TECHNICAL FIELD
[0001] The present subject matter relates to a support member for a brake unit and more particularly but not exclusively relates to the support member for the
motor vehicles.
BACKGROUND
[0002] Generally, two-wheeled or three-wheeled motor vehicles are employed with braking system that enables the user to control the speed of the vehicle, especially to reduce the speed and/or to bring the vehicle to halt. Braking system of the vehicle is one of the safety features of the vehicle. However, due to varying driving practices and driving & environment conditions, there is possibility of occurrence of excessive braking or under braking by the user, which may lead to unwarranted operating condition of the vehicle. In the light of the aforementioned and other situations, with the advancement in technology, various braking systems have come intojight that are aimed at providing unproved braking performance. For example, there are systems like interlocking braking system that transmits braking force to more than one-wheel upon application of single brake lever, anti-lock braking system that helps in keeping the wheel from locking even during excessive braking, etc. These braking systems may use a fully hydraulic system or a combination of mechanical & hydraulic system for transmitting braking forces to the wheel(s). Further, the braking system includes a brake control unit that is either electrical or mechanical or which is used along with the hydraulic system. Such braking systems include hoses that may get connected to the control unit.
BRIEF DESCRIPTION OF THE DRAWINGS [0003] The detailed description is described with reference to the accompanying figures. The same numbers are used throughout the drawings to reference like features and components.
[0004] Fig. 1 illustrates a right side view of an exemplary motor vehicle, in
accordance with an embodiment of the present subject matter.
[0005] Fig. 2 illustrates a right side view of a frame member of the motor
_jiehicje_wjtiiselected parts thereon, in accordance with the embodiment of Fig. 1.

[0006] Fig. 3 (a) depicts an isometric enlarged view of the brake unit secured
to the- frame member through a support member, in accordance with the
embodiment of Fig. 2.
[0007] Fig. 3 (b) depicts another isometric view of the frame member with the
support member shown in exploded view, in accordance with an embodiment.
[0008] Fig. 4 illustrates a brake unit supported by the support member, in
accordance with the embodiment of Fig. 3 (a).
[0009] Fig. 5 depicts an exploded view of brake unit from the support member,
in accordance with the embodiment of Fig. 4.
[00010] Fig. 6 depicts an isometric view of the support member, in accordance
with the embodiment of Fig. 4.
[000il] Fig. 7 depicts a cut-sectional view of the support member along with
the brake unit and hydraulic joints, in accordance with the embodiment of Fig. 4.
[00012] Fig. 8 depicts a top perspective view of a brake unit mounted to the
motor vehicle,.in accordance with a second embodiment of the present subject
matter.
[00013] Fig. 9 depicts a top view and an exploded view of the brake unit
assembly, in accordance with yet another embodiment of the present subject
matter.
DETAILED DESCRIPTION [00014] Generally, the brake control unit, simply referred to as 'brake unit', for example say ABS control unit, is provided with inlet and outlet port(s), which are connected to hoses or hydraulic pipes through which the brake unit regulates the hydraulic fluid effecting brake operation. However, the hoses or hydraulic pipes used at the inlet and the outlet ports may get swapped resulting in wrong hydraulic connection between the inlet and outlet with a master cylinder and a brake caliper, respectively. The same problem may also happen between front and rear brake circuits. Such wrong connection leads to failure of the braking system, causing safety concerns, without even indicating any warning signal to the user or service personnel as this failure cannot be recognized by the brake unit.

