WO2019082422A1 - Vehicle forced stopping device - Google Patents

Abstract

[Problem] To provide a vehicle forced stopping device that forces a vehicle, including a rear-wheel-drive vehicle or a four-wheel-drive vehicle, to stop, that can disable the vehicle by deterring fleeing or further runaway driving by a driver, that requires little time, effort, and space for storage, transport, installation, and removal, and that has a simple structure and is low in cost. [Solution] A vehicle forced stopping device is characterized: by comprising a first vehicle support body and a second vehicle support body that has a maximum ground height lower than that of the first vehicle support body, the two vehicle support bodies being mutually fastened by a cable body and combined in a separable manner; in that the first vehicle support body is provided with a first inclined section that is inclined upward in the direction of advancement of the vehicle and a collision section that is erected on the front of the first inclined section; in that the second vehicle support body is provided with a second inclined section that is inclined upward in the direction of advancement of the vehicle; and in that the maximum ground clearance of each of the vehicle support bodies is such that wheels of the supported vehicle come at least at a height so as not to be in contact with a road surface.

Description

Vehicle forced stop device

The present invention is intended to forcibly stop a vehicle which rushes in a site of road construction, a check, etc. accidentally, unintentionally, or even intended to break, and additionally to prevent further runaway or escape. The present invention relates to a vehicle forced stop device.

When traffic lane regulation is performed by road construction or the like, a means for forcibly stopping the vehicle is necessary in order to ensure the safety of the operator etc. in case the vehicle rushes in by mistake. In the past, iron fences, safety cones, water drums, sand bags, etc. were used as a means to forcibly stop the vehicle, but in recent years, they have plunged into the lower part of the rushed vehicle to block the vehicle from traveling There is known a vehicle forced stop device for stopping the vehicle. For example, the vehicle forced stop device described in Patent Document 1 includes a vehicle stopping portion provided upright on the base portion and a vehicle riding up portion extending from the vehicle stopping portion to the road surface, and the vehicle riding up portion is provided below the rush vehicle. The entire vehicle is pushed up and pushed up the entire vehicle while being integral with the vehicle and the vehicle is stopped by the frictional resistance between a friction member provided on the lower surface of the base portion and the claw member and the road surface. In addition, the vehicle forced stop device described in Patent Document 2 attempts to stop the vehicle by running the rush vehicle on a well-shaped frame of H-shaped steel having brake pads at the upper and lower portions and causing the wheels to idle. .

Here, in the case of a vehicle that has made a mistake, it is expected that the driver also notices the mistake and enters the brake and decelerates due to the impact of contact with the vehicle forced stop device, etc. In a situation in which you are in a state of mental loss or wrong in stepping on a brake and an accelerator, the vehicle forced stop device described in Patent Document 1 may not always be able to effectively stop the vehicle, and you are running away. This is all the more so in situations where criminals and terrorists deliberately plunge the vehicle and try to break through the interrogation. In addition, although the method of running on the front of the vehicle is effective for forced stop of a front wheel drive vehicle, it is not necessarily effective for a rear wheel drive vehicle or a four wheel drive vehicle.

On the other hand, since the vehicle forced stop device described in Patent Document 2 is configured to run the entire vehicle on the frame having the brake pads, the effect of the forced stop can be expected including rear wheel drive vehicles and four wheel drive vehicles. The device itself must be at least as large as the full length of the vehicle. As a result, storage, transportation, installation, and removal require a great deal of effort and space, and it is particularly difficult to apply to situations where rapid deployment / removal such as police interrogation or road closure is required.
JP, 2016-125333, A publication gazette Japanese Patent Application Laid-Open No. 5-25810

The present invention has been made in view of the problems in the prior art described above, and it is assumed that the driver rushes the vehicle without performing the braking operation, whether intentionally or otherwise. To stop the vehicles including the rear wheel drive vehicle and the four wheel drive vehicle forcibly and prevent the driver's runaway or further runaway to make the vehicle itself ineffective, and also to store and transport as much as possible An object of the present invention is to provide a low-cost vehicle forcible stop with a simple structure and requiring a small amount of labor, time and space required for installation and removal.

In order to achieve the above object, according to a first aspect of the present invention, there is provided a vehicle forcible stop device according to the first aspect of the present invention, comprising: (1) A second vehicle support having a maximum ground height lower than that of the vehicle support, the first vehicle support comprising a first inclined portion inclined upward in the traveling direction of the vehicle and a portion of the first inclined portion And a second inclined portion which is inclined upward in the traveling direction of the vehicle, and the maximum ground height of any of the vehicle supports is the same. It is characterized in that at least the supported wheels of the vehicle have a height that does not come in contact with the road surface.

