CN205981717U - Biax is brakied platform and is had vehicle detecting device of this biax braking platform - Google Patents
Biax is brakied platform and is had vehicle detecting device of this biax braking platform Download PDFInfo
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- CN205981717U CN205981717U CN201621010086.7U CN201621010086U CN205981717U CN 205981717 U CN205981717 U CN 205981717U CN 201621010086 U CN201621010086 U CN 201621010086U CN 205981717 U CN205981717 U CN 205981717U
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- driving means
- twin shaft
- drum assembly
- brake platform
- shaft brake
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Abstract
The utility model discloses a biax is brakied platform and is had vehicle detecting device of this biax braking platform relates to the vehicle detection technology field, and the problem of solution is the biax braking platform that provides a compact structure. The main technical scheme who adopts does: biax braking platform is including rack, four at least roller assembly and drive arrangement. The rack has the accommodation space, per two roller assembly arranges the accommodation space top, and per two the coaxial setting of roller assembly, every roller assembly with rack fixed connection for place the wheel of vehicle, drive arrangement's quantity with roller assembly quantity is the same, every drive arrangement is located two and arranges between the roller assembly who sets up, and with one roller assembly's a pivot coaxial coupling.
Description
Technical field
This utility model is related to technical field of vehicle detection, more particularly, to a kind of twin shaft brake platform and have this twin shaft braking
The vehicle equipment of platform.
Background technology
Twin shaft brake platform be mainly used in vehicle carry out static brake anti-lock braking system (antilock brake system,
ABS) test.Existing twin shaft brake platform is typically reductor to be arranged on the outside of drum assembly, by being placed on wheel
At the drum assembly of twin shaft brake platform.When vehicle is in neutral position, reductor work drives drum assembly to rotate, drum assembly
Turn and drive vehicle wheel rotation;When vehicle is braked, would know that the brake force of vehicle by the brake force detecting reductor.By
Be arranged on the outside of drum assembly so that the wider width of twin shaft brake platform in reductor, be not easy to twin shaft brake platform packaging,
Transport.Especially since existing twin shaft brake platform size is larger, when passing in and out plant gate, need to remake Factory Building big
Door.
Utility model content
In view of this, main purpose of the present utility model is, provides twin shaft brake platform and the vehicle of a kind of compact conformation
Testing equipment.
For reaching above-mentioned purpose, this utility model mainly provides following technical scheme:
On the one hand, this utility model provides a kind of twin shaft brake platform, and described twin shaft brake platform includes:
Stand, described stand has accommodation space;
At least four drum assemblies, drum assembly described in each two is arranged in above described accommodation space, and each two institute
State drum assembly to be coaxially disposed;Each described drum assembly is fixedly connected with described stand, for placing the wheel of vehicle;
Driving means, the quantity of driving means is identical with described drum assembly quantity;Each described driving means is located at two
Between the drum assembly of individual spread configuration and coaxially connected with a rotating shaft of drum assembly described in.
The purpose of this utility model and solve its technical problem and also can be applied to the following technical measures to achieve further.
Foregoing twin shaft brake platform, wherein, two drivings between the drum assembly of two spread configurations fill
Put and be crisscross arranged.
Foregoing twin shaft brake platform, wherein, described driving means include rotating shaft and body;
Through the first end of described body, described first end is the thickness of described body for the rotating shaft of described driving means
The minimum position of degree.
Foregoing twin shaft brake platform, wherein, the second end of described body is located in described accommodation space, and described the
The thickness of two ends is more than the thickness of described first end.
Foregoing twin shaft brake platform, wherein, described twin shaft brake platform also includes:
Detector, described detector is connected with described driving means, for detecting suffered by the rotating shaft of described driving means
Resistance.
Foregoing twin shaft brake platform, wherein, described detector is pressure transducer, accordingly, described twin shaft braking
Platform also includes:
Pressure arm, described pressure arm is fixedly connected with described driving means, and compressing of described pressure arm is held and described pressure transducer
Corresponding;
When described driving means are braked, under effect of inertia described driving means make described in compress end with described pressure
Force transducer is conflicted.
