CN215726056U - High-speed sensor measuring table - Google Patents

Abstract

The utility model belongs to the technical field of mechanical detection equipment, and particularly relates to a high-rotation-speed sensor measuring table which comprises a frame, wherein a three-axis moving mechanism, a gear ring rotating mechanism, a correlation type distance measuring mechanism and a controller are arranged on the surface of the frame, and a product clamping mechanism is arranged on the three-axis moving mechanism. The three-axis moving mechanism comprises an X-axis guide rail, a transverse moving frame, a transverse driving motor, a Z-axis guide rail, a vertical moving frame, a vertical driving motor, a Y-axis guide rail, a longitudinal moving frame and a longitudinal driving motor. And a product clamping mechanism is arranged on the longitudinal moving frame. The gear ring rotating mechanism comprises a rotary driving motor, a first belt pulley, a second belt pulley, an encoder, a chuck, a wedge-shaped belt, a fixing plate, a first synchronous belt pulley, a second synchronous belt pulley and a synchronous belt. The correlation type distance measuring mechanism comprises a transverse moving mechanism, a vertical moving mechanism and a correlation type distance measuring instrument. The utility model tests the electrical performance and the maximum air gap of the wheel speed sensor and effectively improves the delivery quality of the wheel speed sensor.

Description

High-speed sensor measuring table

Technical Field

The utility model belongs to the technical field of mechanical detection equipment, and particularly relates to a high-rotation-speed sensor measuring table.

Background

With the development of the automobile industry in the world, sensors are increasingly applied to automobile technology, and nowadays, the automobile manufacturing industry increasingly depends on automobile sensors, and plays an important role in many aspects of automobile safety, comfort, convenience, multi-functionality and the like. With the rapid development of new energy automobiles, intelligent automobiles and unmanned automobiles, the requirements on the performance of automobile sensors are higher and higher, and meanwhile, unprecedented opportunities are brought to the development of the automobile sensors.

The wheel speed sensor is used for accurately measuring the rotating speed of the wheels of the automobile and is one of the most critical sensors in modern automobiles. Wheel speed information is essential for modern automobiles, and automobile dynamic control systems (VDC), automobile Electronic Stability Program (ESP), anti-lock brake systems (ABS), control systems of automatic transmissions and the like all require the wheel speed information to ensure the safety and stability of automobile driving. The accuracy of the wheel speed sensor directly affects the overall safety of the vehicle, and therefore, the wheel speed sensor needs to be strictly detected. The device designs a test structure according to the required test characteristics from the test principle, and improves the test precision of the high-speed sensor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a high-precision high-rotating-speed sensor measuring table.

The purpose of the utility model is solved by the following technical scheme:

the utility model provides a high revolution speed sensor measuring stand, includes the frame, its characterized in that: a three-axis moving mechanism, a gear ring rotating mechanism and a correlation type distance measuring mechanism are arranged on the surface of the stand, and a product clamping mechanism is arranged on the three-axis moving mechanism;

the three-axis moving mechanism is fixed on the left side of the table top of the rack and comprises an X-axis guide rail transversely and horizontally arranged on the table top of the rack, a transverse moving frame connected with the X-axis guide rail in a sliding manner is arranged on the X-axis guide rail, and a transverse driving motor for driving the transverse moving frame to move is arranged on one side of the X-axis guide rail; a Z-axis guide rail is arranged in the vertical direction on the transverse moving frame, the Z-axis guide rail is connected with a vertical moving frame in a sliding manner, and a vertical driving motor for driving the vertical moving frame to move is arranged at the top of the Z-axis guide rail; the vertical moving frame is provided with a Y-axis guide rail which is longitudinally and horizontally arranged, the Y-axis guide rail is connected with the vertical moving frame in a sliding manner, and one side of the Y-axis guide rail is provided with a longitudinal driving motor for driving the longitudinal moving frame to move;

an extension supporting plate which is horizontally arranged in the transverse direction is fixed on the longitudinal moving frame, a product clamping mechanism is arranged on the extension supporting plate, and a chuck of the product clamping mechanism is arranged towards the right;

