KR101027523B1 - Snow chain - Google Patents

Abstract

PURPOSE: A snow chain is provided to reduce mounting time and improve convenience by being easily mounted in and separated from a tire. CONSTITUTION: A snow chain comprises a pad part(10), a clamping unit(20), a wire(30), and a fastening part(40). Multiple spikes are installed on the upper side of the pad part. The clamping unit is coupled with one side of the pad part so one side of the pad part is fixed to the tire. The wire is separated from both sides of the pad part at fixed intervals along the longitudinal direction of the pad part. The fastening part comprises a first fastening part(41) and a second fastening part(42). The first fastening part is mounted on one side of the pad part. The second fastening part is coupled with the first fastening part.

Description

Snow chains {SNOW CHAIN}

The present invention relates to a snow chain that provides convenience by automatically mounting a snow chain on the tire as the tire is rotated after fixing one side of the snow chain to the tire.

In general, when the snow is piled up on the road surface in winter or the ice is formed by ice freezing, the grip force of the groove formed on the tread surface of the tire not only decreases the stability of steering the vehicle but also secures braking force and traction. It becomes impossible.

Accordingly, in order to improve the stability and braking of the vehicle due to heavy snow and ice, a separate snow chain is mounted on the tire.

In general, snow chains are provided with hooks and hooks at both ends of each fixing line contacting the wheels on both sides of the tire, and a plurality of chains are installed at right angles to the fixing line between the fixing lines on both sides. In order to do this,

First, the snow chain is spread on the front of the tire and the vehicle is advanced so that the tire is located at the center of the snow chain, and then the hooks provided at both ends of the fixing line located inside the tire are coupled to the hooks installed at the other ends.

Of course, the fixed chain located on the outer side of the tire is also coupled in the same manner as above, and the rubber chain is installed by pulling the rubber band on the fixed line located on the outer side of the tire so that the snow chain is in close contact with the tread surface of the tire.

However, in such a conventional snow chain, when the hooks installed at both ends of the fixing line are coupled to the other end, when the snow chain does not come to the center of the tire, it is not easy to join the hooks, so it takes considerable time to mount the snow chain. The workability is poor.

In addition, since the snow chain is coupled only by the elastic force of the rubber band installed on the fixing line located on the outside of the tire, the close coupling force is not strong, and thus the snow chain is spaced apart from the tread surface of the tire when the vehicle is traveling at high speed. .

Accordingly, an object of the present invention is to provide a snow chain that can be easily removed and attached to a tire to provide a user with a shortening of mounting time and convenience.

Snow chain of the present invention for solving the above object is configured to correspond to the circumference and width of the tire so as to surround the outer peripheral surface of the tire, the upper surface is a pad portion is mounted a plurality of spikes; A fixing means coupled to one side of the pad part and mounted to one portion of an outer surface of the tire, the fixing means configured to fix one side of the pad part to the tire; Wires spaced apart from each other at regular intervals on both sides of the pad part in a longitudinal direction thereof and connected to each other; A first fastening part mounted on one side of the pad part and one side of the pad part mounted on the other side of the pad part and fixed to the tire when the tire is rotated so as to be fastened to the first fastening part by being adjacent to the other side; Is coupled to any one side of the fastening portion including the fastening portion and the pad portion, and is positioned to contact the ground at the time when the second fastening portion is fastened to the first fastening portion as the tire rotates, due to the pressing of the ground It is characterized in that it comprises a close means for bringing the wire to be in close contact with the pad portion to the outer peripheral surface of the tire.

At this time, the pad portion, a plurality of adhesion protrusions in contact with the outer peripheral surface of the tire may be formed on the bottom surface.

According to one embodiment of the invention, further comprising a connecting member for connecting the wire to the pad portion, the connecting member is coupled to both sides of the pad portion at regular intervals along the longitudinal direction of each of the tire It has a curved shape inward to contact the side and is characterized in that the connection hole is formed at the end of the wire to penetrate.

Here, the connecting member may be formed integrally with the pad unit.

The fixing means according to an embodiment of the present invention is configured to extend to both sides of the flat plate and the side of the flat plate coupled to one side of the pad portion has a downward curved shape and one side is connected to one side of the wire Is connected to the bending plate and the end end of each of the bending plate is connected to the rotary plate having a curved shape inward to be fixed to correspond to a portion of the outer surface of the tire and the hinge plate of the bending plate and the rotating plate is mounted The rotating plate is characterized in that it comprises an elastic member to allow the elastic force in the inward direction from the bending plate.

