SLIDER WITH BRAKE PLATE

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a slider, and more particularly to a

slider having a brake plate.

2. Description of the Related Art

A conventional slider has a braking effect that is achieved by a sharp

turning action of the slider, so that the braking effect of the conventional slider

is limited by the skiing field and the skiing skill of the user.

A conventional brake device for a slider in accordance with the prior

art was disclosed in the Taiwanese Patent Publication No. 530682 and 595564

and comprises a flat plate mounted on the slider. The face of the flat plate has

an inclined angle of about 45 degrees relative to the snow ground so that the

flat plate rubs the snow ground to provide a braking effect. However, when the

flat plate presses the snow ground, the flat plate easily slips on the snow ground,

thereby decreasing the braking effect.

SUMMARY OF THE INVENTION

The primary objective of the present invention is to provide a slider

with a brake plate, wherein the user can control the brake plate to brake the

slider easily and conveniently.

A further objective of the present invention is to provide a slider with

a brake plate, wherein the brake plate has a smaller folded volume, thereby

saving space of storage and transportation.

A further objective of the present invention is to provide a slider with

a brake plate, wherein the snow shoveled by a shovel portion of the brake plate

is drained outward from a drain hole of the shovel portion. By applying the

brake plate to decelerate the sliding speed of the slider, the snow drained

outward from the drain hole provides special visual effects to viewers.

In accordance with one embodiment of the present invention, there is

a slider, comprising:

a main board movable on a snow ground;

a brake plate mounted on the main board and protruding outward

from the main board to face the snow ground, wherein the brake plate is formed

with a shovel portion extended toward the snow ground and inserted into the

snow ground to provide a braking effect to the main board.

In accordance with another embodiment of the present invention,

there is provided a slider, comprising:

a main board movable on a snow ground;

a fixing plate fixed on a surface of the main board facing the snow

ground;

a brake plate mounted on the fixing plate and protruding outward

from the main board to face the snow ground, wherein the brake plate is formed

with a shovel portion extended toward the snow ground and inserted into the

snow ground to provide a braking effect to the main board;

a support plate mounted between the fixing plate and the brake plate,

so that an included angle is defined between the fixing plate and the brake

plate.

Further benefits and advantages of the present invention will become

apparent after a careful reading of the detailed description with appropriate

reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a plan cross-sectional view of a slider in accordance with the

first preferred embodiment of the present invention;

Fig. 2 is a plan cross-sectional view of a slider in accordance with an

example of the first preferred embodiment of the present invention;

Fig. 3 is a plan cross-sectional view of a slider in accordance with

another example of the first preferred embodiment of the present invention;

Fig. 4 is a plan cross-sectional view of a slider in accordance with

another example of the first preferred embodiment of the present invention;

Fig. 5 is a plan cross-sectional view of a slider in accordance with

another example of the first preferred embodiment of the present invention;

Fig. 6 is a plan cross-sectional view of a slider in accordance with

another example of the first preferred embodiment of the present invention;

Fig. 7 is a plan cross-sectional view of a slider in accordance with

another example of the first preferred embodiment of the present invention;

Fig. 8 is a plan cross-sectional view of a slider in accordance with

another example of the first preferred embodiment of the present invention;

Fig. 9 is a plan cross-sectional view of a slider in accordance with the

second preferred embodiment of the present invention;

Fig. 10 is a partially exploded perspective view of the fixing plate,

the brake plate and the support plate as shown in Fig. 9;

Fig. 11 is a bottom perspective assembly view of the fixing plate and

the brake plate as shown in Fig. 10;

Fig. 12 is a perspective assembly view of the fixing plate, the brake

plate and the support plate as shown in Fig. 10;

Fig. 13 is a perspective folded view of the fixing plate, the brake plate

and the support plate as shown in Fig. 12;

Fig. 14 is a schematic operational view of the slider as shown in Fig.

9 in use;

Fig. 15 is a plan cross-sectional view of a slider in accordance with

the third preferred embodiment of the present invention; and

Fig. 16 is a partially exploded perspective view of the fixing plate,

the brake plate and the support plate as shown in Fig. 15.

