CN212604266U - Grounding structure and elastic wheel - Google Patents

Abstract

An embodiment of the utility model provides a ground structure and elasticity wheel relates to rail vehicle part technical field. The embodiment of the utility model provides a ground structure has relative first link and second link, and first link is used for conductively being connected with the wheel rim, and the second link is used for conductively being connected with the wheel center. The first connecting end can be connected with the wheel band in a screw connection mode, an integral forming mode or an adhesion mode. When the first connecting end is connected with the wheel rim by adopting a screw, the grounding structure further comprises a first mounting screw, the first connecting end is provided with a first mounting hole, and the first mounting screw penetrates through the first mounting hole and is in threaded connection with the wheel rim, so that the first connecting end is fixed on the wheel rim. First mounting hole is the counter bore to effectively practiced thrift installation space, make the grounding structure wheel band have sufficient installation space when being applied to the elastic wheel of narrower tread width, in order to avoid the grounding structure to be scraped and cut and then influence the problem of ground connection backward flow.

Description

Grounding structure and elastic wheel

Technical Field

The utility model relates to a rail vehicle part technical field particularly, relates to a ground structure and elasticity wheel.

Background

With the increasingly prominent urban traffic problems, urban rail vehicles become an important choice for urban traffic due to the advantages of economy, environmental protection, convenience, comfort and the like. The elastic wheel is formed by embedding damping rubber between a wheel rim and a wheel center of the wheel, and plays a role in reducing wheel rail impact noise, relieving wheel rail impact vibration and improving the riding comfort of passengers by means of the damping effect of the rubber.

The existing elastic wheel is roughly composed of a wheel rim, a wheel center, a pressure ring, a vibration damping rubber block, a connecting wire and the like, wherein the wheel center and the pressure ring are in interference fit to uniformly distribute the vibration damping rubber block in a metal cavity formed by the wheel rim, the wheel center and the pressure ring. One end of the connecting wire is fixed on the wheel rim, the other end of the connecting wire is fixed on the pressure ring, the current of the wheel center is led to the wheel rim through the interference contact of the pressure ring and the wheel center, and finally a grounding loop is formed. However, in the case of an elastic wheel with a compact structure, especially an elastic wheel with a narrow tread width, the ground return is affected because the connecting wire is easily scratched.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a grounding structure, for example, it can practice thrift installation area, is applicable to the rim of narrower tread width, guarantees the ground connection backward flow effect.

The utility model discloses an aim still includes, provides an elasticity wheel, and it can practice thrift installation area, is applicable to the rim of narrower tread width, guarantees the ground connection backward flow effect.

The embodiment of the utility model discloses a can realize like this:

the embodiment of the utility model provides a grounding structure for elastic wheel, elastic wheel includes wheel rim, wheel center and clamping ring, the clamping ring sets up between wheel center and wheel rim, grounding structure has relative first link and second link; the first connecting end is used for being in conductive connection with the wheel rim, and the second connecting end is used for being in conductive connection with the wheel center;

the grounding structure further comprises a first mounting screw; the first connecting end is provided with a first mounting hole, and the first mounting screw penetrates through the first mounting hole and is used for being in threaded connection with the wheel rim, so that the first connecting end is fixed on the wheel rim; the first mounting hole is a countersunk hole, and a screw head of the first mounting screw is accommodated in the first mounting hole; or,

the first connecting end is integrally formed on the wheel rim or is bonded to the wheel rim.

Optionally, the ground structure includes a connecting piece and a connecting wire, which are connected to each other, the connecting piece is used for being electrically connected to the wheel rim, and the connecting wire is used for being electrically connected to the wheel center; the first connecting end is used for connecting the connecting piece with the wheel rim; the second connecting end is one end of the connecting wire used for being connected with the wheel center.

Optionally, the connecting piece has opposite first and second ends, the first end is used for being connected with the wheel rim is electrically conducted, the second end crosses the press ring and extends to the wheel center, and the second end is electrically connected with the connecting wire.