Foregoing twin shaft brake platform, wherein, described drum assembly includes:It is arranged in order the first cylinder of setting, prop up
Support member and second tin roller;
Described support member is connected with described stand liftable, for being placed on described drum assembly when the wheel of described vehicle
When upper, described support member declines makes described wheel contact with described first cylinder and described second tin roller;
Described first cylinder or described second tin roller are coaxially connected with described driving means, described first cylinder, described
It is equipped with gear, two gears are connected by chain on the end away from described driving means of two cylinders.
Foregoing twin shaft brake platform, wherein, described driving means are reductor.
On the other hand, this utility model provides a kind of vehicle equipment, and described vehicle equipment includes:Twin shaft is braked
Platform, described twin shaft brake platform includes:
Stand, described stand has accommodation space;
At least four drum assemblies, drum assembly described in each two is arranged in above described accommodation space, and each two institute
State drum assembly to be coaxially disposed;Each described drum assembly is fixedly connected with described stand, for placing the wheel of described vehicle;
Driving means, the quantity of driving means is identical with described drum assembly quantity;Each described driving means is located at two
Between the drum assembly of individual spread configuration and coaxially connected with a rotating shaft of drum assembly described in.
A kind of twin shaft brake platform providing by technique scheme, this utility model and the car with this twin shaft brake platform
Testing equipment at least has following advantages:
The technical scheme that this utility model embodiment provides is arranged in cylinder by driving means are arranged on two
Between assembly, sufficiently make use of the space between the drum assembly of two spread configurations so that compact conformation, be easy to twin shaft system
The packaging of dynamic platform and transport.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model
Art means, and being practiced according to the content of description, below with preferred embodiment of the present utility model and coordinate accompanying drawing detailed
Describe in detail bright as after.
Brief description
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment
Or in description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, drawings in the following description are
Some embodiments of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work,
Other accompanying drawings can also be obtained according to these accompanying drawings.
The structural representation of the twin shaft brake platform that Fig. 1 provides for this utility model embodiment;
Fig. 2 is the partial enlarged drawing of A in Fig. 1;
The top view of the twin shaft brake platform that Fig. 3 provides for this utility model embodiment;
The first direction view of the twin shaft brake platform that Fig. 4 provides for this utility model embodiment;
Fig. 5 is the partial enlarged drawing of B in Fig. 4.
Specific embodiment
For further illustrating that this utility model is to reach technological means and effect that predetermined utility model purpose is taken,
Below in conjunction with accompanying drawing and preferred embodiment, to according to the utility model proposes the specific embodiment of technical scheme, structure, spy
Levy and its effect, after describing in detail such as.In the following description, what different " embodiment " or " embodiment " referred to is not necessarily same
One embodiment.Additionally, special characteristic in one or more embodiments, structure or feature can be combined by any suitable form.
Structural representation as the twin shaft brake platform that Fig. 1 provides for this utility model embodiment.Specifically, in conjunction with Fig. 1 extremely
Shown in Fig. 4, the twin shaft brake platform that the present embodiment provides includes:Stand 1, at least four drum assemblies 2 and driving means 3.Stand
1st, the summary of the annexation between drum assembly 2 and driving means 3, position relationship and work relationship, specific as follows:
Stand 1 has accommodation space 11.Wherein, stand 1 has multiple supports to be staggered installation of to form (as shown in fig. 1).?
In this utility model embodiment, the material of stand 1 can be current material, and this utility model embodiment is not specifically limited.
Each two drum assembly 2 is arranged in above accommodation space 11, and each two drum assembly 2 is coaxially disposed.Each rolling
Cartridge module 2 is fixedly connected with stand 1, for placing the wheel of vehicle.That is, each drum assembly 2 on stand 1 and car
Wheel correspond to, and corresponding two roll wheel assemblies of two wheels at headstock (tailstock) place of vehicle are coaxial.In practical application
In, the wheel of vehicle can be " four " or " six ", accordingly, the quantity of the roll wheel assembly on stand 1 and the wheel of vehicle
Quantity is consistent, can be " four " or " six ".