DETAILED DESCRIPTION OF THE INVENTION

Referring to the drawings and initially to Fig. I ₅ a slider in

accordance with the first preferred embodiment of the present invention

comprises a main board 1, and a brake plate 2. The main board 1 is movable on

a snow ground "S" in a travel direction indicated by the arrow "A" and a tail

end of the main board 1 facing to the snow ground "S" is raised with an angle.

The brake plate 2 is mounted on the tail portion of the main board 1 and

protrudes outward from the main board 1 to face the snow ground "S". The

brake plate 2 has a distal end formed with a shovel portion 20 extended toward

the snow ground "S". In the preferred embodiment of the present invention, the

shovel portion 20 of the brake plate 2 is a protruding plate having a face

directed toward the travel direction "A" of the main board 1.

When in use, the brake plate 2 is pressed toward the snow ground "S",

so that the shovel portion 20 of the brake plate 2 is inserted into the snow

ground "S" as shown in phantom lines, thereby forming a resistance so as to

brake movement of the main board 1. In practice, when the user is seated on the

main board 1, the user only needs to shift the center of gravity backward to

press the brake plate 2 so as to produce the braking effect, thereby facilitating

the user operating the brake plate 2 to brake the main board 1. Alternatively, the

user could also lean back his/her body to have the brake plate 2 pressed so as to

provide the braking effect. Thus, the user can operate the brake plate 2 to brake

the main board 1 easily and conveniently.

As shown in Fig. 2, the brake plate 2a has a distal end formed with a

shovel portion 20a and has a portion formed with at least one drain hole 21a

located adjacent to the shovel portion 20a to drain the snow shoveled by the

shovel portion 20a. The brake plate 2a has a surface formed with a first guide

face 210a enclosed around and smoothly connected to the drain hole 21a to

guide the snow shoveled by the shovel portion 20a to pass through the drain

hole 21a.

As shown in Fig. 3, the brake plate 2b has a distal end formed with a

shovel portion 20b and has a portion formed with at least one drain hole 21b

located adjacent to the shovel portion 20b to drain the snow shoveled by the

shovel portion 20b. The brake plate 2b has a first surface formed with a first

guide face 21 Ob enclosed around and smoothly connected to the drain hole 21b

to guide the snow shoveled by the shovel portion 20b to pass through the drain

hole 21b. The brake plate 2b has a second surface formed with a peripheral

wall 22b enclosed around the drain hole 21b. The peripheral wall 22b of the

brake plate 2b has an inside formed with a second guide face 220b smoothly

connected to the first guide face 21 Ob to guide the snow shoveled by the shovel

portion 20b to drain outward from the peripheral wall 22b.

As shown in Fig. 4, the brake plate 2c has a distal end formed with a

shovel portion 20c and has a surface formed with a recessed wall 201c located

adj acent to the shovel portion 20c. The recessed wall 201c of the brake plate 2c

faces the snow ground "S" and is directed toward the travel direction "A" of the

main board 1, so that the recessed wall 201c of the brake plate 2c is inserted

into the snow ground "S" so as to provide the braking effect.

As shown in Fig. 5, the brake plate 2d has a distal end formed with a

shovel portion 2Od and has a surface formed with a recessed wall 201 d located

adj acent to the shovel portion 2Od. The recessed wall 201 d of the brake plate 2d

is formed with at least one drain hole 2 Id to drain the snow shoveled by the

shovel portion 2Od.

As shown in Fig. 6, the brake plate 2e has a distal end formed with a

shovel portion 2Oe and has a first surface formed with a recessed wall 20 Ie

located adjacent to the shovel portion 2Oe. The recessed wall 201e of the brake

plate 2e is formed with at least one drain hole 21e to drain the snow shoveled

by the shovel portion 2Oe. The brake plate 2e has a second surface formed with

a peripheral wall 22e enclosed around the drain hole 21e to guide the snow

shoveled by the shovel portion 2Od.

As shown in Fig. 7, the brake plate 2f has a distal end formed with a

shovel portion 2Of and has a portion formed with at least one drain hole 2 If

located adjacent to the shovel portion 2Of to drain the snow shoveled by the

shovel portion 2Of. The drain hole 21f is an oblique hole corresponding to the

travel direction of the main board 1 so as to guide the snow shoveled by the

shovel portion 2Of.