Optionally, the first mounting holes are formed in the first end, the number of the first mounting holes is two, the two first mounting holes are arranged at intervals along a first direction, and a connecting line between the first end and the second end extends along a second direction; the first direction and the second direction form an included angle alpha, and the included angle alpha is more than 0 degree and less than or equal to 90 degrees.

Optionally, the grounding structure further includes a second mounting screw, and the second mounting screw is configured to simultaneously cooperate with the connecting member and the connecting wire, so that the connecting member is connected to the connecting wire.

Optionally, a groove for accommodating the second mounting screw is provided on the wheel center to avoid interference between the second mounting screw and the wheel center.

Optionally, the connecting member is rotatably connected to the connecting wire.

Optionally, the grounding structure includes a cable, a first cable terminal and a second cable terminal, where the first cable terminal and the second cable terminal are respectively fixed at two ends of the cable; the first cable terminal is used for being in conductive connection with the wheel center; the second cable terminal is used for being in conductive connection with the tire.

Optionally, the first mounting hole is opened in the second cable terminal.

Optionally, the cable includes a copper core and a heat shrink tube sleeved on the copper core, the first cable terminal and the second cable terminal respectively clamp two ends of the copper core, and two ends of the heat shrink tube are respectively sleeved on the first cable terminal and the second cable terminal.

Optionally, the grounding structure further includes a spacer for being disposed between the first cable terminal and the wheel center, and the spacer has a receiving groove for receiving the first cable terminal.

The embodiment of the utility model provides a still provide an elasticity wheel. The elastic wheel comprises the grounding structure.

The utility model discloses ground structure and elastic wheel's beneficial effect includes, for example:

the embodiment of the utility model provides a ground structure is used for the elasticity wheel, and the elasticity wheel includes wheel rim, wheel center and clamping ring, and the clamping ring setting is between wheel center and wheel rim. The grounding structure is provided with a first connecting end and a second connecting end which are opposite, the first connecting end is used for being in conductive connection with the wheel rim, and the second connecting end is used for being in conductive connection with the wheel center. The first connecting end can be connected with the wheel band in a screw connection mode, an integral forming mode or an adhesion mode. When the first connecting end is connected with the wheel rim by adopting a screw, the grounding structure further comprises a first mounting screw, the first connecting end is provided with a first mounting hole, and the first mounting screw penetrates through the first mounting hole and is in threaded connection with the wheel rim, so that the first connecting end is fixed on the wheel rim. First mounting hole is the counter bore to effectively practiced thrift installation space, make the grounding structure wheel band have sufficient installation space when being applied to the elastic wheel of narrower tread width, in order to avoid the grounding structure to be scraped and cut and then influence the problem of ground connection backward flow.

The embodiment of the utility model provides an elasticity wheel is still provided, it includes foretell ground structure. Because the elastic wheel comprises the grounding structure, the elastic wheel also has the advantages that the installation space is small, and the wheel rim has enough installation space when the elastic wheel with narrow tread width is used, so that the problem that the grounding structure is scraped off to influence the grounding backflow is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic overall structural diagram of an elastic wheel according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of a first mounting hole in a grounding structure according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line III-III of FIG. 1;

fig. 4 is a schematic structural diagram of a grounding structure according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a connection wire in the grounding structure according to an embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view taken along line VI-VI in FIG. 5;

fig. 7 is a schematic cross-sectional view of a gasket in a grounding structure according to an embodiment of the present invention.

Icon: 10-a resilient wheel; 100-body; 110-the wheel center; 111-grooves; 120-pressing ring; 130-cushion rubber; 140-a wheel band; 141-an accommodation space; 200-a ground structure; 210-a connector; 211-a first end; 212-first mounting hole; 213-a second end; 214-second mounting hole; 220-connecting wires; 221-a first cable terminal; 222-a second cable terminal; 223-a first connection; 224-a third mounting hole; 225-second connecting portion; 226-a clamping cavity; 227-a cable; 2271-copper core; 2272-Heat shrink tube; 230-a gasket; 231-an accommodating groove; 241-a first mounting screw; 242 — a second mounting screw; 243-nut; 244-third mounting screw.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below 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. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that, if the terms "upper", "lower", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, the description is only for convenience of description and simplification, but the indication or suggestion that the indicated device or element must have a specific position, be constructed and operated in a specific orientation, and thus, should not be interpreted as a limitation of the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