In the vehicle forcible stop device according to the present invention, the first vehicle support and the second vehicle support are combined and installed on a road or the like, but the vehicle is not particularly fixed to the road surface. Since the first vehicle support has a maximum ground clearance higher than the second vehicle support, when the rushing vehicle contacts the vehicle forced stop device, the front of the vehicle first becomes the first inclined portion of the first vehicle support Ride on, and collide with the collision part as it is. At this time, since the maximum ground height of the first inclined portion has a height such that at least the wheels of the supported vehicle do not contact the road surface, both front wheels of the vehicle are idled away from the road surface. In addition, since the vehicle forcible stop device is not fixed to the road surface, the collided first vehicle support integrally continues to move forward with the front portion of the vehicle mounted thereon.

On the other hand, the second vehicle support has a lower maximum ground height than the first vehicle support and does not contact the lower surface of the front of the vehicle at the time of contact between the first vehicle support and the vehicle. 1 Left behind from the vehicle support and remain at the installed position. However, since the maximum ground height of the second vehicle support is also higher than the minimum ground height of the vehicle, the forward movement of the vehicle with the front lifted raises the vehicle at any position from the center of the entire vehicle length to the front of the rear wheel axle. The lower surface comes in contact with the second inclined portion and rides on the second vehicle support, and both rear wheels of the vehicle move away from the road surface and become idle.

As described above, the vehicle floats in the air with both the front and rear wheels floating, so even if the driver continues to step on the accelerator after contact, the vehicle loses the driving force, and the vehicle advancing only by inertia is the road surface. It is decelerated and forced to stop by the friction between the lower and the lower surfaces of the first and second vehicle supports.

The first and second vehicle supports need to withstand the impact of contact with the vehicle and together need to support the entire vehicle weight, but sufficient strength can be realized by welding and forming steel pipes, Further, the first inclined portion, the second inclined portion, and the collision portion can also be formed of a bent steel pipe. In addition, the structure for separably combining the two vehicle supports is such that the plane of the first vehicle support is formed in a substantially U-shape opening rearward from the traveling direction, and the second vehicle support is incorporated therein. It can be realized by being able to be accommodated. Although the size of the vehicle forced stop device can be appropriately designed according to the type and weight of the vehicle assumed, the width with respect to the traveling direction should be within a range that fits within the tread (axle width) of the vehicle with a margin. Is desirable. If the width of the vehicle support is too narrow compared to the tread, the possibility of the rolled-up vehicle rolling over increases, and if it is too wide, there is a high possibility that the vehicle support will not properly intrude between the vehicle axles. Further, the maximum ground heights of the first and second slopes are set in consideration of the assumed stroke of the suspension of the vehicle. Even if the height is higher than the lowest ground level of the vehicle, the wheels may come in contact with the road surface and exert a driving force by the vehicle riding on the vehicle support and the suspension extending.

Next, the invention according to claim 2 is the vehicle forcible stop device according to claim 1, wherein a rope for fastening the first vehicle support and the second vehicle support is added. When the front of the vehicle gets on the first vehicle support and moves forward, if the rear of the vehicle does not get on the second vehicle support well due to the behavior of the vehicle, etc., the second vehicle support remains on the road surface It may be left behind, and the forced stop may fail because the driving force of the rear wheels of the vehicle is not lost. Here, the second vehicle support is a first vehicle support that moves forward by fastening both vehicle supports with a rope or other rope body or the like having a length about the wheel base (distance between front and rear axles) of the vehicle. It will be towed and located near the rear wheel axle on the lower surface of the vehicle, and can finally ride on the rear of the vehicle.

Next, the invention according to claim 3 is the vehicle forced stop device according to any one of claim 1 or claim 2, wherein a plurality of casters are provided on the traveling direction side of the collision part, and The first invention is characterized in that the caster contacts the ground in a state where the vehicle support and the second vehicle support are turned 90 ° in the traveling direction. With this configuration, the entire vehicle forcible stop can be turned forward by 90 ° to ground the casters, and the caster can be easily moved to the installation position by hand, and the installation location is completed only by causing 90 ° backward. , Deployment and withdrawal can be done quickly.