the gear ring rotating mechanism is arranged on the table top of the rack, is positioned on the right side of the three-axis moving mechanism, and comprises a rotating driving motor, a first belt pulley, a second belt pulley, an encoder, a chuck, a wedge-shaped belt, a fixing plate, a first synchronous belt pulley, a second synchronous belt pulley and a synchronous belt; the bottom of the rack table is provided with a fixed plate, the bottom of the fixed plate is provided with a rotary driving motor with an upward output shaft, the output shaft of the rotary driving motor penetrates through the fixed plate and is fixed with a first belt pulley, the chuck is rotationally arranged on the rack table, the bottom of the chuck is provided with a second synchronous belt pulley and a second belt pulley, the central axis of the second synchronous belt pulley and the central axis of the second belt pulley are coincided with the central axis of the chuck, the second belt pulley is rotationally arranged on the fixed plate, the first belt pulley and the second belt pulley are in transmission connection through a wedge-shaped belt, the fixed plate is provided with an encoder, the encoder is provided with a first synchronous belt pulley, and the first synchronous belt pulley is in transmission connection with the second synchronous belt pulley through a synchronous belt; the chuck is horizontally arranged upwards, and three clamping jaws are arranged on the chuck;

the correlation type distance measuring mechanism comprises a transverse moving mechanism and a vertical moving mechanism arranged on the transverse moving mechanism, and a correlation type distance meter which is horizontally correlated front and back and is used for measuring the gear ring is arranged on the vertical moving mechanism;

the three-axis moving mechanism, the gear ring rotating mechanism and the correlation type distance measuring mechanism are all connected with the controller.

Based on above-mentioned structure, place the product clamping mechanism with the fast sensor of wheel through the manual work on, be close to ring gear rotary mechanism through triaxial moving mechanism, test the fast sensor electrical property of wheel and maximum air gap, rotary driving motor passes through the hold-in range and drives the second belt pulley and rotate, pivoted second belt pulley passes through the hold-in range and drives the encoder and rotate, the result of the fast sensor test of wheel and the rotational speed of encoder do contrastive analysis, obtain the measuring accuracy of the fast sensor of wheel to automatic generation test report.

Preferably, the transverse moving mechanism comprises a transverse bracket, a transverse guide rod is horizontally and transversely arranged on the transverse bracket, a transverse sliding block is connected with the transverse guide rod in a sliding manner, a transverse lead screw is horizontally and transversely arranged on the transverse bracket, the transverse lead screw is in threaded connection with the transverse sliding block, and a transverse rocker for rotating the transverse lead screw is arranged at one end of the transverse lead screw; a transverse sliding rail arranged in parallel with the transverse guide rod is arranged on the rack surface, and a U-shaped transverse moving table surface is arranged on the transverse sliding rail;

vertical moving mechanism includes the vertical support of vertical setting on U type lateral shifting mesa, is equipped with the vertical guide rail of vertical setting on the vertical support, and it is connected with vertical slider to slide on the vertical guide rail, is equipped with the vertical lead screw of vertical setting on the vertical support, vertical lead screw and vertical slider threaded connection, and vertical lead screw one end is equipped with the vertical rocker that rotates vertical lead screw, is equipped with correlation formula distancer mount on the vertical slider, and correlation formula distancer mount top is equipped with correlation formula distancer.

Preferably, the U-shaped transverse moving table top is provided with a gear ring rotating mechanism protective cover, the gear ring rotating mechanism protective cover comprises a top surface, a front side surface, a rear side surface and a right side surface, the height of the top surface is higher than that of the chuck, and the distance between the front side surface and the rear side surface is larger than the width of the gear ring rotating mechanism.

Preferably, a plurality of groups of pins on the same circumference are arranged on the three clamping jaws.

Preferably, the rack surface of the utility model is provided with a safety cover, the front side surface of the safety cover is provided with an opening, and the opening is provided with a movable door matched with the opening.

Preferably, the top of the safety cover is provided with an indicator light, and the indicator light is connected with the controller.

Preferably, the side surface of the safety cover is provided with an emergency stop switch and an operating button, and the emergency stop switch and the operating button are both connected with the controller.

Preferably, the side surface of the rack is provided with a display screen and a control screen, and the display screen and the control screen are both connected with the controller.