The first fastening portion according to an embodiment of the present invention, the guide plate is spaced apart from the outer surface of each curved plate and coupled to the end of the curved plate so that the upper opening is coupled to the inner surface of the guide plate And a locking bar, wherein the second fastening part is rotatably coupled to both sides of the other side of the pad part, and has a flow plate connected to the other side of the wire at a lower portion thereof, and is rotatably coupled to the outside of the flow plate. One side of the pad portion is rotated by its own weight when the rotation is adjacent to the other side is characterized in that it comprises a coupling member formed with a engaging groove is formed to catch the engaging bar.

Here, the engaging groove is preferably formed in a plurality at a predetermined interval along the longitudinal direction of the coupling member.

In addition, the second fastening portion, the other side portion of the wire is disposed so as to penetrate one side of the retaining spring in close contact with the connection hole of the adjacent connection member, and the wire to contact the other side of the retaining spring through which the wire is penetrated. It is preferable that the flow plate is fixedly mounted to further prevent the separation of the retaining spring.

On the other hand, the contact means according to an embodiment of the present invention is coupled to one side of the pressing plate and the pressing plate which is hinged to one side of the pad portion is spaced and in close contact with the upper surface of the pad portion and the front longitudinal direction A sawtooth is formed and a lower bar is fixedly installed on a side of the pad portion in which a hole is formed to allow the wire to pass through, and the lifting bar is provided with a space in which the lifting bar is inserted and accommodated. And a guide groove for guiding a side surface of the lifting bar inserted into the space, a portion of which is opened, and a portion of which is open so as to communicate with the space, so that the wire penetrates the through hole. Side-by-side coupling to the left and right with respect to the lifting member inserted into the receiving member and the space And a pair of guide rollers configured to be in contact with a lower portion of the wire passing through the through hole through both opened side surfaces of the receiving member, and a fixed tooth corresponding to the teeth of the elevating bar and hinged to the front surface of the receiving member. It is characterized in that it is configured to include a fixing portion for engaging the teeth of the elevating bar lowered to the lower receiving member to secure the elevating bar.

At this time, it is preferable that the lifting bar has a curved shape inward to correspond to the outer surface shape of the tire to be mounted.

In addition, the contact means is characterized in that it further comprises a pressure roller is formed in the through hole of the lifting bar and configured to contact with the wire penetrated.

In addition, the contact means, a pair of fixing projections coupled to the left and right side by side based on the fixing portion on the front of the receiving member, the fixing portion is connected between the pair of fixing projections made of a material that provides an elastic force Characterized in that it further comprises a departure prevention portion consisting of a fixed bar to press the front of the.

The close means includes a stopper fixedly mounted to the wire so as to be spaced apart from both open side surfaces of the receiving member, and the wire penetrates, and is disposed from both sides of the receiving member to a position at which each stopper is mounted so that the lifting bar is disposed. It is characterized in that it further comprises a return spring for applying a restoring force when the wire is pulled to the lower portion of the receiving member by pressing.

Therefore, the snow chain according to the present invention has an advantage that it is easy to install and detach on the tire, and because the removal, most operations can be made quickly and automatically, providing convenience to the user with shortening of the mounting time.

1 is a perspective view showing the configuration of a snow chain according to the present invention.
2 is an enlarged view illustrating main parts of FIG. 1;
Figure 3a and Figure 3b is a perspective view showing a fixing means of one configuration of a snow chain according to an embodiment of the present invention.
Figures 4a and 4b is a perspective view showing a fastening which is a configuration of a snow chain according to an embodiment of the present invention.
Figures 5a to 5c is a view showing the contact means that is one configuration of the snow chain according to an embodiment of the present invention.
6a to 6c is a side view for explaining the operating state of the snow chain according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Like parts are designated by like reference numerals throughout the specification.

1 is a perspective view showing the configuration of a snow chain according to the present invention, Figure 2 is an enlarged view of the main portion of FIG. 3A and 3B are perspective views illustrating a fixing means that is a configuration of a snow chain according to an embodiment of the present invention, and FIGS. 4A and 4B are fastenings which are one configuration of a snow chain according to an embodiment of the present invention. 5A through 5C are views showing contact means which is a configuration of a snow chain according to an embodiment of the present invention.

