CN219757312U - Calibrating device of in-line guide rail - Google Patents

Abstract

The utility model discloses a calibrating device of an in-line guide rail, which comprises a guide rail body and a display panel, and further comprises: a transmitting mechanism for transmitting laser light; the first adjusting mechanism is used for adjusting the angle between the transmitting mechanism and the guide rail body in the vertical direction; the second adjusting mechanism is used for adjusting the angle between the transmitting mechanism and the guide rail body in the horizontal direction; the receiving mechanism comprises a receiving plate, a moving device is arranged at one end, close to the guide rail body, of the receiving plate, and a photosensitive plate is arranged on the outer wall of the top of the receiving plate. The in-line guide rail calibrating device disclosed by the utility model is convenient for a worker to intuitively know the bending condition of the elevator guide rail, is convenient for the worker to calibrate and process, is simple to operate, has high accuracy and is convenient for the worker to calibrate and use.

Description

Calibrating device of in-line guide rail

Technical Field

The utility model relates to the technical field of in-line guide rails, in particular to a calibrating device for an in-line guide rail.

Background

The elevator is taken as an important component in national economy and life, and is a common tool for people in modern society to work and live. The elevator quality includes several parts of elevator design, elevator manufacture, elevator installation, elevator maintenance and elevator management, the quality of each part affecting the elevator operation safety. In the current elevator quality, due to various reasons such as lag of elevator installation equipment, quality of elevator installation personnel, insufficient related management and the like, elevator installation becomes the least guaranteed part in the elevator quality. In elevator installation, the installation of the elevator guide rails is an important component in elevator installation, and the installation quality of the elevator guide rails directly influences the safety of elevator operation.

The traditional elevator guide rail detection has the characteristics of simple operation, low tool cost and the like, and the method has the characteristics of simple operation, low tool cost and the like, is still commonly adopted in the elevator guide rail installation process at present, and has low calibration efficiency due to the fact that the calibration is manually carried out, and the calibration accuracy is greatly influenced by the operation level of personnel: the guide rail installation standard established by the vertical line method can be influenced by various factors such as airflow, vibration, simple pendulum effect and the like, is difficult to stabilize, and has low precision and large influence on environment.

Disclosure of Invention

The utility model discloses a calibration device for an in-line guide rail, which aims to solve the problems that the detection of the conventional elevator guide rail is manually performed, the calibration efficiency is low, and the calibration precision is greatly influenced by the operation level of personnel: the guide rail installation standard established by the vertical line method can be influenced by various factors such as airflow, vibration, simple pendulum effect and the like, is difficult to stabilize, and has the technical problems of low precision and large influence on environment.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

an in-line guide rail calibration device, comprising a guide rail body and a display panel, further comprising:

a transmitting mechanism for transmitting laser light;

the first adjusting mechanism is used for adjusting the angle between the transmitting mechanism and the guide rail body in the vertical direction;

the second adjusting mechanism is used for adjusting the angle between the transmitting mechanism and the guide rail body in the horizontal direction;

the receiving mechanism comprises a receiving plate, a moving device is arranged at one end, close to the guide rail body, of the receiving plate, a photosensitive plate is arranged on the outer wall of the top of the receiving plate and used for receiving laser emitted by the emitting mechanism, a displacement sensor is fixedly arranged at the top of the receiving plate, and an information module is arranged in the receiving plate.

The device is convenient for staff to intuitively know the bending condition of the elevator guide rail, is convenient for staff to calibrate and process, and is simple to operate, high in accuracy and convenient for staff to calibrate and use.

In a preferred scheme, the second adjustment mechanism includes the outer case, the top of outer case rotates and is connected with the apron, the top outer wall of apron is provided with the spirit level, open the top outer wall of apron has straight notch, straight notch internal connection has the sleeve, open at the top of outer case has the recess, it is connected with adjusting screw to rotate in the recess, adjusting screw's bottom fixed mounting has the runner, adjusting screw pass through the screw thread rotate connect in telescopic inner wall.

Observe the bubble in the level gauge, adjust emitting mechanism's position through the angle of adjusting the apron, adjust conveniently.

In a preferred scheme, the first adjustment mechanism comprises a mounting plate, two first through grooves and two second through grooves are respectively formed in the outer wall of one side of the mounting plate, two mounting blocks are arranged in the first through grooves, one ends of the mounting blocks are rotationally connected with first clamping claws, the first clamping claws are fixed on one side of the guide rail body, an adjusting rod is arranged in the second through grooves, one ends of the adjusting rod are rotationally connected with second clamping claws, and the second clamping claws are fixed on one side of the guide rail body.

According to the size of guide rail body, adjust and fix the relative position of two installation pieces and two regulation poles, adjust the angle of mounting panel and guide rail body, make the bubble in the spirit level be in intermediate position, adjust conveniently, fix a position accurately.