Preferably, the transverse driving motor, the vertical driving motor, the longitudinal driving motor and the rotary driving motor are all servo motors.

Compared with the prior art, the utility model has the following characteristics and beneficial effects:

1. the wheel speed sensor is manually placed on a product clamping mechanism, the three-shaft moving mechanism is close to the gear ring rotating mechanism, the electrical performance and the maximum air gap of the wheel speed sensor are tested, the rotary driving motor drives the second belt pulley to rotate through the synchronous belt, the rotary second belt pulley drives the encoder to rotate through the synchronous belt, the result of the wheel speed sensor is compared and analyzed with the rotating speed of the encoder, the testing precision of the wheel speed sensor is obtained, and a testing report is automatically generated.

2. The gear ring rotating mechanism protective cover can prevent the gear ring from being thrown away when the gear ring is accidentally loosened to cause equipment damage and other potential safety hazards when the gear ring rotating mechanism works.

3. Horizontal driving motor, vertical driving motor are servo motor, can both pinpoint and compatible multiple product.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic structural diagram of a three-axis moving mechanism of the present invention.

Fig. 4 is a schematic structural view of a ring gear rotating mechanism of the present invention.

FIG. 5 is a schematic view of the chuck structure of the present invention.

FIG. 6 is a schematic structural diagram of a correlation type distance measuring mechanism according to the present invention.

In the figure: the device comprises a rack 1, a three-axis moving mechanism 2, a gear ring rotating mechanism 3, an opposite-type distance measuring mechanism 4, a product clamping mechanism 5, a safety cover 6, an opening 7, a moving door 8, an indicator lamp 9, an emergency stop switch 10, an operating button 11, a display screen 12, a control screen 13, an X-axis guide rail 14, a transverse moving frame 15, a transverse driving motor 16, a Z-axis guide rail 17, a vertical moving frame 18, a vertical driving motor 19, a Y-axis guide rail 20, a longitudinal moving frame 21, a longitudinal driving motor 22, an extension supporting plate 23, a rotary driving motor 24, a chuck 25, a clamping jaw 26, a gear ring rotating mechanism protective cover 27, an opposite-type distance measuring instrument 28, a transverse bracket 29, a transverse guide rod 30, a transverse sliding block 31, a transverse screw rod 32, a transverse rocker 33, a transverse sliding rail 34, a U-shaped transverse moving table board 35, a vertical bracket 36, a vertical guide rail 37, a vertical sliding block 38, a vertical screw rod 39, a vertical rocker 40, The device comprises a correlation distance meter fixing frame 41, a first belt pulley 42, a second belt pulley 43, an encoder 44, a wedge belt 45, a fixing plate 46, a first synchronous belt pulley 47, a second synchronous belt pulley 48, a synchronous belt 49 and a pin 50.

Detailed Description

The present invention will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the high-speed sensor measuring table comprises a frame 1, wherein a three-axis moving mechanism 2, a gear ring rotating mechanism 3 and a correlation type distance measuring mechanism 4 are arranged on a table top of the frame 1, and a product clamping mechanism 5 is arranged on the three-axis moving mechanism 2. The three-axis moving mechanism 1, the gear ring rotating mechanism 2 and the correlation type distance measuring mechanism 4 are connected with the controller. A safety cover 6 is arranged on the table top of the frame 1, an opening 7 is arranged on the front side face of the safety cover 6, and a movable door 8 matched with the opening 7 is arranged on the opening 7. The top of the safety cover 6 is provided with an indicator light 9, and the indicator light 9 is connected with the controller. The side surface of the safety cover 6 is provided with an emergency stop switch 10 and an operating button 11, and the emergency stop switch 10 and the operating button 11 are both connected with the controller. A display screen 12 and a control screen 13 are arranged on the side face of the rack 1, and the display screen 12 and the control screen 13 are both connected with a controller.

