阅读说明：本技术 一种液相装药用机械式二次抛撒装置 (Liquid-phase medicine-loading mechanical secondary scattering device ) 是由 许志峰 蒋忠亮 蒙佳宇 刘扬 邢逸凡 于 2019-11-19 设计创作，主要内容包括：本发明公开了一种液相装药用机械式二次抛撒装置,下端弹簧为第四螺旋上升回转体,下端弹簧的第四螺旋上升回转体的螺旋回转轴线为直线,下端弹簧的螺旋回转截面为第四圆平面,下端弹簧为圆柱丝螺旋回转缠绕状态,下端弹簧的上端端点为第四上端点,下端弹簧的下端端点为第四下端点；本发明的装置放置在灭火弹壳体内部,抛撒时,液相灭火剂装在本发明装置内不能立即雾化,液相灭火剂运动遇到的空气阻力大幅度减小,可以提高运动的平均速度,液相灭火剂逐渐被挤出,雾化形成云团,与原方案相比,由于灭火剂运动的平均速度增加,抛撒云雾直径增加。(The invention discloses a mechanical secondary scattering device for liquid-phase medicines, wherein a lower end spring is a fourth spiral-rising revolving body, the spiral revolving axis of the fourth spiral-rising revolving body of the lower end spring is a straight line, the spiral revolving section of the lower end spring is a fourth circular plane, the lower end spring is in a cylindrical wire spiral revolving winding state, the upper end point of the lower end spring is a fourth upper end point, and the lower end point of the lower end spring is a fourth lower end point; the device is placed in the shell of the fire extinguishing bomb, when the liquid phase fire extinguishing agent is thrown, the liquid phase fire extinguishing agent is loaded in the device and cannot be atomized immediately, the air resistance encountered by the liquid phase fire extinguishing agent during movement is greatly reduced, the average speed of the movement can be improved, the liquid phase fire extinguishing agent is gradually extruded and atomized to form cloud clusters, and compared with the original scheme, the diameter of the thrown cloud clusters is increased due to the fact that the average speed of the movement of the fire extinguishing agent is increased.)

1. The mechanical secondary scattering device for the liquid-phase medicine is characterized by further comprising an upper end cover (1) with holes, an upper end spring (2), a shell (3) with holes, a lower end spring (4) and a lower end cover (5) with holes;

the upper end cover (1) with the holes is a first circular plate, the first circular plate of the upper end cover (1) with the holes is a revolving body, the upper end face of the upper end cover (1) with the holes is a first upper end circular plane, the lower end face of the upper end cover (1) with the holes is a first lower end circular plane, the outer side face of the upper end cover (1) with the holes is a first outer cylindrical face, a first cylindrical boss is arranged at the center of the first upper end circular plane of the upper end cover (1) with the holes, a first circular hook is connected to the upper end of the first cylindrical boss of the upper end cover (1) with the holes, the first circular hook of the upper end cover (1) with the holes is a first circular ring body with a notch on the right side, fourteen circles of first circular through holes from outside to inside are arranged on the first upper end circular plane of the upper end cover (1), the circle center of each circle of the first circular through hole distribution circle of the upper end cover (1) with the holes is on the revolving body axis of the upper end cover (1), and the first circular through hole distribution circle diameter of the first circular through Fourteen fifths of the diameter of the outer cylindrical surface, the diameter of the second circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with holes is thirteen fifths of the diameter of the first outer cylindrical surface of the upper end cover (1) with holes, the diameter of the third circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with holes is twelve fifths of the diameter of the first outer cylindrical surface of the upper end cover (1) with holes, the diameter of the fourth circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with holes is eleven fifths of the diameter of the first outer cylindrical surface of the upper end cover (1) with holes, the diameter of the fifth circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with holes is ten fifths of the diameter of the first outer cylindrical surface of the upper end cover (1) with holes, and the diameter of the sixth circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with holes is nine fifths of the diameter of the outer, the diameter of a seventh circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with the hole is eighty fifth of the diameter of the first outer cylindrical surface of the upper end cover (1) with the hole, the diameter of a eighth circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with the hole is seventy fifth of the diameter of the first outer cylindrical surface of the upper end cover (1) with the hole, the diameter of a ninth circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with the hole is sixteenth of the diameter of the first outer cylindrical surface of the upper end cover (1) with the hole, the diameter of a tenth circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with the hole is fifteen fifteenth of the diameter of the first outer cylindrical surface of the upper end cover (1) with the hole, the diameter of the eleventh circle of first circular through hole distribution circle from outside to inside of the upper end cover (1) with the hole is fifteen fifteenth of the diameter of the first outer cylindrical surface of the upper, the diameter of a twelfth circle of first circular through hole distribution circle of the upper end cover (1) with the holes is three fifteen times of the diameter of the first outer cylindrical surface of the upper end cover (1) with the holes, the diameter of a thirteenth circle of first circular through hole distribution circle of the upper end cover (1) with the holes is two fifteen times of the diameter of the first outer cylindrical surface of the upper end cover (1) with the holes, the diameter of a fourteenth circle of first circular through hole distribution circle of the upper end cover (1) with the holes is one fifteen times of the diameter of the first outer cylindrical surface of the upper end cover (1) with the holes, and each circle of first circular through holes of the upper end cover (1) with the holes are uniformly distributed along the axis of the revolving body of the upper end cover (1) with the holes;

the device is placed in a shell of a fire extinguishing bomb and mixed with a liquid-phase fire extinguishing agent, and the liquid-phase fire extinguishing agent is arranged around an upper end cover (1) with holes;

the upper end spring (2) is a second spiral rising revolving body, the spiral revolving axis of the second spiral rising revolving body of the upper end spring (2) is a straight line, the spiral revolving section of the upper end spring (2) is a second circular plane, the upper end spring (2) is in a cylindrical wire spiral revolving winding state, the upper end point of the upper end spring (2) is a second upper end point, and the lower end point of the upper end spring (2) is a second lower end point;