As shown in Fig. 8, the brake plate 2g has a distal end formed with a

shovel portion 2Og and has a portion formed with at least one drain hole 2 Ig

located adjacent to the shovel portion 2Og to drain the snow shoveled by the

shovel portion 2Og. The drain hole 2 Ig is an oblique hole corresponding to the

travel direction of the main board 1 so as to guide the snow shoveled by the

shovel portion 2Og. The brake plate 2g has a surface located opposite to the

snow ground "S" and formed with a peripheral wall 22g enclosed around the

drain hole 21g to guide the snow shoveled by the shovel portion 2Og.

Referring to Figs. 9-14, a slider in accordance with the second

preferred embodiment of the present invention comprises a main board 3, a

fixing plate 4, a brake plate 5, and a support plate 6. The main board 3 is

movable on the snow ground "S" and a tail end of the main board 3 facing to

the snow ground "S" is raised with an angle. The fixing plate 4 is fixed on the

tail end of the main board 3 facing the snow ground "S" and the brake plate 5 is

attached to the main board 3 by the fixing plate 4. The fixing plate 4 has a

surface facing the snow ground "S" and formed with a first fixing recess 40 and

a second fixing recess 41. The brake plate 5 is partially fixed in the first fixing

recess 40 of the fixing plate 4 and partially extended outward from the main

board 3 to face the snow ground "S". The brake plate 5 has a first surface facing

the snow ground "S" and formed with a shovel portion 50 that is inserted into

the snow ground "S" so as to provide a braking effect. The support plate 6 is

mounted between the fixing plate 4 and the brake plate 5, so that an included

angle is defined between the fixing plate 4 and the brake plate 5. In the

preferred embodiment of the present invention, the support plate 6 has one end

pivotally mounted on a second surface of the brake plate 5 facing the fixing

plate 4 and the other end inserted into the second fixing recess 41 of the fixing

plate 4.

As shown in Figs. 9-11, the fixing plate 4 has a top provided with a

plurality of fixing receptors 42, such as bolts or snap rivets for fixing the fixing

plate 4 to the main board 3. The shovel portion 50 of the brake plate 5 is

extended toward the snow ground "S". In the preferred embodiment of the

present invention, the shovel portion 50 of the brake plate 5 is a protruding

plate having a face directed toward the travel direction of the main board 1. The

brake plate 5 has a portion formed with at least one drain hole 51 located

adjacent to the shovel portion 50 to drain the snow shoveled by the shovel

portion 50. The first surface of the brake plate 5 is formed with a first guide

face 510 enclosed around and smoothly connected to the drain hole 51 to guide

the snow shoveled by the shovel portion 50 to pass through the drain hole 51.

The second surface of the brake plate 5 is formed with a peripheral wall 53

enclosed around the drain hole 51. The peripheral wall 53 of the brake plate 5

has an inside formed with a second guide face 511 smoothly connected to the

first guide face 510 to guide the snow shoveled by the shovel portion 50 to

drain outward from the peripheral wall 53.

As shown in Fig. 11, the first guide face 510 of the brake plate 5 has

two opposite sides each formed with a lug 54 that is gradually reduced in the

travel direction of the main board 3 to form a conic face to guide the snow

shoveled by the shovel portion 50 into the drain hole 51.

As shown in Figs. 9-12, the second surface of the brake plate 5 is

formed with two opposite shaft holes 52 facing the second fixing recess 41 of

the fixing plate 4 for mounting the support plate 6. The support plate 6 is

pivotally mounted between the two opposite shaft holes 52 of the brake plate 5

and has two ends each provided with a shaft 60 pivotally mounted in one of the

two opposite shaft holes 52 of the brake plate 5. The second fixing recess 41 of

the fixing plate 4 has a side formed with a locking groove 410, and the support

plate 6 has a side provided with a locking flange 61 detachably locked in the

locking groove 410 of the second fixing recess 41 of the fixing plate 4.