The quantity of driving means 3 is identical with drum assembly 2 quantity.That is, each roll wheel assembly connects one drives dress
Put 3.Each driving means 3 is located between the drum assembly 2 of two spread configurations, and coaxial with a rotating shaft of a drum assembly 2
Connect.It is contemplated that the set location of vehicle headstock (tailstock) wheel, so, two spread configurations at stand 1 two ends
Between drum assembly 2, there is certain interval.Driving means 3 are arranged on the structure spy that sufficiently make use of stand 1 in this gap
Point is so that twin shaft brake platform compact conformation.The size of the twin shaft brake platform providing compared with prior art, this utility model embodiment is relatively
Little, it is easy to pack and transports, especially when passing in and out Factory Building, the door of Factory Building need not be remake, solve existing twin shaft braking
Platform passes in and out the difficult defect of plant gate.
According to the standard size of vehicle, as shown in figure 1, on stand 1 roll wheel assembly of two spread configurations inner side D size
For 0.8m, outside L dimension is 2.0m.In prior art, driving means 3 are lain in behind the outside of roll wheel assembly, twin shaft is braked
The overall width of platform is more than 4.0m.And in this utility model embodiment, driving means 3 are arranged on the roller of two spread configurations
(the inner side D a size of space of 0.8m of the roll wheel assembly of two spread configurations is make use of) so that double in space between assembly
The overall width of axle brake platform is compressed to 2.8m.Therefore, this uses the twin shaft brake platform compact conformation described in new embodiment,
Reduce cost, be more suitable for practicality.
Further, for saving driving means 3 taking up room between the drum assembly 2 of two spread configurations, above-mentioned
Described in utility model embodiment, two driving means 3 between the drum assembly 2 of two spread configurations are interlocked and are set
Put.When being embodied as, as shown in figure 1, two driving means 3 are at diagonal positions with two drum assemblies 2 respectively
Cylinder connects.
Further, the driving means 3 described in above-mentioned utility model embodiment include rotating shaft and body.Driving means 3
Rotating shaft through body first end, first end is the minimum position of thickness of body.In other words, in the axle of cylinder
Upwards, the size of driving means 3 is minimum, thus more effectively reduce driving means 3 two spread configurations drum assembly 2 it
Between take up room, it is easy to accomplish.
Further, in order to sufficiently utilize the accommodation space 11 of stand 1 itself, described in above-mentioned utility model embodiment
The second end of body be located in accommodation space 11, the thickness of the second end is more than the thickness of first end.That is, driving
The larger-size position of dynamic device 3 is placed in the accommodation space 11 of stand 1, thus reduce driving means 3 as far as possible arranging at two
Taking up room between the drum assembly 2 of row setting.
Further, the twin shaft brake platform described in above-mentioned utility model embodiment also includes:Detector (is not given and shows
Figure).Detector is connected with driving means 3, for detecting the resistance suffered by the rotating shaft of driving means 3.In the specific implementation, by car
It is placed on stand 1, the wheel of vehicle is placed on the drum assembly 2 on stand 1.When vehicle is in neutral position, drive
Device 3 work drives drum assembly 2 to rotate, and drum assembly 2 rotational band motor car wheel rotates;When vehicle is braked, wheel is given
Drum assembly 2 counteracting force, drum assembly 2 slows down and the rotating shaft resistance to driving means 3 in the presence of wheel, driving means
3 stop in the presence of resistance, and now, the detector being connected with driving means 3 detects the resistance of driving means 3, thus can obtain
Know the brake force of vehicle.