From the above, an in-line guide rail calibration device comprises a guide rail body and a display panel, and further comprises:

a transmitting mechanism for transmitting laser light;

the first adjusting mechanism is used for adjusting the angle between the transmitting mechanism and the guide rail body in the vertical direction;

the second adjusting mechanism is used for adjusting the angle between the transmitting mechanism and the guide rail body in the horizontal direction;

the receiving mechanism comprises a receiving plate, a moving device is arranged at one end, close to the guide rail body, of the receiving plate, a photosensitive plate is arranged on the outer wall of the top of the receiving plate and used for receiving laser emitted by the emitting mechanism, a displacement sensor is fixedly arranged at the top of the receiving plate, and an information module is arranged in the receiving plate. The in-line guide rail calibrating device provided by the utility model has the technical effects of being convenient for staff to intuitively know the bending condition of the elevator guide rail, being convenient for the staff to calibrate and process, being simple in operation, high in accuracy and being convenient for the staff to calibrate and use.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an in-line guide rail calibration device according to the present utility model.

Fig. 2 is a schematic diagram of a launching mechanism of an in-line guide rail calibration device according to the present utility model.

Fig. 3 is a schematic diagram of a display panel structure of an in-line guide rail calibration device according to the present utility model.

In the accompanying drawings: 1. a cover plate; 2. an outer case; 3. a photosensitive plate; 4. a receiving plate; 5. a displacement sensor; 6. a mobile device; 7. a second jaw; 8. an adjusting rod; 9. a first jaw; 10. a guide rail body; 11. a mounting block; 12. a mounting plate; 13. a level gauge; 14. adjusting a screw; 15. a sleeve; 16. a rotating wheel; 17. a laser pen; 18. and a display panel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The in-line guide rail calibration device disclosed by the utility model is mainly applied to detection of the traditional elevator guide rail, the calibration is performed manually, the calibration efficiency is low, and the calibration precision is greatly influenced by the operation level of personnel: the guide rail installation standard established by the vertical line method can be influenced by various factors such as airflow, vibration, simple pendulum effect and the like, and is difficult to stabilize, and the guide rail installation standard has low precision and is greatly influenced by environment.

Referring to fig. 1 and 3, an in-line guide rail calibration apparatus includes a guide rail body 10 and a display panel 18, and further includes:

the emitting mechanism is used for emitting laser;

a first adjusting mechanism for adjusting an angle of the launching mechanism with the rail body 10 in a vertical direction;

a second adjusting mechanism for adjusting an angle of the launching mechanism with the rail body 10 in a horizontal direction;

the receiving mechanism, the receiving mechanism includes receiving plate 4, and receiving plate 4 is close to the one end of guide rail body 10 and is provided with mobile device 6, and receiving plate 4's top outer wall is provided with photosensitive plate 3, and photosensitive plate 3 is used for receiving the laser of emitting mechanism transmission, and receiving plate 4's top fixed mounting has displacement sensor 5, and receiving plate 4's inside is provided with information module.

The emitting mechanism is adjusted to be in a horizontal position through the first adjusting mechanism and the second adjusting mechanism, the emitting mechanism emits laser, the photosensitive plate 3 receives the laser and sends the position record of the laser on the photosensitive plate 3 to the display plate 18 through the information module, the receiving mechanism moves downwards through the moving device 6, the photosensitive plate 3 continuously receives and records the position of the laser on the photosensitive plate 3, meanwhile, the moving distance of the photosensitive plate 3 is determined through the displacement sensor 5 and the information is sent to the display plate 18 through the information module record, the position of the photosensitive plate 3 and the position information of the laser on the photosensitive plate 3 can be clearly observed on the display plate 18, the received data is used for drawing the images of displacement and position through the internal processor of the display plate 18, in addition, the bending point position is selected on the display plate 18, and the information module can control the moving device 6 to move to the corresponding position.

Referring to fig. 1 and 2, in a preferred embodiment, the second adjusting mechanism includes an outer case 2, a cover plate 1 is rotatably connected to the top of the outer case 2, a level gauge 13 is provided on the top outer wall of the cover plate 1, a straight slot is opened on the top outer wall of the cover plate 1, a sleeve 15 is connected in the straight slot, a groove is opened on the top of the outer case 2, an adjusting screw 14 is rotatably connected in the groove, a rotating wheel 16 is fixedly mounted at the bottom end of the adjusting screw 14, the adjusting screw 14 is rotatably connected to the inner wall of the sleeve 15 through threads, a laser pen 17 is fixedly mounted inside the outer case 2, and the laser pen 17 is fixed at the bottom of the cover plate 1.

The rotating wheel 16 is rotated to drive the adjusting screw 14 to rotate, so that the sleeve 15 moves upwards or downwards, the cover plate 1 is driven to rotate, bubbles in the level 13 are observed, and the position of the transmitting mechanism is adjusted by adjusting the angle of the cover plate 1.

Referring to fig. 1 and 2, in a preferred embodiment, the first adjusting mechanism includes a mounting plate 12, one side outer wall of the mounting plate 12 is respectively provided with two first through grooves and two second through grooves, two first through grooves are provided with a mounting block 11, one end of the mounting block 11 is rotatably connected with a first clamping jaw 9, the first clamping jaw 9 is fixed on one side of the guide rail body 10, the second through groove is provided with an adjusting rod 8, one end of the adjusting rod 8 is rotatably connected with a second clamping jaw 7, the second clamping jaw 7 is fixed on one side of the guide rail body 10, and the outer box 2 is fixedly connected on one side of the mounting plate 12.

