildings, tourist buildings, science and education and literature buildings, communication buildings, transportation buildings and the like, building electromechanical installation projects in the public buildings are important components of the public building, in the building electromechanical installation projects, some electromechanical devices in heating ventilation or electrical aspects need to be measured to determine installation areas and sizes when installed, and especially, measuring tools are needed when electromechanical devices in combined air conditioning units, air conditioning boxes, fresh air handling units, lighting and the like are installed.

The existing measuring tool has the following defects:

the existing measuring tools generally use measuring tools such as a ruler tape measure to measure heating ventilation or electrical electromechanical, manual measurement is needed, but measurement is performed through the tools, firstly, errors are prone to occur due to levelness in the operation process of a person, accuracy is low, secondly, measurement is troublesome for electromechanical equipment with long length and wide width, and data of the measured electromechanical equipment need to be continued when the measured electromechanical equipment exceeds the measuring range of the tools, so that the measured data are further inaccurate, operation errors are prone to occur, and particularly, the measurement of nonlinear distance is low in accuracy. The existing measuring tool wastes time and labor when being used, and the measuring efficiency is lower. The existing measuring tool needs manual operation with two hands, the two hands cannot be liberated, and the measuring tool like a tower ruler is not convenient to carry and affects use. Based on the above, the invention provides an intelligent measuring tool for building electromechanical installation engineering and a measuring method thereof, which are used for solving the problems.

Disclosure of Invention

The invention aims to provide an intelligent measuring tool for building electromechanical installation engineering and a measuring method thereof, which have the advantages of high measuring precision, unlimited measuring range, time and labor saving, high working efficiency and portability, and solve the problems that the existing measuring tool is low in measuring precision, needs to be continuously connected when exceeding the measuring range, wastes time and labor and is inconvenient to carry in the actual use process.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent measuring tool for building electromechanical installation engineering comprises a main body and a measuring component;

the main body comprises a box body, a storage battery, a top cover and charging seats, wherein a PLC (programmable logic controller) is embedded and installed on the front surface of the box body, the top cover is fixedly installed on the rear side of the top of the box body through a hinge, fixing mechanisms are arranged on two sides of the bottom of the top cover, welding rings are welded on two sides of the box body, hanging belts are connected among the welding rings, a power storage box is welded on the inner bottom of the box body, the storage battery is arranged in the power storage box, a welding plate is fixedly installed on the top of the power storage box, and two charging seats are welded on two sides of the upper;

the measuring component comprises a coordinate sensing mechanism, the coordinate sensing mechanism is provided with two parts which are matched with the charging seat respectively, the bottom of the coordinate sensing mechanism is provided with a lithium battery, a circuit board is arranged above the lithium battery in the coordinate sensing mechanism through a bolt, the surface of the circuit board is integrated with a data processing module, a central processing module, a wireless signal module and a gps positioning module, and a coordinate sensor is embedded and installed at the top of the coordinate sensing mechanism.

Preferably, buckles are fixedly installed at two ends of the top of the front face of the box body through bolts, buckle blocks are fixedly installed at two ends of the front face of the top cover through bolts, the buckles and the buckle blocks are matched with each other, a handle is welded at the central position of the top cover top, and an anti-slip sleeve is sleeved on the surface of the handle, so that the box body is convenient to carry.

Preferably, the positive top of PLC controller is equipped with the display screen, the positive bottom of PLC controller is equipped with operating panel, the positive one side that is located operating panel of PLC controller is equipped with first acknowledgement button, second acknowledgement button, measurement button and power key, one side of PLC controller is equipped with the wireless signal receiver, and first acknowledgement button and second acknowledgement button are used for controlling corresponding coordinate sensing mechanism respectively.

Preferably, the top of charging seat is equipped with the socket, and the both sides of socket bottom are equipped with the hole of charging, and the inside in hole of charging is equipped with the electrical property terminal to realize charging of coordinate sensing mechanism.

Preferably, fixed establishment includes bottom plate, protection pad and spring, and the top welding of bottom plate has the spring, and the top of spring and the fixed welding in bottom of top cap, and the bottom of bottom plate is pasted and is filled up the protection to guarantee to carry the in-process, coordinate sensing mechanism can not break away from with the charging seat, and guaranteed coordinate sensing mechanism's stability.

Preferably, the bottom of the lithium battery is electrically connected with a second circuit protection board, and the center positions of two sides of the bottom of the second circuit protection board are provided with electrical insertion rods corresponding to the charging holes, so as to realize charging.

Preferably, the control box is embedded and installed at the top of one side of the coordinate sensing mechanism, and a control switch is arranged on one side of the control box and used for realizing the switch of the coordinate sensing mechanism and the coordinate positioning function.

