CN220063240U - Elevator jigger detector - Google Patents
Elevator jigger detector Download PDFInfo
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- CN220063240U CN220063240U CN202321605578.0U CN202321605578U CN220063240U CN 220063240 U CN220063240 U CN 220063240U CN 202321605578 U CN202321605578 U CN 202321605578U CN 220063240 U CN220063240 U CN 220063240U
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- 238000001514 detection method Methods 0.000 abstract description 7
- 238000013461 design Methods 0.000 abstract description 5
- 238000007689 inspection Methods 0.000 abstract description 3
- 238000013480 data collection Methods 0.000 description 4
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- Indicating And Signalling Devices For Elevators (AREA)
Abstract
The utility model discloses an elevator jigger detector, which relates to the technical field of special detection equipment and comprises a first channel measurement host, a second channel measurement host, a data acquisition box, a handheld terminal and a wireless thermal printer, wherein the first channel measurement host is connected with the second channel measurement host; the first channel measurement host and the second channel measurement host are both connected with the host connecting line and the data acquisition box; the utility model is used for collecting various parameter values in real time when the elevator is manually jigged, the design of the instrument fully utilizes human engineering, accords with the use habit of operators, and has the advantages of small size, convenient and quick detection; the handheld touch terminal can present numerical value changes in real time, so that the manual jigger of the elevator is monitored in the whole course; the application of the utility model meets the requirements of the national related inspection regulations.
Description
Technical Field
The utility model relates to the technical field of special equipment detection equipment, in particular to an elevator jigger detector.
Background
The elevator jigger device is a special device for enabling the traction machine to rotate by manpower, when an elevator breaks down to catch passengers, the elevator car is required to be lifted to a flat layer position through the jigger to release the passengers, if the jigger device is unqualified, the elevator car cannot be lifted, potential safety hazards exist, and according to GB7588-2003, elevator manufacturing and installation Specification: 12.5.1 it is specified that: if the operation force required for moving the car with rated load capacity upwards is not more than 400N, the elevator driving host machine is provided with a manual emergency operation device so that the car can be moved to a landing by using a smooth and spoke-free jigger hand wheel; 12.5.2 it is specified that: if 12.5.1 provides a force greater than 400N, an emergency electric operator, designated 14.2.1.4, should be provided in the machine room.
Therefore, the measuring of the operation force of the elevator jigger is very important, in the prior art, when the operation force of the elevator jigger device is measured, the design is unreasonable, the force application does not accord with the actual condition, the detection precision is low, and the operation of the instrument is inconvenient.
Disclosure of Invention
The utility model aims to provide an elevator jigger detector, which aims to solve the problems that in the prior art, when the operation force of an elevator jigger device is measured, the design is unreasonable, the force application does not accord with the actual situation, the detection precision is low and the instrument operation is inconvenient.
In order to achieve the above purpose, the present utility model provides the following technical solutions: an elevator jigger detector comprises a first channel measuring host, a second channel measuring host, a data acquisition box, a handheld terminal and a wireless thermal printer; the first channel measurement host and the second channel measurement host have the same structure, but different data transmission signals, and each data transmission signal comprises a fixed frame, two frame vertical plates, two mounting top plates, two manual screws, two screw handles, a movable plate, a host shell, a force transducer, a host handle, a host aviation plug and a host connecting wire; the two host aerial plugs are respectively connected with the two host connecting lines in a fast plug mode and are connected with the data acquisition box together through the two host connecting lines; the data acquisition box comprises a data box bottom plate, a data box battery, a data box circuit board, a Bluetooth module, a data box shell, a data box switch, a data box charging port, a data box electric quantity indicator light and a data box aviation plug; the data acquisition box is connected with the handheld terminal, and the handheld terminal and the wireless thermal printer through Bluetooth.
Preferably, the rear side edge of the fixed frame is fixedly connected with vertical frame vertical plates near two ends, each frame vertical plate is fixedly connected with a mounting top plate which is parallel to the fixed frame above the fixed frame, a threaded through hole is formed in the mounting top plate, a manual screw is installed in a matched mode, and a screw handle is arranged at the top end of the manual screw; the bottom joint clamping of two manual screw rods is provided with the fly leaf and can freely rotate, the centre department of fly leaf top surface is provided with the host computer shell and embeds there is force transducer, force transducer is connected with runs through the host computer handle that the host computer shell top surface set up, the embedding is provided with on the leading flank of host computer shell with the host computer avionics plug that force transducer is connected, the host computer avionics plug is connected with the host computer connecting wire through the mode of inserting soon, is connected with the data acquisition box through the host computer connecting wire.
