CN205388535U - Vehicle overturning stability test platform - Google Patents
Vehicle overturning stability test platform Download PDFInfo
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- CN205388535U CN205388535U CN201521029499.5U CN201521029499U CN205388535U CN 205388535 U CN205388535 U CN 205388535U CN 201521029499 U CN201521029499 U CN 201521029499U CN 205388535 U CN205388535 U CN 205388535U
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Abstract
The utility model discloses a vehicle overturning stability test platform, including the frame, its vertical setting, a pedestal. Work platform, including supporting platform, connectivity platform and test platform, supporting platform sets up on the base rotatoryly, and the test platform activity sets up in the frame, and connectivity platform sets up swing joint on supporting platform and bottom test platform, the tilting mechanism, it sets up on supporting platform and is connected with connectivity platform, rotary mechanism, it sets up on the base and is connected with supporting platform, hoist mechanism, it sets up in the frame. The utility model discloses well hoist mechanism promotes test platform, and supporting platform is rotatory in the rotary mechanism drive to driving connectivity platform, tilting mechanism rotation, realizing horizontal, the fore -and -aft measuring of tumbling of vehicle, compare in prior art, the nothing needs adjustment vehicle direction, and the test platform size is moderate, avoids the overweight influence to frame, tilting mechanism because of test platform, and convenient operation has guaranteed the measuring precision in addition.
Description
Technical field
This utility model belongs to vehicle testing equipment technical field, is specifically related to a kind of slide-out stabilizing tester.
Background technology
Vehicle is as means of transport, and the test of its security performance is most important.According to the 8.5th (parking test) in Unite States Standard ANSI/OPEIB71.9-2012AmericanNationalStandardforMultipurpo seOff-HighwayUtilityVehicles standard, 8.6 (coefficient of stability tests), 8.7 (stability tests of vertical and horizontal) clause test requirements document, it is necessary to detection longitudinal direction of car and horizontal maximum rollover stability angle.
In prior art, slide-out test generally can only detect a direction, if detecting another direction, can only adjusting the direction of vehicle, this is accomplished by sizable test table, test table is excessive will be very heavy, this is accomplished by quite high performance tilting mechanism, supporting mechanism, also can affect test operation, thus affecting the accuracy of test, and it is also big to take up room, very inconvenient.
Utility model content
In order to solve above-mentioned technical problem, this utility model provides a kind of slide-out stabilizing tester.
In order to achieve the above object, the technical solution of the utility model is as follows:
This utility model provides a kind of slide-out stabilizing tester, including:
Frame, it is vertically arranged;
Base, it is arranged between frame;
Work platforms, including supporting platform, connecting platform and test platform, supports platform and is rotatably provided on base, and test platform is movably set in frame, and connecting platform is arranged on support platform and is flexibly connected with bottom test platform;
Tilting mechanism, it is arranged on support platform and is connected with connecting platform, for driving connecting platform to rotate around itself and the junction point supporting platform;
Rotating mechanism, it is arranged on base and is connected with supporting platform;
Hoisting mechanism, it is arranged in frame, is used for promoting test platform.
nullAfter in this utility model, test platform is positioned in frame,Vehicle drives on test platform,After connecting platform disengages with test platform,Hoisting mechanism ejects and is promoted by test platform,Then rotating mechanism drives support platform to rotate to desired location,Thus driving connecting platform、Tilting mechanism rotates,After rotation completes, hoisting mechanism is return test platform decline,Tilting mechanism drives connecting platform to rotate around itself and the junction point supporting platform,Complete detection of tumbling,Accordingly,The direction supporting platform is again changed by the rotation of rotating mechanism,Thus test platform is promoted by hoisting mechanism,Rotating mechanism drives and supports platform rotation,Thus driving connecting platform、Tilting mechanism rotates,Realize lateral direction of car、Longitudinal detection of tumbling,Compared to prior art,Without to adjust direction of traffic,Test platform moderate dimensions,Avoid because test platform is overweight to frame、The impact of tilting mechanism,And it is easy to operate,Ensure that accuracy of detection.
