CN109405674B - Small-caliber guided ammunition environment simulation test system and test method thereof - Google Patents

Abstract

The invention discloses a small-caliber guided munition environment simulation test system and a test method thereof. The simulation test platform of the invention comprises: the system comprises a simulation test control platform, a simulation test platform, a visual interface, a simulation test system communication unit, a high dynamic ballistic environment sensing platform, a small-caliber guided munition fuze relief control platform and a small-caliber guided munition; aiming at the problem that the huge equipment level of small-caliber guided munitions lacks of a system simulation verification means, the invention designs a small-caliber guided munition simulation test control platform and a simulation test platform which have a full ballistic environment and a service processing environment, senses the simulation environment through a high-dynamic ballistic environment sensing platform, controls the protection through a small-caliber guided munition fuze protection control platform, and detects the ballistic environment in real time at high precision to realize the reliable protection of a fuze safety mechanism, thereby improving the stability and the safety of the small-caliber guided munition system.

Description

Small-caliber guided ammunition environment simulation test system and test method thereof

Technical Field

The invention relates to a small-caliber guidance ammunition, in particular to a small-caliber guidance ammunition environment simulation test system and a test method thereof.

Background

In modern war, the precision strike is a great trend, and the use ratio of precision guided weapons in modern war is roughly: 0.20 percent; gulf war 8%; kosowa war: 40 percent; afghanistan war 70%; over 90% of the Israoke war shows that the accurate guided weapons become the leading roles of weapons in modern war, and the large use of the accurate guided weapons is one of the symbolic features of the informatization war. The progress of microsystem technologies such as micro sensing, micro processing, micro control, micro power, micro integration and the like continuously injects new power for the rapid development of the small-caliber guided projectile. The guidance technology and the trajectory correction technology are integrated into smart ammunition of traditional gun-shooting ammunition, the precision and the efficiency of the smart ammunition can be several times of those of the traditional ammunition, and the smart ammunition is flexible, convenient, cheap, rapid and efficient, so that the combat capability of the army is greatly improved, and the smart ammunition is paid attention by various countries, and particularly becomes important fire equipment of a future combat system in the United states. The equipment quantity is increasing increasingly, and becomes the main combat readiness strength. For example, the American 'spike' missile, the 'lance' missile, the 'mini direct collision and killing' missile and the like show obvious advantages in the aspects of the size, the manufacturing cost, the operational capability and the like of a missile body and become a new direction for developing a guided weapon. In recent years, China has made great progress in the development of small-caliber ammunition of various types, but because the number of equipment is great, a simulation verification platform in the later period is difficult to form a systematized mode, and the verification means of the small-caliber ammunition is always in a single state.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a small-caliber guided ammunition environment simulation test system and a test method thereof, so as to solve the equipment requirement of small-caliber ammunition.

The invention aims to provide a small-caliber guided ammunition environment simulation test system.

The invention discloses a small-caliber guided munition environment simulation test system, which comprises: the system comprises a simulation test control platform, a simulation test platform, a visual interface, a simulation test system communication unit, a high dynamic ballistic environment sensing platform, a small-caliber guided munition fuze relief control platform and a small-caliber guided munition; the small-caliber guidance ammunition is arranged on a simulation test platform; the small-caliber guidance cartridge comprises a small-caliber guidance cartridge communication interface, a small-caliber guidance cartridge fuze control system and a small-caliber guidance cartridge fuze energy control system; the simulation test control platform is connected with the simulation test system communication unit; the simulation test system communication unit is connected with the simulation test platform; the visual interface is connected with the communication unit of the simulation test system; the high dynamic trajectory environment sensing platform and the small-caliber guided munition fuze relief control platform are respectively positioned inside the small-caliber guided munition body; the high dynamic ballistic environment sensing platform is connected to the small-caliber guided munition fuze information interaction unit; the small-caliber guidance ammunition fuze information interaction unit is connected with the small-caliber guidance ammunition fuze release control platform; the small-caliber guidance ammunition fuze relief control platform is connected to the small-caliber guidance ammunition fuze control system; the visual interface inputs and stores the mode of the simulation environment and the overload duration time through the simulation test system communication unit, the simulation test control platform returns and displays the mode and the overload duration time to the visual interface through the simulation test system communication unit, and if the mode and the overload duration time are consistent with each other, the simulation test control platform transmits the mode of the simulation environment and the overload duration time to the simulation test control platform through the simulation test system communication unit; the simulation test platform realizes a corresponding simulation environment according to the setting of the simulation test control platform and loads the simulation environment on the small-caliber guidance ammunition; the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform; the small-caliber guidance ammunition enters a corresponding simulation environment; the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts mechanical information into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit; the small-caliber guidance ammunition fuze guarantee eliminating control platform judges whether the small-caliber guidance ammunition is subjected to guarantee eliminating control or not according to the overload information of the small-caliber guidance ammunition, and executes guarantee eliminating processing on a small-caliber guidance ammunition fuze control system when the situation that the guarantee eliminating control is required is judged, so that the real-time detection of the small-caliber guidance ammunition on to the ammunition state is realized.

