CN110697931A - Drinking mineral water multi-layer adsorption filtering device with pre-oxidation function - Google Patents

Abstract

The invention discloses a drinking mineral water multilayer adsorption filtering device with a pre-oxidation function, which comprises an oxidation tank, a flocculation sedimentation tank, a filtering tank and an electric cabinet, wherein the oxidation tank is provided with an oxidant adding port and a water inlet, and the oxidation tank is internally provided with an oxidant releasing pipe and a frame type stirrer; the flocculation sedimentation tank is connected with the oxidation tank, a flocculating agent feeding hopper is arranged on the flocculation sedimentation tank, a mixer and an adsorption component are arranged in the flocculation sedimentation tank, the filtering tank is connected with the flocculation sedimentation tank, a water outlet is arranged on the filtering tank, a filtering cylinder is arranged in the filtering tank, an ultrafiltration membrane and a filter pressing component are arranged in the filtering cylinder, and the electric cabinet is respectively and electrically connected with the frame type stirrer, the mixer and the filter pressing component; the invention has reasonable structural design, can effectively remove various impurities in the drinking mineral water, improves the quality of the drinking mineral water and ensures the water safety of consumers.

Description

Drinking mineral water multi-layer adsorption filtering device with pre-oxidation function

Technical Field

The invention relates to the technical field of drinking water filtering equipment, in particular to a drinking mineral water multilayer adsorption filtering device with a pre-oxidation function.

Background

Mineral water is natural or artificially exposed uncontaminated underground mineral water, and contains mineral salts, trace elements or carbon dioxide gas; in general, the dynamics of chemical composition, flow rate, water temperature and the like are relatively stable within the natural fluctuation range. Mineral water is formed in circulation in deep stratum and contains minerals and limited indexes prescribed by national standards. Human needs minerals, but human cannot produce minerals by itself, and only obtains them by drinking water and food to maintain normal physiological functions. With the continuous improvement of the consumption living standard of people, the food and beverage industry of China develops rapidly, particularly, the mineral water and beverage industry develops rapidly in recent years, and particularly, with the great development of reform and development of China and the tourism industry, the mineral water drinking is a new industry and develops vigorously.

In the production process of drinking mineral water, a series of filtration and precipitation treatments are carried out to finally reach the drinking standard; the existing filtering mode is that a primary filtering device is arranged at a water inlet to intercept coarse impurities in water and then filter the impurities again to remove fine and small pollutants in the water, bacteria and viruses cannot be completely eliminated by the purifying mode for drinking mineral water, suspended matters and organic impurities in the water cannot guarantee the quality of mineral water products, and water resources are wasted.

Disclosure of Invention

Aiming at the technical problems, the invention provides the drinking mineral water multi-layer adsorption filtering device with the pre-oxidation function, which has high purification efficiency and thorough purification.

The technical scheme of the invention is as follows: a drinking mineral water multilayer adsorption filtration device with a pre-oxidation function comprises an oxidation pond, a flocculation sedimentation pond, a filtration pond and an electric cabinet, wherein the upper end of the oxidation pond is provided with an oxidant adding port and a water inlet, the lower end of the oxidation pond is of a conical structure, the lower end of the oxidation pond is provided with a support frame and a drain outlet, the top of the oxidation pond is vertically provided with an oxidant releasing pipe, the bottom of the oxidant releasing pipe is sealed, the pipe wall of the oxidant releasing pipe is uniformly provided with a plurality of releasing holes, the oxidant releasing pipe is communicated with the oxidant adding port, and a frame type stirrer is arranged inside the oxidation pond;

the flocculation sedimentation tank comprises a flocculation cavity and an adsorption cavity, the flocculation cavity is connected with the lower end of the oxidation tank, a peristaltic pump I is arranged at the joint, a flocculating agent adding hopper is arranged at the upper end of the flocculation sedimentation tank and communicated with the flocculation cavity, a mixer is arranged inside the flocculation cavity, the adsorption cavity is arranged at the lower end of the flocculation cavity, a filter plate is arranged between the adsorption cavity and the flocculation cavity, and an adsorption component is arranged inside the adsorption cavity;