As shown in fig. 3, the three-axis moving mechanism 2 is fixed on the left side of the table top of the frame 1, the three-axis moving mechanism 2 includes an X-axis guide rail 14 horizontally arranged on the table top of the frame, a transverse moving frame 15 connected with the X-axis guide rail 14 in a sliding manner is arranged on the X-axis guide rail 14, and a transverse driving motor 16 for driving the transverse moving frame 15 to move is arranged on one side of the X-axis guide rail 14; a Z-axis guide rail 17 arranged in the vertical direction is arranged on the transverse moving frame 16, a vertical moving frame 18 is connected on the Z-axis guide rail 17 in a sliding manner, and a vertical driving motor 19 for driving the vertical moving frame 18 to move is arranged at the top of the Z-axis guide rail 17; the vertical moving frame 18 is provided with a Y-axis guide rail 20 which is longitudinally and horizontally arranged, the Y-axis guide rail 20 is connected with a longitudinal moving frame 21 in a sliding manner, and one side of the Y-axis guide rail 20 is provided with a longitudinal driving motor 22 which drives the longitudinal moving frame 21 to move. The transverse driving motor 16, the vertical driving motor 19 and the longitudinal driving motor 22 are all servo motors.

An extension supporting plate 23 which is horizontally arranged in the transverse direction is fixed on the longitudinal moving frame 21, a product clamping mechanism 5 is arranged on the extension supporting plate 23, and a chuck of the product clamping mechanism 5 is arranged towards the right. Since the wheel speed sensor is compatible with various products, the product clamping mechanism 5 of the wheel speed sensor is in a quick-change form, and the carrier for testing is also a positioning fixture in the quick-change form.

As shown in fig. 4 and 5, the gear ring rotating mechanism 3 is disposed on the table top of the frame 1 and located at the right side of the three-axis moving mechanism 3, and includes a rotary driving motor 24, a first belt pulley 42, a second belt pulley 43, an encoder 44, a chuck 25, a wedge belt 45, a fixing plate 46, a first synchronous belt pulley 47, a second synchronous belt pulley 48, and a synchronous belt 49, the fixing plate 46 is disposed at the bottom of the table top of the frame 1, the rotary driving motor 24 with an upward output shaft is disposed at the bottom of the fixing plate 46, the output shaft of the rotary driving motor 24 passes through the fixing plate 46 and is fixed with the first belt pulley 42, the chuck 25 is rotatably disposed on the table top of the frame 1, the second synchronous belt pulley 48 and the second belt pulley 43 are disposed at the bottom of the chuck 25, the central axis of the second synchronous belt pulley 48 and the central axis of the second belt pulley 43 are both coincident with the central axis of the chuck 25, the second belt pulley 43 is rotatably disposed on the fixing plate 46, the first belt pulley 42 is in transmission connection with the second belt pulley 43 through a wedge-shaped belt 45, the fixing plate 46 is provided with an encoder 44, the encoder 44 is provided with a first synchronous belt pulley 47, and the first synchronous belt pulley 47 is in transmission connection with a second synchronous belt pulley 48 through a synchronous belt 49; the chuck 25 is arranged horizontally upwards, and three clamping jaws 26 are arranged on the chuck 25; the three jaws 26 are provided with a plurality of sets of pins 50 on the same circumference.

As shown in fig. 4 and 6, the correlation distance measuring mechanism 4 includes a horizontal moving mechanism and a vertical moving mechanism disposed on the horizontal moving mechanism, and the vertical moving mechanism is provided with a correlation distance meter 28 for measuring the gear ring, which is horizontally correlated front and back.

The transverse moving mechanism comprises a transverse bracket 29, a transverse guide rod 30 is horizontally and transversely arranged on the transverse bracket 29, a transverse sliding block 31 is connected with the transverse guide rod 30 in a sliding manner, a transverse screw rod 32 is horizontally and transversely arranged on the transverse bracket 29, the transverse screw rod 32 is in threaded connection with the transverse sliding block 31, and a transverse rocker 33 for rotating the transverse screw rod 32 is arranged at one end of the transverse screw rod 32; the table top of the frame 1 is provided with a transverse slide rail 34 which is arranged in parallel with the transverse guide rod 30, and the transverse slide rail 34 is provided with a U-shaped transverse moving table top 35.