Fig. 1 is a schematic overall structural diagram of an elastic wheel 10 provided in this embodiment, fig. 2 is a schematic cross-sectional diagram of a first mounting hole 212 in a ground structure 200 provided in this embodiment, and fig. 3 is a schematic cross-sectional diagram of positions iii-iii in fig. 1. Referring to fig. 1, 2 and 3, the present embodiment provides a ground structure 200, and accordingly, provides a resilient wheel 10.

The elastic wheel 10 includes the above-mentioned grounding structure 200, and the elastic wheel 10 further includes a body 100, where the body 100 is a structure of the elastic wheel 10 commonly used in the prior art, and specifically, the body 100 includes a wheel rim 140, a wheel core 110, a pressure ring 120, and a damping rubber 130. The wheel rim 140 is annular, and is sleeved outside the wheel center 110, the damping rubber 130 is arranged between the wheel center 110 and the wheel rim 140, and the pressing ring 120 is pressed between one end of the outer side of the wheel center 110 and the damping rubber 130. The wheel rim 140 is conductively coupled to the wheel center 110 via the grounding structure 200, thereby grounding current from the wheel center 110 through the wheel rim 140.

The ground structure 200 has opposing first and second connection ends, the first connection end for electrically connecting with the wheel rim 140 and the second connection end for electrically connecting with the wheel center 110. The first connecting end may be connected to the rim 140 by a screw connection, an integral molding, or an adhesive. When the first connection end is connected to the wheel rim by a screw, the grounding structure 200 further includes a first mounting screw 241, the first connection end is provided with a first mounting hole 212, and the first mounting screw 241 passes through the first mounting hole 212 and is screwed with the wheel rim 140, so as to fix the first connection end to the wheel rim 140. The inventor researches and discovers that when the grounding structure 200 is connected to the elastic wheel 10 with a narrow tread width by using a screw, the screw head of the screw protrudes out of the first connecting end, so that the first connecting end is large in size, the space on the rim 140 of the elastic wheel 10 is small, and the screw head protrudes out of the end surface of the rim 140, so that the grounding structure 200 is scraped off by other equipment, and then the grounding backflow is influenced, and the mounting space of the grounding structure 200 of the embodiment is effectively saved by setting the first mounting hole 212 as a countersunk hole, so that the rim 140 has enough mounting space when the grounding structure 200 is applied to the elastic wheel 10 with a narrow tread width, and the problem that the grounding structure 200 is scraped off, and then the grounding backflow is influenced is avoided.

The elastic wheel 10 provided in the present embodiment will be further explained below:

fig. 4 is a schematic cross-sectional structure diagram of the grounding structure 200 provided in this embodiment. Referring to fig. 1 and fig. 4, in the present embodiment, the grounding structure 200 includes a connecting element 210 and a connecting wire 220 connected to each other. The connecting member 210 is used for electrically connecting with the tire 140, i.e. the end of the connecting member 210 connected with the tire 140 is the first connecting end. The connecting conductor 220 is used for electrically connecting to the wheel center 110, i.e. the first end of the connecting conductor 220 connected to the wheel center 110 is the second connecting end. Specifically, the connecting member 210 includes a first end 211 and a second end 213 opposite to each other, the first end 211 is configured to be connected to the rim 140, the second end 213 is configured to be electrically connected to a connecting wire 220, and the connecting wire 220 is configured to be electrically connected to the wheel center 110, so that the current at the wheel center 110 is transmitted to the rim 140 through the connecting wire 220 and the connecting portion in sequence and is grounded through the rim 140.