When being embodied as, in conjunction with shown in Fig. 4 and Fig. 5, detector described above is pressure transducer, accordingly, twin shaft
Brake platform also includes:Pressure arm 4.Pressure arm 4 is fixedly connected with driving means 3, pressure arm 4 compress end corresponding with pressure transducer.When
When driving means 3 are braked, under effect of inertia, driving means 3 make to compress end and pressure transducer conflict.In the present embodiment
In, pressure arm can be connected with the side of driving means it is also possible to be connected with the second end of driving means, and this utility model is implemented
Example is not specifically limited.When being embodied as, the direction of motion of the rotating shaft according to driving means is it is preferred that pressure arm arranges and drives
The side of device is fixedly connected.Specific work process is:When vehicle is in neutral position, driving means 3 work drives cylinder group
Part 2 rotates, and drum assembly 2 rotational band motor car wheel rotates;When vehicle is braked (brake), wheel is made to drum assembly 2 is counter
Firmly, drum assembly brake makes the brake force of wheel be conducted to driving means by drum assembly.Due to driving means
It is connected with pressure arm, pressure arm is corresponding with pressure transducer.So, pressure arm transmits the force to pressure transducer, and pressure transducer obtains
Brake force numerical value, and know ABS whether normal work.
Further, in conjunction with shown in Fig. 1 and Fig. 2, the drum assembly 2 described in above-mentioned utility model embodiment includes:According to
First cylinder 21 of secondary spread configuration, support member 23 and second tin roller 22.Support member 23 is connected with stand liftable, for working as car
Wheel when being placed on drum assembly 2, support member 23 declines makes wheel contact with the first cylinder 21 and second tin roller 22.The
One cylinder 21 or second tin roller 22 are coaxially connected with driving means 3, the first cylinder 21, second tin roller 22 away from driving means 3
End on be equipped with gear, two gears are connected by chain.When being embodied as, connected with driving means 3 and the first cylinder 21
It is connected in example:When driving means 3 work, driving means 3 drive the first cylinder 21 to rotate, and the gear of the first cylinder 21 passes through chain
Second tin roller 22 is driven to rotate, common drive vehicle wheel rotation after the first cylinder 21 and second tin roller 22 rotation.
In actual applications, so that driving means 3 are connected with the first cylinder 21 as a example:Vehicle is placed on stand 1, vehicle
Wheel be placed on the drum assembly 2 on stand 1, support member 23 decline so that wheel is connect with the first cylinder 21 and second tin roller 22
Touch.When vehicle is in neutral position, driving means 3 work drives the first cylinder 21 to rotate, and the gear of the first cylinder 21 passes through chain
Bar drives second tin roller 22 to rotate, common drive vehicle wheel rotation after the first cylinder 21 and second tin roller 22 rotation;When vehicle is carried out
During braking, wheel gives the first cylinder 21 and/or second tin roller 22 counteracting force, the first cylinder 21 and second tin roller 22 in wheel
Effect is lower to slow down and the rotating shaft resistance to driving means 3, and driving means 3 stop in the presence of resistance, now, with driving means
The detector of 3 connections detects the resistance of driving means 3, thus would know that the brake force of vehicle, and then realizes vehicle ABS is surveyed
Examination.
It should be noted that the driving means described in above-mentioned utility model embodiment are reductor.In actual applications,
Reductor can be selected for K series reduction.
This utility model embodiment provides a kind of vehicle equipment, and described vehicle equipment includes:Twin shaft brake platform.
In conjunction with shown in Fig. 1 to Fig. 4, described twin shaft brake platform includes stand 1, at least four drum assemblies 2 and driving means 3.Stand 1,
The summary of the annexation between drum assembly 2 and driving means 3, position relationship and work relationship, specific as follows:
Stand 1 has accommodation space 11.Wherein, stand 1 has multiple supports to be staggered installation of to form (as shown in fig. 1).?
In this utility model embodiment, the material of stand 1 can be current material, and this utility model embodiment is not specifically limited.
Each two drum assembly 2 is arranged in above accommodation space 11, and each two drum assembly 2 is coaxially disposed.Each rolling
Cartridge module 2 is fixedly connected with stand 1, for placing the wheel of vehicle.That is, each drum assembly 2 on stand 1 and car
Wheel correspond to, and corresponding two roll wheel assemblies of two wheels at headstock (tailstock) place of vehicle are coaxial.In practical application
In, the wheel of vehicle can be " four " or " six ", accordingly, the quantity of the roll wheel assembly on stand 1 and the wheel of vehicle
Quantity is consistent, can be " four " or " six ".