[00015] Further, the wrong hydraulic connection results in poor control in pressure (fluid) modulation as during such wrong connection the pressure is only regulated at master cylinder, but not at the brake caliper. Thus, fluid-pressure will be released only from master cylinder, but not from caliper. Thus, the control unit cannot recover corresponding wheel from severe braking that may lead to wheel skidding/rear wheel lift off due to wheel getting locked or over braking. Further, the wrong connection would result in fluid getting dumped into the brake caliper instead of the master cylinder. This results into a severe concern in road safety as such failure may be diagnosed only during operation of the vehicle and the user may have very less time to react resulting in catastrophic accidents. [00016] Typically, the braking system assembly & calibration like the ABS system is initially carried out at factory, and the hydraulic connections may be assembled properly with due care. However, in the field and at dealer end, during servicing or other conditions, there is higher probability of occurrence.of wrong connections-resulting in interchange, pf, inlet and outlet ports connection at the brake unit, which becomes a major challenge. While ABS type systems aim to provide a fail-safe solution to the user of the vehicle, it is essential to ensure that the system design functions are in a fool proof manner to be able to achieve a fail-safe scenario.
[00017] Certain solutions were proposed in the art to address the aforementioned problems. For example, by provision of visual markings/ identifications on the control unit. However, such visual markings do not prevent any wrong connections in hydraulic circuit owing to inexperience of service personnel, negligence, and even due to urgency. Thus, such a solution cannot be considered fool proof. Moreover, some other solutions in the art propose provision of inlet and outlet ports with different sizes. Yet, such different port sizes in hydraulic inlet and outlet in vehicles like two-wheeled or three-wheeled vehicle poses challenge to use a light weight brake unit owing to compact packaging requirements in two-wheeled or three-wheeled motor vehicles. Moreover, additional challenge is to make different port sizes resulting in higher ^oglisg-cc^trmultipleyteols-wm^-is^Qtje.conomical. Also, procurement of such

different parts is not feasible & can also lead to excess assembly time owing to variety. Conventionally, a separate plate may be used to avoid wrong assembly. However, such plate is also prone to be missed out or eliminated during assembly or during service. Moreover, this plate requires extra mounting onto the frame or on the control unit requiring fasteners. Also, such an assembly is time consuming due to presence of multiple parts and additional operation.
[00018] Moreover, the hydraulic ports are prone to receive tool hits during assembly or servicing of adjacent parts like engine etc. because of which the hydraulic ports at the joining portion to the brake unit tend to loosen up resulting in formation of loose joints. Any such loosening of hydraulic joints would affect the hydraulic-joint sealing characteristics, leakage, or pressure drop occurs because of which the braking force may vary resulting in unwarranted braking. [00019] Thus, the conventional designs do not provide a foolproof assembly of the brake unit on to the vehicle. Hence, there is need for a system that enables the ports of the hydraulic system to be assembled onto the control unit in a fool proof manner even when assembled by inexperienced service personnel and at the same time the system should be cost effective without involving any additional tooling and extra parts.
[00020] Hence, the present subject matter provides a motor vehicle comprising one or more wheels. The motor vehicle is provided with a brake unit capable of applying braking force on the one or more wheels through two or more brake hoses or hydraulic pipes. The brake unit is secured to the motor vehicle though a support member. The support member is adapted to accommodate the two or more brake hoses, being functionally connected to said brake unit, at a pre¬determined location/port of the brake unit and with pre-determined paths. [00021] The brake unit includes one or more inlet and one or more outlet ports and the support member enables assembly of hydraulic connection through hoses or hydraulic pipes to the inlet and outlet ports eliminating any wrong assembly therebetween. Also, the present subject matter enables use of hydraulic ports having identical diameter as the support member is capable of supporting the "b?aiteLunit"^n^1islls^aaa^ed"fo acconirMa^te^tBeas^a^u^eTbTaWhose of"tfie-

two or more brake hoses at a pre-determined position on the brake unit, and at least an outlet brake hose at a pre-determined position on the brake unit. [00022] It is an aspect that the support member is a single piece member that supports the brake unit on the vehicle and also guides the hydraulic pipes at the vicinity of the inlet and outlet portions whereby the possibility of missing of any additional parts during assembly of the system that prevents wrong assembly is eliminated.
[00023] It is a feature that the support member includes a support portion and an alignment portion integrally formed. The alignment portion is provided with one or more with hydraulic hose-accommodating spaces having a profile matching with a profile of the hydraulic pipes at the connecting portion, wherein only the structural profile of the hydraulic pipe that matches with the profile/path of hydraulic hose-accommodating space can be assembled thereat. [00024] The hydraulic hose-accommodating space can be a hole, an elongated hole, slot or a guide. In a preferred embodiment, the hydraulic hose-accommodating space is a hole/elongated hole as it reduces material and weight
thereby reducing cost.
[00025] It is another aspect of the present subject matter that the support
member controls different orientations of hydraulic hoses/pipes connected to
brake unit.
[00026] It is feature of the present subject matter that the support member
enables correct assembly of the hoses or hydraulic pipes to the brake unit during
assembly at the factory and also at the service end without the need for any
additional training of service personnel.
[00027] It is an aspect of the present subject matter that the alignment and
correct assembly of the hoses is done without need for any extra parts like an
additional part, mountings, joints etc. whereby the additional time for assembly of
additional such additional parts is also eliminated.
[00028] It is an effect of the present subject matter that worst or uncontrollable
instability issue due to wheel skidding/ rear wheel lift off due to failure of brake
i—TTrju'jrer.rjL^s, .v~-xv.rt-ofa&1i.>v\KlTT-r>f-thg--iq-pHmmated—n *—m 1—i

