A net launcher
By designing a capture net launching device, a gas pressure triggering mechanism using a trigger element and firing assembly is used to solve the problems of complex triggering mechanisms and gas waste in traditional devices, thus realizing the capture net can be opened immediately and reducing costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO TONGCHAN SOFTWARE TECH
- Filing Date
- 2025-06-10
- Publication Date
- 2026-06-23
AI Technical Summary
The existing capture net launching device has a complex triggering mechanism and wastes gas.
A capture net launching device was designed, which uses a trigger and firing assembly. The device enables the immediate use and storage of gas through a preset gas pressure triggering mechanism, avoiding gas waste and simplifying the triggering process.
This allows the capture net to be opened immediately upon use, reducing operating costs, and it can be stored for a long time before use, avoiding waste of gas.
Smart Images

Figure CN224398468U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of security device technology, and more specifically, to a capture net launching device. Background Technology
[0002] In the fields of security, law enforcement, and public safety, traditional arrest devices mainly include stun guns (such as Taser guns), restraint devices (such as handcuffs and arresting forks), and net guns. Among these, net gun devices are the closest to this invention, and their core purpose is to quickly deploy an arrest net from a relatively long distance to restrict the target's movement. This allows for the control of personnel from a safe distance, effectively reducing necessary contact with the target and significantly enhancing the protection of security personnel.
[0003] However, the current launch device has a complex triggering mechanism and uses a high-pressure gas cylinder as a power source, which poses certain safety hazards. In addition, when placing the gas cylinder, it is necessary to trigger the gas in the cylinder to enter the launch device for storage. However, if the launch is canceled, the gas cannot be stored in the launch device for a long time, resulting in waste.
[0004] In summary, simplifying the triggering mechanism of the launching device and avoiding gas waste are problems that urgently need to be solved by those skilled in the art. Utility Model Content
[0005] In view of this, the purpose of this utility model is to provide a capture net launching device that simplifies the triggering mechanism of the launching device, avoids gas waste after the launch is canceled, and effectively reduces the cost of use.
[0006] To achieve the above objectives, this utility model provides the following technical solution:
[0007] A capture net launching device, comprising:
[0008] The outer casing has an installation cavity and a firing cavity inside. The installation cavity is used to install a gas cylinder. The outer casing is equipped with several push channels, which are connected to the firing cavity through gas channels. Each of the push channels is equipped with a counterweight.
[0009] The net compartment is installed on the outer shell, and a capture net is provided inside the net compartment. Several counterweights are connected to the capture net.
[0010] A trigger is installed on the side of the firing chamber away from the mounting chamber, and separates the firing chamber and the gas passage into two independent chambers. The trigger can withstand a preset gas pressure. When the gas pressure exceeds the preset value, the trigger is activated to connect the firing chamber and the gas passage.
[0011] The firing assembly includes a firing pin installed in the firing chamber, the firing pin being used to strike the mouth of the gas cylinder to expel gas from the gas cylinder.
[0012] Furthermore, the present invention provides a rear end cover that is detachably mounted on the outer casing at the end of the mounting cavity away from the firing cavity, and a front end cover that is detachably mounted on the outer casing at the end of the firing cavity away from the mounting cavity, wherein both the front end cover and the rear end cover are sealed to the outer casing.
[0013] Furthermore, in this invention, the mesh bin is a cylindrical cavity, and the mesh bin has an opening on the side away from the outer shell, and a plurality of the pushing channels are evenly distributed around the circumference of the mesh bin axis.
[0014] Furthermore, in this invention, a mounting base is provided on the side of the firing chamber away from the mounting chamber. The trigger is detachably mounted on the mounting base and sealed with the mounting base. The trigger is a thin sheet structure. When the gas pressure in the firing chamber exceeds a preset value, it breaks through the thin sheet trigger, thereby connecting the firing chamber and the gas channel.
[0015] Furthermore, the mounting base is detachably equipped with a fixing ring, and a sealing ring is provided between the fixing ring and the mounting base.
[0016] Furthermore, this utility model also includes:
[0017] A flow equalization plate is installed on the outer casing and located between the gas channel and several of the pushing channels. The flow equalization plate is provided with several evenly distributed air passage holes.
