CN221922589U - Mounting mechanism for bogie detection equipment - Google Patents

Abstract

The utility model relates to the technical field of bogie detection equipment installation, in particular to an installation mechanism for bogie detection equipment, which comprises a base, an adjusting frame and an installation frame, wherein the adjusting frame comprises a Y-direction guide rail and an X-direction guide rail, the Y-direction guide rails are symmetrically arranged at two ends of the base, the X-direction guide rail and the Y-direction guide rail are respectively provided with a driving mechanism, the X-direction guide rail is slidably arranged between the two Y-direction guide rails through a lifting mechanism, and the X-direction guide rail is positioned at the upper end and the lower end of the Y-direction guide rail.

Description

Mounting mechanism for bogie detection equipment

Technical Field

The utility model relates to the technical field of installation of bogie detection equipment, in particular to an installation mechanism for bogie detection equipment.

Background Art

Using bogie testing equipment to test bogies can not only realize the automatic testing of products, but also greatly reduce human resources, save labor costs, and thus save production costs and improve work efficiency. Moreover, the results of testing equipment are more objective and true than manual testing, and the accuracy rate is greatly improved.

However, in the prior art, due to the limited position adjustment of the detection equipment, it is inconvenient to detect the bogie in all directions during the detection process of the bogie, which affects the detection efficiency.

Utility Model Content

1. Technical issues to be solved

In view of the deficiencies in the prior art, the utility model provides a mounting mechanism for bogie detection equipment.

(II) Technical solution

To achieve the above-mentioned purpose, the utility model provides the following technical solutions: the utility model provides a mounting mechanism for bogie detection equipment, comprising a base, an adjusting frame and a mounting frame, the adjusting frame comprising a Y guide rail and an X guide rail, the Y guide rail being symmetrically mounted at both ends of the base, the X guide rail and the Y guide rail being provided with a driving mechanism, the X guide rail being slidably mounted between the two Y guide rails through a lifting mechanism, and the X guide rail being located at the upper and lower ends of the Y guide rail, the mounting frame being displaced on the X guide rail and the Y guide rail through a driving mechanism, a fixing frame being slidably mounted on the driving mechanism, a card slot being provided on the fixing frame, a positioning mechanism being provided on the fixing frame, a card rod being provided on the side of the mounting frame, the card rod being matched with the card slot, the positioning mechanism being used to limit the card rod, and an equipment loading mechanism being fixedly mounted on the side wall of the mounting frame.

Preferably, a motor slot is provided at the rear end of the fixing frame, a telescopic motor is fixedly installed in the motor slot, a telescopic rod at the output end of the telescopic motor is connected to the slot, a positioning hole is provided on the positioning rod, and the positioning hole is adapted to the telescopic rod.

Preferably, guide grooves are provided on the inner sides of the X-guide rail and the Y-guide rail, the driving mechanism is installed in the guide grooves, a lifting groove is provided on the inner side of the Y-guide rail, a fixing groove is provided on the outer wall of the Y-guide rail, the lifting mechanism is installed in the lifting groove, one end of the X-guide rail is matched with the lifting mechanism, and the other end of the X-guide rail is matched with the fixing groove.

Further optionally, the driving mechanism includes a driving motor and a threaded screw, the driving motor is fixedly mounted at one end of the guide groove, the threaded screw is located in the guide groove, and the two ends of the threaded screw are respectively rotatably connected to the guide groove and the output end of the driving motor, and the fixing frame is mounted on the threaded screw.

Again preferably, the lifting mechanism includes a lifting screw, a lifting motor and a transmission device, the lifting motor is installed on the top of the Y-guide rail, the lifting screw is rotatably installed in the lifting slot, the lifting screw is connected to the output end of the lifting motor, a transmission layer is provided on the top of the Y-guide rail, the transmission device is located in the transmission layer, and the transmission device is installed on the lifting screw.

Preferably, the transmission device includes a transmission gear and a conversion gear, the transmission gear is fixedly mounted on the threaded screw, the conversion gear is rotatably mounted in the transmission layer via a rotating shaft, and the conversion gear is meshed between the two transmission gears.

Further preferably, the clamping slot is a T-slot structure, and the clamping rod is a T-rod structure.