the upper end of the filter tank is connected with the adsorption cavity, a peristaltic pump II is arranged at the joint, a water outlet is formed in the filter tank, a filter cartridge is arranged in the filter tank, the bottom of the filter cartridge is sealed, a plurality of filter holes are uniformly formed in the side wall of the filter cartridge, and an ultrafiltration membrane and a filter pressing assembly are arranged in the filter cartridge;

the electric cabinet is commercially available, and the electric cabinet is respectively with frame agitator, peristaltic pump one, blender, peristaltic pump two and filter-pressing subassembly electric connection, and frame agitator, peristaltic pump one, blender, peristaltic pump two and filter-pressing subassembly are by external power source power supply.

Further, the frame agitator includes power motor, stirring frame and stirring vane, stirring frame activity joint is inside the oxidation pond, power motor provides power for the stirring frame, stirring vane passes behind the oxidant release pipe through the axle sleeve with stirring frame fixed connection, and stirring vane and axle sleeve slope set up, make into water constantly by stirring through the cover establish the stirring vane who establishes on oxidant release pipe, not only can improve the contact velocity who intakes with the oxidant, also play the effect of aeration simultaneously.

Further, the inside buffer board that is provided with of oxidant release pipe, the buffer board is at the inside staggered arrangement of oxidant release pipe, changes the whereabouts route of oxidant through setting up the buffer board, prevents that the oxidant from piling up in oxidant release socle portion, improves the oxidation effect.

Further, the inside coarse filter box that is provided with of oxidation pond, coarse filter box and water inlet switch on, carry out prefilter to intaking through the coarse filter box, prevent that the large granule pollutant entering equipment in the intaking from causing the damage to equipment.

Further, the blender includes mixing plate and gear motor, gear motor sets up at the flocculation and sedimentation pond outside, gear motor's output shaft is located inside the flocculation and sedimentation pond, the mixing plate is located flocculation intracavity portion, and fixed the setting on the output shaft, be provided with the water hole on the mixing plate, the one end that the mixing plate is close to the flocculation and sedimentation pond is provided with scrapes dirty strip, under the rotation effect of mixing plate, make flocculating agent and the comprehensive contact of intaking, improve the flocculation effect, can strike off adnexed filth on the flocculation intracavity wall through scraping dirty strip.

Further, the adsorption component comprises adsorption barrels and adsorption discs, the adsorption barrels are movably clamped inside the flocculation cavity, through holes are formed in the adsorption barrels, the bottoms of the adsorption barrels are fixedly connected with the output shaft, two adsorption discs are arranged, the two adsorption discs are sequentially sleeved on the output shaft, the two adsorption discs are located inside the adsorption barrels, adsorbent placing grooves are formed in the adsorption discs, and bamboo charcoal fiber boards are placed on the adsorbent placing grooves; through bamboo charcoal fiberboard, adsorb tiny impurity and polluting the microorganism in the water, the adsorption disk of continuous pivoted has improved the adsorption capacity of adsorbent.

Further, the filter cartridge includes cartridge filter one, cartridge filter two and cartridge filter three, and cartridge filter two and cartridge filter three are established in proper order and are established in cartridge filter one inside, all are provided with the filtration pore on cartridge filter one, cartridge filter two and the cartridge filter three, and the filtration pore reduces in proper order, and the space between cartridge filter three inside, cartridge filter two and cartridge filter three and the space between cartridge filter one and the cartridge filter two are filled to the milipore filter, through setting up three cartridge filter, have improved the purifying effect of intaking.