In addition, Figures 6a to 6c is a side view for explaining the operating state of the snow chain according to an embodiment of the present invention.

The present invention relates to a snow chain, and after fixing one side of the snow chain to the tire (1), by rotating the tire (1), the snow chain fixed by the fastening structure of the fastening portion 40 to be described later One side of the is fastened to the other side, and together with the lifting bar 510 of the contact means 50 is pressed to the ground (wire) is pulled by the wire chain is attached to the tire (1) to close the final snow chain It is comprised so that it may be attached to the tire 1. That is, the snow chain according to the present invention is configured to be mounted on the tire 1 automatically by the rotation of the tire 1 can provide a user with a shortening of the mounting time and convenience.

Such a snow chain has a pad part 10 configured to surround the outer circumferential surface of the tire 1, and one side of the pad part 10 is mounted on and fixed to the outer surface of the tire 1 as shown in FIG. 1. The fixing means 20, wires 30 arranged side by side in the longitudinal direction, respectively, on both sides of the pad part 10, and the pad part 10 fixed as the tire 1 rotates. The pad part 10 is fastened to the tire 1 by pulling the wire 30 by pressing the fastening part 40 and the tire 1 being rotated on the ground by rotating the tire 1 to the other side. It is comprised including the contact means 50 which is made to adhere to the outer peripheral surface of the tire 1. As shown in FIG.

First, the pad part 10 is configured to correspond to the circumference and width of the tire 1 to be mounted, and may be variously manufactured according to the size of the standardized tire.

In addition, a plurality of spikes 100 are mounted on the upper surface of the pad part 10 to provide frictional force with the frozen ground so that the snow chain-mounted tire 1 does not slip from the ground.

The pad part 10 may be formed of a plurality of layers to improve durability. Although not shown in the drawing, the pad part 10 is integrally formed on the wire layer and the upper part of which a plurality of wires and the like are embedded, and the ground and It may be made of an upper layer to be in contact. At this time, the upper layer may be composed of urethane to epoxy and the material is not limited.

The pad part 10 is provided with a plurality of adhesion protrusions 110 for minimizing slippage with the tire 1 to be mounted, and the adhesion protrusions 110 are formed on the bottom surface of the pad part 10 to form a tire. It is comprised so that it may contact the outer peripheral surface of (1).

In addition, the pad part 10 includes a connection part to which each pad is connected as shown in FIG. It is desirable to minimize vibrations.

On the other hand, the fixing means 20 is coupled to one side of the pad portion 10 described above as a means for fixing the snow chain to the tire (1) for the first time, detached, attached to a portion of the outer surface of the tire (1) It is configured to be possible. The fixing means 20 is fixed to one side of the pad portion 10 to the tire 1 by rotating the tire (1) the bottom surface of the pad portion 10 along the outer peripheral surface of the tire (1) Make it accessible.

Specifically, the fixing means 20 according to an embodiment of the present invention with reference to Figures 3a and 3b is a flat plate 200 and the bending plate 210 and the rotating plate 220 and the elastic member ( 230).

The flat plate 200 is coupled by a coupling means (not shown) including a bolt on one bottom surface of the pad part 10. Here, the coupling means is presented as a bolt as an embodiment of the present invention, but is not limited to this, of course, can also be coupled to the piece.

The curved plate 210 is configured to extend on both side surfaces of the flat plate 200, and preferably has a curved shape downward to correspond to the outer surface shape of the tire (1) to be mounted.

Here, the bent plate 210 according to an embodiment of the present invention has a through hole formed in any one portion, one side of the wire 30 is disposed along both sides of the pad portion 10 is connected have.

The rotating plate 220 is configured to hold a portion of the tire 1 so that the fixing means 20 is fixed to the tire 1, by hinge coupling to the end of each bending plate 210. It is connected and has a curved shape inward so as to correspond to the outer surface shape of the tire 1 similarly to the curved plate 210.

The rotating plate 220 is usually a force acting toward the inside of the curved plate 210 by the elastic force of the elastic member 230 to be described below, when the user is mounted on the tire (1) the rotating plate It is fixed by mounting 220 so as to be gripped on the outer side of the tire 1 by spreading it outward.

The elastic member 230 is provided on the hinge coupling portion 240 of the bending plate 210 and the rotating plate 220 to allow the rotating plate 220 to act in an elastic force in the inward direction from the bending plate 210.