[00029] It is a feature of the present subject matter that the difficulty during assembly due to tolerances is reduced as the support member and guiding member are made as a single part.
[00030] The brake unit can be an anti-lock brake system (ABS) control unit, an interlocking brake system control unit that applies braking force on more than one wheel, or interlocking anti-lock brake system, which have two or more brake hoses. The braking system can be a disc brake or drum brake that use fully hydraulic or a combination of mechanical and hydraulic system for transmitting braking force.
[00031] The present subject matter is applicable to single channel or multi¬channel ABS system with banjo connections/non-banjo/ISO/JASO connectors. Thus, the present subject matter is applicable to two-wheeled motor vehicles, three-wheeled motor vehicles, and other similar multi-wheeled motor vehicle. [00032] The present subject matter along with all the accompanying embodiments and their advantages would be described in greater detail in conjunction with the figures in the following paragraphs.
[00033] Fig. 1 illustrates a two-wheeled vehicle (100), which is an exemplary motor vehicle, having an IC engine (101) that is vertically disposed. Fig. 2 illustrates a side view of a frame member (102) of vehicle with selected parts thereon, in accordance with an embodiment of the embodiment of the present subject matter. Preferably, the IC engine (101) is a single-cylinder type IC engine. • The two-wheeled vehicle comprises a front wheel (110), a rear wheel (103), the frame member (102), a fuel tank (121) and seat (106). The frame member (102) includes a head pipe (111), a main tube (112) (shown in Fig. 2), a down tube (not shown), and seat rails (not shown). The head pipe (111) supports a steering shaft (not shown) and two telescopic front suspension(s) (114) (only one shown) that is attached to the steering shaft through a lower bracket and upper bracket (not shown). The two telescopic front suspension(s) (114) support the front wheel (110). The upper portion of the front wheel (110) is covered by a front fender (115) mounted to the lower portion of the telescopic front suspension (114) at the

end of the steering shaft. A handlebar (108) is fixed to upper bracket (not shown) and can rotate to both sides.
[00034] A head light (109), a visor guard (not shown) and instrument cluster (not shown) are arranged on an upper portion of the head pipe (111). The down tube may be located in front of the IC engine (101) and extends slantingly downward from head pipe (111). The main tube (112) at least partially surrounds the IC engine (101) and extends rearward from head pipe (111). The IC engine (101) is mounted at the front by the down tube and connects the rear of the IC engine (101) at the rear portion of the main tube.
[00035] A fuel tank (121) is mounted on the horizontal portion of the main tube (112). Seat rails are joined to main tube and extend rearward to support a seat (106). A rear swing arm (not shown) is connected to the frame member (102) to swing vertically, and a rear wheel (103) is connected to rear end of a rear swing arm (not shown). Generally, the rear swing arm is supported by a mono rear suspension (117) (as illustrated in the present embodiment) or two suspensions on either side of the two-wheeled vehicle. A tail light unit (not shown) is disposed at the end of the two-wheeled vehicle at the rear of the seat (106). A grab rail (105) is also provided on the rear of the seat rails. The rear wheel (103) arranged below seat (106) rotates by the driving force of the IC engine (101) transmitted through a chain drive (116) from the IC engine (101). A rear fender (127) is disposed above the rear wheel (103).
[00036] As shown in Fig. 2, the frame member (102) supports a brake unit (200), which can be an anti-lock brake system (ABS) control unit. In the depicted embodiment, the brake unit (200) is mounted to a main tube (112) of the frame member (102), wherein the main tube (112) extends rearward from the head pipe (111) and extend downward at least partially enclosing the IC engine (101). The ABS control unit may comprise of Hydraulic Control Unit (HCU) and an electronic control unit (ECU) or a hydraulic electronic control unit (HECU). The brake unit (200) comprises of one or more brake hose(s) (250, 260) configured to receive hydraulic fluid pressure' from an actuator, which can be a hand lever -actuated: master tcyliHderT(23'5)"2orJ fo^r^edaiacluated lmastefi cylinder-The

