CN118408761A - A motorcycle shock absorber testing instrument with a turntable testing tool - Google Patents

Abstract

The present invention discloses a motorcycle shock absorber detection instrument with a turntable detection tool, comprising a detection machine; a lifting member is arranged on the detection machine, a support seat is fixed on the top of the lifting member, a first double-axis motor is arranged on the support seat, a clamping assembly is connected to the first output end of the first double-axis motor, the clamping assembly comprises a forward and reverse screw connected to the first output end of the first double-axis motor, a clamping plate is sleeved on the forward and reverse screws, and a guide rod is connected through the inside of the clamping plate. The motorcycle shock absorber detection instrument with a turntable detection tool drives the forward and reverse screws to rotate through the first double-axis motor, so that the clamping plates symmetrically arranged on the forward and reverse screws move relative to or toward each other through the cooperation of the guide rod, so that the clamping plate is convenient for quickly clamping the shock absorber, reducing the problem of low stability caused by using spring-assisted clamping, so that the accuracy of the overall detection result is improved.

Description

A motorcycle shock absorber testing instrument with a turntable testing tool

Technical Field

The invention relates to the technical field related to shock absorber detection instruments, and in particular to a motorcycle shock absorber detection instrument with a turntable type detection tool.

Background technique

In order to ensure the safety and stability of motorcycle driving, shock absorbers need to be installed for use, so the shock absorbers need to be tested. However, the existing motorcycle shock absorber testing instruments with turntable testing tools still have certain defects when used, such as;

For example, a shock absorber comprehensive test bench with publication number CN102539168A includes a base, a crossbeam, a column, etc., a motor is located above the crossbeam, a straight rod passes through the crossbeam vertically, and is connected to the motor through a transmission system. The transmission system includes a pinion, a gear and a transmission belt, and the workbench in the virtual frame I is fixed to the base of the test bench. The front shock absorber is installed on the test bench according to the actual loading angle, and the angle of the shock absorber is controlled by a console located in front of the bracket. Then the straight rod is driven by the motor, and slowly rises along the axis direction of the straight rod, pulling the bottom cylinder of the shock absorber upward, so that the bottom cylinder of the shock absorber slowly moves up, and the minimum speed of movement can reach 0.005m/s. The force change and displacement change of this lifting process are transmitted to the computer through a force sensor and a displacement sensor, and the test graph is depicted by the detection program.

However, the shock absorber comprehensive test bench still has the following shortcomings in actual use:

The position of the sensor is raised and lowered by driving the straight rod through a motor, but the shock absorber is not clamped and fixed. In actual use, the shock absorber is prone to move, resulting in the instability of the sensor position, thus affecting the measurement precision and accuracy of the sensor. In addition, the movement of the shock absorber is prone to cause the sensor to vibrate, and vibration interference may cause the measurement data to be unstable, increasing the error of the detected data.

For example, a shock absorber power indicator detection clamping device with publication number CN105313046B has a simple structure. It drives the threaded block to directly engage with the shock absorber fork tube that needs to be tested directly below the threaded block by pushing the cylinder. There is no need to screw in the clamping joint. A spring is set to provide elastic force to push the threaded block and the shock absorber fork tube out of engagement and reset. The operation is simple and convenient, and the efficiency is improved.

However, the shock absorber power detection clamping device still has the following disadvantages in actual use:

The shock absorber is clamped by pushing the cylinder to drive the threaded block, and after the test, the threaded block is separated from the shock absorber and reset using a spring. In actual use, the magnitude of the spring force and the elastic characteristics may cause instability in the reset process. Therefore, the vibration generated during use will affect the accuracy of the test results, and the spring may be affected by wear, aging or damage, increasing maintenance costs and workload.

In view of the above problems, it is urgent to carry out innovative design based on the original motorcycle shock absorber testing instrument with a turntable testing tool. Therefore, we proposed a motorcycle shock absorber testing instrument with a turntable testing tool that can well solve the above problems.

