JP5101174B2 - Restraint net deployment device with string - Google Patents

Description

  The present invention relates to a portable restraint net deployment device for deploying a restraint net instantaneously with gas pressure to prevent criminal acts or to restrain and capture a target by delaying escape time.

  Patent Document 1 discloses a portable restraint net deployment device using high-pressure gas as a drive source. In Patent Document 1, a high-pressure gas cylinder is provided in the apparatus, and when a start switch is pressed, a pin is inserted into the sealing plate of the high-pressure gas cylinder, high-pressure gas is released at once, and both the net and the weight are pushed out by this gas pressure. The net can be deployed.

Patent Document 2 discloses a security network that combines a restraint network and a mechanism for narrowing down the network. In patent document 2, it has the net | network which penetrates a measure-like body in the circumference | surroundings installed in the building ceiling part, the support mechanism which supports a net | hook detachably, and the aperture | diaphragm | squeeze mechanism which manipulates a measure-like body. When reaching the position directly below, the net can be instantaneously dropped, and the intruder can be captured by squeezing the net into a bag shape by the squeezing mechanism.

Patent Document 3 discloses a criminal restraint device that attaches a string such as a string or rubber, fires a net that is stored, and then winds the string with an installed winding device. In Patent Document 3, characterized in that it is housed in the capture net-cast net transmitter when capturing network equipped with expansion weights are folded (same as constrained network and the restraining net ejecting part of the present invention), cast net vessel has a fuel gas cartridge which can ignite or electric opened the mouth electromagnetic, deployment weight is accelerated by gas pressure when actuating the cast net unit, firing folded captured network be able to. The trapping net is equipped with a rubber strap between the weights or along the edge of the net, and the rubber strap is stretched when the trapping net is fired and contracts again as the firing force declines. In addition to the rubber string , the pulling string is fixed to the catching net, and the pulling string spreads with the net when the catching net is fired. In addition, this pull string extends from a battery-driven small motor type winder, and after the catch net is fired, the pull string is wound up after a short delay time, so that the intruder on the catch net is surrounded. The net can be gathered densely. Criminal restraint devices are typically located in front of doors in critical rooms that are specifically monitored with fixed identification techniques, or on criminals intrusion or escape routes that are expected in the entrance area to large vaults. It is provided stationary. Further, the criminal restraint device is portable, and can be relocated on a room where the criminal is located or on the escape door of the building, for example, when an alarm device is activated. The operating means of the throwing device is an automatic launching mechanism with a sensor, and when the intruder crosses the sensor, the capturing net is deployed toward the intruder.
US Pat. No. 5,326,101 Japanese Utility Model Publication No. 6-14795 Special Table 2000-503142

In the portable restraint net deployment device according to Patent Document 1, both the weight and the net are pushed out by the high-pressure gas, and at the initial stage of ejection, the net hardly develops, and after the distance from the portable restraint net deployment device, the net Since it gradually develops, it can cope with a long distance, but at a short distance the weight hits the person to be captured and cannot be used safely. In addition, since this portable restraint net deployment device is filled with gas in a metal container (cylinder), there is already energy to push out the net and weight in this portable restraint mesh deployment device, If unintentional, there is a danger of explosion. Further, in the case of high-pressure gas, the gas flow path becomes long, and there is a concern about the operation time lag and leakage. In addition, when the capture subject is covered with a net, there is a problem in binding force because it depends only on the entanglement effect of the net and weight. That is, when the entanglement is ambiguous, there is a possibility that it can be easily removed .

Moreover, in the restraint net | network expansion | deployment apparatus by patent document 2, the net | network through which a measure-like body is inserted in the circumference | surroundings installed in the building ceiling part, the support mechanism which supports a net | network detachably, and the aperture mechanism which manipulates a measure-like body are provided. When the intruder reaches a position directly below the net, the net can be instantaneously dropped and the net can be squeezed into a bag shape by the throttling mechanism to catch the intruder. However, since the means for narrowing down the net is separated from the restraint net expander, the apparatus becomes large and is a capture device that is applied indoors or only to a specific space.