actuator enables to deliver hydraulic fluid pressure to one or more brake caliper(s) (215) to perform braking function on the wheel(s) (103 or 110). Further, the wheel(s) (110) are provided with a sensor ring (not shown) that rotates along with the wheel (110) that helps in determining the real time rotational speed of the wheel (110). The brake unit (200) depending on the determined wheel speed and wheel speed pattern reduces the braking force acting on the brake calipers (215) by relieving hydraulic fluid from brake unit (200) thereto.
[00037] In one embodiment, the brake unit (200) is optimally mounted to the motor vehicle (100) to be electrically connected to a power providing unit like battery or the IC engine (101) and at the same time to the wheel (110) of the vehicle (100). The brake unit (200) is supported by a support member (205) (shown in Fig. 3 (a)) and the support member (215) is mounted to the frame member (102) of the vehicle (100) through a bracket (265) (shown in Fig. 3 (b)). [00038] Fig. 3 (a) depicts an enlarged view of brake unit (200) secured to the frame member (102) through a support member (205). Fig. 3 (b) depicts an exploded view of the support member (205). The brake unit (200) comprises one or more inlet port(s) (201), receiving hydraulic fluid from the master cylinder (235), and an outlet port (202) through which hydraulic fluid pressure is applied to the brake calipers (215). The brake unit (200) is connected to the master cylinder (235), which is mounted to the handle bar (108) in the depicted embodiment, through an inlet brake hose (250). The brake caliper (215), which is secured to the front suspension (114) in the depicted embodiment, is connected to the brake unit (200) through an outlet brake hose (260). Each of the inlet brake hose (250) and the outlet brake hose (260) are hydraulic lines including rigid pipe, flexible hose portions, banjo end-connectors and banjo bolts (253, 263) (shown in Fig. 5) along with banjo washers (not shown). Thus, the brake unit (200), during application of the brake, receives the hydraulic fluid pressure from the master cylinder (235) and provides output to the brake caliper (215) for application of the brake. [00039] Fig. 4 depicts another enlarged view of the brake unit (200) mounted to the support member (205). The brake unit (200) is detachably-secured to the ~slIppoltbnembeTp05t)Ib^using secunn^lne^sllileIfa^^ersT(2*70)T^dHitionally,

cushioning members (271) are provided between the brake unit (200) and the support member (205) to isolate any vibrations between the frame member (102) and the brake unit (200). Further, the support member (205) along with the brake unit (200) is also detachable from the vehicle (100). The support member (205) includes a mounting portion through which it is secured to the frame member (102) of the vehicle through fastening means (266, 267).
[00040] The brake unit (200) includes a body portion (204) through which the brake unit (200) is secured to the support member (205). The body portion (204) of the brake unit (200) includes one or more face(s) and the inlet port (201) and the outlet port (202) (shown in Fig. 5) which are provided on at least one face of the body portion (204). In the embodiment as shown in Fig. 5, the inlet port (201) and the outlet port (202) are provided on a first lateral face (203) of the brake unit (200).
[00041] The inlet brake hose (250) includes a first end portion (not shown) acting "as" one endlEnd a second end portion (2*51) acting as other endTwhereirTtHe" first end portion is connected to the master cylinder (235) and the second end portion (251) is connected to the brake unit (200). Similarly, the outlet brake hose (260) includes a third end portion (261) acting as one end and a fourth end portion (not shown) acting as other end, wherein the third end portion (261) is connected to the brake unit (200) and the fourth end portion is connected to the brake caliper (215). The first end portion and the second end portion (251) of the inlet brake hose (250) are connected using a first intermediate hose (252) and the third end portion (261) and the fourth end portion of the outlet brake hose (260) are connected using a second intermediate hose (262). The first intermediate hose (252) and the second intermediate hose (262) in the present embodiment are routed along the main tube (112) of the frame member (102) and are at least partially rigid type. However, the intermediate hoses (252, 262) can be flexible type depending on the application.
[00042] In another embodiment, the brake unit can be a multi-channel type
system that includes two or more inlet hoses and two or more outlet hoses that are
>-hconnected tb-tWo^of-'more, wHiilsToflthe motor' veffi'cleTS™ "~