Summary of the invention

The purpose of the present invention is to provide a motorcycle shock absorber detection instrument with a turntable detection tool to solve the problem proposed by the above-mentioned background technology that the position of the sensor is raised and lowered by a motor-driven straight rod in the current market, but the shock absorber is not clamped and fixed. In actual use, the shock absorber is easy to move, resulting in instability in the position of the sensor, thereby affecting the measurement precision and accuracy of the sensor, and the movement of the shock absorber is easy to cause the sensor to vibrate, and vibration interference may cause instability in the measurement data, thereby increasing the error of the detected data. The shock absorber is clamped by driving the threaded block with a cylinder, and a spring is used to separate the threaded block from the shock absorber and reset it after the detection. In actual use, due to the size of the spring force and the elastic characteristics, instability may occur in the resetting process, so the vibration generated during use will affect the accuracy of the detection result, and the spring may be affected by wear, aging or damage, increasing the maintenance cost and workload.

To achieve the above-mentioned object, the present invention provides the following technical solutions: A motorcycle shock absorber testing instrument with a turntable testing tool, comprising a testing machine provided;

The side end of the detection machine is provided with an operator, the upper end of the detection machine is provided with a support rod, the support rod is provided with a lifting assembly, the lifting assembly includes a top plate installed on the support rod, a first driving member is installed on the top plate, a moving plate is provided at the bottom of the first driving member, and the moving plate is sleeved on the outside of the support rod;

The detection machine is provided with a lifting member, a support base is fixed on the top of the lifting member, a first dual-axis motor is provided on the support base, a first output end of the first dual-axis motor is connected with a clamping assembly, the clamping assembly includes forward and reverse screws connected to the first output end of the first dual-axis motor, a clamping plate is sleeved on the forward and reverse screws, the clamping plates are symmetrically arranged, a guide rod is connected through the inside of the clamping plate, and the shock absorber is stably clamped by the clamping plate of the clamping assembly.

Preferably, a second dual-axis motor is disposed on the movable plate, a first output end of the second dual-axis motor is connected to a rotating assembly, and the rotating assembly includes a first rotating shaft installed on the first output end of the second dual-axis motor.

Preferably, a first worm is provided at the bottom of the first rotating shaft, a second worm is meshingly connected to the side end of the first worm, a rotating rod is penetrated and connected inside the second worm, and the rotating rod is connected to the first rotating shaft via a crank.

Preferably, a first gear is installed on the outside of the rotating rod, the first gear is meshed and connected inside the gear ring, the gear ring is installed at the bottom of the movable plate, a mounting seat is provided at the bottom of the rotating rod, and a detection member is provided on the mounting seat.

Preferably, the second output end of the second dual-axis motor is connected to a blowing assembly, and the blowing assembly includes a second driving member connected to the second output end of the second dual-axis motor, and a rotating shaft is installed on the second driving member.

Preferably, the rotating shaft is installed on a fixed seat, the fixed seat is fixed on the bottom of the movable plate, a first bevel gear is sleeved on the outer side of the rotating shaft, a second bevel gear is meshed and connected to the side end of the first bevel gear, a fan is connected to the inside of the second bevel gear through a second rotating shaft, and the fan is installed on the side end of the detection member.

Preferably, the second output end of the first dual-axis motor is connected to a cleaning assembly, and the cleaning assembly includes a second gear connected to the second output end of the first dual-axis motor, and the side end of the second gear is meshed with a rack, and the rack is installed inside a storage slot, and the storage slot is opened inside the support rod.

Preferably, a slider is installed on the back of the rack, the slider is connected to the inside of the slide groove, the slide groove is opened inside the storage groove, an extrusion plate is installed on the top of the rack, an airbag is provided on the upper end of the extrusion plate, and the airbag is installed inside the storage groove.

Preferably, a storage plate is installed at the side end of the support rod, an aeration component is provided at the upper end of the storage plate, an air bag is connected to the output end of the aeration component, the output end of the air bag is connected to a pipe, a jet port is opened at the bottom of the pipe, and the jet port is located at the top of the operator.