Moreover, in the restraint net | network expansion | deployment apparatus by patent document 3, the criminal restraint apparatus which attaches a string like rubber | gum or rubber | gum, winds the net | network accommodated, and winds a string with the installed winding device is disclosed. Patent Document 3 is characterized in that a trapping net equipped with a deployment weight is folded and housed in a trapping net / netting device, and the netting device can be opened electromagnetically or electrically. It has a fuel gas cartridge that can be ignited, and when the throwing device is operated, the deployment weight is accelerated by the gas pressure, and the folded trapping net can be launched. The trapping net is equipped with a rubber strap between the weights or along the edge of the net, and the rubber strap is stretched when the trapping net is fired and contracts again as the firing force declines. In addition to the rubber string , the pulling string is fixed to the catching net, and the pulling string spreads with the net when the catching net is fired. In addition, this pull string extends from a battery-driven small motor type winder, and after the catch net is fired, the pull string is wound up after a short delay time, so that the intruder on the catch net is surrounded. The net can be gathered densely. Criminal restraint devices are typically located in front of doors in critical rooms that are specifically monitored with fixed identification techniques, or on criminals intrusion or escape routes that are expected in the entrance area to large vaults. It is provided stationary. The criminal restraint device is portable, and can be installed on the escape door of the room or building where the criminal is located, for example, when an alarm device is activated. The operating means of the throwing device is an automatic launching mechanism with a sensor, and when the intruder crosses the sensor, the capturing net is deployed toward the intruder. However, as in Patent Document 2, since the means for narrowing the net is separated from the criminal restraint device, the device becomes larger and is a capture device that is applied indoors or only to a specific space. In addition, there is no specific description of the parts constituting the capture device, and the strength of the net and string is not disclosed.

The present invention has been made to solve such a conventional problem, and its purpose is to attach a tension string to a restraint net or a weight attached to the restraint net via a string member , and to restrain the tension string. by fixing the net ejecting portion, by pulling the device after firing a constraint network, increasing the effect of network moving the weight tangling and tied restraint networks network can be concentrated bag shape suspicious person by straps It is to provide a deployment device.
In addition, another object of the present invention is to make the pull string a thin and strong ultra-high strength fiber, making it difficult for the suspicious person to pull back the string and securing the suspicious person safely. The object is to provide a network expansion device.

The invention according to claim 1 accommodates a restraint net having a plurality of weights attached thereto, and restrains the net to be ejected by gas pressure, an operation part for activating the restraint net ejecting part, and the restraint net An adapter that detachably connects the ejection part and the operation part, and a tension string that connects the restraint net and the restraint net ejection part , the restraint net has a rhombus shape with a right angle, One end of the pull string is attached to at least two oblique sides that intersect at the apex corner of the restraint net .
According to a second aspect of the present invention, there is provided a restraint net ejecting portion that accommodates a restraint net having a plurality of weights attached thereto, and ejects the restraint net with a gas pressure, an operation unit that activates the restraint net ejecting portion, and the restraint net An adapter that detachably connects the ejection part and the operation part, and a tension string that connects the restraint net and the restraint net ejection part , the restraint net has a rhombus shape with a right angle, The pulling string is composed of a ring-shaped string attached between two oblique sides that intersect at the apex corner of the restraint net .

According to a third aspect of the present invention, there is provided a restraint net ejecting portion that houses a restraint net having a plurality of weights attached thereto, and ejects the restraint net with a gas pressure, an operation unit that activates the restraint net ejecting portion, and the restraint net An adapter that detachably connects the ejection part and the operation part, a weight attached to the restraint net, and a tension string that connects the restraint net ejection part, the restraint net having a rhombus shape with a right angle The weight is attached to each corner of the restraining net and a middle point between two oblique sides intersecting at each corner via a string member, and one end of the tension string is at least the two It attaches to the said weight attached to the intermediate point of an oblique side via a string member, respectively .
The invention according to claim 4 is the restraint net deployment device with a string according to claim 1 or 3 , wherein the distance between the attachment position of the tension string and the apex corner with respect to the two oblique sides, and the attachment of the tension string The ratio with the distance between positions is 0.4 to 1.2 .

