Buckling Device for Safety Belt

Abstract

A bucking device for safety belts comprises a buckle made of metal material and bent to form a projected holder, a wider segment of the holder being used to insert a side of the safety belt to the buckle, on each of two sides of a narrower segment of the holder being mounted a second side plate, between two second side plates being defined a locking unit by using a shank, and on an upper rim of the second side plate being fixed a recess, the locking unit including an engagement member in which a rotary member, a fixing piece, a compression spring, a mounting member, and a torsion spring are received; a fastening member including a bottom sheet and a wider segment thereof being used to insert another side of the safety belt, and including a retaining pore secured on a narrower segment thereof.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a buckling device, and more particularly to a buckling device for safety belt that can be used safely.

2. Description of the Prior Art

Conventional safety belts are used in general vehicles and racing cars, however they have the following disadvantages:

• • 1. In buckling operation, the engagement member of the buckling device has to be rotated to a certain angle to insert the fastening member into the buckle, operating inconveniently.
  • 2. The conventional buckling devices is buckled in one-section operating manner to disengage the engagement member easily, causing unsafety in car crash.
  • 3. The holder of the conventional buckles is forged, having heavy weight.

The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.

SUMMARY OF THE INVENTION

The primary object of the present invention is to provide a bucking device for safety belts that in buckling operation, the engagement member of the locking unit can be at any position without being rotated to a certain angle to directly engage the narrower segment of the fastening member with the buckle, and then the engagement member pushes the mounting member of the locking unit so that the knob of the mounting member retains in the retaining pore of the fastening member by using the torsion spring, buckling the buckle easily.

Further object of the present invention is to provide a bucking device for safety belts that in buckling operation, the mounting member of the locking unit retains the knob in the retaining pore of the fastening member by means of the torsion spring, and the two ends of the fixing piece of the locking unit engages in the recesses of the second side plates of the locking unit to achieve two-section buckling operation, having a preferred safety.

Another object of the present invention is to provide a bucking device for safety belts that the holder of the buckle is formed of metal plate, lowering weight.

A bucking device for safety belts in accordance with a preferred embodiment of the present invention comprises:

a buckle made of metal material and bent to form a projected holder, a wider segment of the holder being used to insert a side of the safety belt to the buckle, on each of two sides of a narrower segment of the holder being mounted a second side plate, between two second side plates being defined a locking unit by using a shank, and on an upper rim of the second side plate being fixed a recess, the locking unit including an engagement member in which a rotary member, a fixing piece, a compression spring, a mounting member, and a torsion spring are received, two ends of the fixing piece extending out of two sides of the engagement member, the compression spring abutting against the fixing piece and the engagement member, and the torsion spring biasing against the mounting member;

a fastening member including a bottom sheet and a wider segment thereof being used to insert another side of the safety belt, and including a retaining pore secured on a narrower segment thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing the exploded components of a bucking device for safety belts according to a preferred of the present invention;

FIG. 2 is a perspective view showing the assembly of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 3 is a cross section view showing the assembly of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 4 is a side plan view showing the buckling operation of an engagement member of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 5 is a side plan view showing the buckling operation of the engagement member of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 6 is a cross sectional view showing the buckling operation of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 7 is a top plan view showing the buckling operation of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 8 is another cross sectional view showing the buckling operation of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 9 is a cross sectional view showing the unbuckling operation of the bucking device for safety belts according to the preferred embodiment of the present invention;

FIG. 10 is another cross sectional view showing the unbuckling operation of the bucking device for safety belts according to the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention will be clearer from the following description when viewed together with the accompanying drawings, which show, for purpose of illustrations only, the preferred embodiment in accordance with the present invention.