On the basis of technique scheme, also can do following improvement:
As preferred scheme, above-mentioned support platform includes base plate, riser and diagonal bar, and base plate is rotatably provided on base, and riser is arranged on described base plate one side, and diagonal bar is connected with base plate, riser respectively and forms a triangular support side between three.Wherein, above-mentioned test platform is bituminous concrete platform, and the thickness of bituminous concrete platform is 100mm-200mm, present embodiment optional 100mm, 150mm, 200mm.It addition, riser top is provided with connection axle, connecting platform is rotatably arranged on connection axle, connects and is additionally provided with on axle for measuring the encoder connecting axle rotational angle.
Adopting above-mentioned preferred scheme, base plate, riser and diagonal bar form a triangular support side, Stability Analysis of Structures, it is ensured that the stability of detection.
As preferred scheme, being provided with multiple location locking mechanism between above-mentioned test platform and connecting platform, the rounded array of location locking mechanism is arranged.Wherein, location locking mechanism includes locking bed, lower locking bed, alignment pin and positioning cylinder, upper locking bed is provided with hole, location and is arranged at bottom test platform, lower locking bed is provided with hole, location and is arranged on connecting platform, upper locking bed is in mating connection with lower locking bed, positioning cylinder is arranged on connecting platform and is connected with alignment pin, and alignment pin matches with hole, location.
Adopting above-mentioned preferred scheme, during commutation detection, positioning cylinder exits hole, location, and test platform is upwards ejected by hoisting mechanism so that test platform departs from connecting platform;After completing commutation, test platform is declined by hoisting mechanism, and after upper locking bed coordinates with lower locking bed, positioning cylinder stretches out upper locking bed and lower locking locking so that test platform and connecting platform are locked.
As preferred scheme, above-mentioned tilting mechanism includes mounting seat, lower mounting seat, drives oil cylinder and at least one guide post, upper mounting seat is arranged on connecting platform, lower mounting seat is arranged on support platform, driving oil cylinder to be arranged in lower mounting seat and its outfan is connected with upper mounting seat, guide post is actively located in mounting seat, lower mounting seat and be arranged in parallel with driving oil cylinder.
Adopting above-mentioned preferred scheme, drive oil cylinder to stretch out so that connecting platform rotates around itself and the junction point supporting platform, guide post for driving the extending action of oil cylinder to provide guide effect, supports connecting platform, it is ensured that the stability of structure on the one hand on the one hand.
As preferred scheme, the above-mentioned outfan driving oil cylinder is additionally provided with cone boss, and connecting platform is provided with groove, and cone boss is arranged with fit depressions.
Adopting above-mentioned preferred scheme, cone boss is further for driving oil cylinder to provide guide effect, it is ensured that tilting mechanism will not offset.
As preferred scheme, between above-mentioned guide post and upper mounting seat, lower mounting seat, it is additionally provided with copper sheathing.
Adopting above-mentioned preferred scheme, copper sheathing is wear-resistant on the one hand, provides guide effect for guide post on the other hand.
As preferred scheme, above-mentioned rotating mechanism includes rotating shaft, rotating sprocket and driving motor, rotating shaft rotates and is arranged on base and is connected with supporting platform, rotating sprocket is sheathed on rotating shaft, drive motor and rotating sprocket to be in transmission connection, rotating shaft is additionally provided with the encoder for measuring rotating shaft rotational angle.
Adopting above-mentioned preferred scheme, drive motor driving rotating sprocket to rotate, rotating sprocket is rotated axle and rotates, rotating shaft drives and supports platform rotation, the rotational angle of encoder detection rotating shaft, thus the anglec of rotation of calculation supporting platform, realizes the rotation of required angle accurately.
As preferred scheme, being additionally provided with strengthening part, including bearing holder (housing, cover), ball bearing mechanism and reinforcement, bearing holder (housing, cover) is arranged on base and is sheathed on rotating shaft, along the circumferential direction also setting up multiple ball bearing mechanism between bearing holder (housing, cover) and rotating shaft, reinforcement is arranged at the outer surface of bearing holder (housing, cover) circumferencial direction.
Adopting above-mentioned preferred scheme, reinforcement provides support force for rotating shaft, is further ensured that the stability of structure.
As preferred scheme, being additionally provided with balanced controls, including upper balance weight and lower balance weight, lower balance weight is provided with cylinder and it is arranged at the surrounding of base, upper balance weight is arranged at bottom the surrounding supporting platform, and the outfan of cylinder is connected with upper balance weight.
Adopting above-mentioned preferred scheme, cylinder stretches out and is connected with upper balance weight, avoids supporting platform on the one hand and rotates, provides support force for support platform on the other hand.