Compared with the prior art, the invention has the following beneficial effects: the motorcycle shock absorber testing instrument with a turntable testing tool drives the forward and reverse screws to rotate through the first dual-axis motor, so that the clamping plates symmetrically arranged on the forward and reverse screws move relative to or toward each other through the cooperation of the guide rods, so that the shock absorber can be quickly clamped by the clamping plates, and the problem of low stability caused by the use of spring-assisted clamping is reduced, so that the accuracy of the overall testing results is improved. The specific contents are as follows:

(1) The clamping plate of the clamping assembly quickly clamps the shock absorber, which not only reduces the inconvenience caused by the cumbersome clamping operation, but also reduces the low stability caused by the use of spring-assisted clamping, thereby reducing the maintenance cost and workload;

(2) The first driving member of the lifting assembly drives the moving plate to move up and down on the support rod, which facilitates the moving of the detection member to the shock absorber for detection operation. The overall lifting is stable, which reduces the inconvenience caused by the need to move the detection member multiple times;

(3) The rotating rod of the rotating assembly rotates through the cooperation of the crank, which is convenient for driving the detection part under the mounting seat to rotate, so that the detection part can be easily rotated according to the required position, reducing the problem of reduced detection efficiency caused by the need to manually adjust the position of the detection part;

(4) The second bevel gear of the blowing assembly drives the second rotating shaft to rotate, so that the fan is driven, which reduces the problem of increased costs caused by the need to set up more driving mechanisms. The fan is set to increase the service life of the detection part;

(5) The extrusion plate of the cleaning component squeezes the air bag, making it convenient to perform jet operation through the jet port on the pipe, so that the dust attached to the surface of the operator is cleaned, reducing the problem of dust affecting the operation of the operator.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a schematic diagram of the overall structure of the present invention;

Fig. 2 is a schematic diagram of the structure of the present invention when in use as a whole;

FIG3 is a schematic diagram of the structure of the lifting member of the present invention;

FIG4 is a schematic diagram of the structure of the clamping plate of the present invention;

FIG5 is a schematic diagram of the connection structure between the first worm and the second worm of the present invention;

FIG6 is a schematic diagram of the structure of the gear ring and the first gear of the present invention;

FIG7 is a schematic diagram of the structure of a second dual-axis motor according to the present invention;

FIG8 is an enlarged structural schematic diagram of point A in FIG7 of the present invention;

FIG9 is a schematic diagram of the structure of the first bevel gear and the second bevel gear of the present invention;

FIG10 is a schematic diagram of the structure of the gas-filling member and the airbag of the present invention;

FIG. 11 is a schematic diagram of the connection structure between the second gear and the rack of the present invention.

In the figure: 1, detection machine; 2, operator; 3, support rod; 4, top plate; 5, first driving member; 6, moving plate; 7, lifting member; 8, support seat; 9, first double-axis motor; 10, forward and reverse screws; 11, clamping plate; 12, guide rod; 13, second double-axis motor; 14, first rotating shaft; 15, first worm; 16, second worm; 17, crank; 18, rotating rod; 19, first gear; 20, gear ring ; 21. Mounting seat; 22. Detection member; 23. Second driving member; 24. Rotating shaft; 25. Fixed seat; 26. First bevel gear; 27. Second bevel gear; 28. Second rotating shaft; 29. Fan; 30. Second gear; 31. Rack; 32. Storage slot; 33. Slider; 34. Slide; 35. Extrusion plate; 36. Storage plate; 37. Aeration member; 38. Airbag; 39. Pipeline; 40. Jet nozzle.