On the other hand, the wire 30 is connected to be spaced apart at regular intervals on both sides thereof along the longitudinal direction of the pad portion 10.

Various members may be used such that the wire 30 can be connected along the longitudinal direction of the pad part 10. According to an embodiment of the present invention, the wire is connected through the connection member 60 as shown in FIG. 1. 30 is connected.

As shown in FIG. 1, the connecting member 60 is coupled to both sides of the pad part 10 at regular intervals along its longitudinal direction, and is integrally formed with the same material as the pad part 10. It is preferable. At this time, the connecting member 60 is configured to be curved inwardly so as to be adjacent to the outer surface of the tire (1).

In addition, the connection member 60 has a connection hole 600 formed at the end thereof so that the wire 30 can flow therethrough, so that the wire 30 is seated through the connection hole 600. Spaced on both sides of the pad portion 10.

The connection member 60 described above is an example for connecting the wire 30 to both sides of the pad part 10 at a predetermined interval, and the present invention is not limited thereto and may be implemented through various embodiments. Of course.

In addition, the above-described configuration of the connecting member 60 may be partially deleted or changed as the fastening part 40 to be described below is installed on one side and the other side of the pad part 10, and the wire 30 accordingly. Of course, the connection method of one side and the other side of) may also be changed.

That is, the wire 30 may be connected to the pad part 10 by being connected to one side of the bending plate 210 and the other side of the wire 30 as described above. Therefore, the connection member 60 according to the embodiment of the present invention is not coupled at the front end and the rear end of the pad part 10.

The wire 30 according to the snow chain of the present invention acts by the contact means 50 to be described below, specifically, the contact means 50 is in contact with the ground at a specific site where the contact means 50 is installed. While pulling along, the pad portion 10 temporarily fixed to the tire 1 in a locked state is to be brought into close contact with the outer circumferential surface of the tire 1.

On the other hand, when the tire 1 is rotated in a state where one side of the pad portion 10 is fixed, the fastening portion 40 wraps the pad portion 10 along the outer circumferential surface of the tire 1 and the other side thereof. The snow chain is temporarily fixed to the tire 1 as one side and the other side are automatically fastened at the same time as the one side is fixed.

The fastening part 40 is mounted to the first fastening part 41 mounted on one side of the pad part 10 and the other side of the pad part 10, and the tire 1 when the tire 1 is rotated. One side of the pad portion 10 fixed to the second side portion 42 is configured to be fastened to the first fastening portion 41 by being adjacent to the other side.

As shown in FIGS. 4A and 4B, the first fastening portion 41 is spaced apart from an outer surface of each curved plate 210 and is coupled to an end of the curved plate 210 so that an upper portion thereof is opened. The plate 410, and the engaging bar 411 is coupled to the inner surface of the guide plate 410 is configured.

At this time, the guide plate 410 is configured to be a 'V' shape on the outer surface of the curved plate 210 as shown in the drawing, the coupling member 421 described below stably guide plate 410 It is configured to lead to the open top of the.

 The second fastening portion 42 may be rotatably coupled to both sides of the other side of the pad part 10, and a lower plate 420 having the other side of the wire 30 connected to the lower portion of the pad part 10, and the flow plate ( 420 is rotatably coupled to the outside of the engaging groove is configured to be caught by the locking bar 411 by rotating by one's own weight as one side of the pad portion 10 is adjacent to the other side when the tire (1) rotates ( It is configured to include a coupling member 421 is formed 422.

In addition, the locking groove 422 is formed in plurality as shown in Figure 4a is formed at a predetermined interval along the longitudinal direction of the coupling member 421 and configured to have a predetermined inclination to the locking bar 411 It is desirable to be able to reliably take on.

The second fastening portion 42 is connected to the other side of the wire 30 to the fluid plate 420, when the wire 30 is pulled by the contact means 50 during the rotation of the tire 1, The flow plate 420 is rotated in the direction in which the wire 30 is pulled, and together with the position of the second fastening portion 42 moved to the upper side of the tire 1, the coupling member 421 is formed at its own weight. It is rotated by, and accordingly the locking bar 411 of the first fastening portion 41 is caught by the locking groove 422 of the coupling member 421 is fastened.