As preferred scheme, it is additionally provided with angle detection mechanism, including calibration tape, fixed pulley, strain gauge and encoder, calibration tape, fixed pulley are arranged on test platform and are positioned at the opposite side of the point of rotation supporting platform, calibration tape is provided with suspension ring, strain gauge is connected with the suspension ring of calibration tape through fixed pulley by stay cord, and encoder is arranged on test platform, for detecting the angle of tumbling of test platform.
Adopting above-mentioned preferred scheme, during test, vehicle travels and is pressed onto on calibration tape, strain gauge draws calibration tape by stay cord, thus judging whether test vehicle reaches the limit of tumbling, then passing through encoder and obtaining the angle of tumbling of vehicle, compared to prior art, easy to operate, detection degree of accuracy is high.
As preferred scheme, it is additionally provided with vehicle limited slip mechanism, its arbitrary long side being arranged at test platform and/or on arbitrary short side;Vehicle limited slip mechanism is that list structure and its height are less than the half of pattern depth.
Adopting above-mentioned preferred scheme, vehicle limited slip mechanism can avoid vehicle not up to the phenomenon that sliding just occurs before required angle on test platform, thus ensureing the degree of accuracy of detection.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of a kind of embodiment of this utility model.
Fig. 2 is the structural representation that a kind of embodiment of this utility model supports platform.
Fig. 3 is the structural representation of a kind of embodiment tilting mechanism of this utility model.
Fig. 4 is the structural representation of a kind of embodiment rotating mechanism of this utility model.
Fig. 5 is the structural representation of a kind of embodiment angle detection mechanism of this utility model.
Wherein, 10. frame, 20. bases, 30. test platform, 301. calibration tapes, 302. fixed pulleys, 31. connecting platform, 32. support platform, 320. base plates, 321. risers, 322. diagonal bar, 40. tilting mechanisms, mounting seat on 401., 402. 403. 2 guide posts of lower mounting seat, 404. drive oil cylinder, 50. rotating mechanisms, 501. rotating shaft, 502. drive motor, 60. hoisting mechanisms.
Detailed description of the invention
Preferred implementation of the present utility model is described in detail below in conjunction with accompanying drawing.
In order to reach the purpose of this utility model, as shown in Figures 1 to 4, one of which embodiment of the present utility model provides a kind of slide-out stabilizing tester, including:
Frame 10, it is vertically arranged;
Base 20, it is arranged between frame 10;
Work platforms, including supporting platform 32, connecting platform 31 and test platform 30, supporting platform 32 and be rotatably provided on base 20, test platform 30 is movably set in frame 10, and connecting platform 31 is arranged on support platform 32 and is flexibly connected with bottom test platform 30;
Tilting mechanism 40, it is arranged on support platform 32 and is connected with connecting platform 31, for driving connecting platform 31 to rotate around itself and the junction point supporting platform 32;
Rotating mechanism 50, it is arranged on base 20 and is connected with supporting platform 32;
Hoisting mechanism 60, it is arranged in frame 10, is used for promoting test platform 30.
Below the operation principle of this paper utility model is described further:
nullTest platform 30 flushes with ground after being positioned in frame 10,Vehicle drives on test platform 30,After connecting platform 31 disengages with test platform 30,Hoisting mechanism 60 ejects and is promoted by test platform 30,Then rotating mechanism 50 drives support platform 32 to rotate to desired location,Thus driving connecting platform 31、Tilting mechanism 40 rotates,After rotation completes, hoisting mechanism 60 is return and is declined by test platform 30,Tilting mechanism 40 drives connecting platform 31 to rotate around itself and the junction point supporting platform 32,Complete detection of tumbling,Accordingly,The direction supporting platform 32 is again changed by the rotation of rotating mechanism 50,Thus realizing lateral direction of car、Longitudinal detection of tumbling,Compared to prior art,Without to adjust direction of traffic,Test platform moderate dimensions,Avoid because test platform is overweight to frame、The impact of tilting mechanism,And it is easy to operate,Ensure that accuracy of detection.
Wherein, above-mentioned test platform 30 is bituminous concrete platform, and the thickness of bituminous concrete platform is 100mm-200mm, present embodiment optional 100mm, 160mm, 200mm.Test platform 30 needs action of tumbling, and needs to leave interval between its surrounding and ground, is provided with detachable protective plate between test platform 30 surrounding and ground.