Preferably, a mounting groove is provided on the side wall of the mounting frame, and the loading mechanism includes a rotating motor and a fixing plate, the rotating motor is fixedly installed in the mounting groove, the fixing plate is fixedly installed on the output end of the rotating motor, and a plurality of mounting holes are provided on the fixing plate.

(III) Beneficial effects

Compared with the prior art, the utility model provides a mounting mechanism for bogie detection equipment, which has the following beneficial effects:

When driving the installation frame of the fixed detection equipment to move, the utility model uses the driving mechanism to drive the fixing frame on the transfer guide rail to move, so that the fixing frame and the clamping rod corresponding to the fixing frame are inserted into the clamping groove thereof, and the positioning mechanism is used to limit the position thereof, and at the same time, the connection between the positioning mechanism and the clamping rod on the original fixing frame is disconnected, and then the driving mechanism on the transfer guide rail is used to drive the fixing frame to move the installation frame, and the above operation can be repeated to realize the surrounding displacement of the installation frame on the X guide rail and the Y guide rail, thereby realizing the surrounding all-round detection of the bogie.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a schematic diagram of the overall structure of the utility model;

Figure 2 is a schematic diagram of a half-section structure of a Y guide rail of the utility model;

FIG3 is a schematic diagram of a half-section structure of a fixing frame of the utility model;

Figure 4 is a schematic diagram of the structure of the mounting frame of the utility model;

In the figure: 1. base; 2. Y-guide rail; 3. guide groove; 4. drive motor; 5. threaded screw; 6. fixing bracket; 7. mounting bracket; 8. X-guide rail; 9. fixing groove; 10. lifting groove; 11. positioning hole; 12. lifting motor; 13. lifting screw; 14. transmission layer; 15. transmission gear; 16. conversion gear; 17. motor groove; 18. telescopic motor; 19. telescopic rod; 20. card slot; 21. rotating motor; 22. mounting groove; 23. fixing plate; 24. card rod.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the utility model to clearly and completely describe the technical solutions in the embodiments of the utility model. Obviously, the described embodiments are only part of the embodiments of the utility model, not all of the embodiments. Based on the embodiments in the utility model, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

Please refer to Figures 1-4. A mounting mechanism for a bogie detection device of the utility model includes a base 1, an adjusting frame and a mounting frame 7. The adjusting frame includes a Y guide rail 2 and an X guide rail 8. The Y guide rail 2 is symmetrically mounted at both ends of the base 1. A driving mechanism is provided on both the X guide rail 8 and the Y guide rail 2. The X guide rail 8 is slidably mounted between the two Y guide rails 2 through a lifting mechanism, and the X guide rail 8 is located at the upper and lower ends of the Y guide rail 2. The mounting frame 7 is displaced on the X guide rail 8 and the Y guide rail 2 through the driving mechanism. A fixing frame 6 is slidably mounted on the driving mechanism. A card slot 20 is provided on the fixing frame 6. A positioning mechanism is provided on the fixing frame 6. A card rod 24 is provided on the side of the mounting frame 7. The card rod 24 is adapted to the card slot 20. The positioning mechanism is used to limit the card rod 24. An equipment loading mechanism is fixedly mounted on the side wall of the mounting frame 7.

After the mounting frame 7 is connected to the card slot 20 on the fixing frame 6 through the card rod 24, it is also necessary to limit the mounting frame 7 so that the mounting frame 7 moves with the fixing frame 6. The preferred solution in the utility model is that a motor slot 17 is provided at the rear end of the fixing frame 6, and a telescopic motor 18 is fixedly installed in the motor slot 17. A telescopic rod 19 at the output end of the telescopic motor 18 is connected to the card slot 20. A positioning hole 11 is provided on the card rod 24, and the positioning hole 11 is adapted to the telescopic rod 19. According to the above structure, when the card rod 24 is inserted into the card slot 20, the telescopic motor 18 is used to control the output of the telescopic rod 19 to adapt to the positioning hole 11 on the card rod 24, thereby limiting the card rod 24. When the fixing frame 6 moves, the mounting frame 7 can also move in the same direction.

