CN114837041A

CN114837041A - Single support arm road roller vibration wheel

Info

Publication number: CN114837041A
Application number: CN202210677098.9A
Authority: CN
Inventors: 刘浩; 黄析; 夏磐夫; 牛春亮
Original assignee: Xuzhou XCMG Road Construction Machinery Co Ltd
Current assignee: Xuzhou XCMG Road Construction Machinery Co Ltd
Priority date: 2022-06-16
Filing date: 2022-06-16
Publication date: 2022-08-02

Abstract

The invention provides a single support arm road roller vibration wheel, which comprises a pinch roller assembly, a vibration assembly, a driving assembly, a support arm assembly and a vibration motor, wherein the pinch roller assembly is arranged on the vibration assembly; the supporting arm assembly is connected to an external boarding structure through a connecting plate I, the supporting arm assembly comprises a shock absorber I and a shock absorber II which are respectively arranged on two sides of a mounting plate I, the mounting plate I is fixedly connected with a driving assembly of a hollow structure, one side of the driving assembly is connected with a vibration motor, the other side of the driving assembly is connected with a vibration assembly which is coaxial with the driving assembly, the other end of the vibration assembly is fixedly connected to a pressing wheel assembly, and an annular supporting plate I of the pressing wheel assembly is overlapped with an external boarding structure gravity center located vertical surface in the thickness direction. The supporting arm component is positioned on one side of the vibrating wheel of the single-supporting-arm road roller, and the other side of the supporting arm component can realize the function of wall-attaching vibrating compaction.

Description

Single support arm road roller vibration wheel

Technical Field

The invention relates to a vibration wheel structure of a single-arm support road roller, and belongs to the technical field of road engineering mechanical vibration wheels.

Background

The vibratory roller is that present road is built and is indispensable instrument, however to being in the road surface with the building laminating, ordinary road roller is because the vibratory roller both sides all have with last car structural connection's support arm, the support arm has surpassed the wheel rim, so the vibratory roller can not accomplish to paste the wall compaction.

The application therefore provides a single support arm road roller vibratory wheel to solve the above problems.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a road roller vibrating wheel with a single supporting arm, which can realize the wall-attaching compaction function.

In order to achieve the purpose, the invention is realized by adopting the following technical scheme:

the invention provides a single support arm road roller vibration wheel, which comprises a pinch roller assembly, a vibration assembly, a driving assembly, a support arm assembly and a vibration motor, wherein the pinch roller assembly is arranged on the vibration assembly;

the supporting arm assembly comprises a connecting plate I, a transverse plate, a connecting plate II and a mounting plate II;

connecting plate I one end is installed on external structure of getting on the bus, and the connecting plate I other end is connected in diaphragm one end, establishes in the diaphragm and locates the pinch roller subassembly, and the connecting plate II is connected to the diaphragm other end, connecting plate II bolted connection mounting panel II, and the drive assembly periphery is located to mounting panel II cover, and drive assembly one side is equipped with vibrating motor, and the drive assembly opposite side is equipped with the vibration subassembly.

Further, the support arm assembly comprises a shock absorber I, a mounting plate I and a shock absorber II;

a shock absorber I is arranged on one side of the mounting plate I and is mounted on a connecting plate II;

the other side of the mounting plate I is provided with a shock absorber II, and the shock absorber II is mounted on the mounting plate II.

Further, the support arm assembly comprises a rib plate;

the rib plates are arranged on the transverse plates, one side of each rib plate is connected with the connecting plate I, and the other side of each rib plate is connected with the connecting plate II.

Further, the pinch roller assembly comprises a rim and an annular supporting plate I;

and an annular supporting plate I is arranged on the inner wall of the wheel rim, and the middle section surface of the annular supporting plate I in the thickness direction is superposed with the vertical surface where the gravity center of the external upper vehicle structure is located.

Furthermore, at least one annular support plate II is arranged on the inner wall of the rim.

Further, the vibration assembly comprises a bearing seat I, a bearing seat II, a vibration shaft, an eccentric block and a transmission shaft;

the driving assembly is coaxially penetrated through the transmission shaft, one end of the transmission shaft is connected with the vibration motor, the other end of the transmission shaft is connected with one end of the vibration shaft, the vibration shaft is coaxially embedded in a cavity formed by the bearing block I and the bearing block II, and the vibration shaft is provided with an eccentric block;

and a cavity formed by the bearing seat I and the bearing seat II coaxially penetrates through the annular supporting plate I.

Further, the vibration assembly comprises a sealing cover I, a sealing cover II, a vibration bearing I and a vibration bearing II;

the vibration shaft is sequentially sleeved with a vibration bearing I, a sealing cover II and a vibration bearing II;

the vibration bearing I is connected with the sealing cover I in an abutting mode;

the vibration bearing II is connected with the sealing cover II in an abutting mode;

the inner ring of each sealing cover is connected with the vibration shaft, and the outer ring of each sealing cover is assembled on the bearing seat.

