CN205331282U - Brake block of electrombile - Google Patents

Abstract

The utility model provides a brake block of electrombile, including the aluminum alloy support, a plurality of first fixed blocks, first support frame, the second support frame, the arc backup pad, the arc friction disc, the lug, fourth fixed block and spreading are in block to be put, the aluminum alloy support is equipped with the go -between, first through -hole and connecting block, the side and the aluminum alloy support fixed connection of first fixed block, first support frame is the L type, first support frame and aluminum alloy support fixed connection, the second support frame is the T font, the side and the aluminum alloy support fixed connection of second support frame, be equipped with second fixed block and third fixed block in the arc backup pad, be equipped with first recess on the internal surface of arc friction disc, be equipped with the third through -hole on the fourth fixed block, the spreading is in block to be put including spreading piece and abrasionproof piece. The utility model discloses can realize the firm combination of friction material and aluminum alloy together to can play comparatively firm braking effect.

Description

A kind of brake block of electrombile

Technical field

This utility model relates to vehicle technology field, especially relates to a kind of brake block of electrombile。

Background technology

The brake system of current electric motor car adopts the aluminium alloy structure of integration, and not only manufacturing cost is high, service life is short, and diecasting alloys are softer, is difficult to be fixed together with high-quality friction material。

Therefore, it is necessary to provide a kind of new technical scheme to overcome drawbacks described above。

Summary of the invention

The purpose of this utility model is in that to provide a kind of brake block of electrombile that can effectively solve above-mentioned technical problem。

For reaching the purpose of this utility model, adopt the following technical scheme that

A kind of brake block of electrombile, described brake block of electrombile includes aluminium alloy post, it is arranged at some first fixed blocks on described aluminium alloy post, it is positioned at the first bracing frame of described first fixed block side, it is positioned at the second bracing frame in the middle of described aluminium alloy post, it is positioned at the curved support plate on the left of described first fixed block, it is positioned at the arcuate friction sheet on the left of described curved support plate, it is positioned at the some projections on the left of described arcuate friction sheet, it is positioned at the 4th fixed block on the right side of described aluminium alloy post and is positioned at the spreading block assembly below described 4th fixed block, described aluminium alloy post is provided with connection ring, run through the first through hole of its upper and lower surface and be arranged at the contiguous block at its two ends, described first fixed block is provided with several and is evenly distributed on described aluminium alloy post, the side of described first fixed block is fixing with described aluminium alloy post to be connected, described first bracing frame is provided with two and lays respectively at the both sides of described first fixed block, described first bracing frame is L-shaped, described first bracing frame is fixing with described aluminium alloy post to be connected, described second bracing frame is in T shape, the side of described second bracing frame is fixing with described aluminium alloy post to be connected, described curved support plate is provided with the second fixed block of both sides and the 3rd fixed block between described second fixed block, the inner surface of described arcuate friction sheet is provided with some first grooves, described 4th fixed block is provided with third through-hole, described spreading block assembly includes spreading block and is arranged at the friction-proof piece on described spreading block。

Described aluminium alloy post is semi-annular shape, and described aluminium alloy post adopts aluminum alloy materials to make。

Described connection ring is semi-annular shape, the two ends of described connection ring are fixing with the inner surface of described aluminium alloy post to be connected, described first through hole is provided with several and is evenly distributed on described aluminium alloy post, described first through hole is cylindrical shape, and described first through hole runs through the upper and lower surface of described aluminium alloy post。

Described contiguous block is provided with two and lays respectively at the two ends of described aluminium alloy post, and described contiguous block is fixing with described aluminium alloy post to be connected, and described contiguous block is provided with through the second through hole of its upper and lower surface, and described second through hole is cylindrical shape。

Described curved support plate is semi-annular shape, and the side of described curved support plate is fixing with described aluminium alloy post to be connected, and described curved support plate adopts aluminum alloy materials to make。

Described second fixed block is provided with two and lays respectively at the left and right sides, described second fixed block is fixing with the side of described curved support plate to be connected, described second fixed block adopts aluminum alloy materials to make, described 3rd fixed block is provided with several and is evenly distributed on the side of described curved support plate, described 3rd fixed block is fixing with the side of described curved support plate to be connected, and described 3rd fixed block adopts aluminum alloy materials to make。