the spiral rotation axis of the upper end spring (2) is superposed with the rotation body axis of the upper end cover (1) with the hole, the upper end spring (2) is positioned at the upper end of the upper end cover (1) with the hole, and the second lower end point of the upper end spring (2) is contacted with the first upper end circular plane of the upper end cover (1) with the hole;

the shell with the hole (3) is a third cylinder, the third cylinder of the shell with the hole (3) is a revolving body, the outer side surface of the third cylinder of the shell with the hole (3) is a third outer cylindrical surface, the inner side surface of the third cylinder of the shell with the hole (3) is a third inner cylindrical surface, the upper end of the third cylinder of the shell with the hole (3) is provided with a third upper end inner flange, the lower end surface of the third upper end inner flange of the shell with the hole (3) is a third upper end concentric circular surface, the lower end of the third cylinder of the shell with the hole (3) is provided with a third lower end inner flange, the upper end surface of the third lower end inner flange of the shell with the hole (3) is a third lower end concentric circular surface, the third outer cylindrical surface of the shell with the hole (3) is provided with thirteen circles of third circular through holes from top to bottom, and each circle of the third circular through holes of the shell with the hole (3) are uniformly distributed, the distance between the axial line of the first circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is two sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axial line of the second circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is three sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axial line of the third circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is four sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axial line of the fourth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is five sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the fifth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is six sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the sixth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is seven sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the seventh circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is eight sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the eighth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is nine sixteenth of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the ninth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is ten sixths of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the tenth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is eleven sixteenths of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the eleventh circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is twelve sixteenths of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the twelfth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third circular cylinder of the perforated shell (3) is thirteen sixteenths of the axial height of the third circular cylinder of the perforated shell (3), the distance between the axis of the thirteenth circle of third circular through holes from top to bottom of the perforated shell (3) and the upper end surface of the third cylinder of the perforated shell (3) is fourteen sixteenth of the axial height of the third cylinder of the perforated shell (3);

the axis of a revolving body of the shell with the hole (3) is superposed with the axis of a revolving body of the upper end cover with the hole (1), the shell with the hole (3) is positioned outside the upper end cover with the hole (1), a third inner cylindrical surface of the shell with the hole (3) is contacted with a first outer cylindrical surface of the upper end cover with the hole (1), and a third upper concentric circular ring surface of the shell with the hole (3) is contacted with a second upper point of the upper end spring (2);

the lower end spring (4) is a fourth spiral rising revolving body, the spiral revolving axis of the fourth spiral rising revolving body of the lower end spring (4) is a straight line, the spiral revolving section of the lower end spring (4) is a fourth circular plane, the lower end spring (4) is in a cylindrical wire spiral revolving winding state, the upper end point of the lower end spring (4) is a fourth upper end point, and the lower end point of the lower end spring (4) is a fourth lower end point;

the spiral rotation axis of the lower end spring (4) is superposed with the rotation body axis of the upper end cover (1) with the hole, the lower end spring (4) is positioned at the inner side of the shell (3) with the hole, and the fourth lower end point of the lower end spring (4) is contacted with the concentric circular ring surface of the third lower end of the shell (3) with the hole;

the lower end cover (5) with the holes is a fifth circular plate, the fifth circular plate of the lower end cover (5) with the holes is a revolving body, the upper end face of the lower end cover (5) with the holes is a fifth upper end circular plane, the lower end face of the lower end cover (5) with the holes is a fifth lower end circular plane, the outer side face of the lower end cover (5) with the holes is a fifth outer cylindrical face, a fifth cylindrical boss is arranged at the center of the fifth lower end circular plane of the lower end cover (5) with the holes, a fifth circular hook is connected to the lower end of the fifth cylindrical boss of the lower end cover (5), the fifth circular hook of the lower end cover (5) is a fifth circular ring body with a notch on the right side, fourteen circles of fifth circular through holes from outside to inside are arranged on the fifth lower end circular plane of the lower end cover (5), each circle of the fifth circular through hole distribution circle of the lower end cover (5) with the holes is arranged on the revolving body axis of the lower end cover (5), and the fifth circular through hole distribution circle diameter of the lower end cover (5) from outside to inside Fourteen fifths of the diameter of the five outer cylindrical surfaces, the diameter of the second circle of fifth circular through holes distributed in the lower end cover (5) from outside to inside is thirteen fifths of the diameter of the fifth outer cylindrical surfaces of the lower end cover (5), the diameter of the third circle of fifth circular through holes distributed in the lower end cover (5) from outside to inside is twelve fifths of the diameter of the fifth outer cylindrical surfaces of the lower end cover (5), the diameter of the fourth circle of fifth circular through holes distributed in the lower end cover (5) from outside to inside is eleven fifths of the diameter of the fifth outer cylindrical surfaces of the lower end cover (5), the diameter of the fifth circle of fifth circular through holes distributed in the lower end cover (5) from outside to inside is fifteen minutes of the diameter of the fifth outer cylindrical surfaces of the lower end cover (5), the diameter of the sixth circle of fifth circular through holes distributed in the lower end cover (5) from outside to inside is nine fifths of the diameter of the outer cylindrical surfaces of the lower end cover (5), the diameter of a seventh circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is eighty percent of the diameter of a fifth outer cylindrical surface of the lower end cover (5), the diameter of a fifth circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is seventy percent of the diameter of the fifth outer cylindrical surface of the lower end cover (5), the diameter of a ninth circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is sixteenth of the diameter of the fifth outer cylindrical surface of the lower end cover (5), the diameter of a tenth circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is fifteen minutes of the diameter of the fifth outer cylindrical surface of the lower end cover (5), the diameter of an eleventh circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is fifteen minutes of the fifth outer cylindrical surface of the lower end cover (5), the diameter of a twelfth circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is three fifteen times of the diameter of a fifth outer cylindrical surface of the lower end cover (5), the diameter of a thirteenth circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is two fifteen times of the diameter of the fifth outer cylindrical surface of the lower end cover (5), the diameter of a fourteenth circle of fifth circular through hole distribution circle of the lower end cover (5) from outside to inside is one fifteen times of the diameter of the fifth outer cylindrical surface of the lower end cover (5), and each circle of fifth circular through holes of the lower end cover (5) are uniformly distributed along the axis of a revolving body of the lower end cover (5);