According to a fifth aspect of the present invention, in the restraint net deployment device with a string according to any one of the first to fourth aspects, the other end of the pulling string is attached to the restraint net ejection portion .
According to a sixth aspect of the present invention, in the restraint net deployment device with a string according to any one of the first to fourth aspects, the other end of the tension string is coupled to a single string and attached to the restraint net ejecting portion. It is characterized by being able to.

According to a seventh aspect of the present invention, in the restraint net deployment device with a string according to any one of the first to sixth aspects, the other end of the pulling cord is fixed in the restraint net ejecting portion .
The invention according to claim 8 is characterized in that, in the restraint net deployment device with a string according to any one of claims 1 to 7, the restraint net uses fibers having a strength of 196 N or more .

The invention according to claim 9 is the restraint net deployment device with a string according to any one of claims 1 to 8, wherein the tensile string uses a fiber having a strength of 196 N or more .
The invention according to claim 10 is the restraint net deployment device with a string according to any one of claims 1 to 9, wherein the tension string uses a fiber having a wire diameter of φ0.7 mm to φ5.0 mm. to.

According to an eleventh aspect of the present invention, in the tied net deployment device according to any one of the first to tenth aspects, the restraint net ejecting portion is arranged at a predetermined interval on the perimeter of the restraint net and the restraint net. A plurality of weights provided; a plurality of jets for ejecting the weights at a predetermined angle; and a weight housing part for housing the weight; a restraint net housing part for housing the restraint net; and a combustible substance It has a pyrotechnic igniter that generates a gas pressure by combustion, and has an ejection means for ejecting the weight and the restraint net with the gas pressure of the pyrotechnic igniter .

According to the present invention, by operating the pull string, the restraint net launched from the device can be arbitrarily narrowed down, and the restraint force of the restraint net deploying device is improved.
Moreover, since the wire diameter of the pull string is thin, the possibility of being pulled back by the capture target person is low, and even a weak operator can safely capture the capture target person.

The present inventors, as well as search for constraining network deployment apparatus and restraint methods, and conducted extensive studies on the effect, JP 2005-180744, JP 2006-084168 and JP Patent Application 2006-118845 provides a JP 2007-107863. As a result, it was found that by operating the pull string, the restraint net fired from the restraint net ejecting portion can be arbitrarily narrowed down, and the restraint force of the restraint net deployment device is improved, and the present invention has been completed. .
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIGS. 1-9 shows the stringed restraint net | network ejection part 1 and the stringed restraint net deployment apparatus 3 which concern on one Embodiment of this invention.
The stringed restraint net ejection part 1 according to the present embodiment has a container 10 formed by screwing the first container 10A and the second container 10B, and eight weight parts 11 attached to the periphery via a string member 12 and a weight. From the restraint net 13 that restrains the human body accommodated in the container 10 together with the part 11, the gas generator 14 accommodated in the container 10 for ejecting the weight part 11 by gas pressure, and the restraint net ejection part 1 with string In order to narrow down the fired restraint net 13 as desired, the restraint net ejection part 1 with the string and the tension string 16 attached to at least two string members 12 at the tension string attachment positions 15 and 15 ′ of the restraint net 13; It is comprised by the restraint net accommodation lid | cover 17 used as the lid | cover of the container 10 which accommodated the restraint net | network 13. As shown in FIG.

The position of the tension string 16 attached to the restraint net 13 is tied to the string members 12 at the two tension string attachment positions 15 and 15 ′ flying upward with respect to the restraint net 13. String attachment position 15 and 15 pull the restraint network 12 ', the cord attachment position 15 and 15 and tensile restraining net 13' shown in FIG. 5 is one side O-A and O-B extending from the apex O of the restraining net 13 On the other hand, the ratio of the mounting width 15-15 ′ is preferably 0.4 to 1.2.
The pull string 16 attached to the container 10 is passed through the hole drilled in the first container 10A and the second container 10B, and the container of the second container 10B and the pull string attachment position 18 are made of stainless steel, wire diameter φ1.2 mm, It is tied to a metal ring 19 having an outer diameter of φ12 mm.