The connecting member 210 is a plate-like member having a first end 211 fixedly coupled to the rim 140. Specifically, the grounding structure 200 further includes a first mounting screw 241, the first end 211 is provided with a first mounting hole 212, and the first mounting screw 241 passes through the first mounting hole 212 for being screwed with the rim 140, so as to fix the connector 210 to the rim 140. The first mounting hole 212 is a countersunk hole, and the screw head of the first mounting screw 241 is accommodated in the first mounting hole 212, that is, in the cross-sectional view shown in fig. 3, the screw head is shielded by the connecting member 210, so that the mounting space is effectively saved, and the problem that the first mounting screw 241 protrudes out of one side end face of the connecting member 210 to cause damage due to interference with other equipment (not shown) on the bogie is solved.

It should be noted that, in the present embodiment, the connecting element 210 is connected to the tire 140 through the first mounting screw 241, and it is understood that, in other embodiments, the connecting element 210 and the tire 140 may be fixed in other manners according to requirements, such as adhesion, or the first end 211 may be integrally formed on the tire 140, that is, the connecting element 210 is fixed to the tire 140 in an integrally formed manner, such as casting, so that the connecting element 210 is electrically connected to the connecting lead 220 as an extension of the tire 140.

Further, the number of the first mounting holes 212 is two, two first mounting holes 212 are spaced apart along the first direction a, and a line connecting the first end 211 and the second end 213 extends along the second direction B. The first direction and the second direction form an included angle alpha, the included angle alpha is more than 0 degrees and less than or equal to 90 degrees, namely the first direction and the second direction are crossed. In the present embodiment, the first direction is perpendicular to the second direction, that is, an included angle α formed between the first direction and the second direction is 90 °, so that it is ensured that the fixing reliability and the mounting stability of the first end 211 and the rim 140 are high during the rotation of the elastic wheel 10, and further, the ground effect is ensured. Optionally, in other embodiments, the included angle between the first direction and the second direction may also be set to other values such as 30 °, 60 °, 85 °, and the like.

Referring to fig. 3, the wheel band 140 has a step portion, the step portion includes a first end surface, a connecting surface and a second end surface that are sequentially connected, and the first end surface and the second end surface are axially spaced apart from each other along the wheel band 140, so that an accommodating space 141 for installing the first connecting end is formed between a plane where the first end surface is located and a plane where the second end surface is located. When the tread width of the elastic wheel 10 is narrower, the accommodating space 141 is smaller, i.e. the distance between the plane of the first end face and the plane of the second end face is shorter. Specifically, the first end 211 of the connector 210 is disposed in the accommodating space 141, so that the plate-shaped connector 210 can smoothly extend to the wheel center 110 over the pressing ring 120. The connecting wire 220 is overlapped with the tire 140 by the connecting piece 210, so that the installation space is saved, and therefore, when the elastic wheel 10 with a narrow tread width is installed, the accommodating space 141 of the tire 140 is enough to accommodate the first connecting end of the grounding structure 200, so that the grounding structure 200 can adapt to the tire 140 of the elastic wheel 10 with a narrow tread. Optionally, the connecting member 210 is made of an abrasion-resistant material, so as to reduce damage to the connecting member 210 caused by relative movement between the connecting member 210 and the pressing ring 120.

Further, the second end 213 of the connecting member 210 extends to the wheel center 110 beyond the pressing ring 120, and then is connected to the connecting wire 220, and the connection between the connecting wire 220 and the second end 213 is located at a position opposite to the wheel center 110, that is, in the axial direction, the connecting wire 220 does not overlap with the pressing ring 120, even if the pressing ring 120 and the wheel rim 140 move relatively in the axial direction, the connecting wire 220 does not contact with the pressing ring 120, and then the problem that the pressing ring 120 wears the connecting wire 220 is avoided, which helps to prolong the service life of the connecting wire 220, and ensures the grounding backflow effect.

With continued reference to fig. 3, in the present embodiment, the grounding structure 200 further includes a second mounting screw 242, and the second mounting screw 242 is configured to simultaneously cooperate with the second end 213 and the connecting wire 220, so as to connect the connecting element 210 with the connecting wire 220. Specifically, the grounding structure 200 further includes a nut 243, the second end 213 is provided with a second mounting hole 214, and a second mounting screw 242 sequentially passes through the second mounting hole 214 and the connecting wire 220 and then is screwed with the nut 243, so that the second end 213 is connected with the connecting wire 220. The centers of the second mounting holes 214 and the centers of the two first mounting holes 212 form an isosceles triangle, i.e., the distances between the second mounting holes 214 and the two first mounting holes 212 are equal.