the axis of the revolving body of the lower end cover (5) with the hole is superposed with the axis of the revolving body of the upper end cover (1) with the hole, the lower end cover (5) with the hole is positioned in the shell (3) with the hole, the fifth outer cylindrical surface of the lower end cover (5) with the hole is contacted with the third inner cylindrical surface of the shell (3) with the hole, and the fourth upper end point of the lower end spring (4) of the fifth lower end circular surface of the lower end cover (5) with the hole is contacted;

have the first circular through-hole of the first upper end circular plane of foraminiferous upper end cover (1) from the outside-in fourteen circles, the diameter of the first circular through-hole of foraminiferous upper end cover (1) and the first outer face of cylinder diameter ratio of diameter of foraminiferous upper end cover (1) are 1: 20-25;

the circle plane of the fifth lower end of the lower end cover (5) with holes is provided with fourteen circles of fifth circular through holes from outside to inside, and the ratio of the diameter of the fifth circular through hole of the lower end cover (5) with holes to the diameter of the fifth outer cylindrical surface of the lower end cover (5) with holes is 1: 20-25;

the third outer cylindrical surface of the perforated shell (3) is provided with thirteen circles of third circular through holes from top to bottom, and the ratio of the diameter of the third circular through hole of the perforated shell (3) to the axial height of the third cylinder of the perforated shell (3) is 1: 20-25;

upper end spring (2) are compression state, and the ratio of the axial dimension of the natural extension state before upper end spring (2) compression to the third cylinder axial height of foraminiferous casing (3) is 1: 1.5 to 1.7;

the lower end spring (4) is in a compressed state, and the ratio of the axial dimension of the natural extension state of the lower end spring (4) before compression to the axial height of the third cylinder of the perforated shell (3) is 1: 1.5 to 1.7;

the center of a first upper end circular plane of the upper end cover (1) with the hole is provided with a first cylindrical boss, the diameter of the first cylindrical boss of the upper end cover (1) with the hole is 2.3-2.8 mm, and the diameter of the cross section of a first ring body of a first circular hook of the upper end cover (1) with the hole is 2 times of the diameter of the first cylindrical boss of the upper end cover (1) with the hole;

the center of a fifth lower end circular plane of the lower end cover (5) with the hole is provided with a fifth cylindrical boss, the diameter of the fifth cylindrical boss of the lower end cover (5) with the hole is 2.3-2.8 mm, and the diameter of the cross section area of a fifth ring body of a fifth ring hook of the lower end cover (5) with the hole is 2 times of the diameter of the fifth cylindrical boss of the lower end cover (5) with the hole.

The mechanical secondary scattering device for the liquid-phase medicine comprises the following steps:

step 1: placing the perforated shell (3) on a horizontal table, wherein the axis of a rotary body of the perforated shell (3) is vertical to the horizontal table;

step 2: placing the upper end cover (1) with the hole in the shell (3) with the hole, wherein the first circular hook of the upper end cover (1) with the hole is upward;

and step 3: placing an upper end spring (2) in a shell (3) with a hole, and placing the upper end spring (2) at the upper end of an upper end cover (1) with the hole;

and 4, step 4: placing the lower end cover (5) with the hole in the shell (3) with the hole, wherein the fifth round hook of the lower end cover (5) with the hole is downward;

and 5: placing a lower end spring (4) in the shell (3) with the hole, and placing the lower end spring (4) at the lower end of a lower end cover (5) with the hole;

step 6: the device is placed in a fire extinguishing bomb shell, a plurality of devices are placed in each fire extinguishing bomb shell, the plurality of devices are connected end to form a ring, a first round hook of a perforated upper end cover (1) of each device is connected with a fifth round hook of a perforated lower end cover (5) of another device adjacent to the upper end, the fifth round hook of the perforated lower end cover (5) of each device is connected with a first round hook of a perforated upper end cover (1) of another device adjacent to the lower end, the first round hook of the perforated upper end cover (1) and the fifth round hook of the perforated lower end cover (5) of each device bear tension, the first round hook of the perforated upper end cover (1) moves upwards under the tension, an upper end spring (2) is compressed, the fifth round hook of the perforated lower end cover (5) moves downwards under the tension, the device is placed inside a shell of the fire extinguishing bomb until the shell is full, and then liquid-phase fire extinguishing agent is filled into the shell of the fire extinguishing bomb, the device and the liquid-phase fire extinguishing agent are mixed together, the liquid-phase fire extinguishing agent all surrounds the device, and the liquid-phase fire extinguishing agent enters a cylindrical space formed by the perforated shell (3), the perforated upper end cover (1) and the perforated lower end cover (5) through a first circular through hole of the perforated upper end cover (1), a third circular through hole of the perforated shell (3) and a fifth circular through hole of the perforated lower end cover (5);

and 7: after the fire extinguishing bomb is thrown with explosive to explode, detonation products and shock waves generated by the explosion of the thrown explosive drive the device, so that the device moves outwards along the radial direction of the fire extinguishing bomb, the pulling force between the rings formed by the end-to-end connection of the device is increased along with the increase of the moving distance in the outwards moving process until the first cylindrical boss of the upper end cover (1) with the hole and the fifth cylindrical boss of the lower end cover (5) with the hole are stretched and broken, the device is originally decomposed into independent bodies, the acting force of the mutual connection between each device and the adjacent other device disappears, each device moves outwards along the radial direction of the fire extinguishing bomb, the upper end cover (1) with the hole moves downwards under the extrusion action of the upper end spring (2), and the lower end cover (5) with the hole moves upwards under the extrusion action of the lower end spring (4), until the upper end cover (1) with the holes is attached to the lower end cover (5) with the holes, the attaching process of the upper end cover (1) with the holes and the lower end cover (5) with the holes is synchronous with the process of the device of the invention moving outwards along the radial direction of the fire extinguishing bomb, the liquid phase fire extinguishing agent in the cylindrical space formed by the shell (3) with the holes, the upper end cover (1) with the holes and the lower end cover (5) with the holes is extruded out from the first circular through hole of the upper end cover (1) with the holes, the third circular through hole of the shell (3) with the holes and the fifth circular through hole of the lower end cover (5) with the holes due to extrusion, the extruded liquid phase fire extinguishing agent moves in a convection way with air, and.