Further, lubricating grease is stored in a cavity formed by the bearing seat I and the bearing seat II.

Further, the driving assembly comprises an adapter plate II, a driving motor and an adapter plate I;

an adapter plate II is arranged on one side of the driving motor and is arranged on the bearing seat;

an adapter plate I is arranged on the other side of the driving motor, and a vibration motor is arranged on the adapter plate I.

Furthermore, a counterweight plate is arranged on the inner wall of the wheel rim of the pressing wheel assembly and is positioned on the non-supporting side of the vibration wheel of the single-supporting-arm road roller, and the counterweight plate enables the vertical surface of the gravity center of the combination of the pressing wheel assembly, the vibration assembly, the driving assembly and the mounting plate I to be superposed with the vertical surface of the gravity center of the eccentric block of the vibration assembly.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the support arm component is arranged on one side of the pinch roller component, and the other side of the pinch roller component is not interfered by the support arm component, so that the wall-attaching compaction function can be realized; according to the invention, the vibration assembly, the driving assembly and part of the supporting arm assembly are arranged in the pinch roller assembly, so that the working space of the vibration wheel is compressed, and the functions of the vibration wheel are reserved.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a vibratory wheel of a single support arm road roller according to the present invention;

FIG. 2 is a schematic structural diagram illustrating an exemplary support arm assembly of the present invention;

FIG. 3 is a schematic structural diagram of one embodiment of the vibration assembly and drive assembly of the present invention;

FIG. 4 is a schematic diagram of the cantilever support of one embodiment of a vibratory wheel of a single support arm road roller according to the present invention;

in the figure: 1. Pinch roller subassembly, 2, vibration subassembly, 3, drive assembly, 4, support arm component, 5, vibrating motor, 6, get on the bus structure, 11, cyclic annular backup pad I, 12, the wheel rim, 21, bearing frame I, 22, vibration bearing I, 23, sealed lid I, 25, vibration bearing II, 26, sealed lid II, 27, bearing frame II, 28, the transmission shaft, 31, adapter plate II, 32, driving motor, 33, adapter plate I, 43, shock absorber I, 44, mounting panel I, 45, mounting panel II, 46, shock absorber II, 131, cyclic annular backup pad II, 132, the weight plate, 241, the vibration axle, 242, the eccentric block, 411, connecting plate II, 412, the gusset, 413, connecting plate I, 414, the diaphragm.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1:

the embodiment provides a vibration wheel of a single-support-arm road roller.

The single support arm road roller vibration wheel of the embodiment comprises a pinch roller assembly 1, a vibration assembly 2, a driving assembly 3, a support arm assembly 4 and a vibration motor 5. Wherein, the support arm assembly 4 comprises a connecting plate I413, a transverse plate 414, a connecting plate II411 and a mounting plate II 45.

Referring to fig. 2, one end of a connecting plate I is mounted on the external upper vehicle structure 6, the other end of the connecting plate I is connected to one end of a transverse plate, the transverse plate 414 is internally provided with the pinch roller assembly 1, the other end of the transverse plate is connected with a connecting plate II411, and the connecting plate II411 is connected with a mounting plate II45 through bolts.

Referring to fig. 1, the mounting plate II45 is sleeved on the periphery of the driving assembly, a vibration motor 5 is disposed on one side of the driving assembly, and a vibration assembly 2 is disposed on the other side of the driving assembly.

In application, the support arm assembly 4 comprises a shock absorber I43, a mounting plate I44, a shock absorber II46 and a rib plate 412;

referring to fig. 2, a shock absorber I43 is arranged on one side of the mounting plate I, and a shock absorber I43 is arranged on the connecting plate II 411; the other side of the mounting plate I is provided with a damper II46, and a damper II46 is mounted on the mounting plate II 45. In practical application, a plurality of shock absorbers I43 are equidistantly arranged outside one side of the mounting plate I, and each shock absorber I43 is arranged on the connecting plate II 411; a plurality of shock absorbers II46 are arranged on the outer portion of the other side of the mounting plate I at equal intervals, and each shock absorber II46 is mounted on the mounting plate II 45. Further, the number of the shock absorbers I43 and II46 is equal.

In addition, the bolts comprise compression bolts and rods, the total width of the shock absorbers I43 and II46 on two sides of the mounting plate I can be compressed by adjusting the compression bolts and the rods in the embodiment, and in practical application, after assembly is completed, the axial directions of the shock absorbers I43 and II46 are compressed by 2-3mm, so that the shock absorbers I43 and II46 are in a floating state when the vibration wheel works in a vibration mode, the pinch roller assembly cannot move left and right, and the vibration reduction effect is achieved.

