阅读说明：本技术 一种防暴水炮车混合注入优化系统 (Anti-riot water cannon car co-injection optimizing system ) 是由 刘洪军 高利贵 何兆开 许煜 郭子琪 于 2021-01-21 设计创作，主要内容包括：本发明公开一种防暴水炮车混合注入优化系统,包括脉冲水炮机构、脉冲减震管道组合、高压注入混合装置的动力装置,所述高压注入混合装置包括高压柱塞泵、注入管道、导出管道和循环水管,所述动力装置包括发动机,安装在所述发动机输出端的主传动轴,以及安装在所述发动机上端的副传动轴；本系统通过主传动轴配合副传动轴分别作为带动高压水泵和带动高压柱塞泵的动力源,相对于传统的混合真空吸入结构,其结构更简单,管路更清晰,整体结构更可靠,而且能够在不降低、不影响原有管路压力的基础下,让水炮喷射的更远,保证远距离喷射混合剂的需求,从而增大了防暴水炮车的驱散范围,增强了防暴水炮车的威慑力,其经济性、实用性更强。(The invention discloses a hybrid injection optimization system of an anti-riot water cannon vehicle, which comprises a pulse water cannon mechanism, a pulse damping pipeline combination and a power device of a high-pressure injection mixing device, wherein the high-pressure injection mixing device comprises a high-pressure plunger pump, an injection pipeline, a derivation pipeline and a circulating water pipe; this system is through the power supply of final drive shaft cooperation auxiliary drive shaft conduct drive high pressure water pump and drive high-pressure plunger pump respectively, inhale the structure for traditional mixed vacuum, its structure is simpler, the pipeline is more clear, overall structure is more reliable, and can not reduce, do not influence under the basis of original pipeline pressure, let the water cannon spray farther, guarantee the demand of remote injection blending agent, thereby the disperse range of anti-riot water cannon car has been increased, the deterrence of anti-riot water cannon car has been strengthened, its economic nature, the practicality is stronger.)

1. The utility model provides an anti-riot water cannon car co-injection optimizing system, includes pulse water cannon mechanism, connects the pulse shock attenuation pipeline combination of pulse water cannon mechanism, its characterized in that: still including installing pulse shock attenuation pipeline is combined on, and with the high pressure injection mixing arrangement of pulse shock attenuation pipeline combination intercommunication, and connect pulse shock attenuation pipeline combination with high pressure injection mixing arrangement's power device, high pressure injection mixing arrangement includes high-pressure plunger pump, with the injection pipeline of high-pressure plunger pump input end intercommunication, with the derivation pipeline of high-pressure plunger pump output end intercommunication to and the intercommunication injection pipeline with derive the pipeline, can make high-pressure plunger pump and injection pipeline and derive the circulating pipe that forms closed loop rivers between the pipeline, power device includes the engine, installs engine output end, be used for connecting the final drive shaft of pulse shock attenuation pipeline combination, and install engine upper end, be used for connecting the counter drive shaft of high-pressure plunger pump.

2. The system of claim 1, wherein the system comprises: the tail end of the injection pipeline is provided with a first branch pipe and a second branch pipe in a branching manner, and a CS (China contact Security) antiriot agent storage tank arranged corresponding to the first branch pipe and a coloring agent storage tank arranged corresponding to the second branch pipe respectively.

3. The system of claim 2, wherein the system comprises: and a CS explosion-proof agent tank control ball valve is installed on the first branch pipe, and a coloring agent tank control ball valve is installed on the second branch pipe.

4. The system of claim 1, wherein the system comprises: the derivation pipeline with the combination intercommunication of pulse shock attenuation pipeline to being close to the intercommunication and going out to install and mix filling control ball valve, circulating pipe's middle part is installed the inner loop control ball valve.

5. The system of claim 1, wherein the system comprises: the main transmission shaft is connected with the output end of the engine through a belt, the auxiliary transmission shaft is connected with the other end of the high-pressure plunger pump through a belt, and the auxiliary transmission shaft is connected with the other end of the high-pressure plunger pump through a belt.