2. The mechanical secondary scattering device for the liquid-phase contained medicine according to claim 1, wherein the upper end cap (1) with holes is a first circular plate, the first circular plate of the upper end cap (1) with holes is a rotary body, the upper end surface of the upper end cap (1) with holes is a first upper end circular plane, the upper end of the first upper end circular plane of the upper end cap (1) with holes is provided with a bulge, and the upper surface of the bulge at the upper end of the first upper end circular plane of the upper end cap (1) with holes is a spherical surface;

the shell with the hole (3) is a third cylinder body, the third cylinder body of the shell with the hole (3) is a revolving body, the outer side surface of the third cylinder body of the shell with the hole (3) is a third outer cylindrical surface, the outer side of the third outer cylindrical surface of the shell with the hole (3) is provided with a bulge, and the outer surface of the bulge on the outer side of the third outer cylindrical surface of the shell with the hole (3) is a spherical surface;

the lower end cover (5) with the hole is a fifth circular plate, the fifth circular plate of the lower end cover (5) with the hole is a revolving body, the upper end surface of the lower end cover (5) with the hole is a fifth upper end circular plane, the lower end surface of the lower end cover (5) with the hole is a fifth lower end circular plane, the lower end of the fifth lower end circular plane of the lower end cover (5) with the hole is provided with a bulge, and the lower surface of the bulge at the lower end of the fifth lower end circular plane of the lower end cover (5) with the hole is a spherical surface.

3. The mechanical secondary scattering device for the liquid medicine, which is characterized in that a protecting device is arranged on one side, close to the scattered explosive, of the perforated shell (3), a cylindrical boss is uniformly distributed in the circumferential direction on the upper surface of the perforated upper end cover (1), a roller is arranged at the upper end of the cylindrical boss on the upper surface of the perforated upper end cover (1) and can rotate freely, the roller is in contact with an inner flange at the third upper end of the perforated shell (3), a cylindrical boss is uniformly distributed in the circumferential direction on the lower surface of the perforated lower end cover (5), a roller is arranged at the upper end of the cylindrical boss on the lower surface of the perforated lower end cover (5) and can rotate freely, and the roller is in contact with an inner flange at the third lower end of the perforated shell (3).

4. The mechanical secondary scattering device for the liquid-phase medicine containing is characterized in that a plurality of springs are circumferentially and uniformly distributed on the lower surface of the upper end cover (1) with holes, the other end of the spring connected with the lower surface of the upper end cover (1) with holes is connected with a third lower end inner flange of the shell (3) with holes, a plurality of springs are circumferentially and uniformly distributed on the upper surface of the lower end cover (5) with holes, and the other end of the spring connected with the upper surface of the lower end cover (5) with holes is connected with a third upper end inner flange of the shell (3) with holes.

5. The mechanical secondary spreading device for liquid medicines in the air as claimed in claim 1, wherein the perforated shell (3) is provided with a circumferential protection device outside the upper end, and the perforated shell (3) is provided with a circumferential protection device outside the lower end;

the upper end of the perforated shell (3) is connected with the connecting rod through a hinge, the upper end of the perforated shell (3) is connected with a sliding block through a hinge, the sliding block of the other end of the connecting rod connected with the upper end of the perforated shell (3) is positioned in a track mounted at the upper end of the upper end cover (1), the lower end of the perforated shell (3) is connected with the connecting rod through a hinge, the lower end of the perforated shell (3) is connected with a sliding block through a hinge, and the sliding block of the other end of the connecting rod connected with the lower end of the perforated shell (3) is positioned in a track mounted at the lower end of the lower end cover (5).

Technical Field

The invention belongs to the technical field of scattering devices, relates to a secondary scattering device, and particularly relates to a mechanical secondary scattering device for liquid-phase medicines.

Background

The fire extinguishing bomb is filled with fire extinguishing agent, the fire extinguishing agent is thrown into the air through the explosive driving loading action of the thrown explosive to form a cloud cluster with a certain space coverage, and the fire is extinguished by the cloud cluster formed by fire extinguishing extrusion.

The fire extinguishing capacity of the fire extinguishing bomb is positively correlated with the fire extinguishing squeezing and spreading range, and the fire extinguishing capacity of the fire extinguishing bomb can be improved by increasing the spreading range of the fire extinguishing agent.

A great deal of research work has been done domestically on the size of the diameter of the cloud formed by the liquid thrown by explosives, reported by guo-yong et al in the literature "the effect of the device parameters on the FAE cloud state" (energetic materials, 12 months 2002, vol 10, No. 4, page 162): the diameter of a cloud formed by throwing liquid by the explosive has a certain relation with the explosive amount of the explosive, when the explosive amount of the explosive is less, the diameter of the cloud formed by throwing the liquid is correspondingly increased along with the increase of the explosive amount of the explosive, because the pressure generated by the energy released by explosion of the explosive with a larger central explosive amount on the liquid-phase fire extinguishing agent per unit area is larger, the initial speed for pushing the liquid-phase fire extinguishing agent to be thrown is higher than that of a shell with a smaller central explosive amount. However, when the amount of the explosive to be thrown increases to a certain amount, the increase of the cloud speed is reduced, and the analysis of the reason shows that under the action of strong shock waves generated by large center explosive, the liquid-phase fire extinguishing agent is peeled and broken to form a fire extinguishing agent liquid drop group, then the liquid drop group begins to expand, in the expansion process, the liquid drops in the liquid drop group undergo complex effects of breaking, evaporation, collision polymerization and the like, the liquid is atomized to form cloud, the pneumatic resistance is greatly increased after the cloud is formed, and the speed of the cloud is rapidly reduced along with the increase of the air resistance. Therefore, when the explosive throwing amount reaches a certain value, the explosive throwing amount is increased, and the diameter of the thrown cloud cluster is not increased continuously.