Described first fixed block is fixing with the inner surface of described curved support plate to be connected, and one end of described first bracing frame and one end of the second bracing frame are fixing with the inner surface of described curved support plate to be connected。

Described arcuate friction sheet is semi-annular shape, and the inner surface of described arcuate friction sheet is fixing with the outer surface of described curved support plate to be connected, and described 3rd fixed block is contained in described first groove, and described second fixed block acts against the two ends of described arcuate friction sheet。

Described projection is provided with several and is evenly distributed on the outer surface of described arcuate friction sheet, described projection is hemispherical, described projection is fixing with the outer surface of described arcuate friction sheet to be connected, and described third through-hole is cylindrical shape, and described third through-hole runs through the upper and lower surface of described fixed block。

Described spreading block is semicylinder shape, described spreading block is provided with through the fourth hole of its upper and lower surface, described fourth hole is relative with described second through hole and makes described contiguous block and firm the linking together of described spreading block by bolt, the cross section of described friction-proof piece is concave shape, and described friction-proof piece surrounds described spreading block and fixing with described spreading block is connected。

Compared with prior art, this utility model has the advantages that this utility model brake block of electrombile simple in construction, easy to use, it is capable of friction material and firm the combining of aluminium alloy, such that it is able to play comparatively firm braking effect, ensure that the safety of bicyclist and the support that can friction material be consolidated, braking effect is notable。

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model brake block of electrombile。

Detailed description of the invention

As shown in Figure 1, this utility model brake block of electrombile includes aluminium alloy post 1, it is arranged at some first fixed blocks 2 on described aluminium alloy post 1, it is positioned at the first bracing frame 3 of described first fixed block 2 side, it is positioned at the second bracing frame 7 in the middle of described aluminium alloy post 1, it is positioned at the curved support plate 4 on the left of described first fixed block 2, it is positioned at the arcuate friction sheet 5 on the left of described curved support plate 4, it is positioned at the some projections 6 on the left of described arcuate friction sheet 5, it is positioned at the 4th fixed block 8 on the right side of described aluminium alloy post 1 and is positioned at the spreading block assembly 9 below described 4th fixed block 8。

As it is shown in figure 1, described aluminium alloy post 1 is in semi-annular shape, described aluminium alloy post 1 adopts aluminum alloy materials to make, thus ensure that the intensity of support, and lighter weight。Described aluminium alloy post 1 is provided with connection ring 11, runs through the first through hole 12 of its upper and lower surface and be arranged at the contiguous block 13 at its two ends。Described connection ring 11 is in semi-annular shape, and the two ends of described connection ring 11 are fixing with the inner surface of described aluminium alloy post 1 to be connected, and described connection ring 11 may be used for being fixed in electric motor car aluminium alloy post 1。Described first through hole 12 is provided with several and is evenly distributed on described aluminium alloy post 1, and described first through hole 12 is in cylindrical shape, and described first through hole 12 runs through the upper and lower surface of described aluminium alloy post 1。Described contiguous block 13 is provided with two and lays respectively at the two ends of described aluminium alloy post 1, described contiguous block 13 is fixing with described aluminium alloy post 1 to be connected, being provided with through the second through hole 131 of its upper and lower surface on described contiguous block 13, described second through hole 131 is in cylindrical shape。

As it is shown in figure 1, described first fixed block 2 is provided with several and is evenly distributed on described aluminium alloy post 1, described first fixed block 2 is encircled a city semi-annular shape, and the side of described first fixed block 2 is fixing with described aluminium alloy post 1 to be connected。Described first bracing frame 3 is provided with two and lays respectively at the both sides of described first fixed block 2, and described first bracing frame 3 is L-shaped, and described first bracing frame 3 is fixing with described aluminium alloy post 1 to be connected。Described second bracing frame 7 is in T shape, and the side of described second bracing frame 7 is fixing with described aluminium alloy post 1 to be connected。