  The length of the pull string 16 is related to the effective range distance of the restraint net ejection part 1 with the string and the flight distance of the weight part 11, and is set to 4.8 m to 5.2 m in this embodiment. The flight distance of the weight part 11 at this time is 4.0 m to 4.4 m. Moreover, although the range of the restraint net ejection part 1 with the string is set to 3.5 m, there is no problem as long as the length of the tension string 16 does not hinder the flight of the restraint net 13. By setting the flight distance to a length obtained by adding 0.8 m, it can be applied to a long range distance. As for the material of the pull string 16, a string of ultra high strength fiber and a string having a tensile strength of 510N were used.

The weight portion 11 includes a string member 12 attached around the restraint net 13, a weight 11a attached by the string member 12, and a weight cover 11b.
The string member 12 is made of polyester and has a wire diameter of φ0.7 mm. One side is connected to the weight 11 a and the other side is connected to the restraint net 13. The length of the string member 12 between the connected weight 11a and the restraint net 13 is 80 mm. The string member 12 is made of a material that can withstand the force when the weight portion 11 protrudes from the container 10 and the restraint net 13 is expanded from the container 10.

  The weight 11a is a stainless steel cylinder having a total length of 23 mm and an outer diameter of φ11 mm. The weight 11a has a groove with a width of 2 mm and a depth of 0.5 mm, and a string member 12 passed through one end of the weight 11a so that the weight 11a does not come out after the weight cover 11b is put on the approximate center. Holes are provided. Here, the material is stainless steel, but any material having excellent corrosion resistance can be used.

  The weight cover 11b is made of a rubber material, receives the pressure generated by the gas generated from the gas generator 14 without loss, and covers the weight 11a to ensure safety when the weight portion 11 collides with a human body or an object. It is done. It has a general cup shape with an overall length of 27 mm, an outer diameter of φ14 mm, and an inner diameter of φ11 mm. One side has a through-hole with a diameter of φ2 mm for passing the string member 12, and the other side is a gas generator as described above. An annular portion having a radius of 1 mm is provided on the inner and outer edges so that the end of the opening surface spreads toward the inner surface of the container when the gas generated from 14 is received.

  The weight 11a and the weight cover 11b are assembled by passing one end of the string member 12 through a hole on the distal end side of the weight 11a so that the string member 12 is folded back by the hole, and then the string member 12 is inserted into the through hole of the weight cover 11b. This is done by inserting until the convex part of the inner surface of the weight cover 11b and the groove of the weight are fitted. The string member 12 is tied to the restraint net 13.

The restraint net 13 is made of ultra-high strength fibers such as reinforced polyester, and is composed of a 3 m × 3 m or 4 m × 4 m square, a 4 m × 3 m rectangle, or the like. In addition, about half of the total developed area may be formed as a 20 cm square from the vicinity of the center, and the other half may be formed as a 10 cm square. Further, with respect to the mesh width, the inner mesh and the outer mesh may be formed uniformly from the central portion in the entire development area.

The gas generator 14 includes an initiator, a holder for fixing the screw portion to a screw portion provided on the outer periphery of the initiator by screwing, a rupturable plate for temporarily holding combustion generated gas from the initiator, and the rupturable plate. A spacer for fixing and breaking at a predetermined area, a molded filter that cools and filters the combustion generated gas from the initiator, and a screw part that accommodates the molded filter and is provided on one side of the holder via a screw part And a filter cup.
A gas generator 14 is attached to the cylindrical portion 20, and a plug 21 is inserted outside the cylindrical portion 20 and fixed by a cup 22. The plug 21 is composed of a cup with a bottom, a flange 23 projecting outward formed at the opening end, a protrusion 24 for rotation prevention that bulges outward formed at the outer periphery of the opening end, Three guide projections 25a, 25b, 25c formed on the outer periphery of the body portion at a position perpendicular to the axis of the body portion and at an intermediate position between the two, and for conduction provided on the bottom portion Each of the pins 26, a conductive wire 27 connected to each pin 26, and a connector 28 attached to the tip of the conductive wire 27. The connector 28 is connected to a connector 29 that communicates with the gas generator 14.