In summary, the fire extinguishing capacity of the fire extinguishing bomb is increased along with the increase of the diameter of the scattering cloud cluster, and when the amount of the scattering explosive reaches a certain value, the amount of the scattering explosive is increased, so that the diameter of the scattering cloud cluster is not increased any more. The upper limit of the diameter of the thrown cloud cluster limits the fire extinguishing capability of the fire extinguishing bomb.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a mechanical secondary scattering device for liquid-phase fire-extinguishing agents, the liquid-phase fire-extinguishing agents are contained in the device and cannot be atomized immediately, the air resistance encountered by the liquid-phase fire-extinguishing agents during movement is greatly reduced, the average speed of the movement can be improved, the liquid-phase fire-extinguishing agents are gradually extruded and atomized to form cloud clusters, and compared with the original scheme, the diameter of the scattered cloud clusters is increased due to the increase of the average speed of the movement of the fire-extinguishing agents.

The invention provides a mechanical secondary scattering device for liquid-phase medicines, which is characterized by further comprising an upper end cover 1 with holes, an upper end spring 2, a shell 3 with holes, a lower end spring 4 and a lower end cover 5 with holes, wherein the upper end cover 1 is provided with holes;

the upper end cover 1 with the holes is a first circular plate, the first circular plate of the upper end cover 1 with the holes is a revolving body, the upper end surface of the upper end cover 1 with the holes is a first upper end circular plane, the lower end surface of the upper end cover 1 with the holes is a first lower end circular plane, the outer side surface of the upper end cover 1 with the holes is a first outer cylindrical surface, a first cylindrical boss is arranged at the center of the first upper end circular plane of the upper end cover 1 with the holes, a first circular hook is connected to the upper end of the first cylindrical boss of the upper end cover 1 with the holes, the first circular hook of the upper end cover 1 with the holes is a first circular ring body with a notch on the right side, fourteen circles of first circular through holes from outside to inside are arranged on the revolving body axis of the upper end cover 1 with the holes, the first circle distribution circle center of the first circular through holes from outside to inside of the upper end cover 1 is fourteen fifths of the outer cylinder diameter of the first circular through holes of the upper end cover 1 from outside to inside, the diameter of a second circle of first circular through hole distribution circles from outside to inside of the upper end cover 1 is thirteen fifths of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of a third circle of first circular through hole distribution circles from outside to inside of the upper end cover 1 is twelve fifths of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of a fourth circle of first circular through hole distribution circles from outside to inside of the upper end cover 1 is eleven fifths of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of a fifth circle of first circular through hole distribution circles from outside to inside of the upper end cover 1 is ten fifths of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of a sixth circle of first circular through hole distribution circles from outside to inside of the upper end cover 1 is nine fifths of the diameter of the first outer cylindrical surface of the upper end cover 1, and the diameter of a seventh circle of first circular through hole distribution circles from outside to inside of the upper end cover 1 is the diameter of the straight outer cylindrical surface of the upper end cover 1 Eighty-fifths of the diameter, the diameter of the eighth circle of first circular through hole distribution circle from outside to inside of the upper end cover 1 is seventeent fifteen times of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of the ninth circle of first circular through hole distribution circle from outside to inside of the upper end cover 1 is six fifteen times of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of the tenth circle of first circular through hole distribution circle from outside to inside of the upper end cover 1 is five fifteen times of the diameter of the first outer cylindrical surface of the upper end cover 1, the diameter of the eleventh circle of first circular through hole distribution circle from outside to inside of the upper end cover 1 is four fifteen times of the diameter of the first outer cylindrical surface of the upper end cover 1, the twelfth circle of first circular through hole distribution circle from outside to inside of the upper end cover 1 is three times of the diameter of the first outer cylindrical surface of the upper end cover 1, and the diameter of the thirteenth circle of first circular through hole distribution circle from outside to inside of the upper end cover 1 is three times of the diameter of the upper end cover 1 The diameter of the first circular through hole distribution circle of the upper end cover with holes 1 from the outside to the inside is one fifteenth of the diameter of the first outer cylindrical surface of the upper end cover with holes 1, and each circle of the first circular through holes of the upper end cover with holes 1 are uniformly distributed along the axis of the revolving body of the upper end cover with holes 1;

the device is placed in a shell of a fire extinguishing bomb and mixed with a liquid-phase fire extinguishing agent, and the liquid-phase fire extinguishing agent is arranged around an upper end cover 1 with holes;

the upper end spring 2 is a second spiral rising revolving body, the spiral revolving axis of the second spiral rising revolving body of the upper end spring 2 is a straight line, the spiral revolving section of the upper end spring 2 is a second circular plane, the upper end spring 2 is in a cylindrical wire spiral revolving winding state, the upper end point of the upper end spring 2 is a second upper end point, and the lower end point of the upper end spring 2 is a second lower end point;

the spiral rotation axis of the upper end spring 2 is superposed with the rotation body axis of the upper end cover 1 with the hole, the upper end spring 2 is positioned at the upper end of the upper end cover 1 with the hole, and the second lower end point of the upper end spring 2 is contacted with the first upper end circular plane of the upper end cover 1 with the hole;