According to the vehicle forcible stop device according to claim 1, not only forced-stopping not only front-wheel drive vehicles but also vehicles including rear-wheel drive vehicles and four-wheel drive vehicles, in the worst case, the driver escapes or further runs away However, the vehicle itself can be effectively disabled. In addition, by adding the cable according to the invention of claim 2, even if the minimum ground clearance of the vehicle exceeds the height of the second vehicle support due to bounce or the like, the rear of the vehicle is finally obtained. However, since the vehicle rides on the second vehicle support and all the wheels become idle, the certainty of forced stop can be improved. Furthermore, by adding the caster according to the invention of claim 3, movement of the vehicle forced stop device becomes easy, and rapid deployment and withdrawal become possible.

Hereinafter, the present invention will be described based on embodiments shown in the drawings. FIG. 1 is a perspective view of a vehicle forced stop device according to an embodiment of the present invention. FIG. 2 is a side view of the first vehicle support, FIG. 3 is a front view seen from the direction A which is the vehicle side, and FIG. 4 is a plan view. FIG. 5 is a side view of the second vehicle support, FIG. 6 is a front view seen from the direction A which is the vehicle side, and FIG. 7 is a plan view.

All vehicle supports are constructed by welding steel pipes. The first vehicle support 1 has a plurality of two frame structures in which the L-shaped main frame 10 and the first upper frame 11 forming the first inclined portion 12 are connected in the form of a substantially parallel cross with the load bearing frame 14. It is connected by a cross girder frame 15 and is configured in a substantially U-shape that opens from the traveling direction toward the rear in plan view, and is grounded to the road surface at the horizontal portion of the main frame 10 Become. The main frame 10 is provided with a horizontal portion 13 from the highest point of the first inclined portion 11 to the collision portion 16, and the front portion of the vehicle is supported by this horizontal portion. The collision part 16 is provided with a buffer frame 17 made of a slightly thin steel pipe in the rear direction, and the shock to the main frame 10 is caused by bending of the buffer frame 17 which receives the front part of the vehicle riding on the first inclined part 12 To ease. In addition, a pair of rings 18 for locking one end of the rope 30 is provided on the lowermost horizontal beam frame 15 of the vertical portion of the main frame 10, and a total of four casters 19 are provided near the upper and lower ends of the vertical portion of the main frame 10. ing.

The second vehicle support 2 is a cross girder plate made of a fence-like steel plate at the rear end with two frame structures in which the second upper frame 21 forming the second inclined portion 22 is attached to a ground plate 20 composed of a fence-like steel plate A horizontal girder frame 24 is connected by a steel pipe 23 and a steel pipe, and is configured in a substantially square shape in plan view. At the both ends of the cross girder plate 23, a united pipe 25 of a diameter that can be inserted into the pipe of the main frame 10 of the first vehicle support 1 as a uniting means is attached at a position corresponding to the main frame 10 in the traveling direction.
In addition, the front transverse girder frame 24 is provided with a pair of rings 26 for locking the other end of the rope 30. Furthermore, the cross girder plate 23 is provided with an auxiliary member 27 bolted to the bottom surface with a rubber plate (not shown) for increasing the frictional force with the road surface.

FIG. 8 is a side view of a state in which the first and second vehicle supports are combined, FIG. 9 is a front view seen from the direction A which is the vehicle side, and FIG. 10 is a plan view. With the second vehicle support 2 fitted inside the substantially U-shaped first vehicle support 1 in a plan view, the left and right combined pipes 25 of the second vehicle support 2 are the mains of the first vehicle support By inserting the frame 10 into the tip of the horizontal portion, both vehicle supports are united. Further, a rope 30 in a wound form is attached to the front of the first vehicle support 1 such that one end thereof is engaged with the ring 18 and the other end is engaged with the ring 26.

The inventor of the present invention actually conducted a confirmation test of the forced stop effect using the prototype of the vehicle forced stop device according to the present embodiment and the minivan type test vehicle. FIG. 11 is a photograph showing a state in which the first vehicle support 1 and the second vehicle support 2 are separated and the rope 30 is extended, and the rope 30 has a length substantially extending from the front end of the test vehicle to the vicinity of the rear wheel axle. Thus, when the front of the vehicle rides on the first vehicle support 1, the rear of the vehicle rides on the second vehicle support 2 in the vicinity of the rear wheel axle.

FIG. 12 is a photograph of the vehicle forced stop device installed on the road. The vehicle forcible stop device in the state where the first and second vehicle supports are combined is freely moved by hand by the casters 19 provided in the vicinity of the upper and lower ends of the vertical portion of the main frame 10 in the state of turning 90 ° forward. can do. After moving to the installation position, the vehicle forced stop device can be installed at a predetermined position only by tilting it backward.