The simulation test control platform comprises a simulation mode setting unit and a simulation overload duration setting unit which are respectively interconnected with the simulation test system communication unit; the visual interface selects a proper mode of the simulation environment according to the simulation environment, the mode is set and stored in the simulation mode setting unit, the simulation mode setting unit returns the mode to the visual interface for displaying and comparing, and if the mode is consistent with the mode, the mode is output to the simulation test platform through the simulation test system communication unit; the visual interface selects a proper mode for simulating the overload duration according to the simulation environment, the mode is set and stored in the simulation overload duration setting unit, the simulation overload duration setting unit returns the overload duration to the visual interface for displaying and comparing, and if the overload duration and the simulation overload duration are consistent, the mode is output to the simulation test platform through the simulation test system communication unit. The simulation environment includes a ballistic environment and a service processing environment.

The simulation test platform comprises a ballistic environment simulation test platform service processing simulation test platform, and the simulation test system communication unit is respectively connected to the ballistic environment simulation test platform and the service processing simulation test platform; the ballistic environment simulation test platform simulates a ballistic environment and is loaded on the small-caliber guidance ammunition; the service processing simulation test platform simulates a service processing environment and is loaded on the small-caliber guidance ammunition.

The high dynamic ballistic environment sensing platform comprises a high dynamic ballistic environment sensing element and a high dynamic ballistic environment data processing unit; the high dynamic ballistic environment sensing element is a mechanical element sensitive to an overload environment, is integrated on the high dynamic ballistic environment data processing unit, senses the ballistic environment of the small-caliber guided munition and generates corresponding mechanical change; the high dynamic ballistic environment data processing unit converts mechanical information into electrical overload information, and the electrical overload information is sent to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit.

The small-caliber guidance ammunition fuze relief control platform comprises a small-caliber guidance ammunition fuze relief control unit and a small-caliber guidance ammunition fuze relief control execution mechanism; overload information is sent to the small-caliber guidance ammunition fuze protection release control unit through the small-caliber guidance ammunition fuze information interaction unit, the small-caliber guidance ammunition fuze protection release control unit judges whether protection release control is needed or not according to the overload information, when the protection release control is judged to be needed, a protection release control instruction is sent to the small-caliber guidance ammunition fuze protection release control executing mechanism, and the small-caliber guidance ammunition fuze protection release control executing mechanism executes protection release processing on the small-caliber guidance ammunition.

The invention also aims to provide a control method of the small-caliber guided ammunition environment simulation test system.

The control method of the small-caliber guided munition environmental simulation test system comprises a control method of a small-caliber guided munition trajectory environmental simulation test and a control method of a small-caliber guided munition service processing environmental simulation test.