the perforated shell 3 is a third cylinder, the third cylinder of the perforated shell 3 is a revolving body, the outer side surface of the third cylinder of the perforated shell 3 is a third outer cylindrical surface, the inner side surface of the third cylinder of the perforated shell 3 is a third inner cylindrical surface, the upper end of the third cylinder of the perforated shell 3 is provided with a third upper end inner flange, the lower end surface of the third upper end inner flange of the perforated shell 3 is a third upper end concentric circular ring surface, the lower end of the third cylinder of the perforated shell 3 is provided with a third lower end inner flange, the upper end surface of the third lower end inner flange of the perforated shell 3 is a third lower end concentric circular ring surface, the third outer cylindrical surface of the perforated shell 3 is provided with thirteen circles of third circular through holes from top to bottom, each circle of the third circular through holes of the perforated shell 3 are uniformly distributed along the axis of the revolving body of the perforated shell 3, the distance from the axis of the first circle of the third circular through holes from top to bottom of the perforated shell 3 to the upper end surface of the third cylinder of the perforated shell 3 is the third circular Two sixteenth of the height, the distance from the axis of the second circle of third circular through holes from top to bottom of the porous shell 3 to the upper end surface of the third circular cylinder of the porous shell 3 is three sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance from the axis of the third circle of third circular through holes from top to bottom of the porous shell 3 to the upper end surface of the third circular cylinder of the porous shell 3 is four sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance from the axis of the fourth circle of third circular through holes from top to bottom of the porous shell 3 to the upper end surface of the third circular cylinder of the porous shell 3 is five sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance from the axis of the fifth circle of third circular through holes from top to bottom of the porous shell 3 to the upper end surface of the third circular cylinder of the porous shell 3 is six sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance between the axis of the sixth circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third circular cylinder of the porous shell 3 is seven sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance between the axis of the seventh circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third circular cylinder of the porous shell 3 is eight sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance between the axis of the eighth circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third circular cylinder of the porous shell 3 is nine sixteenth of the axial height of the third circular cylinder of the porous shell 3, the distance between the axis of the ninth circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third circular cylinder of the porous shell 3 is ten sixteenth of the axial height of the third circular cylinder of the porous shell 3, the axis of the tenth circle of third circular through holes from top to bottom of the porous shell 3 and the third circular through holes are The distance between the upper end surface of the cylinder and the axial height of the third cylinder of the porous shell 3 is eleven sixteenth, the distance between the axial line of the eleventh circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third cylinder of the porous shell 3 is twelve sixteenth of the axial height of the third cylinder of the porous shell 3, the distance between the axial line of the twelfth circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third cylinder of the porous shell 3 is thirteen sixteenth of the axial height of the third cylinder of the porous shell 3, and the distance between the axial line of the thirteenth circle of third circular through holes from top to bottom of the porous shell 3 and the upper end surface of the third cylinder of the porous shell 3 is fourteen sixteenth of the axial height of the third cylinder of the porous shell 3;

the axis of the revolving body of the porous shell 3 coincides with the axis of the revolving body of the porous upper end cover 1, the porous shell 3 is positioned outside the porous upper end cover 1, the third inner cylindrical surface of the porous shell 3 is contacted with the first outer cylindrical surface of the porous upper end cover 1, and the concentric circular ring surface of the third upper end of the porous shell 3 is contacted with the second upper end point of the upper end spring 2;

the lower end spring 4 is a fourth spiral rising revolving body, the spiral revolving axis of the fourth spiral rising revolving body of the lower end spring 4 is a straight line, the spiral revolving section of the lower end spring 4 is a fourth circular plane, the lower end spring 4 is in a cylindrical wire spiral revolving winding state, the upper end point of the lower end spring 4 is a fourth upper end point, and the lower end point of the lower end spring 4 is a fourth lower end point;

the spiral rotation axis of the lower end spring 4 is superposed with the rotation body axis of the upper end cover 1 with the hole, the lower end spring 4 is positioned at the inner side of the shell 3 with the hole, and the fourth lower end point of the lower end spring 4 is contacted with the concentric circular ring surface of the third lower end of the shell 3 with the hole;

the perforated lower end cover 5 is a fifth circular plate, the fifth circular plate of the perforated lower end cover 5 is a revolving body, the upper end surface of the perforated lower end cover 5 is a fifth upper end circular plane, the lower end surface of the perforated lower end cover 5 is a fifth lower end circular plane, the outer side surface of the perforated lower end cover 5 is a fifth outer cylindrical surface, a fifth cylindrical boss is arranged at the center of the fifth lower end circular plane of the perforated lower end cover 5, a fifth circular hook is connected to the lower end of the fifth cylindrical boss of the perforated lower end cover 5, the fifth circular hook of the perforated lower end cover 5 is a fifth circular ring body with a notch on the right side, fourteen circles of fifth circular through holes are arranged on the fifth lower end circular plane of the perforated lower end cover 5 from outside to inside, the distribution circle center of each circle of the fifth circular through holes of the perforated lower end cover 5 is on the revolving body axis of the perforated lower end cover 5, the first circle of the fifth circular through holes of the perforated lower end cover 5 from outside to inside is fourteen times the diameter of the fifth circular through holes of, the diameter of a second circle of fifth circular through hole distribution circle of the lower end cover 5 from outside to inside is thirteen fifths of the diameter of a fifth outer cylindrical surface of the lower end cover 5 from outside to inside, the diameter of a third circle of fifth circular through hole distribution circle of the lower end cover 5 from outside to inside is twelve fifths of the diameter of the fifth outer cylindrical surface of the lower end cover 5 from outside to inside, the diameter of a fourth circle of fifth circular through hole distribution circle of the lower end cover 5 from outside to inside is eleven fifths of the diameter of the fifth outer cylindrical surface of the lower end cover 5 from outside to inside, the diameter of a fifth circle of fifth circular through hole distribution circle of the lower end cover 5 from outside to inside is fifteen minutes of the diameter of the fifth outer cylindrical surface of the lower end cover 5 from outside to inside, the diameter of a sixth circle of fifth circular through hole distribution circle of the lower end cover 5 from outside to inside is nine fifths of the diameter of the fifth outer cylindrical surface of the lower end cover 5 from outside to inside, and the diameter of a seventh circle of fifth circular through hole distribution circle of the lower end cover 5 from outside to inside is the diameter of the Eighty-fifths of the diameter, the diameter of the eighth circle of fifth circular through hole distribution circle of the bottom end cover 5 from outside to inside is seventeent fifths of the diameter of the fifth outer cylindrical surface of the bottom end cover 5, the diameter of the ninth circle of fifth circular through hole distribution circle of the bottom end cover 5 from outside to inside is sixty-five minutes of the diameter of the fifth outer cylindrical surface of the bottom end cover 5, the diameter of the tenth circle of fifth circular through hole distribution circle of the bottom end cover 5 from outside to inside is fifteen minutes of the diameter of the fifth outer cylindrical surface of the bottom end cover 5, the diameter of the eleventh circle of fifth circular through hole distribution circle of the bottom end cover 5 from outside to inside is fourteen minutes of the diameter of the fifth outer cylindrical surface of the bottom end cover 5, the twelfth circle of fifth circular through hole distribution circle of the bottom end cover 5 from outside to inside is fifteen minutes of the diameter of the fifth outer cylindrical surface of the bottom end cover 5, and the thirteenth circle of fifth circular through hole distribution circle of the bottom end cover 5 from outside to inside is seventy minutes of the diameter of the bottom end cover 5 The diameter of the fourteenth circle of the fifth circular through holes of the lower end cover with holes 5 from outside to inside is one fifteenth of the diameter of the fifth outer cylindrical surface of the lower end cover with holes 5, and each circle of the fifth circular through holes of the lower end cover with holes 5 are uniformly distributed along the axis of the revolving body of the lower end cover with holes 5;

the axis of the revolving body of the lower end cover 5 with the hole coincides with the axis of the revolving body of the upper end cover 1 with the hole, the lower end cover 5 with the hole is positioned in the shell 3 with the hole, the fifth outer cylindrical surface of the lower end cover 5 with the hole is contacted with the third inner cylindrical surface of the shell 3 with the hole, and the fourth upper end point of the lower end spring 4 of the fifth lower end circular surface of the lower end cover 5 with the hole is contacted;

the circle plane of the first upper end of the upper end cover 1 with holes is provided with fourteen circles of first circular through holes from outside to inside, and the ratio of the diameter of the first circular through hole of the upper end cover 1 with holes to the diameter of the first outer cylindrical surface of the upper end cover 1 with holes is 1: 20-25;

the fifth lower end circular plane of the lower end cover with holes 5 is provided with fourteen circles of fifth circular through holes from outside to inside, and the ratio of the diameter of the fifth circular through hole of the lower end cover with holes 5 to the diameter of the fifth outer cylindrical surface of the lower end cover with holes 5 is 1: 20-25;

have on the third outer cylindrical surface of foraminiferous casing 3 from last thirteen circles third circular through-holes down, the third circular through-hole diameter of foraminiferous casing 3 and the third cylinder axial height's of foraminiferous casing 3 ratio is 1: 20-25;

the upper end spring 2 is in a compressed state, and the ratio of the axial dimension of the natural extension state of the upper end spring 2 before compression to the axial height of the third cylinder of the porous shell 3 is 1: 1.5 to 1.7;

the lower end spring 4 is in a compressed state, and the ratio of the axial dimension of the natural extension state of the lower end spring 4 before compression to the axial height of the third cylinder of the porous shell 3 is 1: 1.5 to 1.7;

the center of a first upper end circular plane of the upper end cover 1 with holes is provided with a first cylindrical boss, the diameter of the first cylindrical boss of the upper end cover 1 with holes is 2.3-2.8 mm, and the diameter of the cross section of a first ring body of a first circular hook of the upper end cover 1 with holes is 2 times of the diameter of the first cylindrical boss of the upper end cover 1 with holes;

the center of a fifth lower end circular plane of the lower end cover with holes 5 is provided with a fifth cylindrical boss, the diameter of the fifth cylindrical boss of the lower end cover with holes 5 is 2.3-2.8 mm, and the diameter of the cross section area of a fifth ring body of a fifth circular hook of the lower end cover with holes 5 is 2 times of the diameter of the fifth cylindrical boss of the lower end cover with holes 5.

The mechanical secondary scattering device for the liquid-phase medicine comprises the following steps:

step 1: placing the perforated shell 3 on a horizontal table, wherein the axis of a rotary body of the perforated shell 3 is vertical to the horizontal table;

step 2: placing the upper end cover 1 with the hole in the shell 3 with the hole, wherein the first circular hook of the upper end cover 1 with the hole is upward;

and step 3: placing an upper end spring 2 in a shell 3 with holes, and placing the upper end spring 2 at the upper end of an upper end cover 1 with holes;

and 4, step 4: placing the lower end cover 5 with the hole in the shell 3 with the hole, wherein the fifth round hook of the lower end cover 5 with the hole faces downwards;

and 5: placing a lower end spring 4 in the shell 3 with the hole, and placing the lower end spring 4 at the lower end of a lower end cover 5 with the hole;

step 6: the device of the invention is placed in a fire extinguishing bomb shell, a plurality of devices of the invention are placed in each fire extinguishing bomb shell, a plurality of devices of the invention are connected end to form a ring, a first round hook of a perforated upper end cover 1 of each device of the invention is connected with a fifth round hook of a perforated lower end cover 5 of another device adjacent to the upper end, the fifth round hook of the perforated lower end cover 5 of each device of the invention is connected with a first round hook of a perforated upper end cover 1 of another device adjacent to the lower end, the first round hook of the perforated upper end cover 1 and the fifth round hook of the perforated lower end cover 5 of each device of the invention bear pulling force, the first round hook of the perforated upper end cover 1 moves upwards under the pulling force, an upper end spring 2 is compressed, the fifth round hook of the perforated lower end cover 5 moves downwards under the pulling force, a lower end spring 4 is compressed, the ring formed by connecting end to end of the devices of the invention is sleeved outside a central throwing pipe of the fire extinguishing bomb, the device is placed in a fire extinguishing bomb shell until the fire extinguishing bomb shell is full, and then liquid phase fire extinguishing agent is filled into the fire extinguishing bomb shell, the device and the liquid phase fire extinguishing agent are mixed together, the liquid phase fire extinguishing agent is arranged around the device, and the liquid phase fire extinguishing agent enters a cylindrical space formed by the perforated shell 3, the perforated upper end cover 1 and the perforated lower end cover 5 through a first circular through hole of the perforated upper end cover 1, a third circular through hole of the perforated shell 3 and a fifth circular through hole of the perforated lower end cover 5;