6. The system of claim 1, wherein the system comprises: pulse water cannon mechanism includes main water cannon, with main water cannon is refuted and is connect fixed hose, and set up hose end, make things convenient for the dismouting to refute the quick detach joint of connecing pulse shock attenuation pipeline combination.

7. The system of claim 1, wherein the system comprises: the pulse shock absorption pipeline combination comprises a high-pressure water pump connected with the main transmission shaft, a water pumping pipe, a pneumatic butterfly valve, a first three-way pipe, a first DN80 high-speed pneumatic ball valve, a DN80 flexible joint, a second three-way pipe and straight pipes, wherein one end of the water pumping pipe is connected with the input end of the high-pressure water pump, the other end of the water pumping pipe is connected with an automobile water tank, the DN80 high-speed pneumatic ball valve is installed on the first three-way pipe, the DN80 flexible joint is installed at the two ends of the first DN80 high-speed pneumatic ball valve, one end of the DN 3526 flexible joint is fixedly communicated with the first three-way pipe, the second three-way pipe is fixedly communicated with the DN80 flexible joint at the other end of the high-speed pneumatic ball valve and used for connecting and leading out.

8. The system of claim 7, wherein the system comprises: the pulse damping pipeline combination further comprises a water return pipe, one end of the water return pipe is fixedly communicated with the first three-way pipe, the other end of the water return pipe is fixedly communicated with the automobile water tank, and a second DN80 high-speed pneumatic ball valve is installed at one end of the water return pipe, which is fixedly communicated with the first three-way pipe.

Technical Field

The invention particularly relates to an anti-riot water cannon vehicle mixed injection optimization system.

Background

At present, the main spraying medium of the existing anti-riot water cannon vehicle in China is high-pressure clear water, and then a coloring agent and a CS anti-riot agent are added, so that the purpose of preventing violence and shock is achieved. Wherein, when adding coloring agent, CS antiriot agent and spraying, the principle is: the high-pressure water flow enters an independent pipeline, needs to pass through a negative pressure proportional mixer to generate vacuum, sucks the coloring agent or the CS explosion-proof agent into a mixing chamber, mixes and diffuses the coloring agent or the CS explosion-proof agent, and finally returns to a main pipeline to be sprayed by a water cannon. At this moment, because of the negative pressure proportion mixing structure, there is a bottleneck of efflux, just can produce the partial vacuum for the convenience inhales coloring agent, CS antiriot agent, has still led to this structure to sacrifice certain waterway pressure, just reaches the purpose of inhaling the mixture. Due to the fact that pressure is reduced, the coloring agent or the CS antiriot agent cannot be sprayed and atomized remotely, specifically, the spraying range can only reach about 40 meters far away, the power of the coloring agent or the CS antiriot agent is greatly different from that of a clear water cannon, clear water spraying can reach about 70 meters far away, the spraying range of the antiriot water cannon vehicle is reduced, people at farther distances cannot be dispelled, the deterrence power is weakened, and the dispelling range is narrowed.

Disclosure of Invention

In view of this, the invention aims to provide an anti-riot water cannon vehicle mixed injection optimization system with a simpler structure, clearer pipelines and a more reliable overall structure, which can enable a water cannon to spray farther and ensure the requirement of spraying a mixing agent remotely without reducing or influencing the original pipeline pressure, thereby enlarging the dispersion range of the anti-riot water cannon vehicle, enhancing the deterrence force of the anti-riot water cannon vehicle and having stronger economical efficiency and practicability.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides an anti-riot water cannon car hybrid injection optimizing system, includes pulse water cannon mechanism, connects the pulse shock attenuation pipeline combination of pulse water cannon mechanism, still including install pulse shock attenuation pipeline combination on, and with the high pressure injection mixing arrangement of pulse shock attenuation pipeline combination intercommunication, and connect pulse shock attenuation pipeline combination with high pressure injection mixing arrangement's power device, high pressure injection mixing arrangement includes the high pressure plunger pump, with the injection pipe of high pressure plunger pump input end intercommunication, with the derivation pipeline of high pressure plunger pump output end intercommunication to and communicate injection pipe and derivation pipeline, can make high pressure plunger pump and injection pipe and derivation pipeline between form the circulating pipe of closed loop rivers, power device includes the engine, install engine output, be used for connecting the final drive shaft of pulse shock attenuation pipeline combination, and the auxiliary transmission shaft is arranged at the upper end of the engine and is used for connecting the high-pressure plunger pump.

