CN214928797U - Novel air suspension system - Google Patents

Abstract

The application discloses novel air suspension system belongs to automobile spare and accessory part technical field, can solve the air suspension system automobile body vibration that current car used great, leads to the easy problem of damaging of gasbag. The system comprises an air suspension structure and a vibration damping structure; the air suspension structure comprises a guide arm, and the air bag is arranged at one end of the guide arm; the vibration damping structure comprises a fixing piece, a vibration damping assembly and a vibration damping bracket; the fixing piece is sleeved on the guide arm, and the vibration damping assembly is arranged on the upper end face of the fixing piece; the upper end of the vibration damping support is fixed with the frame, and the lower end of the vibration damping support protrudes towards the direction close to the guide arm and can extend into the vibration damping assembly, so that the vibration damping assembly blocks the vibration damping support from deviating along the frame. The vibration of automobile body can be alleviated, and the damage of gasbag is reduced.

Description

Novel air suspension system

Technical Field

The application relates to the technical field of automobile spare and accessory parts, in particular to a novel air suspension system.

Background

The suspension system is a general term for all force-transmitting connecting devices between the frame of the automobile and the axle or the wheel, and has the functions of transmitting force and moment acting between the wheel and the frame, damping impact force transmitted to the frame or the automobile body from an uneven road surface and attenuating vibration caused by the impact force so as to ensure smooth running of the automobile. There are many types of suspension systems, but the air suspension system is more and more widely used due to the advantages of improving the smoothness of the automobile, reducing the oil consumption, reducing the abrasion of tires and the like. Specifically, the air suspension system is a connecting device among the vehicle body, the frame and the wheels, which can effectively improve the driving smoothness of the vehicle, so that the vehicle can be safely and comfortably taken, and the height of the vehicle body can be automatically adjusted and maintained to be unchanged when the load is changed. The vehicle using the air suspension system has small vibration, can reduce the loss of electric appliances, instruments, a vehicle body and other accessories of a chassis, reduce the maintenance cost of the vehicle, reduce the impact on the road surface, protect the road surface and reduce the maintenance cost of the road.

At present, air suspension systems all comprise load-carrying air bags, the air bags are generally made of materials such as rubber, when an automobile is in a sharp turn and is in a sharp stop, the air bags are easily damaged due to large vibration of the automobile body, the service life of the air bags is shortened, and therefore the safety of the air suspension systems is reduced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a novel air suspension system, and the problem that the air suspension system used by the existing automobile has large body vibration and leads to easy damage of an air bag can be solved.

The embodiment of the utility model provides a novel air suspension system, which comprises an air suspension structure and a vibration damping structure; the air suspension structure comprises a guide arm, and the air bag is arranged at one end of the guide arm; the vibration damping structure comprises a fixing piece, a vibration damping assembly and a vibration damping bracket; the fixing piece is sleeved on the guide arm, and the vibration damping assembly is arranged on the upper end face of the fixing piece; the upper end of the vibration damping support is fixed with the frame, and the lower end of the vibration damping support protrudes towards the direction close to the guide arm and can extend into the vibration damping assembly, so that the vibration damping assembly blocks the vibration damping support from deviating along the frame.

In one possible implementation manner, the vibration damping assembly comprises a mounting frame and an elastic piece; the mounting bracket is hexahedron, and its upper end opening, the interior bottom surface and the medial surface of mounting bracket all set up the elastic component.

In one possible implementation, the elastic members are all rubber springs.

In one possible implementation, the elastic member is a table.

In one possible implementation, the vibration damping mount includes: a connecting plate and a limiting piece; the connecting plate is fixed with the frame; the locating part is the basin form, the upper end of locating part connect in the connecting plate, it is protruding and can stretch into to the direction that is close to the guide arm the subassembly slowly shakes.

In one possible implementation, the vibration damping support further comprises a support cylinder; the upper end of the supporting cylinder is fixedly connected with the connecting plate, and the lower end of the supporting cylinder is fixedly connected with the bottom surface of the limiting part.