Detailed ways

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

Embodiment 1: In this embodiment, in order to improve the accuracy of the overall detection data, the shock absorber is stably clamped by the clamping plate 11 of the clamping assembly, the purpose of which is to reduce the problem of low stability caused by the use of spring-assisted clamping. The technical solution shown in Figures 1 to 4 includes a detection machine 1, an operator 2 is arranged at the side end of the detection machine 1, a support rod 3 is installed at the upper end of the detection machine 1, and a lifting assembly is arranged on the support rod 3. The lifting assembly includes a top plate 4 installed on the support rod 3, a first driving member 5 is installed on the top plate 4, and a moving plate 6 is arranged at the bottom of the first driving member 5, and the moving plate 6 is sleeved on the outer side of the support rod 3. The machine 1 is provided with a lifting member 7, a support seat 8 is fixed on the top of the lifting member 7, a first double-axis motor 9 is provided on the support seat 8, a first output end of the first double-axis motor 9 is connected with a clamping assembly, the clamping assembly includes a forward and reverse screw 10 connected to the first output end of the first double-axis motor 9, a clamping plate 11 is sleeved on the forward and reverse screw 10, the clamping plate 11 is symmetrically arranged, a guide rod 12 is connected through the inside of the clamping plate 11, the shock absorber is stably clamped by the clamping plate 11 of the clamping assembly, the detection machine 1 is conveniently driven by the operator 2, the shock absorber to be detected is placed on the side end of the clamping plate 11, and the first double-axis motor 9 on the support seat 8 is turned on. The first dual-axis motor 9 drives the forward and reverse screws 10 to rotate, so that the clamping plates 11 symmetrically arranged on the forward and reverse screws 10 can move relative to or toward each other through the cooperation of the guide rods 12, so that the shock absorber can be quickly clamped using the clamping plates 11, which not only reduces the inconvenience caused by the cumbersome operation of the existing clamping operation, improves the overall clamping efficiency, and facilitates the subsequent detection operation, but also reduces the problem of low stability caused by the use of spring-assisted clamping, so that the accuracy of the overall detection result is improved, and the maintenance cost and workload are reduced. After the shock absorber is clamped and fixed, the first driving member 5 on the top plate 4 drives the moving plate 6 to move in a The support rod 3 is lifted and lowered, which makes it convenient to move the detection piece 22 to the shock absorber for detection operation. The overall lifting is stable, and the bottom of the support seat 8 is convenient for lifting and lowering operations through the lifting piece 7. In this invention, the lifting piece 7 is a mechanical structure of a telescopic cylinder and a tilting rod. The tilting rod is driven to rotate through the telescopic operation of the telescopic cylinder, which facilitates the support seat 8 to be lifted and lowered, making it convenient to lift and lower the shock absorber on the clamping plate 11, making the overall detection operation simple and quick, reducing the inconvenience caused by the need to move the detection piece 22 multiple times, improving the overall practicality, and reducing the interference caused by the vibration of the detection piece 22.