As shown in Figure 2, in order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, above-mentioned support platform 32 includes base plate 320, riser 321 and diagonal bar 322, base plate 320 is rotatably provided on base 20, and riser 321 is arranged on base plate 320 1 side, and diagonal bar 322 is connected with base plate 320, riser 321 respectively and forms a triangular support side between three.Wherein, riser 321 top is provided with connection axle 323, and connecting platform 31 is rotatably arranged on connection axle 323, connects and is additionally provided with on axle 323 for measuring the encoder (depending on not going out in figure) connecting axle rotational angle.
Adopting above-mentioned preferred scheme, base plate 320, riser 321 and diagonal bar 322 form a triangular support side, Stability Analysis of Structures, it is ensured that the stability of detection.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, being provided with four location locking mechanisms (depending on not going out in figure) between above-mentioned test platform 30 and connecting platform 31, the rounded array of location locking mechanism is arranged.Wherein, location locking mechanism includes locking bed, lower locking bed, alignment pin and positioning cylinder, upper locking bed is provided with hole, location and is arranged at bottom test platform 30, lower locking bed is provided with hole, location and is arranged on connecting platform 31, upper locking bed is in mating connection with lower locking bed, positioning cylinder is arranged on connecting platform 31 and is connected with alignment pin, and alignment pin matches with hole, location.
Adopting above-mentioned preferred scheme, during commutation detection, positioning cylinder exits hole, location, and test platform 30 is upwards ejected by hoisting mechanism 60 so that test platform 30 and connecting platform 31 depart from;After completing commutation, test platform 30 is declined by hoisting mechanism 60, and after upper locking bed coordinates with lower locking bed, positioning cylinder stretches out upper locking bed and lower locking locking so that test platform 30 and connecting platform 31 are locked.
As shown in Figure 3, in order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, above-mentioned tilting mechanism 40 includes mounting seat 401, lower mounting seat 402, drive oil cylinder 404 and two guide posts 403, upper mounting seat 401 is arranged on connecting platform 31, lower mounting seat 402 is arranged on support platform 32, drive oil cylinder to be arranged in lower mounting seat 402 and its outfan is connected with upper mounting seat 401, guide post 403 is actively located in mounting seat 401, it be arranged in parallel in lower mounting seat 402 and with driving oil cylinder 404.
Adopt above-mentioned preferred scheme, driving oil cylinder stretches out so that connecting platform 31 rotates around itself and the junction point supporting platform 32, and guide post 403 1 aspect provides guide effect for driving the extending action of oil cylinder 404, support connecting platform 31 on the one hand, it is ensured that the stability of structure.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, the above-mentioned outfan driving oil cylinder 404 is additionally provided with cone boss, being provided with groove on connecting platform, cone boss is arranged with fit depressions.
Adopting above-mentioned preferred scheme, cone boss is further for driving oil cylinder to provide guide effect, it is ensured that tilting mechanism will not offset.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, between above-mentioned guide post 403 and upper mounting seat 401, lower mounting seat 402, it is additionally provided with copper sheathing (depending on not going out in figure).
Adopting above-mentioned preferred scheme, copper sheathing is wear-resistant on the one hand, provides guide effect for guide post on the other hand.
As shown in Figure 4, in order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, above-mentioned rotating mechanism 50 includes rotating shaft 501, rotating sprocket (depending on not going out in figure) and drives motor 502, rotating shaft 501 rotates and is arranged on base 20 and is connected with supporting platform 32, rotating sprocket is sheathed on rotating shaft 501, drive motor 502 and rotating sprocket to be in transmission connection, rotating shaft 501 is additionally provided with the encoder (depending on not going out in figure) for measuring rotating shaft rotational angle.
Adopt above-mentioned preferred scheme, drive motor 502 that sprocket wheel is rotated to rotate, rotating sprocket is rotated axle 501 and rotates, rotating shaft 501 drives support platform 32 to rotate, the rotational angle of encoder detection rotating shaft 501, thus the anglec of rotation of calculation supporting platform 32, realize the rotation of required angle accurately.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, above-mentioned is additionally provided with strengthening part, including bearing holder (housing, cover), ball bearing mechanism and reinforcement, bearing holder (housing, cover) is arranged on base and is sheathed on rotating shaft 501, along the circumferential direction also sets up multiple ball bearing mechanism between bearing holder (housing, cover) and rotating shaft 501, and reinforcement is arranged at the outer surface of bearing holder (housing, cover) circumferencial direction.