[00043] Further, the third end portion (261) of the outlet brake hose (260) and the second end portion (251) of the inlet brake hose (250) are made of rigid material. For example, the third end portion (261) and the second end portion (251) are banjo type connectors. The brake unit (200) is secured to the motor vehicle (100) through the support member (205), and the support member (205) is also adapted to accommodate two or more brake hoses (250, 260), being functionally connected to the brake unit (200), at a pre-determined location thereof and with unique pre-determined paths for each of the banjo connections viz. second end portion (251), and third end portion (261). In other words, the support member (205) is adapted to accommodate at least an inlet brake hose (250) of the said two or more brake hoses (250, 260) at a first pre-determined position on the brake unit (200), and at least an outlet brake hose (260) at a second pfe-determined position on the brake unit (200).
. [00044] For example, the body portion (204) of the brake unit (200) includes the inlet port (201) that would be the first pre-determined position for assembling the inlet brake hose (250) thereat and the second pre-determined position that would be the second pre-determined position for assembling the outlet brake hose (260) thereat.
[00045] Fig. 5 depicts an exploded view of the assembly including the brake unit (200). Fig. 6 depicts an enlarged view of the support member, in accordance with the embodiment as depicted in Fig. 4. The support member (205) includes one or more hydraulic hose-accommodating space (275) and one or more hydraulic hose-accommodating space (280), corresponding to the inlet brake hose (250) and the outlet brake hose (260), that are capable of enabling only a pre¬determined banjo type joint to be assembled at the respective hydraulic hose-accommodating space (275 or 280).
[00046] In the present embodiment, the brake unit (200) is connected with the inlet brake hose (250) and the outlet brake hose (260) through their second end (portion (251) and the third end portion (261) respectively. Accordingly, the support member (205) is also provided with a two hose-alignments portions (275,
i^28'G)7G3nTTi^draE?^

that they align with the ports (201, 202) of the brake unit (200). The two hose-accommodating spaces (275, 280) (also depicted in Fig. 6) according to the depicted embodiment are provided on an alignment portion (274), which is integrally formed with the support member (205).
[00047] In one embodiment, the support member (205) is made of rigid sheet metal that is at least partially surrounding the brake unit (200). The support member (205) can be oriented in multiple planes to align with the multiple faces of the brake unit (200). Further, in one implementation (as shown in Fig. 5), the second end portion (251) and the third end portion (261) are made of rigid material and are having a dissimilar profile. For example, the second end portion (251) is having a substantially straight profile and the third end portion (261) is having a substantially a curved profile so as to be dissimilar. The inlet hydraulic hose-accommodating space (275) is adapted to match the profile of the second end (portion (251), which is substantially straight in the present embodiment, of the inlet brake hose (250) so as to accommodate only the inlet brake hose (250) at the inlet port (201). Similarly, the outlet hydraulic hose-accommodating space (280) is adapted to match the profile of the third end portion (261) of the outlet brake hose (260), which is substantially curved in the present embodiment, so as to receive only the outlet brake hose (260) at the second port (202) whereby the possibility of any wrong assembly of the hoses to the brake unit is completely eliminated.
[00048] The profiles of the second end portion (251) and the third end portion
(261) is not restricted to the aforementioned profiles and may include any known
geometrical regular or irregular profile such that they are dissimilar or unique.
[00049] The support member (205) as depicted in accordance with the
embodiment of Fig. 6 includes a support portion (221) at which the brake unit gets
mounted/secured. The brake unit (200) is secured to the support portion (221)
through one or more apertures (206) provided on the support portion (221) using,
fasteners (272) (shown in Fig. 7) like bolts. The support member (205) includes
the alignment portion (274) integrally formed that enables correct assembly of the
hydraTUie'hosesio;n tEe^brake umfJjZQSyr —