  As shown in FIGS. 7 to 9, the operation unit 2 is covered with a guard cover 42 so that the adapter 2A, the activation push button 41, and the activation push button 41 are not accidentally pushed. A sealing sticker is attached to the structure so that it cannot be pressed except during use. The activation push button 41 uses a rocker switch having a height of 1.5 m and a structure capable of withstanding even when dropped from any direction.

The assembly | attachment of the restricted net | network ejection part 1 with a string and the operation part 2 is demonstrated.
The plug 21 of the corded restraint net ejection part 1 is inserted into the projections 25a, 25b, 25c provided on the outer periphery thereof along the grooves 44a, 44b, 44c of the first connection part 43 of the adapter 2A, and the plug 21 is inserted. Insert into the first connecting portion 43. When the plug 21 is inserted for a predetermined length, the tip of the plug 21 abuts against the partition member, compresses the elastic member, and when the movement is prevented, the plug 21 is rotated and the projections 25a, 25b, 25c It moves along the part 45 in a direction orthogonal to the axial length direction of the adapter 2A. When the plug 21 is rotated by a predetermined amount, the plug 21 comes into contact with the wall surface of the locking groove 46 and is prevented from moving. At that time, when the plug 21 is made free, the compressed elastic member pushes the plug 21 back in the direction of the insertion port of the first connecting portion 43 through the partition member with a restoring force, and accordingly, the protruding portions 25a, 25b, 25 c is pushed into the locking groove 46. Further, the two pins 26 provided on the plug 21 of the stringed restraint net ejection part 1 are held in contact with the two electrodes 48 provided on the partition member.
As described above, the tied net deployment device 3 according to the present embodiment can be obtained.
(Experiment)
Next, the tied net deployment device 3 according to the present embodiment will be described using experimental examples.

(Experimental example 1)
Using the stringed restraint net deployment device 3 according to the present embodiment, the effective position for attaching the tension string 16 to the restraint net 13 and the number of the tension strings 16 were confirmed. As shown in Table 1, the restraint net and tension string attaching positions 15 and 15 ′ and the number of the tension strings 16 are changed, and the restraint net deployment device 3 with strings is produced. As shown in FIG. 10, a person to be captured having a height of 175 cm is placed at a position 3 m to 4 m from the position at which the tied-restraining net deployment device 3 is fired. Was pulled over the object to be captured, and the tension string 16 was pulled to confirm the situation.

As a result, the number of the tension strings 16 in the comparative example is better than the one without the tension string 16 by pulling the restraining net 13, but the balance is poor and the tension net 13 is surely pulled. I couldn't. In addition, the number of the upper, lower, left and right tension strings 16 is 4
As for, the left and right weights with the strings do not go behind the person to be captured, so there is no effect of the tension strings 16 and only the same effect as the number of the tension strings 16 described above is obtained.
It has been confirmed that the restraining effect is remarkably improved. The restraint net 13 and the tension string attaching positions 15 and 15 'are side patterns A (two tension strings 16) and pattern B (four tension strings 16). , Pattern C (the number of the tension strings 16 is 8). For any of the specifications, by pulling the tension string 16, the restraint net 13 near the foot of the person to be captured is narrowed, and the restraint net 13 is formed into a bag shape. I was able to. Therefore, in order to make the restraint net 13 into a bag shape, the restraint net and the tension string attaching positions 15 and 15 'are the sides of the restraint net 13, and the number of the tension strings 16 is 2, 4, or 8. As a matter of course, in consideration of the processing cost, a total of two, one on each of the left and right sides from the center of the restraint net 13, is preferable.