[0018] Furthermore, the firing assembly further includes:
[0019] A slider is slidably mounted on the firing chamber, and the firing pin is mounted on the slider;
[0020] An elastic element is installed in the firing chamber and is used to control the slider to slide towards the mounting chamber;
[0021] A limiting member is slidably mounted on the firing chamber and used to limit the slider so that the elastic member is in a compressed state;
[0022] A control component is slidably mounted on the housing and is used to control the sliding of the limiting component.
[0023] Furthermore, the firing assembly further includes:
[0024] A reset component is installed on the housing and elastically pushes the limiting component to move towards the slider. The control component is used to control the limiting component to compress the reset component so that the limiting component loses its limiting effect on the slider.
[0025] Furthermore, the firing assembly further includes:
[0026] A driving component is provided to drive the control component to slide. The limiting component is provided with a contact component. The control component is provided with an inclined surface facing the contact component. The inclined surface contacts the contact component and moves towards the contact component through the control component, thereby changing the position of the limiting component.
[0027] Furthermore, in this invention, the contact element is a roller, and the roller is rotatably mounted on the limiting element.
[0028] The capture net launching device provided by this utility model has a net housing installed on an outer shell, containing a capture net. The outer shell contains an installation cavity and a firing cavity. The installation cavity houses a gas cylinder. Several pushing channels are installed on the outer shell and connected to the firing cavity via gas channels. Each pushing channel contains a counterweight, which is connected to the capture net. A trigger is installed on the side of the firing cavity away from the installation cavity, sealing off the firing cavity and gas channels. The trigger can withstand a preset gas pressure. When the gas pressure exceeds the preset value, the trigger is activated, connecting the firing cavity and gas channels. In other words, only the gas cylinder needs to be installed between launches of the capture net. It can be installed inside the outer shell without immediately opening the gas cylinder. When the capture net needs to be launched, the firing pin is controlled to move towards the gas cylinder. The firing pin strikes the mouth of the gas cylinder, causing the gas inside the cylinder to be expelled. At this time, the gas fills the entire firing chamber. When the gas pressure reaches the preset value, the trigger is activated, connecting the firing chamber and the gas channel. The gas channel is connected to several push channels, which means that the counterweight is pushed out of the push channels by the high-pressure gas, driving the capture net to control the target. It achieves instant activation, avoids gas waste after canceling the launch, effectively reduces the cost of use, and can be stored for a long time after the assembly and preparation work is completed. Attached Figure Description
[0029] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the provided drawings without creative effort.
[0030] Figure 1This is a schematic diagram of the overall structure of the device provided by this utility model;
[0031] Figure 2 This is a cross-sectional axial view of the device provided by this utility model;
[0032] Figure 3 This is a structural schematic diagram of the device provided by this utility model, viewed from the front in cross-section;
[0033] Figure 4 This is a partial axial view of the firing chamber and firing assembly provided by this utility model;
[0034] Figure 5 This is a partial side view of the firing chamber and firing assembly provided by this utility model.
[0035] Figures 1-5 In the accompanying drawings, the reference numerals include:
[0036] 1. Outer shell; 101. Mounting cavity; 102. Firing cavity; 2. Push channel; 3. Gas channel; 4. Counterweight; 5. Net compartment; 6. Trigger; 7. Firing assembly; 701. Strike pin; 702. Elastic element; 703. Slider; 704. Limiting element; 705. Reset element; 706. Control element; 707. Drive element; 708. Mounting base; 709. Fixing ring; 710. Contact element; 8. Rear end cover; 9. Front end cover; 10. Flow equalization plate. Detailed Implementation
[0037] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0038] The core of this invention is to provide a capture net launching device that simplifies the triggering mechanism of the launching device, avoids gas waste after the launch is canceled, and effectively reduces the cost of use.
[0039] Please refer to Figure 2A capture net launching device includes a housing 1, a net compartment 5, a trigger 6, and a firing assembly 7. The housing 1 has an installation cavity 101 and a firing cavity 102. The installation cavity 101 is used to install a gas cylinder. The housing 1 has several push channels 2, which are connected to the firing cavity 102 through gas channels 3. Each of the push channels has a counterweight 4. The net compartment 5 is installed on the housing 1 and contains a capture net. The counterweights 4 are connected to the capture net. The trigger 6 is installed on the side of the firing cavity 102 away from the installation cavity 101 and seals and separates the firing cavity 102 from the gas channel 3. The trigger 6 can withstand a preset gas pressure. When the gas pressure exceeds the preset value, the trigger 6 is triggered to connect the firing cavity 102 and the gas channel 3. The firing assembly 7 includes a firing pin 701 installed in the firing cavity 102. The firing pin 701 is used to strike the mouth of the gas cylinder to expel the gas from the cylinder.