The invention discloses a control method for a small-caliber guided munition trajectory environment simulation test, which comprises the following steps:

1) the visual interface sets and inputs the mode of the ballistic environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and the mode and the overload duration time are compared and are consistent, so that the simulation test control platform transmits the mode of the ballistic environment and the overload duration time to the simulation test control platform through the simulation test system in a communication manner;

2) the ballistic environment simulation test platform of the simulation test platform realizes a corresponding ballistic environment according to the set mode of the ballistic environment and the overload duration time, and the corresponding ballistic environment is loaded on the small-caliber guidance ammunition;

3) the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform;

4) the small-caliber guidance ammunition enters a corresponding ballistic environment;

5) the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts the overload into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit;

6) the small-caliber guidance ammunition fuze guarantee eliminating control platform judges whether to carry out guarantee eliminating control on the small-caliber guidance ammunition or not according to the overload information of the small-caliber guidance ammunition, and executes guarantee eliminating processing on a small-caliber guidance ammunition fuze control system when judging that the guarantee eliminating control should be carried out;

7) the small-caliber guidance ammunition fuze control system is safe and guaranteed, and the real-time detection of the small-caliber guidance ammunition pair ammunition state is realized.

The invention discloses a control method of a small-caliber guidance ammunition service processing environment simulation test, which comprises the following steps of:

1) the visual interface sets and inputs the mode of the service processing environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and the mode and the overload duration time are compared and consistent, so that the simulation test control platform transmits the mode of the service processing environment and the overload duration time to the simulation test control platform through the simulation test system;

2) the service processing simulation test platform of the simulation test platform realizes a corresponding service processing environment according to the set service processing mode and the overload duration time and loads the service processing environment on the small-caliber guidance ammunition;

3) the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform;

4) the small-caliber guidance ammunition enters a corresponding service processing environment;

5) the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts the overload into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit;

6) and the small-caliber guidance ammunition fuze relief control platform judges whether to perform relief control on the small-caliber guidance ammunition according to the overload information of the small-caliber guidance ammunition, and when the situation that the relief control is not required to be executed is judged, the situation is ended, and the small-caliber guidance ammunition cannot relieve the fuze in the service processing environment.

The invention has the advantages that:

aiming at the problem that the huge equipment level of small-caliber guided munitions lacks of a system simulation verification means, the invention designs a small-caliber guided munition simulation test control platform and a simulation test platform which have a full ballistic environment and a service processing environment, senses the simulation environment through a high-dynamic ballistic environment sensing platform, controls the protection through a small-caliber guided munition fuze protection control platform, and detects the ballistic environment in real time at high precision to realize the reliable protection of a fuze safety mechanism, thereby improving the stability and the safety of the small-caliber guided munition system.

Drawings

Fig. 1 is a structural block diagram of a small-caliber guided munition environmental simulation test system of the invention.

Detailed Description

The invention will be further elucidated by means of specific embodiments in the following with reference to the drawing.

As shown in fig. 1, the environmental simulation test system for the small-caliber guided munition of the embodiment comprises: the system comprises a simulation test control platform, a simulation test platform, a visual interface, a simulation test system communication unit, a high dynamic ballistic environment sensing platform, a small-caliber guided munition fuze relief control platform and a small-caliber guided munition; the small-caliber guidance ammunition is arranged on a simulation test platform; the small-caliber guidance ammunition comprises a small-caliber guidance ammunition communication interface, a small-caliber guidance ammunition fuze control system and a small-caliber guidance ammunition fuze energy control system, wherein the small-caliber guidance ammunition communication interface is interconnected with the communication interface of the control upper computer, receives a command of the control upper computer and transmits the command of the control upper computer to the small-caliber guidance ammunition fuze control system; the simulation test control platform is connected with the simulation test system communication unit; the simulation test system communication unit is connected with the simulation test platform; the visual interface is connected with the communication unit of the simulation test system; the high dynamic trajectory environment sensing platform and the small-caliber guided munition fuze relief control platform are respectively positioned inside the small-caliber guided munition body; the high dynamic ballistic environment sensing platform is connected to the small-caliber guided munition fuze information interaction unit; the small-caliber guidance ammunition fuze information interaction unit is connected to the small-caliber guidance ammunition fuze release control platform; the small-caliber guidance ammunition fuze relief control platform is connected to the small-caliber guidance ammunition fuze control system.

The simulation test control platform comprises a simulation mode setting unit and a simulation overload duration setting unit which are respectively interconnected with the simulation test system communication unit.

The simulation test platform comprises a ballistic environment simulation test platform service handling simulation test platform, and the simulation test system communication units are respectively connected to the ballistic environment simulation test platform service handling simulation test platform.

The high dynamic ballistic environment sensing platform comprises a high dynamic ballistic environment sensing element and a high dynamic ballistic environment data processing unit; the high dynamic ballistic environment sensing element is a mechanical element sensitive to an overload environment and is integrated on the high dynamic ballistic environment data processing unit.

The small-caliber guidance ammunition fuze relief control platform comprises a small-caliber guidance ammunition fuze relief control unit and a small-caliber guidance ammunition fuze relief control execution mechanism; the small-caliber guidance ammunition fuze relief control platform comprises a small-caliber guidance ammunition fuze relief control unit and a small-caliber guidance ammunition fuze relief control execution mechanism; overload information is sent to the small-caliber guidance ammunition fuze protection release control unit through the small-caliber guidance ammunition fuze information interaction unit, the small-caliber guidance ammunition fuze protection release control unit judges whether protection release control is needed or not according to the overload information, when the protection release control is judged to be needed, a protection release control instruction is sent to the small-caliber guidance ammunition fuze protection release control execution mechanism, the small-caliber guidance ammunition fuze protection release control execution mechanism executes protection release processing on the small-caliber guidance ammunition, and if a mechanical switch is turned on or turned off, the protection release control execution mechanism sends protection release control instructions to the small-caliber guidance.

Example one

The control method for the small-caliber guided munition ballistic environment simulation test comprises the following steps:

1) the visual interface sets and inputs the mode of the ballistic environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and the mode and the overload duration time are compared and are consistent, so that the simulation test control platform transmits the mode of the ballistic environment and the overload duration time to the simulation test control platform through the simulation test system in a communication manner;

2) the ballistic environment simulation test platform of the simulation test platform realizes a corresponding ballistic environment according to the set mode of the ballistic environment and the overload duration time, and the corresponding ballistic environment is loaded on the small-caliber guidance ammunition;

3) the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform;

4) the small-caliber guidance ammunition enters a corresponding ballistic environment;

5) the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts the overload into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit;

6) the small-caliber guidance ammunition fuze protection release control platform judges whether to perform protection release control on the small-caliber guidance ammunition or not according to overload information of the small-caliber guidance ammunition, when the situation that the protection release control is required to be performed is judged, a protection release control instruction is sent to the small-caliber guidance ammunition fuze protection release control executing mechanism, the small-caliber guidance ammunition fuze protection release control executing mechanism is switched on or switched off through a mechanical switch, and protection release processing is performed on the small-caliber guidance ammunition;

7) the small-caliber guidance ammunition fuze control system is safe and guaranteed, and the real-time detection of the small-caliber guidance ammunition pair ammunition state is realized.

Example two

The control method for the small-caliber guided munition service processing environment simulation test comprises the following steps:

1) the visual interface sets and inputs the mode of the service processing environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and the mode and the overload duration time are compared and consistent, so that the simulation test control platform transmits the mode of the service processing environment and the overload duration time to the simulation test control platform through the simulation test system;

2) the service processing simulation test platform of the simulation test platform realizes a corresponding service processing environment according to the set service processing mode and the overload duration time and loads the service processing environment on the small-caliber guidance ammunition;

3) the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform;

4) the small-caliber guidance ammunition enters a corresponding service processing environment;

5) the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts the overload into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit;

6) and the small-caliber guidance ammunition fuze relief control platform judges whether to perform relief control on the small-caliber guidance ammunition according to the overload information of the small-caliber guidance ammunition, and when the situation that the relief control is not required to be executed is judged, the situation is ended, and the small-caliber guidance ammunition cannot relieve the fuze in the service processing environment.

Finally, it is noted that the disclosed embodiments are intended to aid in further understanding of the invention, but those skilled in the art will appreciate that: various substitutions and modifications are possible without departing from the spirit and scope of the invention and the appended claims. Therefore, the invention should not be limited to the embodiments disclosed, but the scope of the invention is defined by the appended claims.

Claims (6)

1. A small-caliber guided munition ballistic environment simulation test system, comprising: the system comprises a simulation test control platform, a simulation test platform, a visual interface, a simulation test system communication unit, a high dynamic ballistic environment sensing platform, a small-caliber guided munition fuze relief control platform and a small-caliber guided munition; the small-caliber guidance ammunition is arranged on a simulation test platform; the small-caliber guidance cartridge comprises a small-caliber guidance cartridge communication interface, a small-caliber guidance cartridge fuze control system and a small-caliber guidance cartridge fuze energy control system; the simulation test control platform is connected with the simulation test system communication unit; the simulation test system communication unit is connected with the simulation test platform; the visual interface is connected with the simulation test system communication unit; the high dynamic trajectory environment sensing platform and the small-caliber guided munition fuze relief control platform are respectively positioned inside the small-caliber guided munition body; the high dynamic ballistic environment sensing platform is connected to the small-caliber guided munition fuze information interaction unit; the small-caliber guidance ammunition fuze information interaction unit is connected with the small-caliber guidance ammunition fuze release control platform; the small-caliber guidance ammunition fuze relief control platform is connected to the small-caliber guidance ammunition fuze control system; the visual interface sets and inputs the mode of the simulation environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and if the mode and the overload duration time are consistent in comparison, the simulation test control platform transmits the mode of the simulation environment and the overload duration time to the simulation test control platform through the simulation test system communication unit; the simulation test platform realizes a corresponding simulation environment according to the setting of the simulation test control platform and loads the simulation environment on the small-caliber guidance ammunition; the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform; the small-caliber guidance ammunition enters a corresponding simulation environment; the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts mechanical information into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit; the small-caliber guidance ammunition fuze guarantee elimination control platform judges whether to carry out guarantee elimination control on the small-caliber guidance ammunition according to the overload information of the small-caliber guidance ammunition, and executes guarantee elimination processing on a small-caliber guidance ammunition fuze control system when the situation that the guarantee elimination control needs to be carried out is judged, so that the real-time detection on the state of the small-caliber guidance ammunition is realized; the simulation environment comprises a ballistic environment and a service processing environment; the simulation test system comprises a simulation test system communication unit, a simulation test system communication unit and a simulation test platform, wherein the simulation test platform comprises a ballistic environment simulation test platform and a service processing simulation test platform; the ballistic environment simulation test platform simulates a ballistic environment and is loaded on the small-caliber guidance ammunition; the service processing simulation test platform simulates a service processing environment and is loaded on the small-caliber guidance ammunition.

2. The simulation test system of claim 1, wherein the simulation test control platform comprises a simulation mode setting unit and a simulation overload duration setting unit, respectively interconnected with the simulation test system communication unit; the visual interface selects a proper mode of the simulation environment according to the simulation environment, the mode is set and stored in the simulation mode setting unit, the simulation mode setting unit returns the mode to the visual interface for displaying and comparing, and if the mode is consistent with the mode, the mode is output to the simulation test platform through the simulation test system communication unit; the visual interface selects a proper mode for simulating the overload duration according to the simulation environment, the mode is set and stored in the simulation overload duration setting unit, the simulation overload duration setting unit returns the overload duration to the visual interface for displaying and comparing, and if the overload duration and the simulation overload duration are consistent, the mode is output to the simulation test platform through the simulation test system communication unit.

3. The simulation test testing system of claim 1, wherein the high dynamic ballistic environment sensing platform comprises a high dynamic ballistic environment sensing element and a high dynamic ballistic environment data processing unit; the high dynamic ballistic environment sensing element is a mechanical element sensitive to an overload environment, is integrated on the high dynamic ballistic environment data processing unit, senses the ballistic environment of the small-caliber guided munition and generates corresponding mechanical change; the high dynamic ballistic environment data processing unit converts mechanical information into electrical overload information, and the electrical overload information is sent to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit.

4. The simulation test testing system of claim 1, wherein the small-caliber guided munition fuze relief control platform comprises a small-caliber guided munition fuze relief control unit and a small-caliber guided munition fuze relief control actuator; overload information is sent to the small-caliber guidance ammunition fuze protection release control unit through the small-caliber guidance ammunition fuze information interaction unit, the small-caliber guidance ammunition fuze protection release control unit judges whether protection release control is needed or not according to the overload information, when the protection release control is judged to be needed, a protection release control instruction is sent to the small-caliber guidance ammunition fuze protection release control executing mechanism, and the small-caliber guidance ammunition fuze protection release control executing mechanism executes protection release processing on the small-caliber guidance ammunition.

5. A control method for a ballistic environment simulation test of a small-caliber guided munition ballistic environment simulation test system according to claim 1, wherein the control method comprises the steps of:

1) the visual interface sets and inputs the mode of the ballistic environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and the mode and the overload duration time are compared and are consistent, so that the simulation test control platform transmits the mode of the ballistic environment and the overload duration time to the simulation test control platform through the simulation test system in a communication manner;

2) the ballistic environment simulation test platform of the simulation test platform realizes a corresponding ballistic environment according to the set mode of the ballistic environment and the overload duration time, and the corresponding ballistic environment is loaded on the small-caliber guidance ammunition;

3) the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform;

4) the small-caliber guidance ammunition enters a corresponding ballistic environment;

5) the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts the overload into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit;

6) the small-caliber guidance ammunition fuze guarantee eliminating control platform judges whether to carry out guarantee eliminating control on the small-caliber guidance ammunition or not according to the overload information of the small-caliber guidance ammunition, and executes guarantee eliminating processing on a small-caliber guidance ammunition fuze control system when judging that the guarantee eliminating control should be carried out;

7) the small-caliber guidance ammunition fuze control system is safe and guaranteed, and real-time detection of the state of the small-caliber guidance ammunition is achieved.

6. A control method for a service process environmental simulation test of a small-caliber guided munition ballistic environmental simulation test system according to claim 1, wherein the control method comprises the steps of:

1) the visual interface sets and inputs the mode of the service processing environment and the overload duration time to the simulation test control platform through the simulation test system communication unit and stores the mode and the overload duration time, the simulation test control platform returns the mode and the overload duration time to the visual interface through the simulation test system communication unit and displays the mode and the overload duration time, and the mode and the overload duration time are compared and consistent, so that the simulation test control platform transmits the mode of the service processing environment and the overload duration time to the simulation test control platform through the simulation test system;

2) the service processing simulation test platform of the simulation test platform realizes a corresponding service processing environment according to the set service processing mode and the overload duration time and loads the service processing environment on the small-caliber guidance ammunition;

3) the small-caliber guidance ammunition fuze energy control system supplies power to the small-caliber guidance ammunition fuze control system, the high dynamic trajectory environment sensing platform and the small-caliber guidance ammunition fuze release control platform;

4) the small-caliber guidance ammunition enters a corresponding service processing environment;

5) the high dynamic trajectory environment sensing platform senses overload of the small-caliber guidance ammunition, converts the overload into electrical overload information, and sends the electrical overload information to the small-caliber guidance ammunition fuze relief control platform through the small-caliber guidance ammunition fuze information interaction unit;

6) and the small-caliber guidance ammunition fuze relief control platform judges whether to perform relief control on the small-caliber guidance ammunition according to the overload information of the small-caliber guidance ammunition, and when the situation that the relief control is not required to be executed is judged, the situation is ended, and the small-caliber guidance ammunition cannot relieve the fuze in the service processing environment.

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