Referring to fig. 2, rib plates 412 are installed on the transverse plate 414, one side of each rib plate is connected with the connecting plate I413, and the other side of each rib plate is connected with the connecting plate II411, so that the bending rigidity of the connecting plates I413, the transverse plate 414 and the connecting plates II411 is enhanced.

Example 2:

on the basis of embodiment 1, the embodiment describes in detail a pressing wheel assembly, a vibration assembly and a driving assembly of a vibration wheel of a single-support-arm road roller.

In application, the puck assembly 1 includes a rim 12, an annular support plate I11, an annular support plate II131, and a weight plate 132.

Referring to fig. 3, two sides of the rim are arranged in a through manner, a weight plate 132 is arranged on the inner wall of the rim, an annular support plate II131 and an annular support plate I11 which are arranged oppositely are sequentially arranged on one side of the weight plate, the periphery of the vibration assembly is sleeved with the annular support plate I11, and the vibration assembly is installed in the pinch roller assembly 1.

In practical application, the center plane of the annular support plate I in the thickness direction coincides with the vertical plane where the center of gravity of the external boarding structure 6 is located, referring to fig. 4, the gravity G of the boarding structure 6 is equal to the ground support force Fn, the direction is opposite, and no additional bending moment acts on the annular support plate I11, so that the weight of the boarding structure can realize cantilever support.

In addition, the number of the annular supporting plates II131 is more than or equal to 1, and the annular supporting plates II131 are arranged at equal intervals relatively, so that the rigidity of the pinch roller assembly in the width direction is more uniform.

In application, vibration assembly 2 includes bearing seat I21, vibration shaft 241, eccentric mass 242, bearing seat II27, drive shaft 28, sealing cover I23, sealing cover II26, vibration bearing I22, and vibration bearing II 25.

Referring to fig. 3, the driving shaft 28 coaxially penetrates through the driving assembly 3, one end of the driving shaft is connected to the vibration motor 5 through a spline pair, the other end of the driving shaft is connected to one end of the vibration shaft through a spline pair, and the vibration shaft 241 is coaxially embedded in a cavity formed by the bearing seat I21 and the bearing seat II27, so that the driving assembly and the vibration assembly are coaxially arranged, and feasibility is provided for arranging the driving assembly and the driving source of the vibration assembly on the same side of the annular supporting plate I11.

Referring to fig. 3, the eccentric mass 242 is disposed in the middle of the vibration shaft, and when in use, the size of the eccentric mass 242 can be adjusted according to practical situations, so as to adjust the exciting force generated by the rotation of the eccentric mass 242; the other end of the vibration shaft is rotatably connected to the bearing seat 21, and the bearing seat 21 coaxially penetrates through the annular supporting plate I11.

In practical application, the weight plate 132 is arranged on the inner wall of the rim 12 of the pressure wheel assembly 1, so that the vertical plane of the gravity center of the combined body of the pressure wheel assembly 1, the vibration assembly 2, the driving assembly 3 and the mounting plate I44 participating in vibration can coincide with the vertical plane of the gravity center of the eccentric block 242 of the vibration assembly 2, and when the vibration wheel of the single-support-arm road roller vibrates, the exciting force generated by the vibration shaft 241 and the eccentric block 242 is uniform in the width direction of the rim 12.

Referring to fig. 3, a vibration bearing I22, a sealing cover I23, a sealing cover II26 and a vibration bearing II25 are sequentially sleeved on the vibration shaft 241. Wherein, the vibration bearing I22 is connected with the sealing cover I23; the vibration bearing II25 is connected with the sealing cover II 26; the inner ring of each sealing cover is connected with the vibration shaft 241, and the outer ring of each sealing cover is assembled on the bearing seat.

In practical application, the bearing seat I21, the bearing seat II27, the vibration bearing I22, the sealing cover I23, the sealing cover II26 and the vibration bearing II25 form a cavity, and lubricating grease is stored in the cavity and used for lubricating the vibration bearing I22 and the vibration bearing II 25. In addition, grease lubrication belongs to clean energy, and the environment cannot be polluted when the vibration wheel of the single-support-arm road roller is dismounted.

In application, the driving assembly 3 includes an adapter plate II31, a driving motor 32, and an adapter plate I33.

Referring to fig. 1, an adapter plate II31 is disposed on one side of the driving motor, and an adapter plate II31 is mounted on the bearing block 21; an adapter plate I33 is arranged on the other side of the driving motor, and a vibrating motor 5 is arranged on the adapter plate I33.