[0040] It should be noted that the outer shell 1 of this utility model embodiment adopts a sealed structure to keep the firing chamber 102, the mounting chamber 101 and the gas channel 3 sealed during use.
[0041] Optionally, in some embodiments, the counterweight 4 and the capture net are connected by ropes.
[0042] Optionally, in some embodiments, the net compartment 5 is provided with an end cap for supporting the capture net and preventing the capture net from leaking out.
[0043] Optionally, in some embodiments, the net compartment 5 and the firing chamber 102 are arranged vertically. This method can reduce the overall length of the device. At the same time, the outer shell 1 is provided with an interface for connecting to a drone, so that the drone can control the target. This effectively solves the drawback of traditional handheld capture net guns that require manual hand-held close-range capture, and can effectively ensure the safety of security personnel.
[0044] In use, the net compartment 5 is installed on the outer shell 1. The net compartment 5 contains a capture net. The outer shell 1 contains an installation cavity 101 and a firing cavity 102. The installation cavity 101 is used to install the gas cylinder. Several push channels 2 are installed on the outer shell 1 and are connected to the firing cavity 102 through gas channels 3. Each of the push channels contains a counterweight 4, and each of the counterweights 4 is connected to the capture net. A trigger 6 is installed on the side of the firing cavity 102 away from the installation cavity 101, and seals and separates the firing cavity 102 from the gas channel 3. The trigger 6 can withstand a preset gas pressure. When the gas pressure exceeds the preset value, the trigger 6 is activated, thereby connecting the firing cavity 102 and the gas channel 3. In other words, between launching the capture net, only the gas cylinder needs to be... It can be installed inside the outer casing 1 without immediately opening the gas cylinder. When the capture net needs to be launched, the firing pin 701 is controlled to move towards the gas cylinder. The firing pin 701 is used to strike the mouth of the gas cylinder to expel the gas inside the cylinder. At this time, the gas fills the entire firing chamber 102. When the gas pressure reaches the preset value, the trigger 6 is triggered, realizing the connection between the firing chamber 102 and the gas channel 3. The gas channel 3 is connected to several push channels 2, that is, the counterweight 4 is pushed out of the push channel 2 by the high-pressure gas, which drives the capture net to control the target. It achieves the goal of being ready to use immediately, avoiding the waste of gas after canceling the launch, effectively reducing the cost of use. At the same time, after the assembly preparation work is completed, it can be stored for a long time.
[0045] Please refer to Figure 2 In some embodiments, the end of the mounting cavity 101 away from the firing cavity 102 is provided with a rear end cover 8 that can be detachably installed on the outer casing 1, and the end of the firing cavity 102 away from the mounting cavity 101 is provided with a front end cover 9 that can be detachably installed on the outer casing 1. Both the front end cover 9 and the rear end cover 8 are sealed to the outer casing 1. The gas cylinder and the trigger 6 can be replaced through the front end cover 9 and the rear end cover 8, and the overall sealing effect of the outer casing 1 is ensured after replacement.
[0046] Optionally, in some embodiments, sealing gaskets are provided at the contact points between the front cover 9, the rear cover 8 and the outer casing 1 to increase the sealing effect.
[0047] Optionally, in some embodiments, the front cover 9 and the rear cover 8 can be detachably connected by threads. Specifically, the outer shell 1 is provided with a threaded structure that cooperates with the front cover 9 and the rear cover 8, so as to realize quick disassembly of the front cover 9 and the rear cover 8, while having better sealing performance.
[0048] In other embodiments, the front cover 9 and the rear cover 8 are hinged to the housing 1 and are provided with a clamping handle. Specifically, when the front cover 9 and the rear cover 8 are in contact with the housing 1, the clamping handle increases the sealing of the contact between the front cover 9, the rear cover 8 and the housing 1.