[00050] Fig. 7 depicts a sectional view of the brake unit (200) assembled to the support member (205). The alignment portion (274) in the present embodiment is a planar portion that is aligned parallel to a first lateral face (203) of the body portion (204) and the alignment portion (274) is provided at a first distance (290) from the first lateral face (203). The first distance (290) provided helps in anti-rotation of the second end portion (251) and the third end portion (261) of the brake hoses (250, 260) during assembly. Further, the first distance (290) avoids any wrong assembly as the elevated alignment portion (274) interferes with the rigid ends (251, 261), as the profile would not match during assembly whereby the support member (205) enables fool proof assembly even during servicing by some.unskilled service personnel.
[00051] Further, the support member (205) protects the connecting portions viz. the second end portion (251) and the third end portion (261), as the alignment portion (274), which is elevated, at least partially protects the second end portion (251) and the third end portion (261) from impacts during servicing of other parts. Thus, the weak zones, which are connecting portions, that may be loosened or damaged during any impacting acting on them during servicing of adjacent parts like the IC engine (101), which could result in leakage or loss of pressure at the connecting portion is reduced making the system reliable.
[00052] Fig. 8 depicts an enlarged top perspective view of a brake unit (300)
mounted to' the motor vehicle, in accordance with a second embodiment of the
present subject matter. The brake unit (300) in the depicted embodiment is
secured to the main tube (not shown) using a support member (305), wherein the
support member (305) is secured to the main tube through a lateral side of the
support member (305). In the present embodiment, the support member (305) is a
U-shaped or C-shaped member, which is made of rigid material. Thus, the support
member can have any known regular or irregular geometric in order to enable
mounting and fool proof assembly. The brake unit (300) in the present
embodiment is provided with ports (301, 302) on an upper facing side thereof.
The support member (305) can be made of a sheet metal bent into the desired
:proSle7iby casttng7|vl5yj e^&usion^ori b>Ta¥^krio^iflpfo^s^BTfieTSrake system ~

includes two or more brake hoses (350, 360). The support member includes an inlet hydraulic hose-accommodating space (375) and an outlet hydraulic hose-accommodating space (380), corresponding to an inlet brake hose. (350) and an outlet brake hose (360), wherein the support member (305) is capable of enabling only a pre-determined hose to be assembled at the respective accommodating spaces (375 or 380). Thus, out of the two or more brake hoses (350, 360) at least an inlet brake hose (350) would be assembled at a pre-determined position on the brake unit (300) and at least an outlet brake hose (360) would be assembled at pre-determined position on the brake unit (300). As per an embodiment, the first pre-determined position and the second pre-determined position can be an inlet port (301) and an outlet port (302), respectively.
[00053] Further, the inlet brake hose (350) and the outlet brake hose (360) are provided with a second end portion (351) and a third end portion (361) that are provided with dissimilar profiles or paths such that they align only with the inlet hydraulic hose-accommodating space (375) and the outlet hydraulic hose-accommodating space (380) respectively. Similarly, the inlet hydraulic hose-accommodating space (375) includes a profile dissimilar to a profile of the outlet hydraulic hose-accommodating space (380). Thus, the functional effectiveness of the braking system is retained and at the same time any fatal accidents that may be caused due to wrong assembly of the hoses is eliminated.
[00054] FIG. 9 illustrates a top view and an exploded view view of brake
unit (400) with the supprt member (405), in accordance with an embodiment of the present subject matter. In an embodiment, a substantially planar member, for example, the support member (405) is disposed on one of the face of the brake unit (400). The support member (405) ensures that appropriate banjo connection (of the plurality of brake hoses) are coupled to the corresponding port (of the one or more ports) thereby ensuring correct assembly on the brake unit (405). In an embodiment, the support member (405) is disposed in such a manner that upon assembly of one or more end portions of the one or more brake hoses are connected on to the one or more ports.