Preferably, the two ends of the hanging belt are connected with the lock catches, and the cotton sleeves are sleeved on the surface of the hanging belt, so that the carrying comfort is guaranteed.

Preferably, one side electric connection on battery surface has first circuit protection shield, one side of storing the electricity box is equipped with the mouth that charges, and the mouth that charges extends to the outside end of storing the electricity box and has sealed lid through helicitic texture fixed mounting, the battery passes through wire and first circuit protection shield electric connection, and first circuit protection shield passes through the wire and charges mouth, PLC controller and electric terminal electric connection, and second circuit protection shield passes through wire and control box electric connection, and control box passes through wire and circuit board electric connection, and the circuit board passes through wire and coordinate sensor electric connection.

A use method of an intelligent measuring tool for building electromechanical installation engineering comprises the following use steps:

firstly, in the actual using process, a person hangs the tool on the body through a hanging belt to carry the tool, when the tool needs to be used, the tool is placed at a fixed position, then two sets of coordinate sensing mechanisms in a box body are taken out, if the linear distance is measured, the two sets of coordinate sensing mechanisms are directly placed at two ends of heating ventilation or electrical electromechanical equipment, original coordinates are set through a PLC (programmable logic controller), then the coordinate sensing mechanisms are opened on the basis of the original coordinates, the coordinate sensing mechanisms detect the coordinates, the coordinate sensing mechanisms transmit detection information to the PLC in an electric signal mode, the PLC calculates the coordinates, and then the PLC quickly calculates the distance between the two sets of coordinates, so that the linear length, width and other data of the electromechanical equipment are measured and calculated; if the measurement path is the path, one coordinate sensing mechanism is placed at one end of the heating ventilation or electrical electromechanical equipment, then the action path is obtained through a GPS positioning module until the other coordinate sensing mechanism is moved to the other end of the heating ventilation or electrical electromechanical equipment through a tool, the coordinate sensing mechanism detects coordinates, the coordinate sensing mechanism transmits detection information to a PLC (programmable logic controller) in an electric signal mode, the PLC calculates the coordinates, and then the PLC calculates the distance between the two sets of coordinates rapidly, so that the path length and other data of the electromechanical equipment are measured and calculated;

secondly, turning on a power key through the setting of a PLC controller, starting the PLC controller to work, setting original coordinates through an operation panel on the PLC controller, then pressing a first confirmation button and a second confirmation button, measuring the coordinates of a detected position by two sets of coordinate sensing mechanisms, transmitting the detected data to the PLC controller by the two sets of coordinate sensing mechanisms, then pressing a measurement button, calculating the distance between the two sets of coordinates by the PLC controller, obtaining the data, namely the linear measurement data of the electromechanical equipment, positioning one coordinate sensing mechanism, pressing the first confirmation button, pressing the second confirmation button for a long time, positioning and tracking the action route of the other coordinate sensing mechanism, pressing the second confirmation button for a long time again after the detected position is reached, transmitting the detected data to the PLC controller by the two sets of coordinate sensing mechanisms, and pressing the measurement button, the PLC calculates the length of the action path of the moving coordinate sensing mechanism, and the wireless signal receiver can receive and transmit information;

the tool is powered by the storage battery, the first circuit protection board is used for protecting charging and discharging of the storage battery, the storage battery is conveniently charged by the charging port, and the sealing cover seals the charging port to achieve a dustproof effect;

the charging seat is mainly used for charging the coordinate sensing mechanism, and after the coordinate sensing mechanism is inserted into the socket, the electric insertion rod is inserted into the charging hole to be contacted with the electric terminal, so that the storage battery charges the lithium battery;

through the arrangement of the fixing mechanism, after the top cover is closed, the spring is compressed, and the bottom plate is abutted against the top of the coordinate sensing mechanism, so that the coordinate sensing mechanism is fixed, the coordinate sensing mechanism is prevented from falling off from the charging seat, and the protective cushion mainly protects the coordinate sensing mechanism;

when the mechanism operates, the two sets of coordinate sensors are controlled to work through the control switch, then the first confirmation button and the second confirmation button are pressed, the two sets of coordinate sensors detect the position coordinates of the electromechanical equipment in heating ventilation or electrical aspects, then detection information is transmitted to the PLC, then the measurement button is pressed, the PLC calculates the distance between the two sets of coordinates, the obtained data is the measurement data of the electromechanical equipment, after the detection is finished, the coordinate sensing mechanism is inserted into the charging seat to be charged, the top cover is covered, and the fixing mechanism fixes the coordinate sensing mechanism.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, two sets of coordinate sensing mechanisms are placed at the positions corresponding to the heating and ventilating or electrical electromechanical equipment for coordinate measurement, then the measured coordinates are transmitted to the PLC in an electric signal mode, the PLC can calculate the linear distance between the two sets of coordinate sensing mechanisms according to the two sets of coordinate information, and then the measurement of the path length can be realized through the GPS positioning module, so that the measurement accuracy is ensured, the operation is simple, the time and the labor are saved, and the measurement efficiency is greatly improved.