The vertical moving mechanism comprises a vertical support 36 vertically arranged on the U-shaped transverse moving table board 35, a vertical guide rail 37 vertically arranged is arranged on the vertical support 36, a vertical sliding block 38 is connected to the vertical guide rail 37 in a sliding mode, a vertical lead screw 39 vertically arranged is arranged on the vertical support 36, the vertical lead screw 39 is in threaded connection with the vertical sliding block 38, one end of the vertical lead screw 39 is provided with a vertical rocker 40 for rotating the vertical lead screw 39, an opposite-type distance meter fixing frame 41 is arranged on the vertical sliding block 38, and an opposite-type distance meter 28 is arranged at the top of the opposite-type distance meter fixing frame 41.

The U-shaped transverse moving table-board 35 is provided with a gear ring rotating mechanism protective cover 27, the gear ring rotating mechanism protective cover 27 comprises a top surface, a front side surface, a back side surface and a right side surface, the top surface is higher than the chuck height, and the distance between the front side surface and the back side surface is larger than the width of the gear ring rotating mechanism.

The working process of the equipment is as follows:

the wheel speed sensor is manually placed on the product clamping mechanism 5, the gear ring is placed on the clamping jaw 26, the chuck 25 is opened, the gear ring is clamped on the clamping jaw 26, and the movable door 8 is closed.

The rotary driving motor 24 drives the chuck 25 to rotate, the gear ring fixed on the chuck 25 rotates along with the chuck, and the controller controls the three-axis moving mechanism 2 to be close to the gear ring rotating mechanism.

The transverse driving motor 16 drives the transverse moving frame 15 to move to a specified position on the X-axis guide rail 14, the vertical driving motor 19 drives the vertical moving frame 18 to move to a specified position on the Z-axis guide rail 17, the longitudinal driving motor 22 drives the longitudinal moving frame 21 to move to a specified position on the Y-axis guide rail 20, the three-axis moving mechanism 2 drives the wheel speed sensor to slowly approach the gear ring, and the three-axis moving mechanism 2 stops working until the set gap is reached.

The transverse rocker 33 is shaken to drive the transverse screw rod 32 to rotate, the transverse sliding block 31 moves on the transverse screw rod 32, the transverse sliding block drives the U-shaped transverse moving table board 35 to move on the transverse sliding rail 34, the vertical rocker 40 is shaken to drive the vertical screw rod 39 to rotate, the vertical sliding block 38 moves on the vertical screw rod 39, the vertical sliding block 38 drives the correlation distance meter fixing frame 41 to move, the correlation distance meter 28 reaches a specified position, the electrical performance and the maximum air gap of the wheel speed sensor are tested, the rotary driving motor 24 drives the second belt pulley 43 to rotate through the synchronous belt 45, the rotary second belt pulley 43 drives the encoder 44 to rotate through the synchronous belt 45, the test result of the wheel speed sensor and the rotating speed of the encoder 44 are compared and analyzed, the test precision of the wheel speed sensor is obtained, a test report is automatically generated, and the factory quality of the wheel speed sensor is effectively improved.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (9)

1. The utility model provides a high revolution speed sensor measuring stand, includes the frame, its characterized in that: a three-axis moving mechanism, a gear ring rotating mechanism and a correlation type distance measuring mechanism are arranged on the surface of the stand, and a product clamping mechanism is arranged on the three-axis moving mechanism;

the three-axis moving mechanism is fixed on the left side of the table top of the rack and comprises an X-axis guide rail transversely and horizontally arranged on the table top of the rack, a transverse moving frame connected with the X-axis guide rail in a sliding manner is arranged on the X-axis guide rail, and a transverse driving motor for driving the transverse moving frame to move is arranged on one side of the X-axis guide rail; a Z-axis guide rail is arranged in the vertical direction on the transverse moving frame, the Z-axis guide rail is connected with a vertical moving frame in a sliding manner, and a vertical driving motor for driving the vertical moving frame to move is arranged at the top of the Z-axis guide rail; the vertical moving frame is provided with a Y-axis guide rail which is longitudinally and horizontally arranged, the Y-axis guide rail is connected with the vertical moving frame in a sliding manner, and one side of the Y-axis guide rail is provided with a longitudinal driving motor for driving the longitudinal moving frame to move;

an extension supporting plate which is horizontally arranged in the transverse direction is fixed on the longitudinal moving frame, a product clamping mechanism is arranged on the extension supporting plate, and a chuck of the product clamping mechanism is arranged towards the right;