Optionally, the second mounting hole 214 is a countersunk hole, and the bolt head of the second mounting screw 242 is received in the second mounting hole 214, so that the problem that the second mounting screw 242 protrudes out of the connecting piece 210 to interfere with other equipment (not shown) on the bogie and cause damage is avoided.

Further, the second end 213 is rotatably connected to the connecting wire 220 such that the conductive connection of the second end 213 to the connection accommodates relative movement between the wheel center 110 and the wheel rim 140 during rotation of the resilient wheel 10. Specifically, since the second end 213 is connected to the connecting wire 220 by screwing the second mounting screw 242 to the nut 243, the second end 213 and the connecting wire 220 have a certain degree of freedom of relative rotation around the axis of the second mounting screw 242.

Further, the wheel core 110 is provided with a groove 111 for accommodating the second mounting screw 242, so that the portion of the second mounting screw 242 passing through the connecting wire 220 and the nut 243 are accommodated in the groove 111, so as to prevent the second mounting screw 242 and the nut 243 from interfering with the wheel core 110, thereby preventing the wheel core 110, the second mounting screw 242 and the nut 243 from being damaged, and helping to ensure the reliability of the grounding structure 200. Specifically, the groove 111 is formed by recessing the wheel center 110 at a position corresponding to the second mounting hole 214, and can accommodate the second mounting screw 242 and the nut 243, so as to ensure that the second mounting screw 242 and the nut 243 do not interfere with the wheel center 110 during the movement of the elastic wheel 10.

Fig. 5 is a schematic structural diagram of a connection wire 220 in the grounding structure 200 provided in this embodiment, and fig. 6 is a schematic structural diagram of a cross-section at vi-vi in fig. 5. Referring to fig. 5 and fig. 6, in the present embodiment, the connecting wire 220 includes a cable 227 and two cable terminals disposed at two ends of the cable 227, and the cable terminals are standard components. The two cable terminals are a first cable terminal 221 and a second cable terminal 222, respectively, the first cable terminal 221 is used for electrically connecting with the wheel center 110, the second cable terminal 222 is connected with the wheel rim 140, and specifically, the second cable terminal 222 is connected with the second end 213, so as to be connected with the wheel rim 140 through the connecting piece 210. The current at the wheel center 110 is thus guided to the wheel rim 140 via the first cable terminal 221, the cable 227, the second cable terminal 222, and the connector 210 in order, and is grounded via the wheel rim 140.

Further, the cable 227 includes a copper core 2271 and a heat shrink tube 2272 sleeved on the copper core 2271, the first cable terminal 221 and the second cable terminal 222 respectively clamp two ends of the copper core 2271, and two ends of the heat shrink tube 2272 respectively sleeve the first cable terminal 221 and the second cable terminal 222. Specifically, the cable terminal includes a first connection portion 223 and a second connection portion 225 connected to each other, the first connection portion 223 is a plate shape having a third mounting hole 224, and the second mounting screw 242 simultaneously passes through the second mounting hole 214 and the third mounting hole 224 of the second cable terminal 222 to connect the second end 213 with the second cable terminal 222. The second connecting portion 225 has a clamping cavity 226, and an end of the clamping cavity 226 remote from the first connecting portion 223 has an opening through which an end of the copper core 2271 is inserted into the clamping cavity 226, thereby clamping the cable terminal to the copper core 2271. The heat shrink tube 2272 is sleeved on the copper core 2271, and an end of the heat shrink tube 2272 is located outside the second connection portion 225, that is, a portion of the heat shrink tube 2272 corresponding to the copper core 2271 and located in the holding cavity 226 is located outside the second connection portion 225, in other words, an end of the second connection portion 225 far away from the first connection portion 223 is located between the heat shrink tube 2272 and the copper core 2271.