The quantity of driving means 3 is identical with drum assembly 2 quantity.That is, each roll wheel assembly connects one drives dress
Put 3.Each driving means 3 is located between the drum assembly 2 of two spread configurations, and coaxial with a rotating shaft of a drum assembly 2
Connect.It is contemplated that the set location of vehicle headstock (tailstock) wheel, so, two spread configurations at stand 1 two ends
Between drum assembly 2, there is certain interval.Driving means 3 are arranged on the structure spy that sufficiently make use of stand 1 in this gap
Point is so that twin shaft brake platform compact conformation.The size of the twin shaft brake platform providing compared with prior art, this utility model embodiment is relatively
Little, it is easy to pack and transports, especially when passing in and out Factory Building, the door of Factory Building need not be remake, solve existing twin shaft braking
Platform passes in and out the difficult defect of plant gate.
According to the standard size of vehicle, as shown in figure 1, on stand 1 roll wheel assembly of two spread configurations inner side D size
For 0.8m, outside L dimension is 2.0m.In prior art, driving means 3 are lain in behind the outside of roll wheel assembly, twin shaft is braked
The overall width of platform is more than 4.0m.And in this utility model embodiment, driving means 3 are arranged on the roller of two spread configurations
(the inner side D a size of space of 0.8m of the roll wheel assembly of two spread configurations is make use of) so that double in space between assembly
The overall width of axle brake platform is compressed to 2.8m.Therefore, this uses the twin shaft brake platform compact conformation described in new embodiment,
Reduce cost, be more suitable for practicality.
Specifically, the twin shaft brake platform described in the present embodiment can directly adopt the described twin shaft system that above-described embodiment provides
Dynamic platform, concrete implementation structure can be found in the related content described in above-described embodiment, and here is omitted.
In the above-described embodiments, the description to each embodiment all emphasizes particularly on different fields, and does not have the portion described in detail in certain embodiment
Point, may refer to the associated description of other embodiment.
It is understood that the correlated characteristic in said apparatus can mutually reference.In addition, in above-described embodiment " the
One ", " second " etc. is for distinguishing each embodiment, and does not represent the quality of each embodiment.
In description mentioned herein, illustrate a large amount of details.It is to be appreciated, however, that it is of the present utility model
Embodiment can be put into practice in the case of not having these details.In some instances, known structure is not been shown in detail
And technology, so as not to obscure the understanding of this description.
Similarly it will be appreciated that in order to simplify the disclosure and help understand one of each utility model aspect or many
Individual, in the description to exemplary embodiment of the present utility model above, each feature of the present utility model is divided sometimes together
Group is in single embodiment, figure or descriptions thereof.However, the device of the disclosure should be construed to reflect following meaning
Figure:I.e. this utility model required for protection requires more features than the feature being expressly recited in each claim.
More precisely, as the following claims reflect, utility model aspect is single less than disclosed above
All features of embodiment.Therefore, it then follows claims of specific embodiment are thus expressly incorporated in this specific embodiment party
Formula, wherein each claim itself is as separate embodiments of the present utility model.
Those skilled in the art are appreciated that and the part in the device in embodiment can be carried out adaptively
Change and they are arranged in one or more devices different from this embodiment.Can be the unit construction in embodiment
Become a part, and multiple subassemblies can be divided in addition.Except at least some of such feature is mutual
Outside repulsion, can be using any combinations to the institute disclosed in this specification (including adjoint claim, summary and accompanying drawing)
Feature and all parts of so disclosed any device are had to be combined.Unless expressly stated otherwise, this specification (includes
Adjoint claim, summary and accompanying drawing) disclosed in each feature can be by the replacement providing identical, equivalent or similar purpose
Feature is replacing.
Although additionally, it will be appreciated by those of skill in the art that some embodiments described herein include other embodiments
In included some features rather than further feature, but the combination of the feature of different embodiment means to be in this practicality newly
Within the scope of type and form different embodiments.For example, in the following claims, embodiment required for protection
One of arbitrarily can in any combination mode using.All parts embodiment of the present utility model can be real with hardware
Existing, or realized with combinations thereof.