(Experimental example 2)
Using the stringed restraint net deployment device 3 according to the present embodiment, the attachment range in which the restraint effect can be effectively exhibited was confirmed for the restraint net 13 for attaching the tension string 16 and the tension string attachment positions 15 and 15 ′. The restraint net deploying device 3 with the string in which the restraint net 13 and the tension string attaching positions 15 and 15 ′ are changed is produced. As shown in FIG. 10, a person to be captured having a height of 175 cm is placed at a position 3 m to 4 m from the position at which the tied-restraining net deployment device 3 is fired. The person to be captured was put on and the tension string 16 was pulled to confirm the situation. The results are shown in Table 2.

When the tension string 16 is attached to the center position (the weight portion fixing position) of each of the two sides that fly above the restraint net 13, the distance is 2.1 m. In the case where the attachment distance of the pull string 16 is 1.1 m, a net is applied at a position where the pull string 16 pulls the upper body of the person to be captured. In this case, the restraint net 13 could not be formed into a bag shape even when the tension string 16 was pulled. Further, when the attachment interval was 0.6 m, the two tension strings 16 overlapped, and the effect was not obtained. With respect to the attachment positions 1.6 m to 3.6 m, by pulling the pull string 16, the restraint net 13 near the capture subject's feet could be narrowed down, and the restraint net 13 could be formed into a bag shape. Therefore, the tension string attachment positions 15 and 15 ′ between the two tension strings 16 and the restraint net 13 may be effectively in a range of 1.6 m to 3.6 m across the center of the restraint net 13. all right.
For example, in FIG. 5, it is assumed that the vertex of the restraint net 13 is O, and the end points of one side extending from the vertex are A and B, respectively. The tension string attachment positions 15 and 15 ′ between the two tension strings 16 and the restraint net 13 have a range of 1.6 m to 3.6 m across the center of the restraint net 13, and the apex O of the restraint net 13. When the ratio of the width 15-15 ′ of the tension string attachment positions 15 and 15 ′ between the two tension strings 16 and the restraint net 13 with respect to one side OA and OB extending from the side is determined as 3 m × 3 m square In case of 1.6m / 3m = 0.5 , 3.6m / 3m = 1.2 and 4m × 4m square, 1.6m / 4m = 0.4, 3.6m / 4m = 0.9 The positions of the restraint net 13 and the tension string attachment positions 15 and 15 ′ are such that the ratio of the width 15-15 ′ to one side OA and OB extending from the vertex O of the restraint net 13 is 0.4 to 1. It was confirmed that it was effective to install in the range of.

An example reflecting the results of Experimental Example 1 and Experimental Example 2 is shown in FIG. As another method for obtaining the same effect, as shown in FIG. 11, the tension string 16 to be fixed to the apparatus is one, and the system is branched into two from the middle. The tension string 16 is attached at two attachment positions as shown in FIG. It is not fixed, and it is made up of a single tension string 16 through a mesh or the like. As shown in FIG. 13, the tension string 16 fixed to the apparatus is one, and the tension string 16 is fixed at two attachment positions. It is also possible to use a ring-shaped pulling string 16 instead.

(Experimental example 3)
Using the stringed restraint net deployment device 3 according to this embodiment, the wire diameter of the tension cord 16 that exerts a restraining effect when the device operator pulls the tension cord 16 was confirmed.
The method is shown in FIG. Select a pull string 16 with different wire diameters, and measure with a digital push-pull gauge the force that can be attached and pulled to the restraint net deployment device 3 with a string and that the person can pull the pull string 16 directly when wearing bare hands or gloves. did. The tester employed was a tester who is the average of Japanese adult males (height 171.5 cm, weight 68 kg). The results are shown in Table 3.