At this time, the flow plate 420 is not rotated by the wire 30 is pulled, the retaining spring 423 and the holding stopper as shown in the figure to prevent the rotation in the wrong position when the tire 1 is rotated 424 may be further included.

The retaining spring 423 is disposed so that the other side portion of the wire 30 penetrates, and one side thereof is in close contact with and fixed to the connection hole 600 of the adjacent connection member 60.

In addition, the retaining stopper 424 is fixedly mounted to the wire 30 so as to contact the other side of the retaining spring 423 through which the wire 30 penetrates to prevent the retaining spring 423 from being separated.

As such, due to the tension of the retaining spring 423, the flow plate 420 may be always maintained in its original position until the wire 30 is pulled.

On the other hand, the close means 50 is coupled to any one side of the pad portion 10, the second fastening portion 42 is fastened to the first fastening portion 41 as the tire (1) is rotated It is positioned to be in contact with the ground at the time, and the wire 30 is pulled due to the pressing of the ground is configured to bring the pad portion 10 in close contact with the outer peripheral surface of the tire (1).

Here, the contact means 50 is positioned to abut the ground when the snow chain is fastened to the tire 1 by the fastening portion 40 as described above, the fastening portion 40 at this time It can be configured to be located between 90 ° and 180 ° from the ground as shown in 6c and most preferably it is configured to be located on 120 °. That is, the contact means 50 and the fastening portion 40 are installed so that the angle of 120 ° can be maintained when the snow chain is mounted on the tire (1) to form a circle.

As shown in Figure 5a to 5c the contact means 50 according to an embodiment of the present invention is the pressing plate 500 and the lifting bar 510, the receiving member 520 and the guide roller 530 and high It may be configured to include the government (540).

The pressing plate 500 is disposed on the upper surface of the pad portion 10 in a thin plate shape, is hinged to one side of the pad portion 10 to be spaced apart or in close contact with the upper surface of the pad portion 10. do.

The lifting bar 510 is coupled to a portion of the pressing plate 500. At this time, the elevating bar 510 is hinged to allow a certain distance to move forward, backward from the pressing plate 500. A tooth 511 is formed on the front surface thereof in the longitudinal direction, and a through hole 512 is formed at the lower portion thereof so that the wire 30 passes therethrough.

At this time, the lifting bar 510 is configured to have a curved shape inward to correspond to the outer surface shape of the tire (1) to be mounted. Due to this shape, the lifting bar 510 can be stably raised or lowered from the receiving member 520 to be described below.

In addition, the through hole 512 of the elevating bar 510 is equipped with a pressure roller 550 configured to be in contact with the wire 30 penetrating, and when the elevating bar 510 is lowered, the wire 30 more stably. ) Can be pressed to the lower side of the receiving member (520).

The receiving member 520 is provided with a predetermined space (A) therein in a configuration that the lifting bar 510 and the wire 30 is accommodated and penetrated, the lifting bar 510 is inserted into the upper side The wire 30 is configured to penetrate.

That is, the receiving member 520 is opened and a part of the upper surface and the lower surface to communicate with the space (A) so that the lifting bar 510 can be elevated, the lifting bar (inserted in the space (A) ( A guide groove 521 for guiding the side of the 510 is formed, and a part of both sides is opened in communication with the space A so that both sides of the wire 30 can pass through the through hole 512. One side and the other side of the wire 30 is configured to be discharged through the opened both side surfaces.

The guide roller 530 is coupled to the left and right side by side with respect to the elevating bar 510 inserted in the space (A) and the through hole 512 through the open both sides of the receiving member 520 The lower portion of the penetrating wire 30 is in contact so that the lifting bar 510 is pressed by the ground, so that the wire 30 is stable when the wire 30 is pulled toward the lower side of the receiving member 520. To flow.

The receiving member 520 may be fixedly connected to the pad part 10 so that the position change does not occur when the pressing plate 500 and the lifting bar 510 are pressed to the ground. It may be configured to be fixed by installing the above fixing wire (not shown) and connecting the fixing wire with the lower portion of the pad unit 10 mentioned above.

As another example, as illustrated in FIG. 5B, the rear surface of the accommodation member 520 may be coupled to and fixed to a side surface of the pad part 10 where the lifting bar 510 is located.