It should be noted that above-described embodiment illustrates rather than to this utility model limiting to this utility model,
And those skilled in the art can design alternative embodiment without departing from the scope of the appended claims.In right
In requirement, any reference markss between bracket should not be configured to limitations on claims.Word "comprising" is not arranged
Remove and there is part not listed in the claims or assembly.Word "a" or "an" before part or assembly is not excluded for
There is multiple such parts or assembly.This utility model can be realized by means of the device including some difference parts.
If in the claim listing dry part, several in these parts can be Lai concrete body by same part item
Existing.The use of word first, second, and third does not indicate that any order.These words can be construed to title.
The above, be only preferred embodiment of the present utility model, not this utility model is made any formal
Restriction, any simple modification, equivalent variations and modification above example made according to technical spirit of the present utility model,
All still fall within the range of technical solutions of the utility model.
Claims (9)
1. a kind of twin shaft brake platform is it is characterised in that include:
Stand, described stand has accommodation space;
At least four drum assemblies, drum assembly described in each two is arranged in above described accommodation space, and rolls described in each two
Cartridge module is coaxially disposed;Each described drum assembly is fixedly connected with described stand, for placing the wheel of vehicle;
Driving means, the quantity of driving means is identical with described drum assembly quantity;Each described driving means is located at two rows
Between the drum assembly of row setting and coaxially connected with a rotating shaft of drum assembly described in.
2. twin shaft brake platform according to claim 1 it is characterised in that be located at two spread configurations drum assembly between
Two driving means be crisscross arranged.
3. twin shaft brake platform according to claim 1 is it is characterised in that described driving means include rotating shaft and body;
The rotating shaft of described driving means through the first end of described body, described first end be the thickness of described body
Little position.
4. twin shaft brake platform according to claim 3 is it is characterised in that the second end of described body is located at described housing
In space, the thickness of described the second end is more than the thickness of described first end.
5. the twin shaft brake platform according to claim 3 or 4 is it is characterised in that described twin shaft brake platform also includes:
Detector, described detector is connected with described driving means, for detecting the resistance suffered by the rotating shaft of described driving means.
6. twin shaft brake platform according to claim 5 it is characterised in that described detector be pressure transducer, accordingly,
Described twin shaft brake platform also includes:
Pressure arm, described pressure arm is fixedly connected with described driving means, described pressure arm compress end corresponding with described pressure transducer;
When described driving means are braked, under effect of inertia described driving means make described in compress end and pass with described pressure
Sensor is conflicted.
7. twin shaft brake platform according to claim 1 is it is characterised in that described drum assembly includes:It is arranged in order setting
The first cylinder, support member and second tin roller;
Described support member is connected with described stand liftable, for being placed on described drum assembly when the wheel of described vehicle
When, described support member declines makes described wheel contact with described first cylinder and described second tin roller;
Described first cylinder or described second tin roller are coaxially connected with described driving means, described first cylinder, described second rolling
It is equipped with gear, two gears are connected by chain on the end away from described driving means of cylinder.
8. the twin shaft brake platform according to any one of Claims 1 to 4 and 6 and 7 is it is characterised in that described driving means
For reductor.
9. a kind of vehicle equipment is it is characterised in that described vehicle equipment includes:Arbitrary in the claims 1~8
Twin shaft brake platform described in.
Priority Applications (1)
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CN201621010086.7U CN205981717U (en) | 2016-08-30 | 2016-08-30 | Biax is brakied platform and is had vehicle detecting device of this biax braking platform |
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CN201621010086.7U CN205981717U (en) | 2016-08-30 | 2016-08-30 | Biax is brakied platform and is had vehicle detecting device of this biax braking platform |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106198055A (en) * | 2016-08-30 | 2016-12-07 | 北京博科测试系统股份有限公司 | Twin shaft brake platform and there is the vehicle equipment of this twin shaft brake platform |
-
2016
- 2016-08-30 CN CN201621010086.7U patent/CN205981717U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106198055A (en) * | 2016-08-30 | 2016-12-07 | 北京博科测试系统股份有限公司 | Twin shaft brake platform and there is the vehicle equipment of this twin shaft brake platform |
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