Embodiment 2: In this embodiment, in order to improve the overall operating efficiency, the operation is performed by setting a rotating assembly, the purpose of which is to reduce the inconvenience of operation caused by the need to move the detection member 22 multiple times. As shown in Figures 2, 5-9, it is disclosed that: a second dual-axis motor 13 is arranged on the moving plate 6, and a rotating assembly is connected to the first output end of the second dual-axis motor 13. The rotating assembly includes a first rotating shaft 14 installed on the first output end of the second dual-axis motor 13, a first worm 15 is arranged at the bottom of the first rotating shaft 14, and a second worm 16 is meshedly connected to the side end of the first worm 15, and the second worm 16 is internally connected to the second worm 16. A rotating rod 18 is connected, and the rotating rod 18 is connected to the first rotating shaft 14 through a crank 17. A first gear 19 is installed on the outer side of the rotating rod 18, and the first gear 19 is meshed and connected to the inside of the gear ring 20. The gear ring 20 is installed at the bottom of the movable plate 6. A mounting seat 21 is provided at the bottom of the rotating rod 18, and a detection member 22 is provided on the mounting seat 21. The second output end of the second dual-axis motor 13 is connected to a blowing assembly, and the blowing assembly includes a second driving member 23 connected to the second output end of the second dual-axis motor 13. A rotating shaft 24 is installed on the second driving member 23, and the rotating shaft 24 is installed on a fixed seat 25, and the fixed seat 25 is fixed to the bottom of the movable plate 6. , a first bevel gear 26 is sleeved on the outer side of the rotating shaft 24, and a second bevel gear 27 is meshedly connected to the side end of the first bevel gear 26. A fan 29 is connected to the inside of the second bevel gear 27 through a second rotating shaft 28. The fan 29 is installed at the side end of the detection member 22. The second double-axis motor 13 is turned on, and the second double-axis motor 13 drives the first worm 15 through the first rotating shaft 14. At this time, the first worm 15 drives the second worm 16 set at the side end to rotate. At this time, the rotating rod 18 inside the second worm 16 is rotated through the cooperation of the crank 17, and the first gear 19 outside the rotating rod 18 rotates inside the gear ring 20, which is convenient for driving the installation The detection part 22 under the seat 21 is rotated, which is convenient for rotation according to the required position, thereby improving the overall detection efficiency. The second output end of the second dual-axis motor 13 drives the rotating shaft 24 to rotate on the fixed seat 25 through the second driving member 23, so that the first bevel gear 26 sleeved on the outer side of the rotating shaft 24 drives the second bevel gear 27 to rotate, and the second bevel gear 27 drives the second rotating shaft 28 to rotate, so that the fan 29 is driven, and the dust on the surface of the detection part 22 is conveniently adsorbed by the fan 29, thereby reducing the problem of dust affecting the heat dissipation of the detection part 22 and improving the service life of the detection part 22.

Embodiment 3: In this embodiment, in order to improve the overall practicality, a cleaning component is set up for use, and its purpose is to reduce the problem of increased costs caused by setting up more driving components. Specifically, as shown in Figures 2, 10 and 11, it is disclosed that: the second output end of the first dual-axis motor 9 is connected to a cleaning component, and the cleaning component includes a second gear 30 connected to the second output end of the first dual-axis motor 9, and the side end of the second gear 30 is meshingly connected with a rack 31, and the rack 31 is installed in a storage slot 32, and the storage slot 32 is opened in the support rod 3. A slider 33 is installed on the back of the rack 31, and the slider 33 is connected to the inside of a slide slot 34, and the slide slot 34 is opened in the storage slot 32. An extrusion plate 35 is installed on the top of the rack 31, and an airbag 38 is arranged on the upper end of the extrusion plate 35. The airbag 38 is installed in the storage slot 32, a storage plate 36 is installed on the side end of the support rod 3, and an aeration member 37 is arranged on the upper end of the storage plate 36. The output end of the aeration member 37 is connected to the airbag 38, and the output end of the airbag 38 is connected to the pipeline 39. A jet port 40 is provided at the bottom of the pipe 39, and the jet port 40 is located at the top of the operator 2. When the first dual-axis motor 9 is in use, the second output end of the first dual-axis motor 9 drives the second gear 30 to rotate, so that the second gear 30 drives the rack 31 meshingly connected at the side end to perform lifting operations inside the storage slot 32. The whole is conveniently driven by the first dual-axis motor 9, reducing the problem of increased costs caused by the existing setting of more driving components. At this time, the rack 31 slides inside the slide slot 34 through the slider 33 set on the back, so that the extrusion plate 35 set on the top of the rack 31 is convenient to squeeze the airbag 38, and the gas is introduced into the airbag 38 through the gas filling piece 37 at the upper end of the storage plate 36, and the jet operation is performed through the jet port 40 on the pipe 39, so that the dust attached to the surface of the operator 2 is cleaned, reducing the problem of dust affecting the operation of the operator 2, and after the airbag 38 is squeezed, the flow rate of the delivered gas is affected, so that the overall cleaning efficiency is greatly improved, and the overall service life is improved.