The fixing part 540 is mounted to the front of the receiving member 520 by a hinge coupling is configured to be rotated forward, backward, the teeth in a shape corresponding to the teeth 511 of the elevating bar 510. A fixed tooth 541 is formed to face 511 and is engaged with the teeth 511 of the elevating bar 510 lowered to the lower side of the receiving member 520 to fix the elevating bar 510.

That is, the fixing of the elevating bar 510 is fixed by rotating the fixing part 540 when the elevating bar 510 is lowered from the receiving member 520 due to the contact means 50 is pressed by the ground. It is made by engaging the teeth 541 to the teeth 511 of the elevating bar 510, and when the snow chain is detached, the fixed teeth 541 are rotated to the opposite side by rotating the fixing part 540 opposite to each other. Separate from 511 to allow the lifting bar 510 to flow.

On the other hand, the close contact means 50 is fixed to the lifting bar 510 through the fixing part 540, the lifting part 540 is rotated by the fixing part 540 by the vibration during driving of the vehicle. Bar is further configured to prevent the deviation of the occurrence of the bar, the departure preventing part is coupled to the left and right side by side on the front of the receiving member 520 based on the fixing part 540 It is composed of a fixing bar 562 connected between the pair of fixing protrusions 561 and the pair of fixing protrusions 561 to press the front surface of the fixing portion 540 by a material providing an elastic force.

Accordingly, after the mounting of the snow chain, the front of the fixing part 540 is fixed with the fixing bar 562 to prevent the fixing part 540 from rotating, thereby preventing the positional change. By separating the fixing bar 562 from the fixing protrusion 561, the fixing bar 562 is rotatable, thereby allowing the lifting bar 510 to rise.

As described above, the contact means 50 is lowered to the lower side of the receiving member 520 in which the lifting bar 510 is fixed by pressing the pressing plate 500 on the ground, and together with the through hole of the lifting bar 510 ( The wire 30 passing through 512 and passing through the space A of the accommodation member 520 is pulled together to the lower side of the accommodation member 520 by the lowering operation of the lifting bar 510.

Accordingly, the length of the wire 30 is shortened as it is pulled toward the lower side of the receiving member 520, and the pad part 10 to which the wire 30 is connected at a predetermined interval is interacted with the wire 30. The pulling phenomenon occurs to be in close contact with the outer circumferential surface of the tire 1.

Here, the contact means 50 may further include a stopper 570 and a return spring 580 to automatically return the pulled wire 30 to its original state upon detachment of the snow chain.

Specifically, the stopper 570 is provided to be spaced apart from each other by a predetermined distance from the open both sides of the receiving member 520, it is configured to be fixed to the wire (30).

The return spring 580 is disposed to penetrate the wire 30, and is configured to be disposed from both sides of the receiving member 520 to a position at which each stopper 570 is mounted, so that the lifting bar 510 is pressed. As a result, the restoring force acts when the wire 30 is pulled to the lower side of the receiving member 520. In other words, the return spring 580 is compressed by the stopper 570 when the wire 30 is pulled by the lifting bar 510 is pressed, and then the lifting bar 510 flows when the snow chain is detached. Tensile force in the opposite direction is generated to return the pulled wire 30 to its original state.

The snow chain of the present invention constructed as described above is mounted to the tire 1 in the following operating method.

First, as shown in FIG. 6A, by opening both rotating plates 220 of the fixing means 20 mounted on one side of the pad part 10 to fix the tire 1 to a portion of the tire 1, the vehicle is moved forward. To rotate the tire (1).

Accordingly, in the snow chain according to the present invention, the pad portion 10 gradually surrounds the outer circumferential surface of the tire 1 according to the rotation direction of the tire 1 such that the bottom surface of the pad portion 10 is in contact with the outer circumferential surface. In other words, one side of the pad portion 10 fixed according to the direction in which the tire 1 rotates is gradually moved to the lower side of the tire 1 to face the ground, and the other side of the pad portion 10 on the opposite side is As one side of the pad part 10 is moved, the pad part 10 surrounds the tire 1 while being dragged toward the outer circumferential surface side of the tire 1.

In this case, a plurality of adhesion protrusions 110 are formed on the bottom of the pad part 10 to minimize slippage from the outer circumferential surface of the tire 1.

Next, as illustrated in FIG. 6B, the pad part 10 has a relatively upper portion than the first fastening part 41 at a point where one side thereof passes through the ground and is adjacent to the other side. Since the coupling member 421 is rotated to the lower side by its own weight, the locking bar 411 of the first fastening portion 41 is inserted into the locking groove 422 of the coupling member 421 to snow. The chain is tightened.