In one possible implementation, the fixing member includes: the bolt assembly comprises a first fixing frame, a second fixing frame and a bolt assembly; the first fixing frame is convex, the second fixing frame is concave, and the two sides of the first fixing frame and the second fixing frame are fixed through the bolt assemblies, so that an installation space is formed inside the fixing piece, and the installation space is used for fixing the guide arm.

In a possible implementation manner, the vibration damping structure further comprises a support frame, one end of the support frame is fixedly connected with the vibration damping support, and the other end of the support frame is connected with the frame.

In one possible implementation manner, the support frame includes a first horizontal plate, a vertical plate, and a second horizontal plate; the first transverse plate is fixed with the upper end of the vibration damping support, and the second transverse plate is fixed with the frame; the surfaces of the first transverse plate and the second transverse plate are parallel, and the vertical plate is fixedly arranged between the first transverse plate and the second transverse plate and is vertical to the first transverse plate.

The embodiment of the utility model provides an in one or more technical scheme, following technological effect or advantage have at least:

the embodiment of the utility model provides a novel air suspension system, this novel air suspension system include air suspension structure and buffering structure. The air suspension structure comprises a guide arm, and the air bag is arranged at one end of the guide arm. The vibration damping structure comprises a fixing piece, a vibration damping assembly and a vibration damping support. The fixing piece is sleeved on the guide arm, and the vibration damping assembly is arranged on the upper end face of the fixing piece. The upper end of the vibration damping support is fixed with the frame, and the lower end of the vibration damping support protrudes towards the direction close to the guide arm and can extend into the vibration damping assembly, so that the vibration damping assembly can block the vibration damping support from deviating along the frame. Because the slow vibration support is fixed with the frame to hinder the skew of slow vibration support along the frame when the slow vibration subassembly, can alleviate the vibration of frame, and then alleviate the vibration of automobile body, the automobile body vibration reduces, and the harm that the automobile body vibration that the gasbag bore brought just can reduce, thereby can prolong the life of gasbag, improves air suspension system's security.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a novel air suspension system provided by an embodiment of the present application;

fig. 2 is a schematic structural diagram of a vibration damping assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a vibration damping mount according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a fixing element provided in an embodiment of the present application.

Reference numerals: 1-air suspension structure; 11-a guide arm; 12-an air bag; 2-a vibration damping structure; 21-a fixing member; 211-a first mount; 212-a second mount; 213-a bolt assembly; 22-a vibration damping assembly; 221-a mounting frame; 222-a resilient member; 23-a vibration damping bracket; 231-a connecting plate; 232-a limiting member; 233-support cylinder; 24-a support frame; 241-a first transverse plate; 242-vertical plate; 243-second transverse plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description of the embodiments of the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. The terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

The suspension system is a general term for all force-transmitting connecting devices between the frame of the automobile and the axle or the wheel, and has the functions of transmitting force and moment acting between the wheel and the frame, damping impact force transmitted to the frame or the automobile body from an uneven road surface and attenuating vibration caused by the impact force so as to ensure smooth running of the automobile. There are many types of suspension systems, but the air suspension system is more and more widely used due to the advantages of improving the smoothness of the automobile, reducing the oil consumption, reducing the abrasion of tires and the like. Specifically, the air suspension system is a connecting device among the vehicle body, the frame and the wheels, which can effectively improve the driving smoothness of the vehicle, so that the vehicle can be safely and comfortably taken, and the height of the vehicle body can be automatically adjusted and maintained to be unchanged when the load is changed. The vehicle using the air suspension system has small vibration, can reduce the loss of electric appliances, instruments, a vehicle body and other accessories of a chassis, reduce the maintenance cost of the vehicle, reduce the impact on the road surface, protect the road surface and reduce the maintenance cost of the road.

At present, the air suspension system comprises a load-carrying air bag 12, the air bag 12 is generally made of materials such as rubber, and when an automobile is in a sharp turn and is in a sharp stop, the air bag 12 is easily damaged due to large vibration of the automobile body, the service life of the air bag is shortened, and therefore the safety of the air suspension system is reduced.