the gear ring rotating mechanism is arranged on the table top of the rack, is positioned on the right side of the three-axis moving mechanism, and comprises a rotating driving motor, a first belt pulley, a second belt pulley, an encoder, a chuck, a wedge-shaped belt, a fixing plate, a first synchronous belt pulley, a second synchronous belt pulley and a synchronous belt; the bottom of the rack table is provided with a fixed plate, the bottom of the fixed plate is provided with a rotary driving motor with an upward output shaft, the output shaft of the rotary driving motor penetrates through the fixed plate and is fixed with a first belt pulley, the chuck is rotationally arranged on the rack table, the bottom of the chuck is provided with a second synchronous belt pulley and a second belt pulley, the central axis of the second synchronous belt pulley and the central axis of the second belt pulley are coincided with the central axis of the chuck, the second belt pulley is rotationally arranged on the fixed plate, the first belt pulley and the second belt pulley are in transmission connection through a wedge-shaped belt, the fixed plate is provided with an encoder, the encoder is provided with a first synchronous belt pulley, and the first synchronous belt pulley is in transmission connection with the second synchronous belt pulley through a synchronous belt; the chuck is horizontally arranged upwards, and three clamping jaws are arranged on the chuck;

the correlation type distance measuring mechanism comprises a transverse moving mechanism and a vertical moving mechanism arranged on the transverse moving mechanism, and a correlation type distance meter which is horizontally correlated front and back and is used for measuring the gear ring is arranged on the vertical moving mechanism;

the three-axis moving mechanism, the gear ring rotating mechanism and the correlation type distance measuring mechanism are all connected with the controller.

2. The high tachometer transducer station of claim 1, wherein: the transverse moving mechanism comprises a transverse support, a transverse guide rod is horizontally and transversely arranged on the transverse support, a transverse sliding block is connected with the transverse guide rod in a sliding manner, a transverse lead screw is horizontally and transversely arranged on the transverse support, the transverse lead screw is in threaded connection with the transverse sliding block, and a transverse rocker for rotating the transverse lead screw is arranged at one end of the transverse lead screw; a transverse sliding rail arranged in parallel with the transverse guide rod is arranged on the rack surface, and a U-shaped transverse moving table surface is arranged on the transverse sliding rail;

vertical moving mechanism includes the vertical support of vertical setting on U type lateral shifting mesa, is equipped with the vertical guide rail of vertical setting on the vertical support, and it is connected with vertical slider to slide on the vertical guide rail, is equipped with the vertical lead screw of vertical setting on the vertical support, vertical lead screw and vertical slider threaded connection, and vertical lead screw one end is equipped with the vertical rocker that rotates vertical lead screw, is equipped with correlation formula distancer mount on the vertical slider, and correlation formula distancer mount top is equipped with correlation formula distancer.

3. The high tachometer transducer station of claim 2, wherein: the U-shaped transverse moving table top is provided with a gear ring rotating mechanism protective cover, the gear ring rotating mechanism protective cover comprises a top surface, a front side surface, a rear side surface and a right side surface, the top surface is higher than the chuck, and the distance between the front side surface and the rear side surface is larger than the width of the gear ring rotating mechanism.

4. The high tachometer transducer station of claim 1, wherein: the three clamping jaws are provided with a plurality of groups of pins on the same circumference.

5. The high tachometer transducer station of claim 1, wherein: a safety cover is arranged on the frame surface, an opening is formed in the front side face of the safety cover, and a movable door matched with the opening is arranged on the opening.

6. The high tachometer transducer station of claim 1, wherein: the safety cover top is equipped with the pilot lamp, and the pilot lamp is connected with the controller.

7. The high tachometer transducer station of claim 1, wherein: the safety cover is characterized in that an emergency stop switch and an operating button are arranged on the side face of the safety cover, and the emergency stop switch and the operating button are both connected with the controller.

8. The high tachometer transducer station of claim 1, wherein: the side face of the rack is provided with a display screen and a control screen, and the display screen and the control screen are both connected with the controller.

9. The high tachometer transducer station of claim 1, wherein: the transverse driving motor, the vertical driving motor and the longitudinal driving motor are all servo motors.

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