  As shown in Table 3, the force of pulling the tension string 16 with the corded restraint net deployment device 3 is 343N with bare hands and 363N with gloves, whereas the force with which the person directly pulled the tension string 16 is It becomes smaller as the wire diameter of the drawstring 16 becomes thinner. This is because when a person pulls the pull string 16, the thin string bites into the hand and it is difficult to apply force from pain. Therefore, in order to reduce the possibility of being pulled back by the person to be captured, it is necessary to make the force that the person pulls with bare hands or gloves wear smaller than the pulling force with the stringed restraint net deployment device 3, and the wire diameter of the pulling string 16 Is suitable for φ0.7 mm to φ5.0 mm, and in order to reduce the possibility of being pulled back again, in order to halve the force pulled by the tension string 16 in the restraint net deployment device 3 with string, The wire diameter of the pull string 16 of φ0.7 mm to φ2.1 mm is preferable.

(Experimental example 4)
Based on the results of Experimental Examples 1 to 3, the pull string 16 uses ultra high strength fibers (ultra high strength polyethylene, φ1.4 mm), and the pull string attachment positions 15 and 15 ′ with the restraint net 13 are restrained. With the center of the net 13 being sandwiched, the position was set to 2.1 m, and attached to the stringed restraint net ejection part 1 to produce the stringed restraint net unfolding device 3. In addition, as a comparative example, a restraint net deployment device without a string was produced.
The restraint net 13 was fired from the corded restraint net deployment device 3 and the cordless restraint net deployment device produced above, and was placed on the capture target, and the time until the capture target escaped from the restraint net 13 was confirmed. The results are shown in Table 4.

About the restraint time of the cordless restraint net deployment device, although there is a difference in the capture target person, it is possible to escape if time is taken. On the other hand, with respect to the restraint net deployment device 3 with the string, since the device operator can always restrain the person to be captured by continuously pulling the pull string 16, it is impossible to escape. Further, when the person to be captured tries to pull the pull string 16, the pull string 16 is thin and difficult to pull, and the operator can always safely restrain the person to be captured.

Essentially for crime prevention, when an intruder executes a criminal act and tries to escape, capture and delay the escape, and in order to prevent criminal act, Can be used to give up. It can also be used to suppress thugs. It can also be used as a protective gear.
In addition to facilitating the capture of animals that have accidentally jumped out into urban areas, it can also be used effectively to capture extermination animals that damage fields, rice fields, orchards, and the like.
In the present invention, an experiment was performed using a 3 m × 3 m or 4 m × 4 m square constraining network. To obtain the same effect, a 3 m × 3 m or 4 m × 4 m octagonal constraining network can also be used.
Further, in the embodiment of the present invention, the restraint net ejection device with the string attached to the operation portion to which the adapter capable of detachably connecting the restraint net ejection portion with the string is attached is described. Can be used even if they are integrated.

It is an external view of a restricted net | network ejection part with a string. It is sectional drawing centering on the weight part of the restricted net | network ejection part with a string. It is sectional drawing centering on the tension | pulling string attachment part of the restraint net | network ejection part with a string. It is a block diagram of a tension string restraint net | network ejection part. It is drawing which shows a restraint net | network and a tension | tensile_strength attachment position, a restricted net | network deployment apparatus with a string, and a tension string attachment position. It is a block diagram of the restricted net | network ejection part with a string. It is drawing which shows a restricted net | network ejection part with a string, and an operation part. It is an external view of a tied net deployment device with a string. It is sectional drawing of the tied net | network expansion | deployment apparatus with a string. 6 is a diagram illustrating a method for performing Experimental Example 1 and Experimental Example 2. It is drawing which shows an example of a restraint net | network and a tension string attachment position. It is drawing which shows an example of a restraint net | network and a tension string attachment position. It is drawing which shows an example of a restraint net | network and a tension string attachment position. 10 is a diagram illustrating an implementation method of Experimental Example 3.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Constrained net | network ejection part 2 Operation part 2A Adapter 3 Constrained net | network expansion | deployment apparatus 10 with container 10A 1st container 10B 2nd container 11 Weight part 11a Weight 11b Weight cover 12 String member 13 Restraint net 14 Gas generator 15 Apex of restraint net Tensile string attachment position 15 'on the sides of 0 and A' Tensile string attachment position 16 on the apex 0 and B side of the restraint net 16 Tensile string 17 Restraint net accommodation lid 18 Container and tension string attachment position 19 Metal ring 20 Tube portion 21 Plug 22 Cup 23 Flange 24 Rotation-preventing projections 25a, 25b, 25c Projection 26 Pin 27 Conductor 28 Connector 29 Connector 41 Activation push button 42 Guard cover 43 First connection 44a, 44b, 44c Groove 45 Horizontal groove 46 Locking groove 48 electrodes