[00055] A first end portion (451), of a brake hose, is connected to a first
inlet port (401) disposed on said planar surface of the brake unit (400). In an
embodiment, a hollow banjo bolt, for example, a first banjo bolt (453), which
allows passage of brake fluid oil from the inlet hydralic brake hose (not shown) to
the brake unit (400) is mounted to the brake unit (400) and also ensures that the
first end portion (451) is held tightly against the top surface of the brake unit
(400) separated by the intermediately disposed support member (405).
[00056] Similarly, a second end portion (452) is connected to a second inlet
port (402) disposed on the said planar surface of the brake unit (400). A second banjo bolt (454), which allows passage of the brake fluid oil from another inlet hydraulic brake hose (not shwon) into the brake unit (400). A second banjo bolt (454) which allows passage of brake fluid oil from the inlet hydralic brake hose (not shown) to the brake unit (400) is mounted to the brake unit (400) and also ensures that the second end portion (452) is held tightly against the surface of the-brake unit (400) separated by the intermediately disposed support member (405). [00057] In a similar manner, a third end portion (461) and a fourth end protion
(462) of two outlet hydraluic brake hoses (not shown) are connected to first outlet
port (406) and a second outlet port (407), respectively, using a third banjo bolt
(463) and a fourth banjo bolt (464). Further, the support member (405) is
provided with accomdoating spaces(s) (480, 481, 490, 491) formed by a
combination of guides and holes to enable correct assembly of the brake hose end
portions (451, 452, 461, 462) on to the corresponding ports (401, 402, 406, 407).
As depicted in the current embodiment, the hose-alignemnt spaces can be a
combination of holes and guides. Thus, either holes, guides, elongated holes, or a
combination of one or more holes, guides, elongated holes may be used.
[00058] It will be appreciated that the present subject matter and its equivalent
thereof offers many advantages, including those which have been described
forthwith. Many modifications and variations of the present subject matter are
possible in the light of above disclosure. Therefore, within the scope of claims of
the present subject matter, it may be practiced other than as specifically described.

We claim:
1. A motor vehicle (100) comprising:
one or more wheels (103, 110);
a brake unit (200, 300, 400) capable of applying braking force on said one or more wheels (103, 110) through at least two brake hoses (250, 260, 350, 360), " said at least two brake hoses (250, 260, 250, 360) includes one or more inlet brake hose(s) (250, 350) and one or more outlet brake hose(s) (260, 360); and
a support member (205, 305, 405) secured to said motor vehicle, said support member (205, 305, 405) capable of supporting said brake unit (200, 300, 400), and said support member (205, 305, 405) is adapted to accommodate said one or more inlet brake hose(s) (250, 350) connected to corresponding one or more inlet port(s) (201, 301, 401, 402) of said brake unit (200, 300, 400) at a pre-determined position on said brake unit (200, 300, 400), and said one or more outlet brake hose(s) (260, 360) connected to corresponding one or more outlet port(s) (202, 302, 406, 407) of said brake unit (200, 300, 400) at pre-determined position on said brake unit (200, 300, 400), whereby
said support member (205, 305, 405) is configured to prevent interchanged connection of each of said brake hoses (250, 350, 260, 360) corresponding to each of said ports (201, 301, 202, 302, 401, 402, 406, 407) of said brake unit (200, 300, 400).
2. The motor vehicle (100) as claimed in claim 1, wherein said support member
(205, 305, 405) includes an aligning portion (274, 374) integrally formed, said
aligning portion (274, 374) is provided with two or more hydraulic hose-
accommodating space(s) (275, 280, 375, 380, 480, 481, 490, 491) with
corresponding each of said two or more brake hoses-(250, 260, 350, 360), and
each of said two or more brake hoses (250, 260, 350, 360) being provided with a
profile to accommodate said each of said two or more brake hoses (250, 260, 350,
360) at corresponding hydraulic hose-accommodating space(s) (275, 280, 375,