Further, rubber pads are arranged on two opposite surfaces of the fixed frame and the movable plate.
Preferably, the data box bottom plate and the data box shell form a box body and are internally provided with a data box battery, a data box circuit board and a Bluetooth module, and a data box switch, a data box charging port and a data box electric quantity indicator lamp are embedded in the front side surface of the data box shell; the left side face and the right side face of the data box shell are embedded and provided with data box aviation plugs.
Preferably, the two data box navigation plugs are respectively connected with the first channel measurement host and the second channel measurement host correspondingly, and cannot be interchanged.
Preferably, the data box battery, the bluetooth module, the data box switch, the data box charging port, the data box electric quantity indicator lamp and the two data box aviation plugs are respectively and electrically connected with the data box circuit board.
Further, the data box shell is provided with a plastic plate in an embedded mode at a position corresponding to the Bluetooth module.
Further, a magnet is arranged on the bottom surface of the data box bottom plate.
Preferably, the handheld terminal is internally provided with measurement software.
Compared with the prior art, the utility model has the beneficial effects that:
the utility model is used for collecting various parameter values in real time when the elevator is manually jigged, the design of the instrument fully utilizes human engineering, accords with the use habit of operators, and has the advantages of small size, convenient and quick detection; the handheld touch terminal can present numerical value changes in real time, so that the manual jigger of the elevator is monitored in the whole course; the application of the utility model meets the requirements of the national related inspection regulations.
Drawings
FIG. 1 is a schematic diagram of the present utility model;
FIG. 2 is an isometric view of a first channel measurement host and a second channel measurement host;
FIG. 3 is a front view of FIG. 2;
FIG. 4 is a cross-sectional view A-A of FIG. 3;
FIG. 5 is an isometric view of a data acquisition cartridge;
FIG. 6 is a front view of FIG. 5;
FIG. 7 is a left side view of FIG. 6;
FIG. 8 is a cross-sectional view B-B of FIG. 7;
in the figure: the system comprises a channel I measuring host machine-1, a fixed frame-11, a frame vertical plate-12, a mounting top plate-13, a manual screw-14, a screw handle-15, a movable plate-16, a host shell-17, a load cell-18, a host handle-19, a host aviation plug-20, a host connecting wire-21, a rubber pad-22, a channel II measuring host machine-2, a data acquisition box-3, a data box bottom plate-31, a magnet-32, a data box battery-33, a data box circuit board-34, a Bluetooth module-35, a data box shell-36, a plastic plate-37, a data box switch-38, a data box charging port-39, a data box electric quantity indicator lamp-30, a data box aviation plug-40, a handheld terminal-4 and a wireless thermal printer-5.
Detailed Description
In order to make the technical solution of the present utility model better understood by those skilled in the art, the technical solution of the present utility model in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings and specific embodiments.
Referring to fig. 1-8, fig. 1 is a schematic diagram of the present utility model; FIG. 2 is an isometric view of a first channel measurement host and a second channel measurement host; FIG. 3 is a front view of FIG. 2; FIG. 4 is a cross-sectional view A-A of FIG. 3; FIG. 5 is an isometric view of a data acquisition cartridge; FIG. 6 is a front view of FIG. 5; FIG. 7 is a left side view of FIG. 6; fig. 8 is a sectional view of B-B in fig. 7.
The utility model provides an elevator jigger detector which is used for collecting various parameter values during manual jigger of an elevator, displaying the value change in real time and monitoring the whole manual jigger of the elevator; the system comprises a first channel measurement host 1, a second channel measurement host 2, a data acquisition box 3, a handheld terminal 4 and a wireless thermal printer 5.