In practice, the drive motor 32 is a hollow motor. The driving shaft 28 can be made to pass through the driving assembly to transmit the power of the vibration motor 5 to the vibration shaft 241.

In addition, drive assembly and vibration subassembly are packed into the pinch roller subassembly respectively from cyclic annular backup pad I both sides, can make the assembly more convenient.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. A single support arm road roller vibration wheel is characterized by comprising a pressure wheel assembly (1), a vibration assembly (2), a driving assembly (3), a support arm assembly (4) and a vibration motor (5);

the support arm assembly (4) comprises a connecting plate I (413), a transverse plate (414), a connecting plate II (411) and a mounting plate II (45);

connecting plate I one end is installed on external structure (6) of getting on the bus, and the connecting plate I other end is connected in diaphragm one end, establishes in pressure wheel subassembly (1) in diaphragm (414), and connecting plate II (411) is connected to the diaphragm other end, and connecting plate II (411) bolted connection mounting panel II (45), and the drive assembly periphery is located to mounting panel II (45) cover, and drive assembly one side is equipped with vibrating motor (5), and the drive assembly opposite side is equipped with vibration subassembly (2).

2. The single support arm road roller vibratory wheel of claim 1 wherein the support arm assembly (4) comprises a shock absorber I (43), a mounting plate I (44), and a shock absorber II (46);

a shock absorber I (43) is arranged on one side of the mounting plate I, and the shock absorber I (43) is mounted on the connecting plate II (411);

the other side of the mounting plate I is provided with a shock absorber II (46), and the shock absorber II (46) is mounted on the mounting plate II (45).

3. The single support arm road roller vibratory wheel of claim 1, wherein the support arm assembly (4) includes a web (412);

the rib plates (412) are arranged on the transverse plate (414), one sides of the rib plates are connected with the connecting plate I (413), and the other sides of the rib plates are connected with the connecting plate II (411).

4. A single support arm road roller vibratory wheel according to claim 1, wherein the pressure wheel assembly (1) comprises a rim (12) and an annular support plate I (11);

and an annular supporting plate I (11) is arranged on the inner wall of the wheel rim, and the middle split surface of the annular supporting plate I in the thickness direction is superposed with the vertical surface where the gravity center of the external upper vehicle structure (6) is located.

5. The single support arm road roller vibratory wheel of claim 4 wherein the inner wall of the rim has at least one annular support plate II (131).

6. The single support arm roller vibratory wheel of claim 1 wherein the vibratory assembly (2) comprises a bearing block I (21), a bearing block II (27), a vibratory shaft (241), an eccentric mass (242), and a drive shaft (28);

the driving component (3) is coaxially penetrated through the transmission shaft (28), one end of the transmission shaft is connected with the vibration motor (5), the other end of the transmission shaft is connected with one end of the vibration shaft, the vibration shaft (241) is coaxially embedded in a cavity formed by the bearing block I (21) and the bearing block II (27), and the vibration shaft is provided with an eccentric block (242);

and a cavity formed by the bearing seat I (21) and the bearing seat II (27) coaxially penetrates through the annular support plate I (11).

7. The single support arm roller vibratory wheel of claim 7 wherein the vibratory assembly (2) comprises a seal cover I (23), a seal cover II (26), a vibratory bearing I (22), and a vibratory bearing II (25);

the vibration shaft (241) is sequentially sleeved with a vibration bearing I (22), a sealing cover I (23), a sealing cover II (26) and a vibration bearing II (25);

the vibration bearing I (22) is connected with a sealing cover I (23) in a propping manner;

the vibration bearing II (25) is connected with a sealing cover II (26) in a propping manner;

the inner ring of each sealing cover is connected with a vibration shaft (241), and the outer ring of each sealing cover is assembled on the bearing seat.

8. The single support arm road roller vibratory wheel of claim 7, wherein a cavity formed by bearing seat I (21) and bearing seat II (27) contains grease.

9. A single support arm roller vibratory wheel according to claim 7, wherein the drive assembly (3) comprises an adapter plate II (31), a drive motor (32) and an adapter plate I (33);

an adapter plate II (31) is arranged on one side of the driving motor, and the adapter plate II (31) is installed on the bearing seat (21);

an adapter plate I (33) is arranged on the other side of the driving motor, and a vibration motor (5) is arranged on the adapter plate I (33).

10. The single support arm roller vibratory wheel of claim 4, wherein the inner wall of the rim (12) of the pressure roller assembly (1) is provided with a weight plate (132) located on the non-support side of the single support arm roller vibratory wheel, the weight plate being such that a vertical plane of a center of gravity of the combination of the pressure roller assembly (1), the vibratory assembly (2), the drive assembly (3) and the mounting plate I (44) coincides with a vertical plane of a center of gravity of the eccentric mass (242) of the vibratory assembly (2).