Furthermore, the tail end of the injection pipeline is provided with a first branch pipe and a second branch pipe in a branching manner, and a CS explosion-proof agent storage tank arranged corresponding to the first branch pipe and a coloring agent storage tank arranged corresponding to the second branch pipe respectively.

Furthermore, a CS explosion-proof agent tank control ball valve is installed on the first branch pipe, and a stain tank control ball valve is installed on the second branch pipe.

Furthermore, the export pipeline is communicated with the pulse damping pipeline in a combined mode, a mixed filling control ball valve is installed close to the communicating outlet, and an internal circulation control ball valve is installed in the middle of the circulating water pipe.

Furthermore, a driving belt pulley is installed at the position where the main transmission shaft is connected with the output end of the engine, a bearing seat fixed with the engine body is installed at the other end of the auxiliary transmission shaft relative to the high-pressure plunger pump, and a driven belt pulley connected with the driving belt pulley through a belt is installed at the connecting end of the auxiliary transmission shaft and the bearing seat.

Further, pulse water cannon mechanism includes main water cannon, with main water cannon is refuted and is connect fixed hose, and set up hose end, make things convenient for the dismouting to refute the quick detach joint of connecing pulse shock attenuation pipeline combination.

Furthermore, the pulse shock absorption pipeline combination comprises a high-pressure water pump connected with the main transmission shaft, a water pumping pipe with one end connected with the input end of the high-pressure water pump and the other end connected with an automobile water tank, a pneumatic butterfly valve arranged on the water pumping pipe, a first three-way pipe connected with the output end of the high-pressure water pump, a first DN80 high-speed pneumatic ball valve arranged on the first three-way pipe, a DN80 flexible joint arranged at two ends of the first DN80 high-speed pneumatic ball valve and with one end fixedly communicated with the first three-way pipe, a second three-way pipe fixedly communicated with the DN80 flexible joint at the other end and used for connecting a derivation pipeline, and a straight pipe with one end fixedly communicated with the second three-way pipe and with the other end fixedly communicated with the pulse water cannon mechanism.

Furthermore, the pulse shock absorption pipeline combination also comprises a water return pipe, one end of the water return pipe is fixedly communicated with the first three-way pipe, the other end of the water return pipe is fixedly communicated with the automobile water tank, and a second DN80 high-speed pneumatic ball valve is installed at one end of the water return pipe, which is fixedly communicated with the first three-way pipe.

The technical effects of the invention are mainly reflected in the following aspects: this system is through the power supply of final drive shaft cooperation auxiliary drive shaft conduct drive high pressure water pump and drive high-pressure plunger pump respectively, inhale the structure for traditional mixed vacuum, its structure is simpler, the pipeline is more clear, overall structure is more reliable, and can not reduce, do not influence under the basis of original pipeline pressure, let the water cannon spray farther, guarantee the demand of remote injection blending agent, thereby the disperse range of anti-riot water cannon car has been increased, the deterrence of anti-riot water cannon car has been strengthened, its economic nature, the practicality is stronger.

Drawings

FIG. 1 is a block diagram of an anti-riot water cannon vehicle hybrid injection optimization system of the present invention;

FIG. 2 is a block diagram of the pulse-fire monitor mechanism of FIG. 1;

FIG. 3 is a block diagram of the pulse-absorbing conduit assembly of FIG. 1;

FIG. 4 is a block diagram of the high pressure injection mixing apparatus of FIG. 1;

fig. 5 is a structural view of the power unit of fig. 1.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.

Examples

The utility model provides an anti-riot water cannon car co-injection optimizing system, as shown in figure 1, includes pulse water cannon mechanism 1, connects pulse shock attenuation pipeline combination 2 of pulse water cannon mechanism 1 still including install on pulse shock attenuation pipeline combination 2 and with the high pressure injection mixing arrangement 3 of pulse shock attenuation pipeline combination 2 intercommunication, and connect pulse shock attenuation pipeline combination 2 with the power device 4 of high pressure injection mixing arrangement 3.