Further, the filter-pressing subassembly includes the filter-pressing board, pull rod and intermittent type motor, the pull rod runs through the setting inside the cartridge filter, the pull rod lower extreme is provided with the swing frame, be provided with reset spring between swing frame and the filtering ponds, the fixed setting on the pull rod top of filter-pressing board, and the filter-pressing board is located inside the cartridge filter, the intermittent type motor is fixed to be set up inside the filtering ponds, be provided with the swing cam on the output shaft of intermittent type motor, swing cam and swing frame activity joint, the swing cam rotates the in-process, drive swing frame constantly reciprocates, make the filter-pressing board constantly extrude the milipore filter, the purification rate of drinking mineral water.

The working principle of the invention is as follows: when the device is used, the drinking mineral water enters the oxidation tank through the water inlet, is filtered by the coarse filter box, is added with the chlorine dioxide oxidant into the oxidant releasing pipe through the oxidant adding port, and is controlled to start the power motor through the electric cabinet, so that the drinking mineral water is fully contacted with the oxidant; controlling a speed reducing motor and a peristaltic pump to start through an electric cabinet, feeding drinking mineral water into a flocculation cavity, feeding a PAM flocculating agent into the flocculation cavity through a flocculating agent feeding hopper box, isolating flocculated precipitates by a filter plate, feeding the flocculated drinking mineral water into an adsorption cavity after passing through the filter plate, and adsorbing fine pollutants in the drinking mineral water under the action of a bamboo charcoal fiberboard; pumping mineral water into a filter tank by a peristaltic pump II, filtering the mineral water by a filter cartridge III, a filter cartridge II and a filter cartridge I in sequence under the action of an ultrafiltration membrane, and discharging from a water outlet; in the filtering process, the ultrafiltration membrane is extruded by the filter pressing component which continuously swings up and down, so that the filtering efficiency of the drinking mineral water is improved.

Compared with the prior art, the invention has the beneficial effects that: the mineral water purifier has reasonable structure, is convenient and fast to operate, can effectively remove pollutants such as bacteria and microorganisms in water, improves the quality of drinking mineral water, and ensures the water safety of consumers; the arranged oxidant releasing pipe ensures that the inlet water is fully contacted with the oxidant, and improves the pre-oxidation effect of the inlet water; the arranged adsorption disc can effectively adsorb impurities such as tiny microorganisms and the like in water; set up three cartridge filter, improved the filter fineness who drinks mineral water, set up filter-pressing group price, improved the efficiency of the mistake of drinking mineral water.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the oxidizer-releasing pipe of the present invention;

FIG. 3 is a schematic view of the connection of the stirring vanes of the present invention to the oxidizer-releasing pipe;

FIG. 4 is a schematic view of the connection between the adsorption plate and the adsorption bucket of the present invention;

FIG. 5 is a schematic structural view of the filter cartridge of the present invention;

fig. 6 is a schematic view of the connection of the filter press plate of the present invention to a filter cartridge;

FIG. 7 is a schematic view of the connection of the intermittent motor of the present invention to the pull rod;

wherein, 1-oxidation tank, 10-oxidant feeding port, 11-water inlet, 12-support frame, 13-oxidant releasing pipe, 130-releasing hole, 131-buffer plate, 14-frame type stirrer, 140-power motor, 141-stirring frame, 142-stirring blade, 143-shaft sleeve, 15-coarse filtering box, 2-flocculation sedimentation tank, 20-flocculation chamber, 21-adsorption chamber, 22-peristaltic pump I, 23-flocculant feeding hopper, 24-mixer, 240-mixing plate, 241-speed reducing motor, 242-output shaft, 243-water hole, 244-dirt scraping strip, 25-filter plate, 26-adsorption component, 260-adsorption barrel, 2600-through hole, 261-adsorption disc, 2610-adsorbent placing groove, 3-a filter tank, 30-a peristaltic pump II, 31-a water outlet, 32-a filter cylinder, 320-a filter hole, 320-a filter cylinder I, 321-a filter cylinder II, 322-a filter cylinder III, 33-an ultrafiltration membrane, 3430-a return spring, 34-a filter pressing component, 340-a filter pressing plate, 341-a pull rod, 342-an intermittent motor, 343-a swinging frame and 344-a swinging cam.