Although the present invention has been described in detail with reference to the aforementioned embodiments, it is still possible for those skilled in the art to modify the technical solutions described in the aforementioned embodiments, or to make equivalent substitutions for some of the technical features therein. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A motorcycle shock absorber testing instrument with a turntable testing tool, comprising a testing machine (1); It is characterized by further comprising: An operator (2) is arranged at the side end of the detection machine (1); a support rod (3) is installed at the upper end of the detection machine (1); a lifting assembly is arranged on the support rod (3); the lifting assembly comprises a top plate (4) installed on the support rod (3); a first driving member (5) is installed on the top plate (4); a movable plate (6) is arranged at the bottom of the first driving member (5); and the movable plate (6) is sleeved on the outer side of the support rod (3); The detection machine (1) is provided with a lifting member (7), a support base (8) is fixed on the top of the lifting member (7), a first dual-axis motor (9) is provided on the support base (8), a first output end of the first dual-axis motor (9) is connected to a clamping assembly, the clamping assembly comprises forward and reverse screw rods (10) connected to the first output end of the first dual-axis motor (9), a clamping plate (11) is sleeved on the forward and reverse screw rods (10), the clamping plate (11) is symmetrically arranged, a guide rod (12) is connected to the inside of the clamping plate (11), and the shock absorber is stably clamped by the clamping plate (11) of the clamping assembly. 2. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 1, characterized in that: a second dual-axis motor (13) is arranged on the movable plate (6), and a rotating assembly is connected to the first output end of the second dual-axis motor (13), and the rotating assembly includes a first rotating shaft (14) installed on the first output end of the second dual-axis motor (13). 3. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 2, characterized in that: a first worm (15) is arranged at the bottom of the first rotating shaft (14), a second worm (16) is meshedly connected to the side end of the first worm (15), a rotating rod (18) is connected to the inside of the second worm (16), and the rotating rod (18) is connected to the first rotating shaft (14) through a crank (17). 4. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 3, characterized in that: a first gear (19) is installed on the outside of the rotating rod (18), the first gear (19) is meshed and connected inside the gear ring (20), the gear ring (20) is installed at the bottom of the moving plate (6), a mounting seat (21) is provided at the bottom of the rotating rod (18), and a detection member (22) is provided on the mounting seat (21). 5. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 2, characterized in that: the second output end of the second dual-axis motor (13) is connected to a blowing assembly, the blowing assembly includes a second driving member (23) connected to the second output end of the second dual-axis motor (13), and a rotating shaft (24) is installed on the second driving member (23). 6. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 5, characterized in that: the rotating shaft (24) is mounted on a fixed seat (25), the fixed seat (25) is fixed to the bottom of the movable plate (6), a first bevel gear (26) is sleeved on the outer side of the rotating shaft (24), a second bevel gear (27) is meshedly connected to the side end of the first bevel gear (26), a fan (29) is connected to the inside of the second bevel gear (27) through a second rotating shaft (28), and the fan (29) is mounted on the side end of the detection member (22). 7. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 1, characterized in that: the second output end of the first dual-axis motor (9) is connected to a cleaning component, the cleaning component comprises a second gear (30) connected to the second output end of the first dual-axis motor (9), the side end of the second gear (30) is meshedly connected to a rack (31), the rack (31) is installed inside a storage groove (32), and the storage groove (32) is opened inside the support rod (3). 8. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 7, characterized in that: a slider (33) is installed on the back of the rack (31), the slider (33) is connected to the inside of a slide groove (34), the slide groove (34) is opened in the storage groove (32), an extrusion plate (35) is installed on the top of the rack (31), an air bag (38) is arranged on the upper end of the extrusion plate (35), and the air bag (38) is installed in the storage groove (32). 9. A motorcycle shock absorber testing instrument with a turntable testing tool according to claim 1, characterized in that: a storage plate (36) is installed at the side end of the support rod (3), an air filling member (37) is arranged at the upper end of the storage plate (36), an air filling member (37) is connected to an air bag (38) at the output end of the air bag (38), a pipe (39) is connected to the output end of the air bag (38), a jet outlet (40) is opened at the bottom of the pipe (39), and the jet outlet (40) is located at the top of the operator (2).