Claims (11)

A restraint net ejecting portion for accommodating a restraint net attached with a plurality of weights and ejecting the restraint net with gas pressure;
An operation unit for activating the restraint net ejection unit;
An adapter for detachably connecting the restraint net ejection part and the operation part;
A tension string connecting the restraint net and the restraint net ejection portion ;
The restraint net has a rhombus shape with right angles,
One end of the pull string is attached to at least two oblique sides intersecting at the apex corner of the constraint net, respectively . A restraint net ejecting portion for accommodating a restraint net attached with a plurality of weights and ejecting the restraint net with gas pressure;
An operation unit for activating the restraint net ejection unit;
An adapter for detachably connecting the restraint net ejection part and the operation part;
A tension string connecting the restraint net and the restraint net ejection portion ;
The restraint net has a rhombus shape with right angles,
The stringing restraint net deployment device , wherein the pull string is composed of a ring-like string attached between two oblique sides that intersect at the apex corner of the restraint net. A restraint net ejecting portion for accommodating a restraint net attached with a plurality of weights and ejecting the restraint net with gas pressure;
An operation unit for activating the restraint net ejection unit;
An adapter for detachably connecting the restraint net ejection part and the operation part;
A tension string connecting the weight attached to the restraining net and the restraining net ejecting portion;
With
The restraint net has a rhombus shape with right angles,
The weight is attached to each corner of the restraint net and an intermediate point between two hypotenuses intersecting at each corner via a string member,
One end of the pulling string is attached to the weight attached via a string member to at least an intermediate point between the two oblique sides, and the restraint net developing device with the string is characterized. In the tied net | network deployment apparatus with a string of Claim 1 or Claim 3 ,
A restraint with a string , wherein a ratio between a distance between the attachment position of the tension string and the apex corner with respect to the two oblique sides and a distance between the attachment positions of the tension string is 0.4 to 1.2. Net deployment device. In leash constraining network deployment apparatus according to any one of claims 1 to 4,
The other end of the tension string is attached to the restraint net ejection part, respectively . In leash constraining network deployment apparatus according to any one of claims 1 to 4,
The other end of the pulling string is coupled to one string and attached to the restraining net ejecting portion. In leash constraining network deployment apparatus according to any one of claims 1 to 6,
The other end of the tension string is fixed in the restraint net ejecting portion, and the restraint net developing device with the string is characterized. In the restraint net | network expansion | deployment apparatus with a string in any one of Claim 1 thru | or 7 ,
The said restraint net | network uses the fiber which has the intensity | strength of 196N or more , The stringed restraint net | network expansion | deployment apparatus characterized by the above-mentioned. In the restraint net | network expansion | deployment apparatus with a string in any one of Claim 1 thru | or 8,
The pulling string uses a fiber having a strength of 196 N or more . In the restraint net | network expansion | deployment apparatus with a string in any one of Claims 1 thru | or 9,
The pulling string uses a fiber having a wire diameter of φ0.7 mm to φ5.0 mm . In the restricted net | network deployment apparatus with a string in any one of Claim 1 thru | or 10 ,
The restraint net ejecting portion forms the restraint net, a plurality of weights disposed at a predetermined interval on the periphery of the restraint net, and a plurality of jet outlets for ejecting the weight at a predetermined angle. A weight housing portion for housing the restraint net, a restraint net housing portion for housing the restraint net, and a pyrotechnic igniter that generates a gas pressure by combustion of a combustible substance, and the weight and the restraint net are Jetting means for jetting with the gas pressure of the industrial igniter;
A restricted net deployment device with a string, comprising: