RU2634941C1 - Contact target sensor - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: contact target sensor contains sensitive items, executed in the form of MEMS devices, which are triggered by the action of linear overload exceeding the threshold level, wherein MEMS device input is connected to contact sensor power point, MEMS device output is connected to the input of electron-temporary block that provides a countdown to action overload exceeding the threshold, the output of which is connected to the output of contact sensor.

EFFECT: invention allows to create a target sensor with high sensitivity with a contact of undermining, increased resistance to small disturbances on the trajectory of projectile, high security level in service treatment.

3 cl, 2 dwg

Description

The invention relates to the field of weapons and can be used in fuses of explosive ordnance.

Known contact sensor of the target, containing the bearing housing, a sensing element in the form of an outer shell, placed with a gap relative to the housing, and at least one pair of electrical contacts made with the possibility of short circuit during deformation of the portion of the outer shell facing the target, by the size of the gap , the electrical contacts are made in the form of contacting insulated conductors placed in the gap between the outer shell and the supporting body. The implementation of electrical contacts in the form of insulated conductors located in the gap between the outer shell and the bearing body eliminates the need to apply voltage to the elements of the shell of the ammunition. In this case, the noise immunity of the target contact sensor is increased, and its design is greatly simplified, since the elements that isolate the sensor contacts and, accordingly, the elements of the ammunition case from each other are not needed (RF patent No. 2416780, IPC F42C 1/00, publ. 04/20/2011) .

The sensor operates as follows. When the munition strikes with a target in the corresponding sensitivity zone, the outer shell is deformed by an amount equal to the gap between the bearing body and the outer shell. In this case, the insulation is destroyed between the conductors and / or between each conductor and the surfaces of the bearing body and the outer shell. Due to the destruction of the insulation, the conductors are closed, and upon their closure, a command is issued to undermine the ammunition.

The main disadvantage of the described device is the low sensitivity, determined by the force necessary for the deformation of the outer shell and destruction of the insulation between the conductors and / or the surfaces of the bearing housing and the outer shell.

The task to which the proposed technical solution is directed is to create a contact target sensor, characterized by high sensitivity when meeting ammunition with a target, high safety indicators in official use, and increased resistance to small interference on the trajectory.

The solution of this problem is achieved by the fact that the proposed contact sensor of the target, according to the invention, contains a housing with an electric input and an electric output, sensitive elements made in the form of a microelectromechanical system (hereinafter - MEMS devices), triggered by the action of an overload, an electronic-time unit that provides a countdown the duration of the overload exceeding the threshold level, and generating a control signal in case the measured time exceeds a certain value, one of the MEMS devices c is located in such a way that the operation is carried out under the influence of an overload exceeding the threshold level acting along the longitudinal axis of the contact sensor, while the input of the specified MEMS device is connected to the electric input of the contact sensor, the output of the specified MEMS device is connected to the input of the electronic-time block, which provides countdown of the overload action time exceeding the threshold level, and forming, if the recorded time exceeds a certain value, a control signal at the output of bl ka, while the output of the electronic-temporal block is connected to the input of the second MEMS device, the output of which is connected to the output of the contact sensor, the second MEMS device being located in such a way that the actuation is effected by centrifugal force when the contact sensor rotates around the longitudinal axis .

In the embodiment, the sensing elements are made in the form of MEMS keys, open in the initial position, while one of the contacts of the MEMS key located in such a way that the closure is effected by the overload acting along the longitudinal axis of the contact sensor is connected to the electrical input of the target sensor while another contact of the specified MEMS key is connected to the input of the electronic-temporal block, the output of which is connected to one of the contacts of the MEMS key located in such a way that the closure is It wishes to set up under the action of centrifugal force during rotation of the contact sensor with respect to the longitudinal axis, wherein the output of said MEMS switch is connected to the contact sensor elektrovyvodom purpose.

In an embodiment, the target contact sensor contains three or more MEMS devices, one of which is arranged in such a way that the device is triggered by an overload exceeding the threshold level acting along the longitudinal axis of the contact sensor, the other two or more MEMS devices are connected electrically in series, while being positioned in such a way that the actuation is carried out under the action of centrifugal forces when the contact sensor rotates around the longitudinal axis, the specified MEMS The devices are arranged around the longitudinal axis of the contact sensor, it is preferably diametrically opposite, while the input of the MEMS device operating under the action of longitudinal overload is connected to the electrical input of the contact sensor, while the output of the specified MEMS device is connected to the input of the electronic-time block, which provides a countdown an overload action, to the output of which one end is connected to a chain of series-connected MEMS devices operating under the action of centrifugal force, the other end of which elektrovyvodom connected to the contact sensor.

The technical result is the creation of a contact target sensor, characterized by increased sensitivity during contact blasting, increased resistance to small interference on the projectile flight path, and a high level of security in official use.

The invention is illustrated by drawings, where in FIG. 1 shows a variant of the design of a contact target sensor with a MEMS device for recording longitudinal overload and two MEMS centrifugal triggering devices, FIG. 2 is a structural diagram of a target contact sensor.

The target contact sensor comprises a housing 1 with an electric input 2 and an output contact 3, a MEMS device 4, which is activated by longitudinal overload, an electronic-time unit 5, two MEMS devices 6 of centrifugal operation.

Contact sensor targets works as follows.

Previously, the target’s contact sensor is placed in the munition fuse in such a way that the longitudinal axis of the contact sensor coincides with the longitudinal axis of the projectile. When a projectile is fired, voltage is applied to the electric input 2 of the target's target sensor. At the time of the shot, when the projectile reaches a certain speed, under the action of centrifugal force, MEMS devices 6 are activated, providing a circuit closure connecting the output of the electronic-time unit 5 to the output of the target’s contact sensor. Further, when the ammunition collides with the target, when the longitudinal overload of the threshold level is reached, the MEMS device 4 is triggered, a signal is received at the input of the electronic-time unit 5, which initiates the countdown of the longitudinal overload. If the duration of the longitudinal overload exceeds a certain time value, the target identification signal is generated at the output of the electronic-temporal block 5, which is output to the target contact sensor.

If the duration of the longitudinal overload exceeding the threshold value is less than a certain time value, for example, in the event of an ammunition collision with small-sized interference on the trajectory, as a result of reducing the overload below the threshold level and stopping the signal from the output of the MEMS device 4 to the input electronically -Time block 5 is interrupted by the time-electronic block 5, the target identification signal at the output of the electronic-time block is not generated and the sensor does not work.

The implementation of the proposed technical solution will allow you to create a small-sized contact target sensor, characterized by high sensitivity when meeting ammunition with a target, high safety indicators in official use, and increased resistance to small interference on the trajectory.

Claims (3)

1. A contact target sensor, characterized in that it contains a housing with an electric input and an electric output, sensitive elements made in the form of a microelectromechanical system (hereinafter referred to as MEMS devices), which are triggered by the action of an overload, an electronic-time unit that provides a countdown of the overload action exceeding threshold level, and generating a control signal in case the read time exceeds a certain value, while one of the MEMS devices is located in such a way that the operation is affected by an overload exceeding the threshold level, acting along the longitudinal axis of the contact sensor, while the input of the specified MEMS device is connected to the electrical input of the contact sensor, the output of the specified MEMS device is connected to the input of the electronic-time block, which provides an indication of the duration of the overload exceeding the threshold level, and forming in case of exceeding the recorded time a certain value of the control signal at the output of the block, while the output of the electronic-time block is connected with the input of the second MEMS device, whose output is connected to the output of the contact sensor, wherein the second MEMS device is arranged so that the operation is carried out under the action of centrifugal force during rotation of the contact sensor about the longitudinal axis. 2. The target contact sensor according to claim 1, characterized in that it contains two or more MEMS devices, wherein one MEMS device is located in such a way that the device is triggered by an overload exceeding the threshold level acting along the longitudinal axis of the contact sensor, the input of the MEMS device that senses longitudinal overload is connected to the electrical input of the contact sensor, while the output of the specified MEMS device is connected to the input of the electronic-time block, which provides a countdown overload action, while the remaining MEMS devices are electrically connected in series and placed around the longitudinal axis of the contact sensor, preferably diametrically opposed, and are arranged so that they are triggered by centrifugal forces when the contact sensor rotates around the longitudinal axis, with the chain in series connected MEMS devices with one end connected to the output of the electronic time device, while the other end connected to the output of the contact sensor ka, with the chain circuit connecting the output of the electron-time block from the output of the contact sensor target, is subject to triggering of MEMS devices centrifugal action. 3. The target contact sensor according to claim 1, characterized in that the sensitive elements are made in the form of MEMS keys open in the initial position, while one of the contacts of the MEMS key is located in such a way that the closure is effected by the overload acting along the longitudinal the axis of the contact sensor, connected to the electrical input of the contact sensor, while the other contact of the specified MEMS key is connected to the input of the electronic-temporal block, the output of which is connected to one of the contacts of the MEMS key located in such an image ohm, that the closure is carried out under the action of centrifugal force, when the contact sensor rotates relative to the longitudinal axis, while the output of the specified MEMS key is connected to the electrical output of the target contact sensor.

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