(2) According to the invention, through the arrangement of the hanging belt, the tool can be directly hung on the body for use, so that the hands of a person are thoroughly liberated, the person can conveniently carry out other operations, and the tool is convenient to carry and use.

(3) The storage battery is arranged in the box body, and the coordinate sensing mechanism can be directly positioned in the box body through the fixing mechanism for charging, so that the portable coordinate measuring device greatly improves the endurance time, and ensures the smooth operation of the measuring work.

Drawings

FIG. 1 is a cross-sectional view of a structure of the present invention;

FIG. 2 is an external view of the housing of the present invention;

FIG. 3 is an enlarged schematic view of the coordinate sensing mechanism of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged view of the charging dock of FIG. 1 according to the present invention;

fig. 5 is an enlarged view of the securing mechanism of fig. 1 according to the present invention.

In the figure: 1. a box body; 2. an electricity storage box; 201. a storage battery; 202. a first circuit protection board; 203. a charging port; 204. a sealing cover; 3. a PLC controller; 301. a display screen; 302. an operation panel; 303. a first confirmation button; 304. a second confirmation button; 305. a measurement button; 306. a power key; 307. a wireless signal receiver; 4. welding a ring; 5. hanging a belt; 501. cotton sleeves; 502. locking; 6. a top cover; 601. a handle; 602. an anti-slip sleeve; 7. a fastener; 8. buckling blocks; 9. welding the plate; 10. a charging seat; 1001. a socket; 1002. a charging hole; 1003. an electrical terminal; 11. a coordinate sensing mechanism; 1101. a control box; 1102. a control switch; 12. a fixing mechanism; 1201. a base plate; 1202. a protective pad; 1203. a spring; 13. a lithium battery; 1301. a second circuit protection board; 1302. an electrical plug-in rod; 14. a circuit board; 15. a data processing module; 16. a central processing module; 17. a wireless signal module; 18. a gps positioning module; 19. and a coordinate sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-5, the present invention provides a technical solution: an intelligent measuring tool for building electromechanical installation engineering comprises a box body 1, a storage battery 201, a top cover 6, a charging seat 10 and a coordinate sensing mechanism 11, wherein a PLC 3 is embedded and installed on the front side of the box body 1, the model of the PLC 3 is VH-32MR, buckles 7 are fixedly installed at two ends of the front top of the box body 1 through bolts, the top cover 6 is fixedly installed at the rear side of the top of the box body 1 through hinges, a handle 601 is welded at the central position of the top cover 6, an anti-slip sleeve 602 is sleeved on the surface of the handle 601, buckle blocks 8 are fixedly installed at two ends of the front side of the top cover 6 through bolts, fixing mechanisms 12 are arranged at two sides of the bottom of the top cover 6, welding rings 4 are welded at the central positions of the tops of two sides of the box body 1, a hanging belt 5 is connected between the welding rings 4, a storage battery 2 is welded at the inner bottom of the, the top fixed mounting who holds electricity box 2 has welded plate 9, the welding of both sides department at welded plate 9 top has charging seat 10, coordinate sensing mechanism 11 has been placed to the inside of charging seat 10, the bottom of coordinate sensing mechanism 11 is equipped with lithium cell 13, there is circuit board 14 coordinate sensing mechanism 11 inside top that is located lithium cell 13 through bolt fixed mounting, and circuit board 14 front is equipped with data processing module 15, central processing module 16, wireless signal module 17 and gps orientation module 18, coordinate sensing mechanism 11's top is inlayed and is installed coordinate sensor 19.

As a preferable embodiment of the present embodiment: the positive top of PLC controller 3 is equipped with display screen 301, and the positive bottom of PLC controller 3 is equipped with operating panel 302, and the positive one side that is located operating panel 302 of PLC controller 3 is equipped with first acknowledgement button 303, second acknowledgement button 304, measurement button 305 and power key 306, and one side of PLC controller 3 is equipped with wireless signal receiver 307.

As a preferable embodiment of the present embodiment: one side electrical connection on the surface of battery 201 has first circuit protection shield 202, and one side of storing box 2 is equipped with the mouth 203 that charges, and the outside end that charges mouth 203 and extend to storing box 2 has sealed lid 204 through helicitic texture fixed mounting.

As a preferable embodiment of the present embodiment: the top of charging stand 10 is equipped with socket 1001, and the both sides of socket 1001 bottom are equipped with charging hole 1002, and charging hole 1002's inside is equipped with electrical property terminal 1003.

As a preferable embodiment of the present embodiment: the fixing mechanism 12 includes a bottom plate 1201, a protection pad 1202 and a spring 1203, the spring 1203 is welded on the top of the bottom plate 1201, the top end of the spring 1203 is fixedly welded with the bottom of the top cover 6, and the protection pad 1202 is adhered on the bottom of the bottom plate 1201.

As a preferable embodiment of the present embodiment: the bottom of the lithium battery 13 is electrically connected to a second circuit protection board 1301, and an electrical insertion rod 1302 is disposed at the central position of two sides of the bottom of the second circuit protection board 1301, and the electrical insertion rod 1302 corresponds to the charging hole 1002.

Example two

Referring to fig. 1-5, the present invention provides a technical solution: an intelligent measuring tool for building electromechanical installation engineering comprises a box body 1, a storage battery 201, a top cover 6, a charging seat 10 and a coordinate sensing mechanism 11, wherein a PLC (programmable logic controller) 3 is embedded and installed on the front side of the box body 1, the PLC 3 is used for setting original coordinates and calculating two sets of coordinates detected by two sets of coordinate sensors 19 to obtain measured data, buckles 7 are fixedly installed at two ends of the front top of the box body 1 through bolts, the top cover 6 is fixedly installed at the rear side of the top of the box body 1 through hinges and used for sealing the box body 1, a handle 601 is welded at the central position of the top cover 6, an anti-slip sleeve 602 is sleeved on the surface of the handle 601, the tool is convenient for a person to hold, the anti-slip sleeve 602 increases the friction force on the surface of the handle 601, the person is prevented from sliding when holding the handle 601, and buckling blocks 8 are fixedly installed at two ends of the front, after the top cover 6 is closed, the buckle 7 is buckled on the buckle block 8 to fix the top cover 6, two sides of the bottom of the top cover 6 are respectively provided with a fixing mechanism 12, after the top cover 6 is covered, the fixing mechanism 12 is propped against the coordinate sensing mechanism 11 to fix the coordinate sensing mechanism 11, the central position of the tops of two sides of the box body 1 is welded with a welding ring 4, a hanging belt 5 is connected between the welding rings 4, the hanging belt 5 is convenient for a person to hang the tool on the body for carrying, the inner bottom of the box body 1 is welded with a power storage box 2, a storage battery 201 is arranged inside the power storage box 2, the storage battery 201 is used for supplying power to the tool, the top of the power storage box 2 is welded with a welding plate 9, two sides of the top of the welding plate 9 are welded with charging seats 10, after the work is finished, the coordinate sensing mechanism 11 is inserted into the charging seats 10 for charging, the coordinate sensing mechanism 11 is arranged inside, when in use, two sets of coordinate sensing mechanisms 11 are taken out, then the coordinate sensing mechanisms 11 are placed at the detection positions of the electromechanical devices, then the coordinate sensing mechanisms 11 detect the coordinates of the detection positions of the electromechanical devices, then the detection information is transmitted to the PLC 3 in an electric signal mode, the bottom of the coordinate sensing mechanisms 11 is provided with a lithium battery 13, the lithium battery 13 is used for supplying power to a coordinate sensor 19, a circuit board 14 is fixedly arranged above the lithium battery 13 inside the coordinate sensing mechanisms 11 through bolts, the front surface of the circuit board 14 is provided with a data processing module 15, a central processing module 16, a wireless signal module 17 and a gps positioning module 18, the data processing module 15 is used for processing data, the central processing module 16 is used for transferring data, the wireless signal module 17 is matched with a wireless signal receiver 307 to transmit and receive signals, a coordinate sensor 19 is mounted on the top of the coordinate sensing mechanism 11 in an embedded manner, the model of the coordinate sensor 19 is ESCF, and the coordinate sensor 19 is used for detecting the coordinates of the position.

As a preferable embodiment of the present embodiment: the positive top of PLC controller 3 is equipped with display screen 301, display screen 301 is used for showing detection data, the positive bottom of PLC controller 3 is equipped with operating panel 302, operating panel 302 inputs original coordinate, PLC controller 3 openly is located one side of operating panel 302 and is equipped with first acknowledgement button 303, second acknowledgement button 304, measuring button 305 and power key 306, first acknowledgement button 303 and second acknowledgement button 304 carry out position detection to controlling two sets of coordinate sensor 19, one side of PLC controller 3 is equipped with wireless signal receiver 307, wireless signal receiver 307 cooperates wireless signal module 17 to carry out wireless signal transmission.

As a preferable embodiment of the present embodiment: one side electric connection on battery 201 surface has first circuit protection shield 202, and first circuit protection shield 202 protects the charge-discharge of battery 201, and one side of power storage box 2 is equipped with the mouth 203 that charges, and the mouth 203 that charges is convenient for charge battery 201, and the mouth 203 that charges extends to the outside end of power storage box 2 has sealed lid 204 through helicitic texture fixed mounting, and sealed lid 204 seals the mouth 203 that charges, plays dustproof effect.

As a preferable embodiment of the present embodiment: the top of charging stand 10 is equipped with socket 1001, the insertion of socket 1001 coordinate sensing mechanism 11, and the both sides of socket 1001 bottom are equipped with charging hole 1002, and charging hole 1002 is convenient for the insertion of electric property inserted bar 1302, and the inside of charging hole 1002 is equipped with electrical property terminal 1003, and electrical property terminal 1003 and the contact of electric property inserted bar 1302 carry out power transmission.

As a preferable embodiment of the present embodiment: the fixing mechanism 12 comprises a bottom plate 1201, a protection pad 1202 and a spring 1203, the spring 1203 is welded at the top of the bottom plate 1201, the top end of the spring 1203 is fixedly welded with the bottom of the top cover 6, the protection pad 1202 is adhered to the bottom of the bottom plate 1201, after the top cover 6 is covered, the spring 1203 is compressed, then the bottom plate 1201 abuts against the coordinate sensing mechanism 11, the coordinate sensing mechanism 11 is fixed, and the protection pad 1202 protects the coordinate sensing mechanism 11.

As a preferable embodiment of the present embodiment: the bottom of the lithium battery 13 is electrically connected to a second circuit protection board 1301, the second circuit protection board 1301 protects the charging and discharging of the lithium battery 13, an electrical insertion rod 1302 is arranged at the central position of two sides of the bottom of the second circuit protection board 1301, the electrical insertion rod 1302 corresponds to the charging hole 1002, and the electrical insertion rod 1302 is inserted into the charging hole 1002 and contacts with the electrical terminal 1003, so that the lithium battery 13 is charged.

As a preferable embodiment of the present embodiment: a control box 1101 is mounted on the top of one side of the coordinate sensing mechanism 11 in a mosaic manner, a control switch 1102 is arranged on one side of the control box 1101, when the coordinate sensing mechanism 11 is taken out, the control switch 1102 is pressed, and then the coordinate sensor 19 is powered off to work.

As a preferable embodiment of the present embodiment: the both ends of hanging 5 of taking are connected with hasp 502, hang and take 5 to be connected with weld ring 4 through hasp 502, make things convenient for personnel to the dismantlement and the installation of hanging 5 of taking, and the surface cover of hanging 5 of taking has cotton cover 501, and cotton cover 501 guarantees to hang 5 travelling comfort that hang on one's body of personnel of taking.

As a preferable embodiment of the present embodiment: the storage battery 201 is electrically connected to the first circuit protection board 202 through a wire, the first circuit protection board 202 is electrically connected to the charging port 203, the PLC controller 3 and the electrical terminal 1003 through a wire, the second circuit protection board 1301 is electrically connected to the control box 1101 through a wire, the control box 1101 is electrically connected to the circuit board 14 through a wire, and the circuit board 14 is electrically connected to the coordinate sensor 19 through a wire.

A use method of an intelligent measuring tool for building electromechanical installation engineering comprises the following use steps:

firstly, in the actual using process, a person hangs the tool on the body through a hanging belt 5 to carry the tool, when the tool needs to be used, the tool is placed at a fixed position, then two sets of coordinate sensing mechanisms 11 in a box body 1 are taken out, if the linear distance is measured, the two sets of coordinate sensing mechanisms 11 are directly placed at two ends of heating ventilation or electrical electromechanical equipment, original coordinates are set through a PLC (programmable logic controller) 3, then the coordinate sensing mechanisms 11 are opened on the basis of the original coordinates, the coordinate sensing mechanisms 11 detect coordinates, the coordinate sensing mechanisms 11 transmit detection information to the PLC 3 in an electric signal mode, the PLC 3 calculates the coordinates, and then the PLC 3 quickly calculates the distance between the two sets of coordinates, so that the data such as the linear length, the width and the like of the electromechanical equipment are measured; if the measurement path is adopted, one coordinate sensing mechanism 11 is placed at one end of the heating ventilation or electrical electromechanical equipment, then the action path is obtained through the GPS positioning module 18 until the other coordinate sensing mechanism 11 is moved to the other end of the heating ventilation or electrical electromechanical equipment through a tool, the coordinate sensing mechanism 11 detects coordinates, the coordinate sensing mechanism 11 transmits detection information to the PLC 3 in an electric signal mode, the PLC 3 calculates the coordinates, and then the PLC 3 calculates the distance between the two sets of coordinates quickly, so that the path length and other data of the electromechanical equipment are measured and calculated;

secondly, the power key 306 is turned on through the setting of the PLC 3, the PLC 3 starts working, the original coordinates are set through the operation panel 302 on the PLC 3, then the first confirmation button 303 and the second confirmation button 304 are pressed, the coordinates of the detected position are measured by the two sets of coordinate sensing mechanisms 11, then the detected data are transmitted to the PLC 3 by the two sets of coordinate sensing mechanisms 11, then the measuring button 305 is pressed, the PLC 3 calculates the distance between the two sets of coordinates, the obtained data are the linear measured data of the electromechanical equipment, one coordinate sensing mechanism 11 is firstly positioned, the first confirmation button 303 is pressed, then the second confirmation button 304 is pressed for a long time, the action route of the other coordinate sensing mechanism 11 is positioned and tracked, after the detected position is reached, the second confirmation button 304 is pressed for a long time again, then the detected data are transmitted to the PLC 3 by the two sets of coordinate sensing mechanisms 11, then, the measurement button 305 is pressed, the PLC controller 3 calculates the length of the moving path of the moving coordinate sensing mechanism 11, and the wireless signal receiver 307 can receive and transmit information, where the function difference setting of the short press and the long press of the first confirmation button 303 and the second confirmation button 304 is completed by a code;

thirdly, the storage battery 201 provides electric energy for the tool, the first circuit protection board 202 is used for protecting charging and discharging of the storage battery 201, the storage battery 201 is conveniently charged through the charging port 203, and the sealing cover 204 seals the charging port 203 to achieve a dustproof effect;

fourthly, the charging seat 10 is mainly used for charging the coordinate sensing mechanism 11, and when the coordinate sensing mechanism 11 is inserted into the socket 1001, the electrical plug rod 1302 is inserted into the charging hole 1002 to contact with the electrical terminal 1003, so that the lithium battery 13 is charged by the storage battery 201;

through the arrangement of the fixing mechanism 12, after the top cover 6 is closed, the spring 1203 is compressed, and the bottom plate 1201 is pressed against the top of the coordinate sensing mechanism 11, so that the coordinate sensing mechanism 11 is fixed, the coordinate sensing mechanism 11 is prevented from falling off from the charging seat 10, and the protection pad 1202 mainly protects the coordinate sensing mechanism 11;

sixthly, when the mechanisms operate, the two sets of coordinate sensors 19 are controlled to work through the control switch 1102, then the first confirmation button 303 and the second confirmation button 304 are pressed, the two sets of coordinate sensors 19 detect position coordinates of the heating ventilation or electrical electromechanical equipment, then detection information is transmitted to the PLC controller 3, then the measurement button 305 is pressed, the PLC controller 3 calculates the distance between the two sets of coordinates, the obtained data is measurement data of the electromechanical equipment, after the detection is finished, the coordinate sensing mechanism 11 is inserted into the charging seat 10 to be charged, the top cover 6 is covered, and the fixing mechanism 12 fixes the coordinate sensing mechanism 11.

In summary, the following steps: according to the intelligent measuring tool for the building electromechanical installation engineering and the measuring method thereof, power is supplied through a storage battery 201, when the intelligent measuring tool needs to be used, a worker fixedly places the tool at a certain position, then takes out two sets of coordinate sensing mechanisms 11, if the linear distance is measured, the two sets of coordinate sensing mechanisms 11 are directly placed at two ends of electromechanical equipment in heating ventilation or electrical aspects, original coordinates are set through a PLC (programmable logic controller) 3, then the coordinate sensing mechanisms 11 are opened on the basis of the original coordinates, the coordinate sensing mechanisms 11 detect coordinates, the coordinate sensing mechanisms 11 transmit detection information to the PLC 3 in an electric signal mode, the PLC 3 calculates the coordinates, and then the PLC 3 quickly calculates the distance between the two sets of coordinates, so that the linear length, width and other data of the electromechanical equipment are measured; if the measurement path is adopted, one of the coordinate sensing mechanisms 11 is firstly placed at one end of the heating, ventilating or electrical electromechanical equipment, then obtaining a motion path through the GPS positioning module 18 until another coordinate sensing mechanism 11 is moved to the other end of the heating ventilation or electrical electromechanical equipment through a tool, detecting the coordinate by the coordinate sensing mechanism 11, transmitting the detection information to the PLC 3 by the coordinate sensing mechanism 11 in an electric signal mode, calculating the coordinate by the PLC 3, then the PLC 3 calculates the distance between the two groups of coordinates rapidly, thereby measuring and calculating the data of the electromechanical device such as path length, and after the detection is finished, the coordinate sensing mechanism 11 is inserted into the charging seat 10 for charging, the top cover 6 is covered, the fixing mechanism 12 is pressed against the coordinate sensing mechanism 11, the coordinate sensing mechanism 11 is fixed and the person can then carry the tool by hanging it on his body by means of the strap 5.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an intelligent measuring tool for building electromechanical installation engineering which characterized in that: comprises a main body and a measuring component;

the main body comprises a box body (1), a storage battery (201), a top cover (6) and a charging seat (10), wherein a PLC (programmable logic controller) is embedded in the front of the box body (1), the top cover (6) is fixedly installed on the rear side of the top of the box body (1) through a hinge, fixing mechanisms (12) are arranged on two sides of the bottom of the top cover (6), welding rings (4) are welded on two sides of the box body (1), a hanging belt (5) is connected between the welding rings (4), a power storage box (2) is welded on the inner bottom of the box body (1), the storage battery (201) is arranged inside the power storage box (2), a welding plate (9) is fixedly installed on the top of the power storage box (2), and the charging seat (10) is welded on two sides of the upper surface of the welding;

the measuring component comprises a coordinate sensing mechanism (11), the coordinate sensing mechanism (11) is provided with two parts which are matched with a charging seat (10) respectively, a lithium battery (13) is arranged at the bottom of the coordinate sensing mechanism (11), a circuit board (14) is arranged above the lithium battery (13) in the coordinate sensing mechanism (11) through bolts, a data processing module (15), a central processing module (16), a wireless signal module (17) and a gps positioning module (18) are integrated on the surface of the circuit board (14), and a coordinate sensor (19) is embedded at the top of the coordinate sensing mechanism (11).

2. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the anti-skidding box is characterized in that buckles (7) are fixedly installed at two ends of the top of the front face of the box body (1) through bolts, buckling blocks (8) are fixedly installed at two ends of the front face of the top cover (6) through bolts, the buckles (7) and the buckling blocks (8) are matched with each other, a handle (601) is welded at the central position of the top cover (6) top, and an anti-skidding sleeve (602) is sleeved on the surface of the handle (601).

3. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the positive top of PLC controller (3) is equipped with display screen (301), the positive bottom of PLC controller (3) is equipped with operating panel (302), one side that PLC controller (3) openly lies in operating panel (302) is equipped with first acknowledgement button (303), second acknowledgement button (304), measurement button (305) and power key (306), one side of PLC controller (3) is equipped with wireless signal receiver (307).

4. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the top of charging seat (10) is equipped with socket (1001), and the both sides of socket (1001) bottom are equipped with charging hole (1002), and the inside of charging hole (1002) is equipped with electrical property terminal (1003).

5. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the fixing mechanism (12) comprises a bottom plate (1201), a protection pad (1202) and a spring (1203), the spring (1203) is welded to the top of the bottom plate (1201), the top end of the spring (1203) is fixedly welded to the bottom of the top cover (6), and the protection pad (1202) is adhered to the bottom of the bottom plate (1201).

6. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the bottom of the lithium battery (13) is electrically connected with a second circuit protection board (1301), an electrical insertion rod (1302) is arranged at the center of two sides of the bottom of the second circuit protection board (1301), and the electrical insertion rod (1302) corresponds to the charging hole (1002).

7. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the top of one side of the coordinate sensing mechanism (11) is embedded with a control box (1101), and one side of the control box (1101) is provided with a control switch (1102).

8. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: the two ends of the hanging belt (5) are connected with lock catches (502), and cotton sleeves (501) are sleeved on the surface of the hanging belt (5).

9. The intelligent measuring tool for the building electromechanical installation engineering according to claim 1, characterized in that: one side electric connection on battery (201) surface has first circuit protection shield (202), one side of storing electricity box (2) is equipped with charges mouthful (203), and charges mouthful (203) and extend to the outside end of storing electricity box (2) and pass through screw structure fixed mounting and have sealed lid (204), battery (201) pass through the wire and first circuit protection shield (202) electric connection, and first circuit protection shield (202) pass through the wire and charge mouthful (203), PLC controller (3) and electric terminal (1003) electric connection, and second circuit protection shield (1301) pass through the wire and control box (1101) electric connection, and control box (1101) pass through wire and circuit board (14) electric connection, and circuit board (14) pass through wire and coordinate sensor (19) electric connection.