Referring to fig. 1, an embodiment of the present invention provides a novel air suspension system, which includes an air suspension structure 1 and a vibration damping structure 2. The air suspension 1 comprises a guide arm 11, and an air bag 12 is arranged at one end of the guide arm 11. The vibration damping structure 2 includes a fixing member 21, a vibration damping member 22, and a vibration damping bracket 23. On the guide arm 11 was located to mounting 21 cover, the subassembly 22 that slowly shakes set up in the up end of mounting 21, specifically, the subassembly 22 that slowly shakes is fixed to be set up in the up end of mounting 21, can weld the up end of mounting 21 and the lower terminal surface of the subassembly 22 that slowly shakes, realizes that the subassembly 22 that slowly shakes is fixed to be set up in the up end of mounting 21. The upper end of the vibration damping support 23 is fixed with the vehicle frame, and the lower end of the vibration damping support 23 protrudes towards the direction close to the guide arm 11 and can extend into the vibration damping assembly 22, so that the vibration damping assembly 22 can prevent the vibration damping support 23 from deviating along the vehicle frame. Because the vibration damping support 23 is fixed with the frame, when the vibration damping assembly 22 hinders the deviation of the vibration damping support 23 along the frame, the vibration of the frame can be relieved, and then the vibration of the vehicle body is relieved, the vibration of the vehicle body is reduced, and the damage caused by the vibration of the vehicle body born by the air bag 12 is reduced, so that the service life of the air bag 12 can be prolonged, and the safety of the air suspension system is improved.

As shown in fig. 2, the vibration damping assembly 22 includes a mounting bracket 221 and an elastic member 222. The mounting bracket 221 is a hexahedron whose upper end is open, and elastic members 222 are provided on both the inner bottom surface and the inner side surface of the mounting bracket 221 (for easy viewing of the internal structure of the vibration damping unit 22, the structure of one side wall of the vibration damping unit 22 and one elastic member 222 is omitted in fig. 2). The elastic member 222 disposed on the inner side of the mounting bracket 221 can provide lateral acting force for the vibration damping support 23, so that when the automobile turns or suddenly stops, the lateral deviation of the vibration damping support 23 can be prevented in time. The elastic member 222 disposed on the inner bottom surface of the mounting bracket 221 can provide an acting force perpendicular to the inner bottom surface to the vibration damping bracket 23, so that when the vehicle bumps, the vibration damping bracket 23 can be prevented from shifting in the vertical direction.

With continued reference to fig. 2, the inner side of the mounting bracket 221 is generally at a predetermined angle with respect to the inner bottom surface, and the predetermined angle is generally obtuse, thereby facilitating the installation of each elastic member 222. The size of the preset angle is selected by those skilled in the art according to the type and setting requirements of the installed elastic member 222.

Alternatively, the elastic members 222 are all rubber springs. The rubber spring is a high elastic body, has a small elastic modulus, has a large elastic deformation after being loaded, and easily realizes ideal nonlinear characteristics so as to absorb impact and vibration. It also has high internal resistance, so that it has good effect on absorbing sudden impact and high-frequency vibration, and has good vibration damping and sound insulation effects. The rubber spring can simultaneously receive multi-directional load, thereby simplifying the structure of the vibration damping assembly 22. The rubber spring is simple and convenient to mount and dismount, does not need to be lubricated, and is beneficial to maintenance. The rubber spring also has the advantages of good vibration damping effect, small resonance field, long service life, low cost, good cold resistance, excellent air tightness, water resistance, electric insulation property and the like. Of course, the elastic member 222 may also be a cylindrical spring, an inflatable air bag, or other types of elastic members 222, which is not limited in the embodiments of the present application.

As shown in fig. 2, the elastic member 222 is a table body, so as to facilitate installation and arrangement of the elastic member 222 in the inner space of the mounting frame 221. When the angle is predetermine to mounting bracket 221 medial surface and interior bottom surface, when elastic component 222 was rubber spring, the bottom surface of installing in the elastic component 222 of the inside wall of mounting bracket 221 cooperatees with the inside wall of mounting bracket 221, can form a great space above interior bottom surface to can place a great elastic component 222 of volume on the bottom surface including, and then make the slow effect of shaking on the slow component 22 vertical direction better.