As shown in fig. 2, the pulse water cannon mechanism 1 includes a main water cannon 11, a hose 12 connected and fixed to the main water cannon 11, and a quick-release joint 13 provided at the end of the hose 12 and facilitating the disassembly and assembly of the connection pulse damping pipeline assembly 2.

As shown in fig. 3, the pulse shock absorbing pipeline assembly 2 includes a high pressure water pump 21 connected to the main transmission shaft 42, a water pumping pipe 22 having one end connected to an input end of the high pressure water pump 21 and the other end connected to a water tank of an automobile, a pneumatic butterfly valve 23 installed on the water pumping pipe 22, a first three-way pipe 24 connected to an output end of the high pressure water pump 21, a first DN80 high speed pneumatic ball valve 25 installed on the first three-way pipe 24, a DN80 flexible joint 26 installed at two ends of the first DN80 high speed pneumatic ball valve 25 and having one end fixedly connected to the first three-way pipe 24, a second three-way pipe 27 fixedly connected to the DN80 flexible joint 26 at the other end and used for connecting an outlet pipeline 33, and a straight pipe 28 having one end fixedly connected to the second three-way pipe 27 and the other end fixedly connected to the pulse water cannon mechanism 1, the straight pipe 28 is fixedly communicated with the quick-release connector 13. The pulse damping pipeline assembly 2 further comprises a water return pipe 29, one end of the water return pipe 29 is fixedly communicated with the first three-way pipe 24, the other end of the water return pipe is fixedly communicated with an automobile water tank, and a second DN80 high-speed pneumatic ball valve 291 is installed at one end of the water return pipe 29, which is fixedly communicated with the first three-way pipe 24.

As shown in fig. 4, the high-pressure injection mixing device 3 includes a high-pressure plunger pump 31, an injection pipe 32 communicating with an input end of the high-pressure plunger pump 31, a discharge pipe 33 communicating with an output end of the high-pressure plunger pump 31, and a circulating water pipe 34 communicating with the injection pipe 32 and the discharge pipe 33 and capable of forming a closed-loop water flow between the high-pressure plunger pump 31 and the injection pipe 32 and the discharge pipe 33, wherein a first branch pipe 321 and a second branch pipe 322 are provided at a distal end of the injection pipe 32 in a bifurcated manner, and a CS explosion-proof agent storage tank 323 installed corresponding to the first branch pipe 321 and a stain storage tank 324 installed corresponding to the second branch pipe 322 are respectively provided. A CS explosion-proof agent tank control ball valve 3211 is installed on the first branch pipe 321, and a stain tank control ball valve 3221 is installed on the second branch pipe 322. The leading-out pipeline 33 is communicated with the pulse damping pipeline assembly 2, a mixed filling control ball valve 331 is arranged near the leading-out part, and an internal circulation control ball valve 341 is arranged in the middle of the circulating water pipe 34.

As shown in fig. 5, the power unit 4 includes an engine 41, a main transmission shaft 42 installed at an output end of the engine 41 for connecting the pulse absorbing duct assembly 2, and a sub-transmission shaft 43 installed at an upper end of the engine 41 for connecting the high pressure plunger pump 31. The main transmission shaft 42 is provided with a driving pulley 421 at a position connected with the output end of the engine 41, the auxiliary transmission shaft 43 is provided with a bearing seat 431 fixed with the body of the engine 41 relative to the other end connected with the high-pressure plunger pump 31, a driven pulley 432 connected with the driving pulley 421 through a belt is arranged at the connecting end of the auxiliary transmission shaft 43 and the bearing seat 431, and particularly, the auxiliary transmission shaft 43 is driven to run through the main transmission shaft 42.