and 7: after the fire extinguishing bomb is thrown with explosive to explode, detonation products and shock waves generated by the explosion of the thrown explosive drive the device, so that the device moves outwards along the radial direction of the fire extinguishing bomb, the pulling force between the rings formed by the end-to-end connection of the device is increased along with the increase of the moving distance in the outwards moving process until the first cylindrical boss of the upper end cover 1 with the hole and the fifth cylindrical boss of the lower end cover 5 with the hole are stretched and broken, the device originally connected end-to-end is decomposed into independent bodies, the acting force of the mutual connection between each device and the adjacent other device disappears, each device moves outwards along the radial direction of the fire extinguishing bomb, the upper end cover 1 with the hole moves downwards under the extrusion action of the upper end spring 2, the lower end cover 5 with the hole moves upwards under the extrusion action of the lower end spring 4 until the upper end cover 1 with the hole is attached to the lower end cover 5 with the hole, the process of attaching the upper end cover 1 with the holes and the lower end cover 5 with the holes is synchronous with the process of the device of the invention moving outwards along the radial direction of the fire extinguishing bomb, the liquid phase fire extinguishing agent in the cylindrical space formed by the shell 3 with the holes, the upper end cover 1 with the holes and the lower end cover 5 with the holes is extruded from the first circular through hole of the upper end cover 1 with the holes, the third circular through hole of the shell 3 with the holes and the fifth circular through hole of the lower end cover 5 with the holes due to the extrusion, and the extruded liquid phase fire extinguishing agent moves in a convection way with air and is atomized to form a cloud cluster.

The upper end cover 1 with the holes is a first circular plate, the first circular plate of the upper end cover 1 with the holes is a revolving body, the upper end surface of the upper end cover 1 with the holes is a first upper end circular plane, the upper end of the first upper end circular plane of the upper end cover 1 with the holes is provided with a bulge, and the upper surface of the bulge at the upper end of the first upper end circular plane of the upper end cover 1 with the holes is a spherical surface;

the shell with the hole 3 is a third cylinder, the third cylinder of the shell with the hole 3 is a revolving body, the outer side surface of the third cylinder of the shell with the hole 3 is a third outer cylindrical surface, the outer side of the third outer cylindrical surface of the shell with the hole 3 is provided with a bulge, and the outer surface of the bulge outside the third outer cylindrical surface of the shell with the hole 3 is a spherical surface;

the lower end cover 5 with the holes is a fifth circular plate, the fifth circular plate of the lower end cover 5 with the holes is a revolving body, the upper end surface of the lower end cover 5 with the holes is a fifth upper end circular plane, the lower end surface of the lower end cover 5 with the holes is a fifth lower end circular plane, the lower end of the fifth lower end circular plane of the lower end cover 5 with the holes is provided with a bulge, and the lower surface of the bulge at the lower end of the fifth lower end circular plane of the lower end cover 5 with the holes is a spherical surface.

One side, close to the thrown explosive, of the perforated shell 3 is provided with a protection device, the upper surface of the perforated upper end cover 1 is provided with cylindrical bosses which are uniformly distributed in the circumferential direction, the upper ends of the cylindrical bosses of the upper surface of the perforated upper end cover 1 are provided with rollers which can freely rotate, the rollers are in contact with a third upper end inner flange of the perforated shell 3, the lower surface of the perforated lower end cover 5 is provided with cylindrical bosses which are uniformly distributed in the circumferential direction, the upper ends of the cylindrical bosses of the lower surface of the perforated lower end cover 5 are provided with rollers which can freely rotate, and the rollers are in contact with the third lower end inner flange of the.

The lower surface of the upper end cover 1 with the holes is connected with a plurality of springs which are uniformly distributed in the circumferential direction, the other end of the spring which is connected with the lower surface of the upper end cover 1 with the holes is connected with a third lower end inner flange of the shell 3 with the holes in a flange mode, the upper surface of the lower end cover 5 with the holes is connected with a plurality of springs which are uniformly distributed in the circumferential direction, and the other end of the spring which is connected with the upper surface of the lower end cover 5 with the holes is connected with a.

The outer side of the upper end of the perforated shell 3 is provided with a circumferential protection device, and the outer side of the lower end of the perforated shell 3 is provided with a circumferential protection device;

the upper end of the porous shell 3 is connected with the connecting rod through a hinge, the upper end of the porous shell 3 is connected with the sliding block through the hinge, the sliding block at the other end of the connecting rod connected with the upper end of the porous shell 3 is positioned in a track mounted at the upper end of the porous upper end cover 1, the lower end of the porous shell 3 is connected with the connecting rod through a hinge, the other end of the lower end of the porous shell 3 is connected with the sliding block through a hinge, and the sliding block at the other end of the connecting rod connected with the lower end of the porous shell 3 is positioned in a track mounted at the lower end of the porous lower end cover 5.

The device is placed in a fire extinguishing bomb shell and mixed with a liquid-phase fire extinguishing agent, the liquid-phase fire extinguishing agent enters a semi-closed space of the device, the speed of the device is consistent with the initial scattering speed of the liquid-phase fire extinguishing agent in the original scheme under the action of scattering explosive detonation products and shock waves in the initial scattering stage, but the liquid-phase fire extinguishing agent cannot be atomized immediately when being filled in the device and still keeps a liquid state, the volume of the liquid-phase fire extinguishing agent is greatly reduced compared with the volume of the liquid-phase fire extinguishing agent atomized into a cloud cluster in the original scheme, the air resistance encountered during movement is greatly reduced, and therefore, the movement speed is attenuated slowly, and the average movement speed can be improved. After moving for a period of time, the liquid-phase fire extinguishing agent in the device is gradually extruded out, then the liquid-phase fire extinguishing agent moves in a convection way with air, and is atomized to form a cloud cluster. Experiments show that compared with the original scheme, the diameter of the scattering cloud cluster is increased by more than 1.7 times.

Drawings

Fig. 1 is a schematic structural diagram of a mechanical secondary scattering device for liquid medicine. 1. The device comprises an upper end cover with holes, 2 an upper end spring, 3 a shell with holes, 4 a lower end spring, 5 a lower end cover with holes.

Detailed Description

The present invention is further described in detail with reference to the drawings and examples, it should be noted that the present invention is not limited to the following examples, and equivalent changes based on the technical scheme of the present invention are within the scope of the present invention.