Referring to fig. 3, the vibration damping mount 23 includes: a connecting plate 231 and a stopper 232. The connection plate 231 is fixed to the vehicle body frame (for the sake of easy viewing of the internal structure of the vibration damping bracket 23, fig. 3 is a sectional view of the vibration damping bracket 23). The limiting member 232 is basin-shaped, and the upper end of the limiting member 232 is connected to the connecting plate 231, and it protrudes toward the direction close to the guide arm 11 and can extend into the vibration damping assembly 22. In order to improve the effect of the vibration damping assembly 22 on preventing the vibration damping bracket 23 from deviating along the vehicle frame, the outer side surface of the side wall of the vibration damping bracket 23 is attached to the end surface of the elastic member 222 away from the mounting bracket 221, so that the vibration damping effect is improved. Of course, the vibration damping support 23 may also include a vertical rod and a platform, one end of the vertical rod is fixed to the frame, the other end of the vertical rod is fixed to the platform, and the platform can extend into the vibration damping assembly 22.

In practical applications, if the limiting member 232 is a hollow cavity, it is easily deformed when receiving the action force of the vibration damping assembly 22, so that the vibration damping effect is reduced. As shown in fig. 3, the vibration damping mount 23 further includes a support cylinder 233, an upper end of the support cylinder 233 is fixedly connected to the connection plate 231, and a lower end of the support cylinder 233 is fixedly connected to the bottom surface of the limiting member 232, so that the connection plate 231 is connected to the bottom surface of the limiting member 232, and the strength of the limiting member 232 is improved. Since the support cylinder 233 is cylindrical, the weight of the stopper 232 can be reduced while the strength of the stopper 232 is ensured.

As shown in fig. 4, the fixing member 21 includes: a first fixing frame 211, a second fixing frame 212 and a bolt assembly 213. The first fixing frame 211 is convex, the second fixing frame 212 is concave, and two sides of the first fixing frame 211 and the second fixing frame 212 are fixed by the bolt assembly 213, so that an installation space is formed inside the fixing member 21, and the installation space is used for fixing the guide arm 11. The fixing frame is simple in structure and good in fixing effect. Of course, since the cross-sectional shapes of the guide arms 11 are different, the convex shape of the first fixing frame 211 and the concave shape of the second fixing frame 212 can be adjusted according to actual conditions, so that the internal space formed after the first fixing frame 211 and the second fixing frame 212 are fixed by the bolt assembly 213 can be adapted to the cross-sectional shape of the guide arms 11, and the vibration damping structure 2 can be fixed more firmly.

Of course, the fixing member 21 may further include a U-shaped hoop, a first fixing piece and a second fixing piece, the first fixing piece is provided with four through holes, and is disposed on the vibration damping assembly 22, the second fixing piece is provided with four through holes, and is disposed below the guide arm 11, the front end of one U-shaped hoop sequentially passes through two through holes on the first fixing piece and two through holes on the second fixing piece, respectively, and then is sleeved with a bolt, the front end of the other U-shaped hoop sequentially passes through another two through holes on the first fixing piece and another two through holes on the second fixing piece, and then is sleeved with a bolt, so that the vibration damping assembly 22 is fixed on the guide arm 11.

In practical application, because the distance between the frame of the automobile and the guide arm 11 is different, when the distance between the frame of the automobile and the guide arm 11 is proper, the vibration damping support 23 can be directly and fixedly connected with the frame; when the distance from the frame of the automobile to the guide arm 11 is relatively long, as shown in fig. 1, the vibration damping structure 2 further includes a support frame 24, one end of the support frame 24 is fixedly connected with the vibration damping support 23, and the other end is connected with the frame, so that the vibration damping support 23 can be connected with the frame through the support frame 24.