The working principle is as follows:

when the main water cannon only emits high-pressure clean water; the pneumatic butterfly valve 23 is opened, the engine 41 drives the driving belt pulley 421 and the main transmission shaft 42 to drive the high-pressure water pump 21 to operate, clean water is sucked from the water pumping pipe 22, high-pressure clean water is generated through the high-pressure water pump 21, and is sprayed to the main water cannon 11 after passing through the first three-way pipe 24, the DN80 flexible joint 26 at two ends of the first DN80 high-speed pneumatic ball valve 25, the second three-way pipe 27, the straight pipe 28 and the hose 12, at the moment, the second DN80 high-speed pneumatic ball valve 291 is closed, the mixed filling control ball valve 331 is closed, the driving belt pulley 421 drives the driven belt pulley 432, so that the auxiliary transmission shaft 43 operates, the high-pressure plunger pump 31 is driven to operate, the coloring agent tank control ball valve 3211 is opened, the internal circulation control ball valve 341 is opened, so that a coloring. The first DN80 high-speed pneumatic ball valve 25 controls the high-pressure clean water to be sprayed from the main water cannon 11, so that the remote spraying and dispersing effect is realized.

When the main water cannon needs to be filled with the mixing agent; the pneumatic butterfly valve 23 is opened, the engine 41 drives the driving belt pulley 421 and the main transmission shaft 42 to drive the high-pressure water pump 21 to operate, clean water is sucked from the water pumping pipe 22, high-pressure clean water is generated through the high-pressure water pump 21, the clean water passes through the first three-way pipe 24, the DN80 flexible joint 26 at two ends of the first DN80 high-speed pneumatic ball valve 25, the second three-way pipe 27, the straight pipe 28 and the hose 12 and is sprayed to the main water cannon 11, at the moment, the second DN80 high-speed pneumatic ball valve 291 is closed, the driving belt pulley 421 drives the driven belt pulley 432, the auxiliary transmission shaft 43 is made to operate, the high-pressure plunger pump 31 is driven to operate, the CS explosion-proof agent tank control ball valve 3221 or the coloring agent tank control ball valve 3211 is opened, the. Because the pressure of the high-pressure plunger pump 31 is greater than that of the straight pipe 28, the mixed agent can be sucked from the CS anti-riot agent storage tank 323 and the coloring agent storage tank 324, and is injected into the straight pipe 28 from the second three-way pipe 27, the pressure of a main pipeline is not reduced or influenced at all while mixed injection is completed, the long-distance injection of the mixed agent is realized, the dispersion range is enlarged, and the anti-riot performance of the anti-riot water cannon carriage is enhanced.

When the main water cannon is in a parking standby state; the pneumatic butterfly valve 23 is opened, the engine 41 drives the driving belt pulley 421 and the main transmission shaft 42 to drive the high-pressure water pump 21 to operate, clean water is sucked from the water pumping pipe 22 and generates high-pressure clean water through the high-pressure water pump 21, at the moment, the first DN80 high-speed pneumatic ball valve 25 is closed, the mixed filling control ball valve 331 is closed, the second DN80 high-speed pneumatic ball valve 291 is opened, and the high-pressure clean water flows back into the water cannon vehicle tank body through the water return pipe 29; in the mixing and injecting system, the driving pulley 421 drives the driven pulley 432 to make the auxiliary transmission shaft 43 operate, so as to continuously drive the high-pressure plunger pump 31 to operate, the coloring agent tank control ball valve 3221 is opened, and the internal circulation control ball valve 341 is opened, so that the injection pipeline 32, the discharge pipeline 33 and the circulating water pipe 34 form a closed loop, and in the operation process of the high-pressure plunger pump 31, the coloring agent circularly flows in the injection pipeline 32, the discharge pipeline 33, the circulating water pipe 34 and the coloring agent storage tank 324, so as to ensure the normal operation of the high-pressure plunger pump 31.

The technical effects of the invention are mainly reflected in the following aspects: this system is through the power supply of final drive shaft cooperation auxiliary drive shaft conduct drive high pressure water pump and drive high-pressure plunger pump respectively, inhale the structure for traditional mixed vacuum, its structure is simpler, the pipeline is more clear, overall structure is more reliable, and can not reduce, do not influence under the basis of original pipeline pressure, let the water cannon spray farther, guarantee the demand of remote injection blending agent, thereby the disperse range of anti-riot water cannon car has been increased, the deterrence of anti-riot water cannon car has been strengthened, its economic nature, the practicality is stronger.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.