The first channel measurement host 1 and the second channel measurement host 2 have the same structure, but different data transmission signals; the automatic screw driving device comprises a fixed frame 11 arranged at the bottom, wherein two frame vertical plates 12 which are vertically arranged are fixedly connected to the rear side edge of the fixed frame 11 close to the left end and the right end, each frame vertical plate 12 is fixedly connected with a mounting top plate 13 which extends above the fixed frame 11 and is parallel to the fixed frame, threaded holes are formed in the mounting top plate 13 in a penetrating mode, manual screws 14 are installed in a matched mode, and screw handles 15 are arranged at the top ends of the manual screws 14 and used for controlling rotation of the manual screws 14; the bottom ends of the two manual screws 14 are jointly clamped with a movable plate 16 and can freely rotate so as to drive the movable plate 16 to move up and down through the two manual screws 14; a host shell 17 is arranged in the middle of the top surface of the movable plate 16 in a covering manner, a force transducer 18 is arranged in the host shell 17, the force transducer 18 is connected with a host handle 19 penetrating through the top surface of the host shell 17, a host aviation plug 20 connected with the force transducer 18 is embedded in the front side surface of the host shell 17, the host aviation plug 20 is connected with a host connecting wire 21 in a fast plug manner, and a data acquisition box 3 is connected with the host connecting wire 21 for transmitting measurement data of the force transducer 18 to the data acquisition box 3 in real time; rubber pads 22 are arranged on the opposite surfaces of the fixed frame 11 and the movable plate 16, and can be pressed on the front side surface and the rear side surface of the elevator jigger.
The data connection box 3 comprises a data box bottom plate 31 arranged at the bottom, a magnet 32 is arranged on the bottom surface of the data box bottom plate 31, a data box battery 33 used as a power supply of the data connection box 3 is arranged on the top surface of the data box bottom plate, a data box circuit board 34 used as a collecting main body of the data collection box 3 is supported above the data box battery 33 through a stud, a Bluetooth module 35 used for wireless transmission is arranged on the rear side of the data box battery 33, the data box battery 33 and the Bluetooth module 35 are respectively and electrically connected with the data box circuit board 34, a data box shell 36 is covered on the outer side, and meanwhile, a plastic plate 37 is embedded in the position, corresponding to the Bluetooth module 35, of the data box shell 36 for the use of the unobstructed transmission of Bluetooth signals; the front side of the data box shell 36 is embedded with a data box switch 38 which is electrically connected with the data box circuit board 34 and is used for controlling the start and stop of the data collection box 3, a data box charging port 39 which is used for charging the data collection box 3, and a data box electric quantity indicator lamp 30 which is used for displaying the residual electric quantity of the data collection box 3 in real time; the data box aviation plugs 40 which are respectively embedded in the left and right side surfaces of the data box shell 36 and are electrically connected with the data box circuit board 34 are respectively connected with the channel one measurement host 1 and the channel two measurement host 2 in a corresponding manner, and cannot be interchanged, so that the data box aviation plugs 40 are used for receiving the measurement data of the channel one measurement host 1 and the channel two measurement host 2 in real time.
The data acquisition box 3 is connected with the handheld terminal 4, and the handheld terminal 4 and the wireless thermal printer 5 through Bluetooth.
The handheld terminal 4 is internally provided with measurement software, measurement data of the first channel measurement host 1 and the second channel measurement host 2 can be recorded in real time through the measurement software, and the recorded data are automatically processed, stored, printed in real time through a wireless thermal printer and the like.
When in use, the specific workflow comprises the following steps:
1. taking out a first channel measurement host, a second channel measurement host, two host connecting wires and a data acquisition box; and using a host connecting wire to respectively connect the first channel measurement host and the second channel measurement host according to the marks.
2. After the assembly is completed, the first measuring host and the second measuring host are arranged on two sides of the elevator jigger hand wheel and are locked by using the manual screw rod so as to prevent the loose measuring process.
3. After the installation is completed, a data box switch of the data acquisition box is opened.
4. Opening the handheld terminal, clicking a measurement software icon, and entering a main interface of software; at this time, the measurement host is automatically connected with the handheld terminal, and when the measurement information displays: after "please click to start the test", the measurement work can be started.
5. Starting measurement: clicking a start icon in the software interface to change the start icon into a stop icon, and displaying a real-time value of a real-time force of a channel I, a real-time force of a channel II and a real-time value of a jigger force in the software interface as a current real-time value; at this time, the inspector holds the first measuring host and the first measuring host to measure the two host handles of the first measuring host, and starts to measure; after completion, clicking the "stop" icon, the "jigger force maximum" will automatically display the final result.
6. After the measurement is completed, click on the "save" icon and the data is saved. Clicking on the "print" icon, the measurement will be printed in situ by the wireless thermal printer.
The utility model is used for collecting various parameter values in real time when the elevator is manually jigged, the design of the instrument fully utilizes human engineering, accords with the use habit of operators, and has the advantages of small size, convenient and quick detection; the handheld touch terminal can present numerical value changes in real time, so that the manual jigger of the elevator is monitored in the whole course; the application of the utility model meets the requirements of the national related inspection regulations.