Considering that the positions and the sizes of the guide rail bodies 10 of different elevators are different, two mounting blocks 11 and two adjusting rods 8 which can adjust the relative positions are arranged on the first adjusting mechanism, the relative positions of the two mounting blocks 11 and the two adjusting rods 8 are adjusted and fixed according to the sizes of the guide rail bodies 10, the first clamping jaw 9 and the second clamping jaw 7 are respectively fixed on the guide rail bodies 10, the adjusting rods 8 are rotated, the angles of the mounting plates 12 and the guide rail bodies 10 are adjusted, and air bubbles in the level gauge 13 are located at the middle positions.

Working principle: when the device is used, the relative positions of the two mounting blocks 11 and the two adjusting rods 8 are adjusted and fixed according to the size of the guide rail body 10, the first clamping jaw 9 and the second clamping jaw 7 are respectively fixed on the guide rail body 10, the rotating wheel 16 is rotated to drive the adjusting screw 14 to rotate, the sleeve 15 is enabled to move upwards or downwards, the cover plate 1 is driven to rotate, the adjusting rods 8 are rotated to adjust the angle between the mounting plate 12 and the guide rail body 10, bubbles in the level gauge 13 are located at the middle position, the emitting mechanism emits laser, the photosensitive plate 3 receives the laser, position records of the laser on the photosensitive plate 3 are sent to the display plate 18 through the information module, the receiving mechanism moves downwards through the moving device 6, the photosensitive plate 3 continuously receives and records the position of the laser on the photosensitive plate 3, meanwhile, the moving distance of the photosensitive plate 3 is determined through the displacement sensor 5, the information module records and is sent to the display plate 18, the position of the photosensitive plate 3 and the position information of the laser on the plate 3 are clearly observed on the display plate 18, the received data displacement and the position information of the laser on the photosensitive plate 3 are displayed through the internal processor of the display plate 18, the position of the display plate 18 is moved to the corresponding position of the photosensitive plate 6, and the position of the corresponding position is selected and moved to the corresponding position of the moving device is controlled.

The above description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the utility model concept are equivalent to or changed in accordance with the utility model, and the utility model is covered in the protection scope of the utility model.

Claims (7)

1. An in-line guide rail calibration device comprising a guide rail body (10) and a display panel (18), characterized by further comprising:

a transmitting mechanism for transmitting laser light;

a first adjusting mechanism for adjusting an angle of the launching mechanism and the guide rail body (10) in a vertical direction;

a second adjusting mechanism for adjusting an angle of the launching mechanism with the rail body (10) in a horizontal direction;

the receiving mechanism, receiving mechanism includes receiving plate (4), receiving plate (4) are close to the one end of guide rail body (10) is provided with mobile device (6), the top outer wall of receiving plate (4) is provided with photosensitive plate (3), photosensitive plate (3) are used for receiving the laser of emitting mechanism transmission, the top fixed mounting of receiving plate (4) has displacement sensor (5), the inside of receiving plate (4) is provided with information module.

2. The device for calibrating the in-line guide rail according to claim 1, wherein the second adjusting mechanism comprises an outer box (2), a cover plate (1) is rotatably connected to the top of the outer box (2), a level gauge (13) is arranged on the outer wall of the top of the cover plate (1), a straight notch is formed in the outer wall of the top of the cover plate (1), and a sleeve (15) is connected in the straight notch.

3. The device for calibrating the in-line guide rail according to claim 2, wherein a groove is formed in the top of the outer box (2), an adjusting screw (14) is rotationally connected to the groove, a rotating wheel (16) is fixedly arranged at the bottom end of the adjusting screw (14), and the adjusting screw (14) is rotationally connected to the inner wall of the sleeve (15) through threads.

4. The device for calibrating the in-line guide rail according to claim 2, wherein the first adjusting mechanism comprises a mounting plate (12), two first through grooves and two second through grooves are respectively formed in the outer wall of one side of the mounting plate (12), a mounting block (11) is arranged in each of the two first through grooves, one end of the mounting block (11) is rotatably connected with a first clamping jaw (9), and the first clamping jaw (9) is fixed on one side of the guide rail body (10).

5. The device for calibrating the in-line guide rail according to claim 4, wherein an adjusting rod (8) is arranged in the second through groove, one end of the adjusting rod (8) is rotatably connected with a second clamping jaw (7), and the second clamping jaw (7) is fixed on one side of the guide rail body (10).

6. An in-line guide rail alignment device according to claim 4, characterized in that the outer box (2) is fixedly connected to one side of the mounting plate (12).

7. An in-line guide rail calibration device according to claim 2, characterized in that the firing mechanism comprises a laser pen (17) fixedly mounted inside the outer box (2), the laser pen (17) being fixed to the bottom of the cover plate (1).