Optionally, the copper core 2271 is a flexible copper stranded wire, and the resistance value of the connecting wire 220 is less than or equal to 0.001 Ω, so as to meet the grounding requirement of the elastic wheel 10. It is understood that in other embodiments, the copper core 2271 may be specifically configured as desired, such as a braided copper wire.

Further, the ground structure 200 further includes a third mounting screw 244, and the third mounting screw 244 passes through the third mounting hole 224 of the first cable terminal 221 to be connected to the wheel center 110, so that the connection wire 220 is electrically connected to the wheel center 110 by the third mounting screw 244.

It should be noted that, in the present embodiment, the grounding structure 200 includes the connector 210, and the connector 210 is used as an extension portion of the rim 140, and the second end 213 of the connector 210 extends to the wheel center 110 beyond the pressing ring 120, so as to avoid the problem that the pressing ring 120 wears the connecting wire 220, help to prolong the service life of the connecting wire 220, and ensure the ground return effect, it can be understood that, in other embodiments, the grounding structure 200 may be configured to include only the connecting wire 220 according to requirements, and the first mounting hole 212 is directly opened on the second cable terminal 222, so that the first mounting screw 241 directly passes through the second cable terminal 222 to connect with the rim 140 to connect the connecting wire 220 to the rim 140.

Fig. 7 is a schematic cross-sectional view of a pad 230 in the grounding structure 200 according to this embodiment. Referring to fig. 1, 2 and 6, further, the grounding structure 200 further includes a spacer 230, the spacer 230 is disposed between the connecting wire 220 and the wheel core 110, and the third mounting screw 244 passes through the third mounting hole 224 of the first cable terminal 221 and the spacer 230 in sequence to be connected to the wheel core 110. Specifically, the spacer 230 is disposed between the first cable terminal 221 and the wheel center 110. The spacer 230 has an accommodating groove 231 for accommodating the first cable terminal 221, when the first cable terminal 221 is installed in the accommodating groove 231, one end of the first cable terminal 221 close to the wheel center 110 and both sides of the first cable terminal 221 are both wrapped by the spacer 230, and the length of the spacer 230 extends to the position of the heat shrink tube 2272, so as to ensure that the first cable terminal 221 is electrically connected with the wheel center 110 only through the third installation screw 244, thereby helping to ensure the grounding effect of the grounding structure 200.

Referring to fig. 1, in the present embodiment, the connecting wires 220 extend along the circumferential direction of the wheel center 110, and the connecting members 210 extend along the radial direction of the wheel center 110, so as to facilitate the rotation of the grounding structure 200 following the elastic wheel 10. Specifically, the first cable terminal 221 and the second cable terminal 222 of the connecting wire 220 extend clockwise (as viewed in fig. 1) along the axis of the wheel center 110. Optionally, the number of the ground structures 200 is two, and the two ground structures 200 are symmetrically arranged around the center of the circular point of the wheel center 110. It is understood that in other embodiments, the number of grounding structures 200 may be specifically configured as desired.

According to the grounding structure 200 provided in this embodiment, the working principle of the grounding structure 200 is as follows:

the connecting wire 220 of the grounding structure 200 is electrically connected to the wheel hub 110 via the third mounting screw 244, while the other end of the connecting wire 220 is electrically connected to the second end 213 of the connecting member 210, and the first end 211 of the connecting member 210 is fixed to the wheel rim 140, so that in use, the current of the wheel hub 110 is guided to the connecting wire 220 via the third mounting screw 244, guided to the wheel rim 140 via the connecting wire 220 and the connecting member 210, and finally grounded via the wheel rim 140.