13 to 15 are successive photographs of a confirmation test in which the test vehicle is plunged with no brake toward the installed vehicle forcible stop device. In FIG. 13, the test vehicle is rushing toward the vehicle forced stop device. FIG. 14 is a photograph of the moment when the test vehicle collides with the vehicle forced stop device. The front part of the test vehicle is flipped up in contact with the first inclined portion of the first vehicle support 1. The front part of the test vehicle travels as it is along the horizontal portion 13 of the upper frame 11 and collides with the buffer frame 17 provided in the collision part 16, and the first vehicle support 1 is pushed forward integrally with the test vehicle The front part of the vehicle rides on the first vehicle support, and the front wheels are lifted from the road surface. At this time, the left and right combined pipes 25 of the second vehicle support 2 are pulled out from the tip of the horizontal portion 13 of the main frame 10 of the first vehicle support 1, and the two vehicle supports are separated. Is left behind. When the test vehicle in a state where the front of the vehicle body is lifted further advances, the lower surface of the vehicle body is brought into contact with the second inclined portion 22 of the second vehicle support 2 near the front of the rear wheel axle and lifted up. Float up from The test vehicle still travels forward by inertia but stops due to the frictional resistance between the rubber layer on the lower surface of the horizontal portion of the main frame 10 and the bottom surface of the auxiliary member 27 and the road surface. In this confirmation test, when the speed of the test vehicle is about 30 km / h, after the collision, the test vehicle completely stops with all four wheels away from the road surface at a point advanced about 5 m corresponding to the entire length of the vehicle. The effects of stopping and disabling after stopping have been demonstrated.

The vehicle forcible stop device according to the present invention can be widely applied to traffic control sites such as road construction and inspections, but it can be quickly deployed and withdrawn with a simple, lightweight and compact structure, and it can be implemented only with front wheel drive vehicles Since it can effectively prevent the rear wheel drive and four wheel drive vehicles from rushing in, and can be disabled after stopping, it is particularly effective in the field where rapid deployment / retraction such as police interrogation or road blockade is required. It is possible.

As mentioned above, although the vehicle forced stop device concerning the present invention was explained with reference to an embodiment, the present invention is not limited to the above-mentioned embodiment, The object of improvement or improvement within the technical idea of the present invention Or variations are possible, which are within the scope of the present invention.

The perspective view of the vehicle forced stop device concerning an embodiment Side view of the first vehicle support Front view of the first vehicle support Top view of the first vehicle support Side view of the second vehicle support Front view of the second vehicle support Top view of the second vehicle support Side view of the vehicle forced stop device (when coalesced) Front view of the vehicle forced stop device (when combined) Top view of the vehicle forced stop device (when coalesced) Photograph of vehicle forced stop device (at the time of separation) Photograph of vehicle forced stop device (at the time of installation) Photograph of confirmation test (before collision) Photograph of confirmation test (during collision) Photograph of confirmation examination (after stopping)

Reference Signs List 1 first vehicle support 10 main frame 11 first upper frame 12 first inclined portion 13 horizontal portion 14 load bearing frame 15 lateral beam frame 16 collision portion 17 buffer frame 18 ring (first vehicle support)
19 caster 2 second vehicle support 20 ground contact plate 21 second upper frame 22 second inclined portion 23 cross girder plate 24 cross girder frame 25 combined pipe 26 ring (second vehicle support)
27 Auxiliary member 30 Rope

Claims (3)

1. A vehicle forcible stop device for forcibly stopping a traveling vehicle, comprising: a first vehicle support that is releasably combined without fixing each other via combining means; and a maximum of the first vehicle support The vehicle support comprises a second vehicle support having a low ground height, and the first vehicle support is erected in front of the first inclined portion which is inclined upward in the traveling direction of the vehicle, and the first inclined portion. A collision portion, the second vehicle support includes a second inclined portion that inclines upward in the traveling direction of the vehicle, and at least the maximum ground height of any of the vehicle supports is supported A vehicle forced stop device characterized in that it has a height such that the wheels do not contact the road surface.
2. The vehicle forced stop device according to claim 1, further comprising: a rope for fastening the first vehicle support and the second vehicle support.
3. A plurality of casters are provided on the side of the collision part in the direction of movement, and the wheels are grounded by the casters in a state where the first vehicle support and the second vehicle support are turned 90 ° in the direction of movement. The vehicle forced stop device according to any one of claims 1 or 2, characterized in that:
   
   

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