Adopting above-mentioned preferred scheme, reinforcement provides support force for rotating shaft 501, is further ensured that the stability of structure.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, it is additionally provided with balanced controls, including upper balance weight and lower balance weight, being provided with cylinder on lower balance weight and it is arranged at the surrounding of base, upper balance weight is arranged at bottom the surrounding supporting platform 32, and the outfan of cylinder is connected with upper balance weight.
Adopting above-mentioned preferred scheme, cylinder stretches out and is connected with upper balance weight, avoids supporting platform 32 on the one hand and rotates, provides support force for support platform 32 on the other hand.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, it is additionally provided with angle detection mechanism, including calibration tape 301, fixed pulley 302, strain gauge (depending on not going out in figure) and encoder (depending on not going out in figure), calibration tape 301, fixed pulley 302 is arranged on test platform 30 and is positioned at the opposite side of the point of rotation supporting platform 32, calibration tape 301 is provided with suspension ring, strain gauge is connected with the suspension ring of calibration tape 301 through fixed pulley 302 by stay cord, encoder is arranged on test platform 30, for detecting the angle of tumbling of test platform 30.
Adopting above-mentioned preferred scheme, during test, vehicle travels and is pressed onto on calibration tape 301, strain gauge draws calibration tape 301 by stay cord, thus judging whether test vehicle reaches the limit of tumbling, then passing through encoder and obtaining the angle of tumbling of vehicle, compared to prior art, easy to operate, detection degree of accuracy is high.
In order to optimize implementation result of the present utility model further, in another embodiment of the present utility model, on the basis of foregoing teachings, being additionally provided with vehicle limited slip mechanism, it is arranged on a long side of test platform;Vehicle limited slip mechanism is that list structure and its height are less than the half of pattern depth.
Adopting above-mentioned preferred scheme, vehicle limited slip mechanism can avoid vehicle not up to the phenomenon that sliding just occurs before required angle on test platform, thus ensureing the degree of accuracy of detection.
Above-described is only preferred implementation of the present utility model; it should be pointed out that, for the person of ordinary skill of the art, under the premise creating design without departing from this utility model; can also making some deformation and improvement, these broadly fall into protection domain of the present utility model.
Claims (10)
1. slide-out stabilizing tester, it is characterised in that including:
Frame, it is vertically arranged;
Base, it is arranged between described frame;
Work platforms, including supporting platform, connecting platform and test platform, described support platform is rotatably provided on described base, and described test platform is movably set in described frame, and described connecting platform is arranged on described support platform and is flexibly connected with bottom described test platform;
Tilting mechanism, it is arranged on described support platform and is connected with described connecting platform, for driving connecting platform to rotate with the junction point of described support platform around it;
Rotating mechanism, it is arranged on described base and is connected with described support platform;
Hoisting mechanism, it is arranged in described frame, is used for promoting described test platform.
2. slide-out stabilizing tester according to claim 1, it is characterized in that, described support platform includes base plate, riser and diagonal bar, described base plate is rotatably provided on described base, described riser is arranged on described base plate one side, and described diagonal bar is connected with described base plate, riser respectively and forms a triangular support side between three;
Described test platform is bituminous concrete platform, and the thickness of described bituminous concrete platform is 100mm-200mm;
Described riser top is provided with connection axle, and described connecting platform is rotatably arranged on described connection axle, described connection axle is additionally provided with for measuring the encoder connecting axle rotational angle.
3. slide-out stabilizing tester according to claim 1, it is characterised in that be provided with multiple location locking mechanism between described test platform and described connecting platform, the rounded array of described location locking mechanism is arranged.
4. slide-out stabilizing tester according to claim 3, it is characterized in that, described location locking mechanism includes locking bed, lower locking bed, alignment pin and positioning cylinder, described upper locking bed is provided with hole, location and is arranged at bottom described test platform, described lower locking bed is provided with hole, location and is arranged on described connecting platform, described upper locking bed is in mating connection with described lower locking bed, described positioning cylinder is arranged on described connecting platform and is connected with described alignment pin, and described alignment pin matches with hole, described location.