Detailed Description

Example (b): as shown in fig. 1, 2 and 3, the multilayer adsorption filtration device for drinking mineral water with pre-oxidation function comprises an oxidation pond 1, a flocculation sedimentation pond 2, a filtration pond 3 and an electric cabinet, wherein an oxidant feeding port 10 and a water inlet 11 are arranged at the upper end of the oxidation pond 1, the lower end of the oxidation pond 1 is of a conical structure, a support frame 12 and a sewage discharge port are arranged at the lower end of the oxidation pond 1, an oxidant release pipe 13 is vertically arranged at the top in the oxidation pond 1, the bottom of the oxidant release pipe 13 is sealed, a plurality of release holes 130 are uniformly arranged on the pipe wall of the oxidant release pipe 13, a buffer plate 131 is arranged in the oxidant release pipe 13, the buffer plate 131 is staggered in the oxidant release pipe 13, the falling path of the oxidant is changed by arranging the buffer plate 131, the oxidant is prevented from being accumulated at the bottom of the; the oxidant release pipe 13 is communicated with the oxidant feeding port 10, the frame type stirrer 14 is arranged inside the oxidation pond 1, the frame type stirrer 14 comprises a power motor 140, a stirring frame 141 and stirring blades 142, the stirring frame 141 is movably clamped inside the oxidation pond 1, the power motor 140 provides power for the stirring frame 141, the stirring blades 142 penetrate through the oxidant release pipe 13 through a shaft sleeve 143 and then are fixedly connected with the stirring frame 141, the stirring blades 142 are obliquely arranged with the shaft sleeve 143, and the stirring blades 142 sleeved on the oxidant release pipe 13 enable inflow water to be continuously stirred, so that the contact rate of inflow water and the oxidant can be improved, and meanwhile, the aeration effect is also achieved; a coarse filter box 15 is arranged in the oxidation pond 1, the coarse filter box 15 is communicated with the water inlet 11, and the inlet water is primarily filtered through the coarse filter box 15, so that large-particle pollutants in the inlet water are prevented from entering equipment to damage the equipment;

as shown in fig. 1 and 4, the flocculation sedimentation tank 2 comprises a flocculation cavity 20 and an adsorption cavity 21, the flocculation cavity 20 is connected with the lower end of the oxidation tank 1, a peristaltic pump 22 is arranged at the joint, a flocculating agent feeding hopper 23 is arranged at the upper end of the flocculation sedimentation tank 2, the flocculating agent feeding hopper 23 is communicated with the flocculation cavity 20, a mixer 24 is arranged in the flocculation cavity 20, the mixer 24 comprises a mixing plate 240 and a speed reducing motor 241, the speed reducing motor 241 is arranged outside the flocculation sedimentation tank 2, an output shaft 242 of the speed reducing motor 241 is positioned in the flocculation sedimentation tank 2, the mixing plate 240 is positioned in the flocculation cavity 20, and is fixedly arranged on an output shaft 242, a water through hole 243 is arranged on the mixing plate 240, a dirt scraping strip 244 is arranged at one end of the mixing plate 240 close to the flocculation sedimentation tank 2, under the rotation action of the mixing plate 240, the flocculating agent is in full contact with the inlet water, the flocculation effect is improved, and dirt attached to the inner wall of the flocculation cavity 20 can be scraped through the dirt scraping strip 244; the adsorption cavity 21 is arranged at the lower end of the flocculation cavity 20, a filter plate 25 is arranged between the adsorption cavity 21 and the flocculation cavity 20, an adsorption component 26 is arranged inside the adsorption cavity 21, the adsorption component 26 comprises an adsorption barrel 260 and adsorption discs 261, the adsorption barrel 260 is movably clamped inside the flocculation cavity 20, through holes 2600 are formed in the adsorption barrel 260, the bottom of the adsorption barrel 260 is fixedly connected with the output shaft 242, the adsorption discs 261 are provided with two adsorption discs 261, the two adsorption discs 261 are sequentially sleeved on the output shaft 242, the two adsorption discs 261 are both located inside the adsorption barrel 260, an adsorbent placing groove 2610 is formed in the adsorption discs 261, and a bamboo charcoal fiber plate is placed on the adsorbent placing groove 2610; the adsorbent placed on the adsorption disc 261 adsorbs fine impurities and polluting microorganisms in the water, and the adsorption amount of the adsorbent is increased by the adsorption disc 261 which rotates continuously;