10. A use method of an intelligent measuring tool for building electromechanical installation engineering relates to the intelligent measuring tool for building electromechanical installation engineering of any one of claims 1 to 9, and comprises the following steps:

firstly, in the actual use process, a person hangs the tool on the body through the hanging belt (5) to carry the tool, when the tool needs to be used, the tool is placed at a fixed position, then taking out the two groups of coordinate sensing mechanisms (11) in the box body (1), if the linear distance is measured, directly placing the two groups of coordinate sensing mechanisms (11) at two ends of the electromechanical equipment in heating and ventilation or electrical aspects, setting original coordinates through a PLC (programmable logic controller) (3), then, on the basis of the original coordinates, a coordinate sensing mechanism (11) is opened, the coordinate sensing mechanism (11) detects the coordinates, the coordinate sensing mechanism (11) transmits detection information to a PLC (programmable logic controller) controller (3) in an electric signal mode, the PLC controller (3) calculates the coordinates, then the PLC (3) rapidly calculates the distance between the two groups of coordinates, thereby measuring and calculating the data of the electromechanical equipment such as the linear length, the width and the like; if the measurement path is adopted, one coordinate sensing mechanism (11) is placed at one end of the heating and ventilation or electrical electromechanical equipment, then a motion path is obtained through a GPS positioning module (18) until the other coordinate sensing mechanism (11) is moved to the other end of the heating and ventilation or electrical electromechanical equipment through a tool, the coordinate sensing mechanism (11) detects coordinates, the coordinate sensing mechanism (11) transmits detection information to a PLC (programmable logic controller) controller (3) in an electric signal mode, the PLC (3) calculates the coordinates, and then the PLC (3) rapidly calculates the distance between the two sets of coordinates, so that the path length and other data of the electromechanical equipment are measured and calculated;

secondly, a power key (306) is turned on through the setting of a PLC (3), the PLC (3) starts to work, original coordinates are set through an operation panel (302) on the PLC (3), then a first confirmation button (303) and a second confirmation button (304) are pressed, two sets of coordinate sensing mechanisms (11) measure the coordinates of a detected position, then the two sets of coordinate sensing mechanisms (11) transmit detected data to the PLC (3), then a measurement button (305) is pressed, the PLC (3) calculates the distance between the two sets of coordinates, the obtained data are linear measurement data of the electromechanical equipment, one coordinate sensing mechanism (11) is firstly positioned, the first confirmation button (303) is pressed, then the second confirmation button (304) is pressed for a long time, the action route of the other coordinate sensing mechanism (11) is positioned and tracked, after the detection position is reached, the second confirmation button (304) is pressed again, then the two sets of coordinate sensing mechanisms (11) transmit detection data to the PLC (3), then the measurement button (305) is pressed, the PLC (3) calculates the length of the action path of the moving coordinate sensing mechanism (11), and the wireless signal receiver (307) can receive and transmit information;

thirdly, the tool is supplied with electric energy through the storage battery (201), the first circuit protection board (202) is used for protecting the charging and discharging of the storage battery (201), the charging port (203) is convenient for charging the storage battery (201), and the sealing cover (204) seals the charging port (203) to achieve the dustproof effect;

the charging seat (10) is mainly used for charging the coordinate sensing mechanism (11), and after the coordinate sensing mechanism (11) is inserted into the socket (1001), the electric insertion rod (1302) is inserted into the charging hole (1002) to be contacted with the electric terminal (1003), so that the lithium battery (13) is charged by the storage battery (201);

fifthly, through the arrangement of the fixing mechanism (12), after the top cover (6) is closed, the spring (1203) is compressed, and the bottom plate (1201) is pressed against the top of the coordinate sensing mechanism (11), so that the coordinate sensing mechanism (11) is fixed, the coordinate sensing mechanism (11) is prevented from falling off from the charging seat (10), and the protective pad (1202) mainly protects the coordinate sensing mechanism (11);

sixthly, when the mechanism operates, two sets of coordinate sensors (19) are controlled to work through a control switch (1102), then a first confirmation button (303) and a second confirmation button (304) are pressed, the two sets of coordinate sensors (19) detect the position coordinates of the heating ventilation or electrical electromechanical equipment, then detection information is transmitted to a PLC (programmable logic controller) controller (3), then a measurement button (305) is pressed, the PLC controller (3) calculates the distance between the two sets of coordinates, the obtained data is the measurement data of the electromechanical equipment, after the detection is finished, the coordinate sensing mechanism (11) is inserted into a charging seat (10) to be charged, a top cover (6) is covered, and the fixing mechanism (12) fixes the coordinate sensing mechanism (11).

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