Referring to FIGS. 1-3, a bucking device for safety belts in accordance with a preferred embodiment of the present invention comprises: a buckle 1, a fastening member 2, wherein the buckle 1 is made of metal material and bent to form a projected holder 11, a wider segment of the holder 11 includes a laterally elongated hole 111 and two sides thereof are respectively bent to form a first side plates 112, between two first side plates 112 is defined a sideable shaft 12, such that a side of the safety belt can be inserted to the buckle 1. On each of two sides of a narrower segment of the holder 11 is mounted a second side plate 113, between two second side plates 113 is defined a locking unit 13 by using a shank 114, on an upper rim of the second side plate 113 is fixed a recess 115 on which two inclined planes 1151, 1152 are arranged. The narrower segment of the holder 11 further includes a V-shaped guiding member 116 riveted thereon, and the locking unit 13 includes an engagement member 131, on one end of which is disposed a hook 1311, on another end of which is mounted a seat 1312. The seat 1312 includes a rotary member 132 and a fixing piece 133 received therein, two ends of the fixing piece 133 extends out of two outer sides of the engagement member 131 respectively. The seat 1312 further includes a compression spring 134 secured between the fixing piece 133 and the seat 1312, a mounting member 135 received therein, and a torsion spring 136 pushing against the mounting member 135. On two sides of the seat 1312 of the engagement member 131 are respectively formed an opening 1313 for inserting the shank 114 and a bore 1314 for inserting the fixing piece 133. The rotary member 132 is formed in an inverted C shape and includes an elongated gap 1321 disposed on a middle segment thereof, two through apertures 1322 arranged on two ends thereof for inserting the shank 114, and an abutting tab 1323 for engaging with the seat 1312 of the engagement member 131 fixed on each of outer rims of the two ends thereof. The fixing piece 133 includes a stem 1331 and a post 1332 extending from a middle section of the stem 1331, the stem 1331 is inserted into the elongated gap 1321 of the rotary member 132 so as to position the rotary member 132. The compression spring 134 is fitted to the post 1332 of the fixing piece 133, and the mounting member 135 is formed in an inverted C shape and includes an orifice 1351 arranged on each end of two side walls thereof for inserting the shank 114 and includes an actuating projections 1352 disposed on a lower side of the each end of two side walls thereof to bias against the seat 1312 of the engagement member 131. The mounting member 135 also includes a post-shaped knob 1353 riveted on a central portion of a bottom thereof. Besides, the torsion spring 136 is fitted onto the shank 114 and one foot thereof is biased against the mounting member 135 and another foot thereof is inserted into a cutout formed on the shank 114 so that as the mounting member 135 is pushed by the torsion spring 136, the knob 1353 engages with the narrower segment of the holder 11 of the buckle 1. The fastening member 2 includes a bottom sheet 21 having a lateral slit 211 mounted on a wider segment thereof and having a third side plate 212 extending from each of two sides of the fastening member 2, and between two third side plates 212 is fixed a slidable rod 22, such that the slit 211 allows to receive another side of the safety belt therein by matching with the rod 22, the fastening member 2 also includes a retaining pore 23 secured on a narrower segment thereof, and the buckle 1 or the fastening member 2 can include a soft pad (not shown) riveted thereon.

In buckling operation, as shown in FIGS. 4-8, the engagement member 131 of the locking unit 13 is rotated toward the holder 11 of the buckle 1 so that the two ends of the stem 1331 of the fixing piece 133 of the locking unit 13 are retained in the recesses 115 of the second side plates 113 of the holder 11 by using the compression spring 134 along the inclined planes 1151, and one part of the stem 1331 inserts into the elongated gap 1321 of the rotary member 132 to position the rotary member 132, and the narrower segment of the fastening member 2 engages with the buckle 1 so that the narrower segment of the fastening member 2 is guided by the guiding member 116 to push the knob 1353, hence the knob 1353 is actuated to rotate the mounting member 135 along the shank 114 and to rotate the torsion spring 136, and after the narrower segment of the fastening member 2 is inserted to position, the mounting member 135 returns its initial position by using the torsion spring 136, and the knob 1353 engages in the retaining pore 23 of the fastening member 2 securely, obtaining two-section engagement. Also, the narrower segment of the fastening member 2 is inserted to engage with the buckle 1 so that the narrower segment of the fastening member 2 pushes the knob 1353 to actuate the mounting member 135 to axially rotate along the shank 114 and to actuate the torsion spring 136. After the narrower segment of the fastening member 2 is inserted to position, the mounting member 135 returns to its original position by using the torsion spring 136, and the knob 1353 retains in the retaining pore 23 of the fastening member 2. Thereafter, the engagement member 131 of the locking unit 13 rotates toward the holder 11 of the buckle 1 so that the two ends of the stem 1331 of the fixing piece 133 of the locking unit 13 matches witch the compression spring 134 to retain in the recesses 115 of the second side plates 113 of the holder 11 along the inclined planes 1151, and one part of the stem 1331 inserts in the elongated gap 1321 of the rotary member 132 to position the rotary member 132, obtaining two-section engagement.