In addition, at the time when the snow chain is fastened by the fastening part 40, the pressing plate 500 of the contact means 50 is gradually pressed by the ground because it is in contact with the ground and the pressing plate 500 Lifting bar 510 that is interlocked with () is also lowered from the fixed installation receiving member 520. The wire 30 passing through the through hole 512 of the elevating bar 510 and penetrating the accommodating member 520 by the elevating operation of the elevating bar 510 is elevated in the accommodating member 520. Pressed by the bar 510 is moved to the lower side of the receiving member 520 and consequently pulls the wire 30 as a whole.

As the wire 30 is pulled as described above, the pad part 10 to which the wire 30 is connected at regular intervals also acts as a force to be pulled in the lateral direction of the tire 1 to be in close contact with the outer circumferential surface of the tire 1, Finally, the snow chain temporarily fastened to the tire 1 by the fastening part 40 is mounted on the tire 1.

After mounting of the snow chain is completed, the fixing part 540 of the contact means 50 is rotated so that the fixing teeth 541 are engaged with the teeth 511 of the elevating bar 510 so that the elevating bar 510 is engaged. By fixing the, the lifting bar 510 pulling the wire 30 does not flow to prevent the pad portion 10 from being spaced apart from the outer circumferential surface of the tire 1.

Meanwhile, in the detachment method of the snow chain, first, the tire 1 is rotated so that the contact means 50 is located on the upper side of the tire 1.

Thereafter, the lifting portion 540 is rotated to separate the engaged teeth 511 and the fixed teeth 541 to allow the lifting bar 510 to rise. At this time, the wire 30 pulled by the contact means 50 by the tension force generated in the return spring 580 described above is returned to its original state, the lifting bar 510 is raised and the pressing plate 500 connected thereto. It is also spaced apart from the upper surface of the pad portion 10.

Accordingly, the pad portion 10 which is in close contact with the outer circumferential surface of the tire 1 has a play with the outer circumferential surface of the tire 1 due to the loosened wire 30, and the first fastening portion 41 which is fastened and The play between the second fastening portions 42 also occurs.

Since the position of the second fastening portion 42 is relatively lower than that of the first fastening portion 41, the coupling member 421 of the second fastening portion 42 is the same as when snow chain is mounted. It is automatically separated from the locking bar 411 of the first fastening portion 41 by.

Thereafter, the detachment of the final snow chain is completed by separating the fixing means 20 fixed to a portion of the outer surface of the tire 1 from the tire 1.

As described above, the snow chain according to the present invention can be easily mounted and detached, and since most operations can be made automatically and quickly, the snow chain can be shortened and provide convenience to the user.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1: tire
10: pad portion 20: fixing means
30: wire 40: fastening portion
41: first fastener 42: second fastener
50: contact means 60: connecting member
100: spike 110: contact protrusion
200: plate 210: bending plate
220: rotating plate 230: elastic member
410: guide plate 411: hook bar
420: fluid plate 421: coupling member
422: locking groove 423: retaining spring
424: holding stopper 500: pressing plate
510: lifting bar 511: tooth
512: through hole 520: receiving member
521: guide groove 530: guide roller
540: fixed portion 541: fixed teeth
550: pressure roller 560: separation prevention part
561: fixing protrusion 562: fixing bar
570: stopper 580: return spring

Claims (13)

