CN216284269U - Oil tank shaking durability testing device - Google Patents

Oil tank shaking durability testing device Download PDF

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Publication number
CN216284269U
CN216284269U CN202122999558.3U CN202122999558U CN216284269U CN 216284269 U CN216284269 U CN 216284269U CN 202122999558 U CN202122999558 U CN 202122999558U CN 216284269 U CN216284269 U CN 216284269U
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China
Prior art keywords
shaking
connecting rod
stroke
guide rail
servo motor
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CN202122999558.3U
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Chinese (zh)
Inventor
周航
敖冰伟
何勇
赵珂
苏小亮
肖琼
罗霞
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Luzhou Developing Machinery Co ltd
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Luzhou Developing Machinery Co ltd
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Abstract

The utility model provides an oil tank shaking durability testing device which comprises a testing table, a guide rail, a rack, a servo motor, a cam mechanism, a connecting rod mechanism and a control mechanism, wherein the testing table is used for mounting an oil tank to be tested, the testing table is mounted on the guide rail and can reciprocate on the guide rail, the guide rail is mounted on the rack, the servo motor, the cam mechanism and the connecting rod mechanism are mounted on the side surface of the rack, the servo motor is connected with the cam mechanism and used for driving the cam mechanism, the connecting rod mechanism is mounted on the cam mechanism and connected with the testing table and can drive the testing table to reciprocate on the guide rail, and the control mechanism is connected with the servo motor and used for controlling shaking of the testing table through the servo motor. The utility model can meet the sine curve and different stroke and frequency requirements of the shaking endurance test.