[0049] Please refer to Figure 3In some embodiments, the net compartment 5 is a cylindrical cavity, and the net compartment 5 has an opening on the side away from the outer shell 1. Several pushing channels 2 are evenly distributed around the circumference of the net compartment 5 axis. The evenly distributed pushing channels can increase the uniformity of force when the net compartment 5 is driven, thereby increasing the range when the capture net is spread out.
[0050] In other embodiments, the net cage 5 may also take other shapes, such as a cuboid cavity or a polygonal cavity. The number of pushing channels is the same as the number of sides of the net cage 5, and they are installed at the corresponding corner positions of the net cage 5, thereby increasing the uniformity of force after the capture net is opened.
[0051] Please refer to Figure 2 In some embodiments, a mounting base 708 is provided on the side of the firing chamber 102 away from the mounting chamber 101. The trigger 6 is detachably mounted on the mounting base 708 and sealed to the mounting base 708. The trigger 6 has a thin sheet structure. When the air pressure in the firing chamber 102 exceeds a preset value, it breaks through the thin sheet trigger 6, so that the firing chamber 102 and the gas channel 3 are connected. That is, by setting the thin sheet structure trigger 6, when the air pressure in the firing chamber 102 reaches a certain value, it breaks through the trigger 6, and the air pressure enters the push channel 2 through the gas channel 3, pushing the counterweight 4 outward.
[0052] Optionally, in some embodiments, the trigger 6 may be made of metal, such as copper or aluminum, or other materials, such as PVC or PE, as long as the thickness is sufficient to be broken when the air pressure in the firing chamber 102 exceeds a preset value. Specifically, when copper is used, the air thickness is 0.08 mm.
[0053] Optionally, in some embodiments, a retaining ring 709 is detachably mounted on the mounting base 708, and a sealing ring is provided between the retaining ring 709 and the mounting base 708. That is, the trigger 6 is clamped by the retaining ring 709 and the sealing ring to prevent the trigger 6 from shaking, and at the same time greatly improves the sealing effect of the trigger 6.
[0054] In the above embodiment, the fixing ring 709 is fixed to the mounting base 708 by a snap-fit method, and the front end cover 9 is provided with an elastic compression part for compressing the fixing ring 709, which can further improve the sealing performance of the compression of the trigger member 6.
[0055] Please refer to Figure 2 In some embodiments, a flow equalization plate 10 is also included. The flow equalization plate 10 is installed on the housing 1 and located between the gas channel 3 and several pushing channels 2. The flow equalization plate 10 is provided with several evenly distributed air passage holes. That is, the flow equalization plate 10 diverts the passing gas, so that the amount of gas entering the several pushing channels 2 is evenly distributed, thereby ensuring that each counterweight 4 receives the same thrust, which is beneficial to improving the uniformity of the capture net.
[0056] Optionally, in some embodiments, the outlet of the gas channel 3 is located at the center of the flow equalization plate 10, further improving the effect of uniform gas dispersion.
[0057] Please refer to Figure 3 In some embodiments, the firing assembly 7 further includes a slider 703, an elastic element 702, a limiting element 704, and a control element 706. The slider 703 is slidably mounted in the firing chamber 102, the firing pin 701 is mounted on the slider 703, the elastic element 702 is mounted in the firing chamber 102 and is used to control the slider 703 to slide towards the mounting cavity 101, the limiting element 704 is slidably mounted in the firing chamber 102 and is used to limit the slider 703 so that the elastic element 702 is in a compressed state, and the control element 706 is slidably mounted in the housing 1 and is used to control the sliding of the limiting element 704, that is... The slider 703 is used to control the stability of the firing pin 701 sliding within the firing chamber 102, ensuring that the firing pin 701 strikes the gas cylinder opening. The limiting member 704 limits the slider 703. At this time, the elastic member 702 is in a compressed state, i.e., a stored state. When the limiting member 704 loses its limiting effect on the slider 703, the elastic member 702 pushes the slider 703 to slide rapidly towards the gas cylinder, so that the firing pin 701 strikes the cylinder opening and causes the gas cylinder to open. The control member 706 is used to control the sliding of the limiting member 704. The user can launch the entire capture device by controlling the control member 706.
[0058] Optionally, in some embodiments, the firing chamber 102 is provided with a slide rail arranged along the sliding direction of the slider 703, for the slider 703 to slide on the slide rail.