As shown in Figure 1, described curved support plate 4 is in semi-annular shape, the side of described curved support plate 4 is fixing with described aluminium alloy post 1 to be connected, described curved support plate 4 adopts aluminum alloy materials to make, thus while described gripper shoe intensity, alleviate its quality, and then use more light, described curved support plate 4 is provided with the second fixed block 41 of both sides and the 3rd fixed block 42 between described second fixed block 41。Described second fixed block 41 is provided with two and lays respectively at the left and right sides, and described second fixed block 41 is fixing with the side of described curved support plate 4 to be connected, and described second fixed block 41 adopts aluminum alloy materials to make。Described 3rd fixed block 42 is provided with several and is evenly distributed on the side of described curved support plate 4, described 3rd fixed block 42 is fixing with the side of described curved support plate 4 to be connected, described 3rd fixed block 42 adopts aluminum alloy materials to make, thus being possible not only to ensure its intensity, it is also possible to alleviate its quality。Described first fixed block 2 is fixing with the inner surface of described curved support plate 4 to be connected, one end of described first bracing frame 3 and one end of the second bracing frame 7 are fixing with the inner surface of described curved support plate 4 to be connected, thus described curved support plate 4 is played firm supporting role, it is prevented that break apart between curved support plate 4 and described aluminium alloy post 1。

As shown in Figure 1, described arcuate friction sheet 5 is in semi-annular shape, the material that described arcuate friction sheet 5 adopts coefficient of friction bigger is made, the inner surface of described arcuate friction sheet 5 is provided with some first grooves 51, the inner surface of described arcuate friction sheet 5 is fixing with the outer surface of described curved support plate 4 to be connected, described 3rd fixed block 42 is contained in described first groove 51, such that it is able to prevent described arcuate friction sheet 5 from sliding at the outer surface of described curved support plate 4, described arcuate friction sheet 5 is played the effect of support。Described second fixed block 41 acts against the two ends of described arcuate friction sheet 5, such that it is able to arcuate friction sheet 5 is served further fixation so that arcuate friction sheet 5 can play firm braking effect。

As shown in Figure 1, described projection 6 is provided with several and is evenly distributed on the outer surface of described arcuate friction sheet 5, described projection 6 is in hemispherical, and described projection 6 is fixing with the outer surface of described arcuate friction sheet 5 to be connected, and the material that described projection 6 adopts coefficient of friction bigger is made。Setting due to projection 6, it is possible to dramatically increase the frictional force of arcuate friction sheet 5 so that braking effect is more notable, and ensure that integrally-built steady type。

As shown in Figure 1, described 4th fixed block 8 is in semi-annular shape, described 4th fixed block 8 is provided with third through-hole 81, described third through-hole 81 is in cylindrical shape, described third through-hole 81 runs through the upper and lower surface of described 4th fixed block 8, described third through-hole 81 is relative with described second through hole 131 to be linked together by bolt or other connected modes, so that the 4th fixed block 8 and firm the linking together of described aluminium alloy post 1。

As shown in Figure 1, described spreading block assembly 9 includes spreading block 91 and is arranged at the friction-proof piece 92 on described spreading block 91, described spreading block 91 is in semicylinder shape, described spreading block 91 is provided with through the fourth hole of its upper and lower surface, described fourth hole is cylindrical shape, and described fourth hole is relative with described second through hole and makes described contiguous block 13 and firm the linking together of described spreading block 91 by bolt or other connected modes。The cross section of described friction-proof piece 92 is concave shape, and described friction-proof piece 92 surrounds described spreading block 91 and fixing with described spreading block 91 is connected, thus preventing described spreading block 91 to be worn。

The above; being only detailed description of the invention of the present utility model, but protection domain of the present utility model is not limited thereto, any those skilled in the art are in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection domain of the present utility model。Therefore, protection domain of the present utility model should be as the criterion with described scope of the claims。

Claims (10)