The displacement of the mounting frame 7 driven by the fixed frame 6 is realized by the driving mechanism. When adjusting the spacing between the two X-guide rails 8, it needs to be realized by the lifting mechanism. The preferred scheme in the utility model is that the inner sides of the X-guide rail 8 and the Y-guide rail 2 are provided with guide grooves 3, the driving mechanism is installed in the guide grooves 3, the inner side of the Y-guide rail 2 is provided with a lifting groove 10, the outer side wall of the Y-guide rail 2 is provided with a fixed groove 9, the lifting mechanism is installed in the lifting groove 10, one end of the X-guide rail 8 is adapted to the lifting mechanism, and the other end of the X-guide rail 8 is adapted to the fixed groove 9, the driving mechanism includes a driving motor 4 and a threaded screw 5, the driving motor 4 is fixedly installed at one end of the guide groove 3, the threaded screw 5 is located in the guide groove 3, and the two ends of the threaded screw 5 are rotatably connected to the guide groove 3 and the output end of the driving motor 4 respectively, the fixed frame 6 The lifting mechanism is mounted on the threaded screw 5, and includes a lifting screw 13, a lifting motor 12 and a transmission device. The lifting motor 12 is installed on the top of the Y guide rail 2, and the lifting screw 13 is rotatably installed in the lifting slot 10. The lifting screw 13 is connected to the output end of the lifting motor 12. A transmission layer 14 is provided on the top of the Y guide rail 2. The transmission device is located in the transmission layer 14, and the transmission device is installed on the lifting screw 13. According to the above structure, the driving motor 4 is used to drive the forward and reverse rotation of the threaded screw 5 to realize the displacement of the fixed frame 6, and the lifting motor 12 is used to drive the forward and reverse movement of the lifting screw 13 to realize the up and down displacement of the X guide rail 8 on the Y guide rail 2. The lifting mechanism uses two lifting screws 13 to drive the up and down displacement of the X guide rail 8, and the two lifting screws 13 are kept rotating in the same direction and at the same speed through the transmission device.

The preferred scheme of the transmission device in the utility model is that the transmission device includes a transmission gear 15 and a conversion gear 16, the transmission gear 15 is fixedly mounted on the threaded screw 5, the conversion gear 16 is rotatably mounted in the transmission layer 14 through a rotating shaft, and the conversion gear 16 meshes with the two transmission gears 15.

In order to ensure the stability of the connection between the clamping rod 24 and the clamping slot 20, the preferred solution in the present invention is that the clamping slot 20 is a T-slot structure, and the clamping rod 24 is a T-rod structure.

In order to facilitate the adjustment of the detection angle of the detection equipment, the preferred solution in the utility model is that a mounting groove 22 is provided on the side wall of the mounting frame 7, and the loading mechanism includes a rotating motor 21 and a fixing plate 23. The rotating motor 21 is fixedly installed in the mounting groove 22, and the fixing plate 23 is fixedly installed at the output end of the rotating motor 21. A plurality of mounting holes are provided on the fixing plate 23. According to the above structure, the detection equipment can be fixedly installed on the fixing plate 23 by cooperating with the mounting holes through a conventional bolt structure, and the rotating motor 21 can drive the fixing plate 23 to rotate to adjust the detection angle of the detection equipment.

The mounting mechanism of the bogie detection equipment, when working, uses a conventional clamp device to place the rotating frame between the two X-guide rails 8, and adjusts the distance between the two X-guide rails 8 according to the detection distance, and then uses the Y-guide rail 2, the driving mechanism and the lifting mechanism to realize the displacement of the fixed frame 6 and the mounting frame 7, so as to realize the surrounding displacement of the mounting frame 7 between the X-guide rail 8 and the Y-guide rail 2, so as to realize the surrounding all-round detection of the bogie, and the mounting frame 7 is assembled by the clamping rod 24 and the clamping slot 20, and the telescopic motor 18 is used to control the telescopic rod 19 to output The clamping rod 24 is limited. When the mounting frame 7 is transferred between the X-guide rail 8 and the fixed frame 6 on the Y-guide cabinet, the driving mechanism is used to drive the fixed frame 6 on the transfer guide rail to move, so that the mounting frame 7 and the clamping rod 24 corresponding to the fixed frame 6 are inserted into the clamping groove 20, and the positioning mechanism is used to limit them. At the same time, the connection between the positioning mechanism on the original fixed frame 6 and the clamping rod 24 is disconnected, and then the driving mechanism on the guide rail after the transfer is used to drive the fixed frame 6 to drive the mounting frame 7 to move. Repeating the above operation can realize the surrounding displacement of the mounting frame 7 on the X-guide rail 8 and the Y-guide rail 2.