3. The motor vehicle (100) as claimed in claim 2, wherein said two or more hydraulic hose-accommodating spaces (275, 280, 375, 380) includes one or more inlet hydraulic hose-accommodating space(s) (275, 375) and one or more outlet hydraulic hose-accommodating space(s) (280, 380) adapted to accommodate said one or more inlet brake hose(s) (260, 360) and said one or more outlet brake hose(s) (260, 360), respectively, wherein each of said one or more inlet hydraulic hose-accommodating space(s) (275, 375) and said one or more outlet hydraulic hose-accommodating space(s) (280, 380) define a unique predetermined path corresponding to each of said one or more inlet brake hose(s) (250, 350) and each of said one or more outlet brake hose(s) (260, 360).
4. The motor vehicle (100) as claimed in claim 3, wherein said inlet brake hose (250, 350) includes a second end portion (251, 351) having a structural profile matching with a path defined by corresponding said inlet hydraulic hose-accommodating space(s) (275, 375) to accommodate said second end portion (251, 351), and-said outlet brake hose (260,-360) includes a third-end portion-(261, 361) having a structural profile matching with a path defined by corresponding said outlet hydraulic hose-accommodating space(s) (275, 375) to accommodate said third end portion (261, 361), and wherein each said second end portion (251, 351) and each said third end portion (261, 361) constitute one end portion of each said inlet brake hose (250, 350) and each said outlet brake hose (260, 360), respectively.
5. The motor vehicle (100) as claimed in claim 1, wherein said brake unit (200, 300, 400) includes two or more ports (201, 202, 301, 303, 401, 402, 403, 404) provided on at least one face (203) of a body portion (204) of said brake unit (200), said support member (205^ 305, 405) at least partially covers said brake unit (200, 300, 400), and said alignment portion (274, 374) aligning said two or more hydraulic hose-accommodating space(s) (275, 280, 375, 380, 480, 481, 490, 491) with corresponding said two or more ports (201, 202, 301, 303) of said brake unit (200, 300).
6. The motor vehicle (100) as claimed in claim 1, wherein said brake unit (200, _3J30,^p).is.ian-antislqckAbr^ing-system.1contrpLum

inlet brake hose(s) (250, 350) having a first end portion connected to a master cylinder (235) and said second end portion (251, 351) connected to said brake unit (200, 300), and said each of one or more outlet brake hose(s) (261, 361) having a fourth end portion connected to a brake caliper (215) and said third end portion (261, 361) connected to said brake unit (200, 300, 400), wherein said second end portion (251, 351) and said third end portion (261, 361) are having a dissimilar profile.
7. The motor vehicle (100) as claimed in claim 4, wherein said one or more inlet hydraulic hose-accommodating space(s) (275, 375) being different from said one or more outlet hydraulic hose-accommodating space(s) (280, 380), and wherein each of said inlet hydraulic hose-accommodating space(s) (275, 375) is capable of receiving only corresponding said inlet brake hose (250, 350), and each of said outlet hydraulic hose-accommodating space (280, 380) is capable of receiving only corresponding said outlet brake hose (260, 360).
8. The motor vehicle (100) as claimed in claim 1, wherein said support member (205, 305, 405) is at least one of a closed or an open structure, and said support member (205, 305, 405) is made of a rigid material including at least a sheet, extrudedj casted, or a molded form.
9. The motor vehicle (100) as claimed in claim 1, wherein said brake unit (200, 300) is mounted to a main tube (112) of the frame member (102), wherein said main tube (112) extends rearward from a head pipe (111) of the frame member (102) and extends downward at least partially surrounding the IC engine (101), and said brake unit (200) is disposed rearward of said IC engine (101).
10. The motor vehicle (100) as claimed in claim 1, wherein said two or more hydraulic hose-accommodating space(s) (275, 375, 280, 380, 4.80, 481, 490, 491) are formed by recess, slot, hole,, elongated hole, guide, or a combination thereof.
11. A support member (205, 305, 405) for a motor vehicle (100), said support member comprising:
a support portion (221) capable of supporting a brake unit (200, 300, 400) of said motor vehicle (100); and

an aligning portion (274, 374) provided with two or more hydraulic hose-accommodating space(s) (275, 280, 375, 380, 480, 481, 490, 491), and said support portion (221) is integrally formed with said aligning portion (274, 374). 12. The support member (221) as claimed in claim 11, wherein said two or more hydraulic hose-accommodating spaces (275, 280, 375, 380) includes one or more inlet hydraulic hose-accommodating space(s) (275, 375) and one or more outlet hydraulic hose-accommodating space(s) (280, 380), and each of said inlet hydraulic hose accommodating space (275, 375) includes a profile dissimilar to a profile of each of said outlet hydraulic hose-accommodating space (280, 380).