[0059] Optionally, in some embodiments, the elastic element 702 may be a spring, specifically, one end of the spring is fixed to the end of the firing chamber 102, and the other end is connected to the slider 703.
[0060] In the above embodiment, after the capture net is launched, the rear end cover 8 is opened to replace the gas cylinder. At this time, the user pushes the tube slider 703 from the rear end cover 8 to the front end cover 9 using a rod to reset the slider 703, preparing it for the next use of the capture net.
[0061] Please refer to Figure 3 In some embodiments, the firing assembly 7 further includes a reset member 705, which is mounted on the housing 1 and elastically pushes the limiting member 704 to move toward the slider 703. The control member 706 is used to control the limiting member 704 to compress the reset member 705, so that the limiting member 704 loses its limiting effect on the slider 703. That is, the limiting member 704 is driven by the reset member 705, so that the limiting member 704 always has the power to move toward the slider 703, thereby ensuring the limiting stability of the slider 703.
[0062] Optionally, in some embodiments, the reset member 705 may be a spring, specifically, one end of the spring is fixed to the housing 1, and the other end is connected to the limiting member 704.
[0063] Please refer to Figure 3 In some embodiments, the firing assembly 7 further includes a drive member 707, which drives the slider 703 of the control member 706. The limiting member 704 is provided with a contact member 710. The control member 706 is provided with an inclined surface facing the contact member 710. The inclined surface contacts the contact member 710 and moves towards the contact member 710 through the control member 706, thereby changing the position of the limiting member 704. Specifically, the position of the control member 706 is controlled by the drive member 707. When the user launches the capture net, it is only necessary to activate the drive member 707. The drive member 707 drives the control member 706 to move towards the contact member 710. Under the action of the inclined surface of the contact member 710, the contact member 710 is pushed away from the slider 703, thereby controlling the movement of the limiting member 704 away from the slider 703. The limiting member 704 loses its limiting effect on the slider 703. At this time, the firing pin 701 moves rapidly towards the gas cylinder.
[0064] Optionally, in some embodiments, the drive element 707 may be a motor, such as a stepper motor, and the drive element 706 is achieved by mounting a turntable on the output end of the motor, with a connecting rod hinged on the turntable, and the other end of the connecting rod hinged to the control element 706.
[0065] In other embodiments, the drive unit 707 may be a linear servo, and the linear motion of the linear servo can drive the control unit 706.
[0066] Optionally, in some embodiments, the contact member 710 is a roller, and the roller is mounted with a limiting member 704. That is, using a roller for the contact member 710 helps to reduce the resistance encountered by the control member 706 during movement and improves the movement stability of the control member 706.
[0067] In other words, the key point of this utility model is that: each of the several push channels is equipped with a counterweight 4, and each of the counterweights 4 is connected to the capture net; the trigger 6 is installed on the side of the firing chamber 102 away from the mounting chamber 101, and seals and separates the firing chamber 102 and the gas channel 3; the trigger 6 can withstand a preset gas pressure; when the gas pressure exceeds the preset value, the trigger 6 is triggered, so that the firing chamber 102 and the gas channel 3 are connected. That is to say, before launching the capture net, it is only necessary to install the gas cylinder inside the outer casing 1, without having to open the gas cylinder immediately; and when it is necessary to launch the capture net, the firing pin is controlled. 701 moves towards the gas cylinder, and the firing pin 701 strikes the mouth of the gas cylinder to expel the gas from the cylinder. At this time, the gas fills the entire firing chamber 102. When the gas pressure reaches the preset value, the trigger 6 is triggered, realizing the connection between the firing chamber 102 and the gas channel 3. The gas channel 3 is connected to several push channels 2, that is, the counterweight 4 is pushed out of the push channel 2 by the high-pressure gas, driving the capture net to control the target. It achieves immediate use and avoids the waste of gas after canceling the launch, effectively reducing the cost of use. At the same time, after the assembly preparation work is completed, it can be stored for a long time.
[0068] The various embodiments in this specification are described in a progressive manner, with each embodiment focusing on the differences from other embodiments. The same or similar parts between the various embodiments can be referred to each other.