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

Claims (8)

1. The utility model provides a mounting mechanism for bogie check out test set, its characterized in that includes base (1), alignment jig and mounting bracket (7), the alignment jig includes Y guide rail (2) and X guide rail (8), Y guide rail (2) symmetry installation is at the both ends of base (1), all be equipped with actuating mechanism on X guide rail (8) and Y guide rail (2), X guide rail (8) pass through elevating system slidable mounting between two Y guide rails (2), just X guide rail (8) are located the upper and lower both ends of Y guide rail (2), mounting bracket (7) are through actuating mechanism displacement on X guide rail (8) and Y guide rail (2), slidable mounting has mount (6) on the actuating mechanism, be equipped with draw-in groove (20) on mount (6), the avris of mounting bracket (7) is equipped with draw-in lever (24), draw-in lever (24) and draw-in groove (20) looks adaptation, positioning mechanism is used for mounting bracket (24) to mounting bracket (7), mounting bracket (24) side wall mounting bracket fixed mounting mechanism.

2. The mounting mechanism for bogie detection equipment according to claim 1, wherein a motor groove (17) is formed in the rear end of the fixing frame (6), a telescopic motor (18) is fixedly mounted in the motor groove (17), a telescopic rod (19) at the output end of the telescopic motor (18) is communicated with the clamping groove (20), a positioning hole (11) is formed in the clamping rod (24), and the positioning hole (11) is matched with the telescopic rod (19).

3. The mounting mechanism for bogie detection equipment according to claim 2, wherein the inner sides of the X-direction guide rail (8) and the Y-direction guide rail (2) are provided with guide grooves (3), the driving mechanism is mounted in the guide grooves (3), the inner side of the Y-direction guide rail (2) is provided with lifting grooves (10), the outer side wall of the Y-direction guide rail (2) is provided with fixing grooves (9), the lifting mechanism is mounted in the lifting grooves (10), one end of the X-direction guide rail (8) is matched with the lifting mechanism, and the other end of the X-direction guide rail (8) is matched with the fixing grooves (9).

4. A mounting mechanism for bogie detection equipment according to claim 3, characterized in that the driving mechanism comprises a driving motor (4) and a threaded screw rod (5), the driving motor (4) is fixedly mounted at one end of the guide groove (3), the threaded screw rod (5) is located in the guide groove (3), two ends of the threaded screw rod (5) are respectively in rotary connection with the guide groove (3) and the output end of the driving motor (4), and the fixing frame (6) is sleeved on the threaded screw rod (5).

5. The mounting mechanism for bogie detection equipment according to claim 4, wherein the lifting mechanism comprises a lifting screw (13), a lifting motor (12) and a transmission device, the lifting motor (12) is mounted at the top of the Y-guide rail (2), the lifting screw (13) is rotatably mounted in the lifting groove (10), the lifting screw (13) is connected with the output end of the lifting motor (12), the top of the Y-guide rail (2) is provided with a transmission layer (14), the transmission device is located in the transmission layer (14), and the transmission device is mounted on the lifting screw (13).

6. The mounting mechanism for a bogie detecting device according to claim 5, wherein the transmission means includes a transmission gear (15) and a conversion gear (16), the transmission gear (15) is fixedly mounted on the threaded screw (5), the conversion gear (16) is rotatably mounted in the transmission layer (14) through a rotation shaft, and the conversion gear (16) is meshed with the two transmission gears (15).

7. The mounting mechanism for a bogie detecting device according to claim 6, wherein the clip groove (20) is of a T-groove structure, and the clip lever (24) is of a T-lever structure.

8. The mounting mechanism for bogie detection equipment according to claim 7, wherein the mounting groove (22) is formed in the side wall of the mounting frame (7), the mounting mechanism comprises a rotating motor (21) and a fixing plate (23), the rotating motor (21) is fixedly mounted in the mounting groove (22), the fixing plate (23) is fixedly mounted at the output end of the rotating motor (21), and a plurality of mounting holes are formed in the fixing plate (23).