As unbuckling the safety belt, as illustrated in FIGS. 9 and 10, the engagement member 131 of the locking unit 13 is rotated adversely so that the stem 1331 of the fixing piece 133 of the locking unit 13 cooperates with the compression spring 134 to disengage from the recesses 115 of the second side plates 113 of the locking unit 13 along the inclined planes 1152. In the meantime, the mounting member 135 still retains in the retaining pore 23 of the fastening member 2 by ways of the torsion spring 136, and then the engagement member 131 is further rotated so that the actuating projection 1352 actuates the mounting member 135 to axially rotates, hence the knob 1353 of the mounting member 135 disengages from the retaining pore 23 of the fastening member 2, removing the fastening member 2 from the buckle 1.

It is apparent form the above description that the present invention has the following advantages:

1. In buckling operation, the engagement member 131 of the locking unit 13 can be at any position without being rotated to a certain angle to directly engage the narrower segment of the fastening member 2 with the buckle 1, and then the engagement member 131 pushes the mounting member 135 of the locking unit 13 so that the knob 1353 of the mounting member 135 retains in the retaining pore 23 of the fastening member 2 by using the torsion spring 136, buckling the buckle easily.

2. In buckling operation, the mounting member 135 of the locking unit 13 retains the knob 1353 in the retaining pore 23 of the fastening member 2 by means of the torsion spring 136, and the two ends of the fixing piece 133 of the locking unit 13 engages in the recesses 115 of the second side plates 133 of the locking unit 13 to achieve two-section buckling operation, having a preferred safety.

3. The holder 11 of the buckle 1 is formed of metal plate, lowering weight.

While we have shown and described various embodiments in accordance with the present invention, it is clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.

Claims

1. A bucking device for safety belts comprising: a buckle made of metal material and bent to form a projected holder, a wider segment of the holder being used to insert a side of the safety belt to the buckle, on each of two sides of a narrower segment of the holder being mounted a second side plate, between two second side plates being defined a locking unit by using a shank, and on an upper rim of the second side plate being fixed a recess, the locking unit including an engagement member in which a rotary member, a fixing piece, a compression spring, a mounting member, and a torsion spring are received, two ends of the fixing piece extending out of two sides of the engagement member, the compression spring abutting against the fixing piece and the engagement member, and the torsion spring biasing against the mounting member;a fastening member including a bottom sheet and a wider segment thereof being used to insert another side of the safety belt, and including a retaining pore secured on a narrower segment thereof.

2. The bucking device for safety belts as claimed in claim 1, wherein on the recess are arranged two inclined planes.

3. The bucking device for safety belts as claimed in claim 1, wherein the narrower segment of the holder further includes a V-shaped guiding member riveted thereon.

4. The bucking device for safety belts as claimed in claim 1, wherein on one end of the engagement member is disposed a hook and on another end thereof is mounted a seat, on two sides of the seat are respectively formed an opening for inserting the shank and a bore for inserting the fixing piece.

5. The bucking device for safety belts as claimed in claim 1, wherein the rotary member is formed in an inverted C shape and includes an elongated gap disposed on a middle segment thereof to insert the fixing piece, two through apertures for inserting the shank arranged on two ends thereof, and an abutting tab for engaging with the seat of the engagement member fixed on each of outer rims of the two ends thereof.

6. The bucking device for safety belts as claimed in claim 1, wherein the fixing piece of the locking unit includes a post extending from a middle section of the stem to fit the compression spring.

7. The bucking device for safety belts as claimed in claim 1, wherein the mounting member of the locking unit is formed in an inverted C shape and includes an orifice arranged on each end of two side walls thereof for inserting the shank, and includes an actuating projections disposed on a lower side of the each end of two side walls thereof to bias against the seat of the engagement member.

8. The bucking device for safety belts as claimed in claim 1, wherein the mounting member of the locking unit also includes a post-shaped knob riveted on a central portion of a bottom thereof.

9. The bucking device for safety belts as claimed in claim 1, wherein the torsion spring is fitted onto the shank and one foot thereof is biased against the mounting member and another foot thereof is inserted into a cutout formed on the shank so that as the mounting member is pushed by the torsion spring, the knob engages with the narrower segment of the holder of the buckle.

10. The bucking device for safety belts as claimed in claim 1, wherein the buckle can include a soft pad riveted thereon.

11. The bucking device for safety belts as claimed in claim 1, wherein the fastening member can include a soft pad riveted thereon.