A pad part configured to correspond to a circumference and a width of the tire to cover an outer circumferential surface of the tire, and a plurality of spikes mounted on an upper surface thereof;
A fixing means coupled to one side of the pad part and mounted to one portion of an outer surface of the tire, the fixing means configured to fix one side of the pad part to the tire;
Wires spaced apart from each other at regular intervals on both sides of the pad part in a longitudinal direction thereof and connected to each other;
A first fastening part mounted on one side of the pad part and one side of the pad part mounted on the other side of the pad part and fixed to the tire when the tire is rotated so as to be fastened to the first fastening part by being adjacent to the other side; A fastening part including two fastening parts and
The pad is coupled to any one side of the pad part, and the second fastening part is positioned to contact the ground at the time when the second fastening part is fastened to the first fastening part as the tire rotates, and the wire is pulled due to the ground being pressed. Snow chains comprising a contact means for bringing the part in close contact with the outer peripheral surface of the tire. The method of claim 1,
The pad portion is a snow chain, characterized in that the bottom surface is formed with a plurality of contact protrusions in contact with the outer peripheral surface of the tire. The method of claim 1,
Further comprising a connection member for connecting the wire to the pad portion,
The connecting member,
It is coupled to both sides of the pad portion at regular intervals along the longitudinal direction and has an inwardly curved shape to contact the side of the tire and the end is connected to the wire is formed so that the wire can flow through Snow chains. The method of claim 3, wherein
The connection member is a snow chain, characterized in that formed integrally with the pad portion. The method according to claim 3 or 4,
The fixing means,
A flat plate coupled to the bottom of one side of the pad part;
Is configured to extend on both sides of the plate, respectively, and has a curved shape downward and a portion of the bending plate connected to one side of the wire and
A rotary plate connected to the end of each curved plate by a hinge coupling and having an inwardly curved shape to be fixed to correspond to a portion of an outer surface of the tire;
Snow chain, characterized in that it comprises an elastic member mounted to the hinge coupling portion of the bending plate and the rotating plate to enable the rotating plate to act in the elastic force in the inward direction from the bending plate. 6. The method of claim 5,
The first fastening portion,
A guide plate spaced apart from an outer surface of each curved plate and coupled to an end of the curved plate such that an upper portion thereof is opened, and a locking bar coupled to an inner surface of the guide plate,
The second fastening portion,
The pads are rotatably coupled to both sides of the other side of the pad, respectively, and a lower side of the pad plate is connected to the other side of the wire, and is rotatably coupled to the outside of the flow plate. Snow chain, characterized in that it comprises a coupling member formed with a locking groove which is configured to rotate by the weight of the engaging bar. The method of claim 6,
The locking groove is composed of a plurality of snow chains, characterized in that formed at regular intervals along the longitudinal direction of the coupling member. The method of claim 6,
The second fastening portion,
A portion of the other side of the wire is disposed to penetrate and one side of the holding spring is in close contact with a connection hole of an adjacent connection member;
And a retaining stopper fixedly mounted to the wire such that the wire contacts the other side of the retaining spring through which the wire is prevented from being detached from the retaining spring. The method of claim 1,
The contact means,
A pressing plate which is hinged to one side of the pad part to be spaced and in close contact with an upper surface of the pad part;
The lifting bar is coupled to a portion of the pressing plate and the front side is formed with a tooth along the longitudinal direction and the lower portion is formed through holes so that the wire passes through;
The lifting bar is fixedly installed on the side of the pad portion is located, the space is provided that the lifting bar is inserted and accommodated, the upper and lower portions of the lifting bar is opened so that the lifting bar can be lifted and the lifting bar inserted in the space Guide grooves for guiding the side surface are formed, and the receiving member is formed so that a part of both side surfaces are in communication with the space and the wire passing through the through hole passes.
A pair of guide rollers coupled to the left and right sides side by side with respect to the lifting bar inserted in the space and configured to be in contact with a lower portion of the wire passing through the through hole through both open side surfaces of the accommodation member;
The hinge is coupled to the front surface of the receiving member and a fixed tooth corresponding to the teeth of the elevating bar is formed to engage with the teeth of the elevating bar lowered to the lower receiving member comprises a fixing portion for fixing the elevating bar. chain. The method of claim 9,
The elevating bar has a snow chain, characterized in that it has a curved shape inward to correspond to the outer surface shape of the tire to be mounted. The method of claim 9,
The contact means,
Snow chain is characterized in that it further comprises a pressure roller formed in the through-hole of the elevating bar is configured to press the wire in contact with the through. The method of claim 9,
The contact means,
A pair of fixing protrusions coupled to the front and rear sides of the receiving member in parallel to the left and right sides, the fixing bar being connected between the pair of fixing protrusions with a material providing elastic force to press the front of the fixing portion. Snow chain further comprises a departure prevention portion that is configured. The method of claim 9,
The contact means,
Stoppers fixedly mounted to the wires so as to be spaced apart from both opened side surfaces of the receiving member;
The wire penetrates, and is disposed from both sides of the receiving member to a position where each stopper is mounted, and further comprising a return spring for acting a restoring force when the wire is pulled to the lower portion of the receiving member by pressing the lifting bar. Snow chain.

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