The grounding structure 200 provided in this embodiment has at least the following advantages:

the embodiment of the utility model provides a ground structure 200, connecting wire 220 pass through connecting piece 210 overlap joint on tyre 140, set up the first mounting hole 212 for the counter bore on the connecting piece 210, have saved installation space by a wide margin to can adapt to the tyre 140 of the elasticity wheel 10 that has narrower tread. Moreover, since the second end 213 of the connecting member 210 extends to the wheel center 110 beyond the pressing ring 120, that is, the connection point of the connecting wire 220 and the connecting member 210 corresponds to the wheel center 110, in the rotation process of the elastic wheel 10, even if the pressing ring 120 and the wheel rim 140 generate axial relative movement, there is no contact between the pressing ring 120 and the connecting wire 220, so that the risk that the pressing ring 120 wears the connecting wire 220 is avoided, the service life of the connecting wire 220 is prolonged, and the service life of the grounding structure 200 is further prolonged. Meanwhile, the grounding structure 200 is high in installation stability, the problem that the connecting wire 220 is broken by other devices on the bogie is solved, and the grounding effect is further guaranteed.

The present embodiment also provides a resilient wheel 10 that includes the ground engaging structure 200 described above. Since the elastic wheel 10 includes the grounding structure 200, the elastic wheel has the advantages of long service life, good grounding effect and high installation stability.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (13)

1. A grounding structure is used for an elastic wheel, the elastic wheel comprises a wheel rim, a wheel center and a pressing ring, and the pressing ring is arranged between the wheel center and the wheel rim; the first connecting end is used for being in conductive connection with the wheel rim, and the second connecting end is used for being in conductive connection with the wheel center;

the grounding structure further comprises a first mounting screw; the first connecting end is provided with a first mounting hole, and the first mounting screw penetrates through the first mounting hole and is used for being in threaded connection with the wheel rim, so that the first connecting end is fixed on the wheel rim; the first mounting hole is a countersunk hole, and a screw head of the first mounting screw is accommodated in the first mounting hole; or,

the first connecting end is integrally formed on the wheel rim or is bonded to the wheel rim.

2. The ground structure of claim 1, wherein the ground structure includes a connector and a connecting wire connected to each other, the connector being adapted to be electrically connected to the wheel band, the connecting wire being adapted to be electrically connected to the wheel center; the first connecting end is used for connecting the connecting piece with the wheel rim; the second connecting end is one end of the connecting wire used for being connected with the wheel center.

3. The ground structure of claim 2, wherein the connector has opposite first and second ends, the first end for electrically connecting with the wheel band, the second end extending across the clamping ring to the wheel center, and the second end being electrically connected with the connecting wire.

4. The grounding structure of claim 3, wherein the first mounting holes are opened at the first end, the number of the first mounting holes is two, the two first mounting holes are spaced apart from each other along a first direction, and a connecting line between the first end and the second end extends along a second direction; the first direction and the second direction form an included angle alpha, and the included angle alpha is more than 0 degree and less than or equal to 90 degrees.

5. The grounding structure of claim 2, further comprising a second mounting screw for simultaneously engaging the connector and the connecting wire to connect the connector to the connecting wire.

6. The ground structure of claim 5, wherein the hub is provided with a recess for receiving the second mounting screw to avoid interference of the second mounting screw with the hub.

7. The ground structure of claim 2, wherein the connector is rotatably connected to the connecting wire.

8. The ground structure of claim 2, wherein the connecting wire extends in a circumferential direction of the wheel center.

9. The grounding structure of claim 1, wherein the grounding structure comprises a cable, a first cable terminal and a second cable terminal, the first cable terminal and the second cable terminal being respectively fixed to both ends of the cable; the first cable terminal is used for being in conductive connection with the wheel center; the second cable terminal is used for being in conductive connection with the tire.

10. The grounding structure of claim 9, wherein the first mounting hole opens to the second cable termination.

11. The grounding structure of claim 9, wherein the cable comprises a copper core and a heat-shrinkable tube covering the copper core, the first cable terminal and the second cable terminal respectively clamp two ends of the copper core, and two ends of the heat-shrinkable tube respectively cover the first cable terminal and the second cable terminal.

12. The grounding structure of claim 9, further comprising a spacer for being disposed between the first cable terminal and the wheel center, the spacer having a receiving groove for receiving the first cable terminal.

13. A resilient wheel, characterized in that it comprises a ground-engaging structure according to any one of claims 1-12.

Images