As shown in Fig. 12, the support plate 6 is pivotally mounted

between the two opposite shaft holes 52 of the brake plate 5 by the shafts 60,

and the locking flange 61 of the support plate 6 is detachably locked in the

locking groove 410 of the second fixing recess 41 of the fixing plate 4, so that

the support plate 6 is pivotally mounted on the brake plate 5 and is detachably

locked by the fixing plate 4.

As shown in Fig. 13 , the brake plate 5 is made of resilient and flexible

material, such as PE having a lower density. Thus, the locking flange 61 of the

support plate 6 is pushed to detach from the locking groove 410 of the second

fixing recess 41 of the fixing plate 4 to release the support plate 6 from the

fixing plate 4, so that the support plate 6 is pivoted relative to and rested on the

brake plate 5, thereby folding the brake plate 5 on the main board 3. Thus, the

slider is portable and has a smaller folded volume, thereby saving space of

storage and transportation.

As shown in Fig. 14, when in use, the brake plate 5 is pressed toward

the snow ground "S", so that the shovel portion 50 of the brake plate 5 is

inserted into the snow ground "S", thereby forming a resistance so as to brake

movement of the main board 3. In practice, when the user is seated on the main

board 3, the user only needs to shift the center of gravity backward to press the

brake plate 5 so as to produce the braking effect, thereby facilitating the user

operating the brake plate 5 to brake the main board 3. Alternatively, the user

could also lean back his/her body to have the brake plate 5 pressed so as to

provide the braking effect. Thus, the user can operate the brake plate 5 to brake

the main board 3 easily and conveniently. In addition, the snow shoveled by the

shovel portion 50 of the brake plate 5 is drained outward from the drain hole 51

by provision of the first guide face 510, the second guide face 511, the

peripheral wall 53 and the lug 54.

Figs. 15-16 show a third preferred embodiment of the present

invention that comprises a main board 3 a, a fixing plate 4a, a brake plate 5 a,

and a support plate 6a.

Similarly to the second preferred embodiment, the main board 3a of

the third preferred embodiment has a tail end facing to the snow ground "S"

and the tail end of the main board 3 a is raised with an angle. The fixing plate 4a

is fixed on the tail end of the main board 3a facing the snow ground "S" and the

brake plate 5a is attached to the main board 3a by the fixing plate 4a.

Furthermore, the fixing plate 4a is fixed to the main board 3 a by a plurality of

fixing receptors 42a, such as bolts or snap rivets. The brake plate 5a has a

shovel portion 50a and drain holes 51a. Because the structures of the shovel

portion 50a and the drain holes 51a are the same as the second preferred

embodiment, the detail descriptions of the shovel portion 50a and the drain

holes 51 a are omitted.

Differently from the second preferred embodiment, the fixing plate

4a of the third preferred embodiment has a surface facing the snow ground "S"

and formed with a first fixing recess 40a. In addition, the brake plate 5 a of the

third preferred embodiment is partially fixed in the first fixing recess 40a of the

fixing plate 4a and the brake plate 5 a has a surface facing the fixing plate 4a

formed with a second fixing recess 500. The support plate 6a has one end 61a

integrated with the surface of the fixing plate 4a and the other end 60a fixed in

the second fixing recess 500 of the brake plate 5a.

According to the descriptions of the second and the third preferred

embodiments, the connections between the fixing plate 4a, the brake plate 5a

and the support plate 6a could be optional by other techniques.

Accordingly, the user only needs to press the brake plate toward the

snow ground to insert the shove portion into the snow ground to produce a

resistance, thereby providing a braking effect. In addition, the user can operate

the brake plate to brake the main board easily and conveniently, thereby

facilitating the user in braking the main board. Further, the slider is portable

and has a smaller folded volume, thereby saving space of storage and

transportation. Further, the snow shoveled by the shovel portion of the brake

plate is drained outward from the drain hole. By applying the brake plate to

decelerate the sliding speed of the slider, the snow drained outward from the

drain hole provides special visual effects to viewers.

Although the invention has been explained in relation to its preferred

embodiment(s) as mentioned above, it is to be understood that many other

possible modifications and variations can be made without departing from the

scope of the present invention. It is, therefore, contemplated that the appended

claim or claims will cover such modifications and variations that fall within the

true scope of the invention.