With continued reference to fig. 1, the supporting frame 24 includes a first horizontal plate 241, an upright plate 242, and a second horizontal plate 243. The first cross plate 241 is fixed to the upper end of the vibration damping bracket 23, and the second cross plate 243 is fixed to the vehicle frame. The surfaces of the first horizontal plate 241 and the second horizontal plate 243 are parallel, and the vertical plate 242 is fixedly installed between the first horizontal plate 241 and the second horizontal plate 243, and the surface is perpendicular to the first horizontal plate 241, so that an i-shaped support frame 24 is formed, and the weight of the support frame 24 can be reduced while the strength and the stability of the support frame 24 are ensured. Of course, the support frame 24 may also be a hollow hexahedron, the lower end surface of which is fixed to the vibration damping support 23, and the upper end surface of which is fixed to the vehicle frame.

The embodiments in the present specification are described in a progressive manner, and the same or similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the present application; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure.

Claims (9)

1. The novel air suspension system is characterized by comprising an air suspension structure (1) and a vibration damping structure (2);

the air suspension structure (1) comprises a guide arm (11), and an air bag (12) is arranged at one end of the guide arm (11);

the vibration damping structure (2) comprises a fixing piece (21), a vibration damping component (22) and a vibration damping support (23);

the fixing piece (21) is sleeved on the guide arm (11), and the vibration damping assembly (22) is arranged on the upper end face of the fixing piece (21);

the upper end of the vibration damping support (23) is fixed with the frame, and the lower end of the vibration damping support is protruded towards the direction close to the guide arm (11) and can extend into the vibration damping assembly (22), so that the vibration damping assembly (22) can block the vibration damping support (23) from deviating along the frame.

2. The new air suspension system as claimed in claim 1, wherein said damping assembly (22) comprises a mounting bracket (221) and an elastic member (222);

the mounting bracket (221) is hexahedron, the upper end of the mounting bracket is open, and the elastic piece (222) is arranged on the inner bottom surface and the inner side surface of the mounting bracket (221).

3. The novel air suspension system as claimed in claim 2 wherein said resilient members (222) are all rubber springs.

4. A novel air suspension system as claimed in claim 2 or 3 wherein said resilient member (222) is a table.

5. The new air suspension system as claimed in claim 1, characterized in that said shock absorbing mount (23) comprises: a connecting plate (231) and a stopper (232);

the connecting plate (231) is fixed with the frame;

the locating part (232) is basin-shaped, and the upper end of locating part (232) connect in connecting plate (231), it is protruding and can stretch into to the direction that is close to guide arm (11) damping subassembly (22).

6. The new air suspension system as claimed in claim 5 wherein said shock mount (23) further includes a support cylinder (233);

the upper end of the supporting cylinder (233) is fixedly connected with the connecting plate (231), and the lower end of the supporting cylinder is fixedly connected with the bottom surface of the limiting piece (232).

7. The new air suspension system as claimed in claim 1, wherein said fixing member (21) comprises: a first fixing frame (211), a second fixing frame (212) and a bolt assembly (213);

first mount (211) are protruding type, second mount (212) are concave type, first mount (211) with the both sides of second mount (212) are passed through bolt assembly (213) are fixed, so that mounting space is formed to mounting (21) inside, mounting space is used for fixing leading arm (11).

8. The novel air suspension system as claimed in claim 1, wherein the vibration damping structure (2) further comprises a support frame (24), one end of the support frame (24) is fixedly connected with the vibration damping support (23), and the other end is connected with the vehicle frame.

9. The new air suspension system as claimed in claim 8 wherein said support bracket (24) includes a first cross plate (241), a riser (242) and a second cross plate (243);

the first transverse plate (241) is fixed with the upper end of the vibration damping bracket (23), and the second transverse plate (243) is fixed with the frame;

the surfaces of the first transverse plate (241) and the second transverse plate (243) are parallel, and the vertical plate (242) is fixedly arranged between the first transverse plate (241) and the second transverse plate (243) and is vertical to the first transverse plate (241).

Images