[0069] The above provides a detailed description of the capture net launching device provided by this utility model. Specific examples have been used to illustrate the principle and implementation of this utility model. The descriptions of the embodiments above are only for the purpose of helping to understand the method and core idea of this utility model. It should be noted that those skilled in the art can make several improvements and modifications to this utility model without departing from the principle of this utility model, and these improvements and modifications also fall within the protection scope of this utility model.
Claims
1. A net launching device for capturing animals, characterized in that, include: The outer shell (1) has an installation cavity (101) and a firing cavity (102) inside. The installation cavity (101) is used to install a gas cylinder. The outer shell (1) has several push channels (2) installed on it and connected to the firing cavity (102) through a gas channel (3). Each of the push channels is provided with a counterweight (4). Netting (5), the netting (5) is installed on the outer shell (1), the netting (5) is equipped with a capture net, and several counterweights (4) are connected to the capture net; A trigger (6) is installed on the side of the firing chamber (102) away from the mounting chamber (101), and separates the firing chamber (102) and the gas channel (3) into two independent chambers. The trigger (6) can withstand a preset gas pressure. When the gas pressure exceeds the preset value, the trigger (6) is triggered so that the firing chamber (102) and the gas channel (3) are connected. The firing assembly (7) includes a firing pin (701) installed in the firing chamber (102), the firing pin (701) being used to strike the mouth of the gas cylinder to expel gas from the gas cylinder.
2. The capture net launching device according to claim 1, characterized in that, The mounting cavity (101) is provided with a rear end cover (8) that can be detachably installed on the outer shell (1) at one end away from the firing cavity (102), and the firing cavity (102) is provided with a front end cover (9) that can be detachably installed on the outer shell (1) at one end away from the mounting cavity (101). Both the front end cover (9) and the rear end cover (8) are sealed to the outer shell (1).
3. The capture net launching device according to claim 2, characterized in that, The mesh compartment (5) is a cylindrical cavity, and the mesh compartment (5) has an opening on the side away from the outer shell (1), and several of the pushing channels (2) are evenly distributed around the circumference of the mesh compartment (5).
4. The capture net launching device according to claim 2, characterized in that, The firing chamber (102) is provided with a mounting base (708) on the side away from the mounting chamber (101). The trigger (6) is detachably installed on the mounting base (708) and sealed with the mounting base (708). The trigger (6) is a thin sheet structure. When the air pressure in the firing chamber (102) exceeds a preset value, it breaks through the thin sheet trigger (6) so that the firing chamber (102) and the gas channel (3) are connected.
5. The capture net launching device according to claim 4, characterized in that, A retaining ring (709) is detachably mounted on the mounting base (708), and a sealing ring is provided between the retaining ring (709) and the mounting base (708).
6. The capture net launching device according to any one of claims 1-5, characterized in that, Also includes: A flow equalization plate (10) is installed on the outer shell (1) and located between the gas channel (3) and several of the pushing channels (2). The flow equalization plate (10) is provided with several evenly distributed air passage holes.
7. The capture net launching device according to claim 6, characterized in that, The firing assembly (7) further includes: A slider (703) is slidably mounted on the firing chamber (102), and a firing pin (701) is mounted on the slider (703). An elastic element (702) is installed in the firing chamber (102) and is used to control the slider (703) to slide towards the mounting chamber (101); A limiting member (704) is slidably mounted on the firing chamber (102) and used to limit the slider (703) so that the elastic member (702) is in a compressed state; A control element (706) is slidably mounted on the housing (1) and is used to control the sliding of the limiting element (704).
8. The capture net launching device according to claim 7, characterized in that, The firing assembly (7) further includes: A reset member (705) is installed on the housing (1) and elastically pushes the limiting member (704) to move toward the slider (703). The control member (706) is used to control the limiting member (704) to compress the reset member (705) so that the limiting member (704) loses its limiting effect on the slider (703).
9. The capture net launching device according to claim 8, characterized in that, The firing assembly (7) further includes: A driving member (707) is used to drive the control member (706) to slide. The limiting member (704) is provided with a contact member (710). The control member (706) is provided with an inclined surface facing the contact member (710). The inclined surface contacts the contact member (710) and moves towards the contact member (710) through the control member (706) so as to change the position of the limiting member (704).
10. The capture net launching device according to claim 9, characterized in that, The contact element (710) is a roller, which is rotatably mounted on the limiting element (704).