While embodiments of the utility model have been illustrated and described, it will be apparent that the embodiments described are merely some, but not all embodiments of the utility model. Based on the embodiments of the present utility model, it will be understood by those skilled in the art that all other embodiments which may be obtained from numerous changes, modifications, substitutions and alterations of these embodiments without departing from the spirit and principles of the present utility model are within the scope of the present utility model.
Claims (9)
1. An elevator jigger detector, its characterized in that: the system comprises a first channel measurement host (1), a second channel measurement host (2), a data acquisition box (3), a handheld terminal (4) and a wireless thermal printer (5); the channel I measuring host (1) and the channel II measuring host (2) have the same structure, but different data transmission signals, and each channel I measuring host comprises a fixed frame (11), two frame vertical plates (12), two mounting top plates (13), two manual screws (14), two screw handles (15), a movable plate (16), a host shell (17), a force transducer (18), a host handle (19), a host aviation plug (20) and a host connecting wire (21); the two host aerial plugs (20) are respectively connected with the two host connecting wires (21) in a fast plug mode, and are connected with the data acquisition box (3) through the two host connecting wires (21); the data acquisition box (3) comprises a data box bottom plate (31), a data box battery (33), a data box circuit board (34), a Bluetooth module (35), a data box shell (36), a data box switch (38), a data box charging port (39), a data box electric quantity indicator lamp (30) and a data box aviation plug (40); the data acquisition box (3) is connected with the handheld terminal (4) and the handheld terminal (4) is connected with the wireless thermal printer (5) through Bluetooth.
2. The elevator jigger detector of claim 1, wherein: the rear side edge of the fixed frame (11) is fixedly connected with vertical frame vertical plates (12) close to two ends, each frame vertical plate (12) is fixedly connected with a mounting top plate (13) which is parallel to the fixed frame (11), a threaded through hole is formed in the mounting top plate (13), a manual screw (14) is installed in a matched mode, and a screw handle (15) is arranged at the top end of the manual screw; the bottom joint clamping device of two manual screw rods (14) is provided with a movable plate (16) and can freely rotate, a host shell (17) is arranged in the middle of the top surface of the movable plate (16) and internally provided with a force transducer (18), the force transducer (18) is connected with a host handle (19) penetrating through the top surface of the host shell (17), and a host aviation plug (20) connected with the force transducer (18) is embedded in the front side surface of the host shell (17).
3. The elevator jigger detector of claim 2, wherein: rubber pads (22) are arranged on the two opposite surfaces of the fixed frame (11) and the movable plate (16).
4. The elevator jigger detector of claim 3, wherein: the data box comprises a box body, a data box battery (33), a data box circuit board (34) and a Bluetooth module (35), wherein the data box base plate (31) and a data box shell (36) form the box body, a data box switch (38), a data box charging port (39) and a data box electric quantity indicator lamp (30) are embedded in the front side surface of the data box shell (36); the left side surface and the right side surface of the data box shell (36) are embedded and provided with data box aviation plugs (40).
5. The elevator jigger detector according to claim 4, characterized in that: the two data box navigation plugs (40) are respectively connected with the first channel measurement host (1) and the second channel measurement host (2) correspondingly, and cannot be interchanged.
6. The elevator jigger detector of claim 5, wherein: the data box battery (33), the Bluetooth module (35), the data box switch (38), the data box charging port (39), the data box electric quantity indicator lamp (30) and the two data box aviation plug (40) are respectively and electrically connected with the data box circuit board (34).
7. The elevator jigger detector of claim 6, wherein: the data box shell (36) is embedded at a position corresponding to the Bluetooth module (35) and provided with a plastic plate (37).
8. The elevator jigger detector of claim 7, wherein: a magnet (32) is arranged on the bottom surface of the data box bottom plate (31).
9. The elevator jigger detector of any one of claims 1 to 8, wherein: the handheld terminal (4) is internally provided with measurement software.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321605578.0U CN220063240U (en) | 2023-06-25 | 2023-06-25 | Elevator jigger detector |
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CN202321605578.0U CN220063240U (en) | 2023-06-25 | 2023-06-25 | Elevator jigger detector |
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CN220063240U true CN220063240U (en) | 2023-11-21 |
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CN202321605578.0U Active CN220063240U (en) | 2023-06-25 | 2023-06-25 | Elevator jigger detector |
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- 2023-06-25 CN CN202321605578.0U patent/CN220063240U/en active Active
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