5. slide-out stabilizing tester according to claim 1, it is characterized in that, described tilting mechanism includes mounting seat, lower mounting seat, drives oil cylinder and at least one guide post, described upper mounting seat is arranged on described connecting platform, described lower mounting seat is arranged on described support platform, described driving oil cylinder is arranged in described lower mounting seat and its outfan is connected with described upper mounting seat, and described guide post is actively located in described upper mounting seat, lower mounting seat and be arranged in parallel with described driving oil cylinder.
6. slide-out stabilizing tester according to claim 5, it is characterised in that the outfan of described driving oil cylinder is additionally provided with cone boss, described connecting platform is provided with groove, and described cone boss is arranged with described fit depressions.
7. slide-out stabilizing tester according to claim 1, it is characterized in that, described rotating mechanism includes rotating shaft, rotating sprocket and driving motor, described rotating shaft rotates and is arranged on described base and is connected with described support platform, described rotating sprocket is sheathed on described rotating shaft, described driving motor and described rotating sprocket are in transmission connection, and described rotating shaft is additionally provided with the encoder for measuring rotating shaft rotational angle.
8. slide-out stabilizing tester according to claim 7, it is characterized in that, it is additionally provided with strengthening part, including bearing holder (housing, cover), ball bearing mechanism and reinforcement, described bearing holder (housing, cover) is arranged on described base and is sheathed on described rotating shaft, along the circumferential direction also setting up multiple ball bearing mechanism between described bearing holder (housing, cover) and described rotating shaft, described reinforcement is arranged at the outer surface of described bearing holder (housing, cover) circumferencial direction.
9. slide-out stabilizing tester according to claim 1, it is characterized in that, it is additionally provided with angle detection mechanism, including calibration tape, fixed pulley, strain gauge and encoder, described calibration tape, fixed pulley are arranged on described test platform and are positioned at the opposite side of the point of rotation of described support platform, described calibration tape is provided with suspension ring, described strain gauge is connected with the suspension ring of described calibration tape through fixed pulley by stay cord, described encoder is arranged on described work platforms, for detecting the angle of tumbling of work platforms.
10. slide-out stabilizing tester according to claim 9, it is characterised in that be additionally provided with vehicle limited slip mechanism, its arbitrary long side being arranged at described test platform and/or on arbitrary short side;Described vehicle limited slip mechanism is that list structure and its height are less than the half of pattern depth.
Priority Applications (1)
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CN201521029499.5U CN205388535U (en) | 2015-12-11 | 2015-12-11 | Vehicle overturning stability test platform |
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CN201521029499.5U CN205388535U (en) | 2015-12-11 | 2015-12-11 | Vehicle overturning stability test platform |
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CN201521029499.5U Expired - Fee Related CN205388535U (en) | 2015-12-11 | 2015-12-11 | Vehicle overturning stability test platform |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105424382A (en) * | 2015-12-11 | 2016-03-23 | 中华人民共和国金华出入境检验检疫局 | Vehicle rollover stability test stand |
CN113074958A (en) * | 2021-03-29 | 2021-07-06 | 安徽江淮银联重型工程机械有限公司 | Forklift stability inspection device and method |
CN114544200A (en) * | 2022-02-25 | 2022-05-27 | 北京博瑞翔伦科技发展有限公司 | Side-turning test platform of power grid communication guarantee vehicle |
-
2015
- 2015-12-11 CN CN201521029499.5U patent/CN205388535U/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105424382A (en) * | 2015-12-11 | 2016-03-23 | 中华人民共和国金华出入境检验检疫局 | Vehicle rollover stability test stand |
CN105424382B (en) * | 2015-12-11 | 2018-07-13 | 中华人民共和国金华出入境检验检疫局 | Slide-out stabilizing tester |
CN113074958A (en) * | 2021-03-29 | 2021-07-06 | 安徽江淮银联重型工程机械有限公司 | Forklift stability inspection device and method |
CN113074958B (en) * | 2021-03-29 | 2024-02-27 | 安徽江淮重型工程机械有限公司 | Fork truck stability inspection device and inspection method thereof |
CN114544200A (en) * | 2022-02-25 | 2022-05-27 | 北京博瑞翔伦科技发展有限公司 | Side-turning test platform of power grid communication guarantee vehicle |
CN114544200B (en) * | 2022-02-25 | 2023-08-15 | 北京博瑞翔伦科技发展有限公司 | Side-turning test platform of power grid communication support vehicle |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20160720 Termination date: 20181211 |