Description

Oil tank shaking durability testing device
Technical Field
The utility model belongs to the field of oil tank performance testing, and particularly relates to an oil tank shaking durability testing device.
Background
In order to meet the requirements of national six evaporative emission regulations of automobiles, higher requirements are provided for various performances of national six fuel tanks, wherein the requirement on the shaking durability is more strict, the worst working condition is selected from six working conditions after the displacement of +/-38 mm, +/-57 mm and +/-76 mm is combined in pairs at two frequencies of 1.0Hz and 1.25Hz, the motion curve meets a sine curve, test liquid is added into the fuel tanks, and 50 ten thousand cycle tests are respectively carried out under the conditions of three rated volumes of 25%, 50% and 75%, so that the running shaking condition within the service life of an automobile is simulated. The testing device in the prior art is difficult to realize that the motion curve meets the sine curve and the test conditions of switching different strokes and frequencies.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an oil tank shaking endurance testing device which can meet sine curves and different stroke and frequency requirements of shaking endurance testing requirements.
One aspect of the utility model provides an oil tank shaking durability testing device, which comprises a testing platform, a guide rail, a rack, a servo motor, a cam mechanism, a connecting rod mechanism and a control mechanism, the test bench is used for installing an oil tank to be tested, is arranged on the guide rail and can reciprocate on the guide rail, the guide rail is arranged on the rack, the servo motor, the cam mechanism and the connecting rod mechanism are arranged on the side surface of the rack, the servo motor is connected with the cam mechanism, used for driving the cam mechanism, the connecting rod mechanism is arranged on the cam mechanism, the connecting rod mechanism is connected with the test board and can drive the test board to reciprocate on the guide rail, the control mechanism is connected with the servo motor and used for controlling the shaking of the test board through the servo motor.
Preferably, the surface of the cam mechanism is provided with a plurality of mounting locations for mounting the linkage mechanism.
Preferably, the plurality of mounting positions are different distances from a center of the cam mechanism.
Preferably, the plurality of mounting positions comprise a 1 st position, a 2 nd position and a 3 rd position, and when the link mechanism is mounted at the 1 st position, the link mechanism drives the test bench to reciprocate by a stroke which meets the 1 st stroke requirement; under the condition that the connecting rod mechanism is arranged at the 2 nd position, the connecting rod mechanism drives the test board to reciprocate, and the stroke of the connecting rod mechanism drives the test board to meet the 2 nd stroke requirement; and the connecting rod mechanism is arranged at the 3 rd position, and the connecting rod mechanism drives the test board to reciprocate, so that the stroke of the test board meets the 3 rd stroke requirement.
Preferably, the 1 st stroke requirement is ± 38mm, the 2 nd stroke requirement is ± 57mm, and the 3 rd stroke requirement is ± 76 mm.
Preferably, the control mechanism is used for controlling the shaking frequency, the shaking times and the movement stroke of the test bench.
Preferably, the shaking frequency of the test bench comprises two frequencies of 1.0Hz and 1.25 Hz.
Preferably, the guide rail is a dovetail groove type guide rail.
The oil tank shaking durability testing device can meet sine curves and different stroke and frequency requirements of shaking durability testing requirements.
Drawings
Fig. 1 is a schematic top view of an oil tank sloshing endurance testing device according to an embodiment of the present invention.
Fig. 2 is a schematic side view of an oil tank sloshing endurance testing device according to an embodiment of the present invention.
FIG. 3 is a schematic view of a control mechanism according to an embodiment of the present invention.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present invention, the following detailed description will be made with reference to the accompanying drawings.
The embodiment of the utility model provides a device for testing the shaking durability of an oil tank. Fig. 1 is a schematic top view of an oil tank sloshing endurance testing device according to an embodiment of the present invention. Fig. 2 is a schematic side view of an oil tank sloshing endurance testing device according to an embodiment of the present invention. As shown in fig. 1 and 2, the fuel tank sloshing endurance testing device according to the embodiment of the present invention includes a test stand 1, a guide rail 2, a stand 3, a servo motor 4, a cam mechanism 5, a link mechanism 6, and a control mechanism 7 (see fig. 3 described later).
The test bench 1 is used for installing an oil tank to be tested, the test bench 1 is installed on a guide rail 2 and can reciprocate on the guide rail 2, and the guide rail 2 is installed on a rack 3. The guide rail 2 can adopt a dovetail groove type guide rail, so that the test board 1 can run more stably and is not easy to derail in a long-time motion process. Servo motor 4, cam mechanism 5 and link mechanism 6 are installed in the side of rack 3, and servo motor 4 is connected with cam mechanism 5 for drive cam mechanism 5, and link mechanism 6 for example installs on cam mechanism 5 through the bolt, and link mechanism 6 is connected with testboard 1, can drive testboard 1 reciprocating motion on guide rail 2. The control mechanism 7 is, for example, a control cabinet shown in fig. 3, and the control mechanism 7 is connected to the servo motor 4 and is configured to control the shaking of the test bench 1 through the servo motor 4. Specifically, the control mechanism 7 may be configured to control parameters of the test table, such as a shaking frequency, and a movement stroke.
As shown in fig. 1 and 2, the reciprocating motion of the test bench 1 is driven by a cam mechanism 5 through a link mechanism 6. The national six-oil-tank shaking endurance test requires that the oil tank motion curve meets a sine curve, and obviously, the test board 1 driven by the cam mechanism 5 and the link mechanism 6 performs simple harmonic motion to meet the sine curve requirement, so that the national six-oil-tank shaking endurance test requirement is met, and a complex motion control program is avoided.
As shown in fig. 2, the surface of the cam mechanism 5 is provided with a plurality of mounting positions for mounting the link mechanism 6. The plurality of mounting positions are different in distance from the center of the cam mechanism 5. Specifically, the plurality of mounting positions include the 1 st position 11, the 2 nd position 12, and the 3 rd position 13, and the link mechanism 6 may be mounted at three positions of the cam mechanism 5, which are different in distance from the center of the cam mechanism 5. When the link mechanism 6 is arranged at the 1 st position 11, the 1 st position 11 is closer to the circle center of the cam mechanism 5, so that the link mechanism 6 drives the test bench 1 to reciprocate to meet the 1 st stroke requirement with smaller stroke; under the condition that the link mechanism 6 is arranged at the 2 nd position 12, the distance from the 2 nd position 12 to the circle center of the cam mechanism 5 is moderate, and the link mechanism 6 drives the test bench 1 to reciprocate to meet the 2 nd stroke requirement with moderate stroke; under the condition that the link mechanism 6 is arranged at the 3 rd position 13, the 3 rd position 13 is far away from the circle center of the cam mechanism 5, and the link mechanism 6 drives the test bench 1 to reciprocate to meet the 3 rd stroke requirement with larger stroke. The 1 st stroke requirement is, for example, ± 38mm, the 2 nd stroke requirement is, for example, ± 57mm, and the 3 rd stroke requirement is, for example, ± 76 mm. Therefore, through three different installation positions of the surface of the cam mechanism 5, test conditions with different stroke requirements can be realized.
The control mechanism 7 controls the servo motor 4 through a program to realize test conditions with different frequency requirements, and the shaking frequency comprises two frequencies of 1.0Hz and 1.25Hz, for example.
The oil tank shaking durability testing device provided by the embodiment of the utility model is suitable for a national six-oil-tank shaking durability detection test, and the test flow is as follows: firstly, an oil tank to be tested is filled with test liquid and installed on a test board 1, the test board 1 is adjusted to the zero point position, an installation position requiring a shaking stroke is selected on a cam mechanism 5, a connecting rod mechanism 6 is installed, a required shaking frequency and shaking times are set in a control mechanism 7, a start button is pressed, and the leakage condition and the internal damage condition of the oil tank to be tested are observed.
In summary, the oil tank shaking durability testing device provided by the embodiment of the utility model adopts the cam mechanism and the link mechanism to realize sinusoidal motion of the testing platform, so that a sinusoidal curve required by a test is met, and a complex motion control system and a complex motion control program are avoided. The cam mechanism surface is provided with different mounted position to satisfy the rocking endurance test of different strokes and frequency requirement, can accomplish national six oil tanks more high-efficiently and rock endurance test.
While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the utility model.