1. a brake block of electrombile, it is characterized in that: described brake block of electrombile includes aluminium alloy post, it is arranged at some first fixed blocks on described aluminium alloy post, it is positioned at the first bracing frame of described first fixed block side, it is positioned at the second bracing frame in the middle of described aluminium alloy post, it is positioned at the curved support plate on the left of described first fixed block, it is positioned at the arcuate friction sheet on the left of described curved support plate, it is positioned at the some projections on the left of described arcuate friction sheet, it is positioned at the 4th fixed block on the right side of described aluminium alloy post and is positioned at the spreading block assembly below described 4th fixed block, described aluminium alloy post is provided with connection ring, run through the first through hole of its upper and lower surface and be arranged at the contiguous block at its two ends, described first fixed block is provided with several and is evenly distributed on described aluminium alloy post, the side of described first fixed block is fixing with described aluminium alloy post to be connected, described first bracing frame is provided with two and lays respectively at the both sides of described first fixed block, described first bracing frame is L-shaped, described first bracing frame is fixing with described aluminium alloy post to be connected, described second bracing frame is in T shape, the side of described second bracing frame is fixing with described aluminium alloy post to be connected, described curved support plate is provided with the second fixed block of both sides and the 3rd fixed block between described second fixed block, the inner surface of described arcuate friction sheet is provided with some first grooves, described 4th fixed block is provided with third through-hole, described spreading block assembly includes spreading block and is arranged at the friction-proof piece on described spreading block。

2. brake block of electrombile as claimed in claim 1, it is characterised in that: described aluminium alloy post is semi-annular shape, and described aluminium alloy post adopts aluminum alloy materials to make。

3. brake block of electrombile as claimed in claim 2, it is characterized in that: described connection ring is semi-annular shape, the two ends of described connection ring are fixing with the inner surface of described aluminium alloy post to be connected, described first through hole is provided with several and is evenly distributed on described aluminium alloy post, described first through hole is cylindrical shape, and described first through hole runs through the upper and lower surface of described aluminium alloy post。

4. brake block of electrombile as claimed in claim 3, it is characterized in that: described contiguous block is provided with two and lays respectively at the two ends of described aluminium alloy post, described contiguous block is fixing with described aluminium alloy post to be connected, being provided with through the second through hole of its upper and lower surface on described contiguous block, described second through hole is cylindrical shape。

5. brake block of electrombile as claimed in claim 4, it is characterised in that: described curved support plate is semi-annular shape, and the side of described curved support plate is fixing with described aluminium alloy post to be connected, and described curved support plate adopts aluminum alloy materials to make。

6. brake block of electrombile as claimed in claim 5, it is characterized in that: described second fixed block is provided with two and lays respectively at the left and right sides, described second fixed block is fixing with the side of described curved support plate to be connected, described second fixed block adopts aluminum alloy materials to make, described 3rd fixed block is provided with several and is evenly distributed on the side of described curved support plate, described 3rd fixed block is fixing with the side of described curved support plate to be connected, and described 3rd fixed block adopts aluminum alloy materials to make。

7. brake block of electrombile as claimed in claim 6, it is characterized in that: described first fixed block is fixing with the inner surface of described curved support plate to be connected, one end of described first bracing frame and one end of the second bracing frame are fixing with the inner surface of described curved support plate to be connected。

8. brake block of electrombile as claimed in claim 7, it is characterized in that: described arcuate friction sheet is semi-annular shape, the inner surface of described arcuate friction sheet is fixing with the outer surface of described curved support plate to be connected, described 3rd fixed block is contained in described first groove, and described second fixed block acts against the two ends of described arcuate friction sheet。

9. brake block of electrombile as claimed in claim 8, it is characterized in that: described projection is provided with several and is evenly distributed on the outer surface of described arcuate friction sheet, described projection is hemispherical, described projection is fixing with the outer surface of described arcuate friction sheet to be connected, described third through-hole is cylindrical shape, and described third through-hole runs through the upper and lower surface of described fixed block。

10. brake block of electrombile as claimed in claim 9, it is characterized in that: described spreading block is semicylinder shape, described spreading block is provided with through the fourth hole of its upper and lower surface, described fourth hole is relative with described second through hole and makes described contiguous block and firm the linking together of described spreading block by bolt, the cross section of described friction-proof piece is concave shape, and described friction-proof piece surrounds described spreading block and fixing with described spreading block is connected。