Claims (8)

1. A device for testing the shaking durability of an oil tank is characterized by comprising a test board, a guide rail, a rack, a servo motor, a cam mechanism, a connecting rod mechanism and a control mechanism, the test bench is used for installing an oil tank to be tested, is arranged on the guide rail and can reciprocate on the guide rail, the guide rail is arranged on the rack, the servo motor, the cam mechanism and the connecting rod mechanism are arranged on the side surface of the rack, the servo motor is connected with the cam mechanism, used for driving the cam mechanism, the connecting rod mechanism is arranged on the cam mechanism, the connecting rod mechanism is connected with the test board and can drive the test board to reciprocate on the guide rail, the control mechanism is connected with the servo motor and used for controlling the shaking of the test board through the servo motor.
2. The fuel tank sloshing endurance testing apparatus of claim 1, wherein a surface of said cam mechanism is provided with a plurality of mounting positions for mounting said link mechanism.
3. The fuel tank sloshing endurance testing apparatus according to claim 2, wherein the plurality of mounting positions are different in distance from a center of the cam mechanism.
4. The fuel tank shaking endurance testing device of claim 3, wherein said plurality of mounting positions include position 1, position 2 and position 3, and when said link mechanism is mounted at said position 1, the stroke of said link mechanism driving said test platform to reciprocate meets the 1 st stroke requirement; under the condition that the connecting rod mechanism is arranged at the 2 nd position, the connecting rod mechanism drives the test board to reciprocate, and the stroke of the connecting rod mechanism drives the test board to meet the 2 nd stroke requirement; and the connecting rod mechanism is arranged at the 3 rd position, and the connecting rod mechanism drives the test board to reciprocate, so that the stroke of the test board meets the 3 rd stroke requirement.
5. The fuel tank sloshing endurance testing apparatus of claim 4, wherein said 1 st stroke requirement is ± 38mm, said 2 nd stroke requirement is ± 57mm, and said 3 rd stroke requirement is ± 76 mm.
6. The fuel tank shaking endurance testing device according to claim 1 or 2, wherein said control mechanism is configured to control the shaking frequency, shaking times and movement stroke of said test bench.
7. The fuel tank sloshing endurance testing apparatus of claim 6, wherein the sloshing frequency of said test bed includes both frequencies of 1.0Hz and 1.25 Hz.
8. The fuel tank sloshing endurance testing apparatus according to claim 1 or 2, wherein said rail is a dovetail groove type rail.
CN202122999558.3U 2021-12-01 2021-12-01 Oil tank shaking durability testing device Active CN216284269U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122999558.3U CN216284269U (en) 2021-12-01 2021-12-01 Oil tank shaking durability testing device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122999558.3U CN216284269U (en) 2021-12-01 2021-12-01 Oil tank shaking durability testing device

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CN216284269U true CN216284269U (en) 2022-04-12

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CN202122999558.3U Active CN216284269U (en) 2021-12-01 2021-12-01 Oil tank shaking durability testing device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114199540A (en) * 2021-12-01 2022-03-18 泸州发展机械有限公司 Oil tank shaking durability testing device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114199540A (en) * 2021-12-01 2022-03-18 泸州发展机械有限公司 Oil tank shaking durability testing device

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