as shown in fig. 1, 5, 6, and 7, the upper end of the filtering tank 3 is connected to the adsorption chamber 21, a peristaltic pump ii 30 is disposed at the connection position, a drain port 31 is disposed on the filtering tank 3, a filter cartridge 32 is disposed inside the filtering tank 3, the bottom of the filter cartridge 30 is sealed, the filter cartridge 32 includes a filter cartridge i 320, a filter cartridge ii 321, and a filter cartridge iii 322, the filter cartridge ii 321 and the filter cartridge iii 322 are sequentially sleeved inside the filter cartridge i 320, the filter cartridge ii 321, and the filter cartridge iii 322 are respectively provided with a filter hole 320, the filter holes 320 are sequentially reduced, the ultrafiltration membrane 33 is filled inside the filter cartridge iii 322, a gap between the filter cartridge ii 321 and the filter cartridge iii 322, and a gap between the filter cartridge i 320 and the filter cartridge ii 321; the ultrafiltration membrane 33 and the filter pressing component 34 are arranged inside the filter cylinder 32, the filter pressing component 34 comprises a filter pressing plate 340, a pull rod 341 and an intermittent motor 342, the pull rod 341 penetrates through the filter cylinder 30, a swing frame 343 is arranged at the lower end of the pull rod 341, a return spring 3430 is arranged between the swing frame 343 and the filter tank 3, the filter pressing plate 340 is fixedly arranged at the top end of the pull rod 341, the filter pressing plate 340 is positioned inside the filter cylinder 30, the intermittent motor 342 is fixedly arranged inside the filter tank 3, a swing cam 344 is arranged on an output shaft of the intermittent motor 342, the swing cam 344 is movably clamped with the swing frame 343, and the swing cam 344 drives the swing frame 343 to continuously move up and down in the rotating process, so that the filter pressing plate 340 continuously presses the ultrafiltration membrane;

as shown in fig. 1, the electric control box is commercially available, the electric control box is electrically connected with the power motor 140, the first peristaltic pump 22, the speed reduction motor 241, the second peristaltic pump 30 and the intermittent motor 342 respectively, and the power motor 140, the first peristaltic pump 22, the speed reduction motor 241, the second peristaltic pump 30 and the intermittent motor 342 are powered by an external power supply.

When in use, the drinking mineral water enters the oxidation tank 1 through the water inlet 11, is firstly filtered by the rough filter box 15, is added with the chlorine dioxide oxidant into the oxidant releasing pipe 13 through the oxidant adding port 10, and is simultaneously started by controlling the power motor 140 through the electric cabinet, so that the drinking mineral water is fully contacted with the oxidant; the electric cabinet controls the speed reducing motor 241 and the peristaltic pump 22 to be started, drinking mineral water enters the flocculation cavity 20, a PAM flocculating agent is added into the flocculation cavity 20 through a flocculating agent adding hopper 23, flocculated sediments are isolated by a filter plate 25, the flocculated drinking mineral water enters the adsorption cavity 21 after passing through the filter plate 25, and fine pollutants in the drinking mineral water are adsorbed under the action of the bamboo charcoal fiber plate; mineral water is pumped into the filter tank 3 by the peristaltic pump II 321, and drinking mineral water is filtered by the filter cartridge III 322, the filter cartridge II 321 and the filter cartridge I320 in sequence under the action of the ultrafiltration membrane 33 and is discharged from the water outlet 31; in the filtering process, the ultrafiltration membrane 33 is extruded by the filter pressing component 34 which continuously swings up and down, so that the filtering efficiency of the drinking mineral water is improved.

Claims (8)

1. The multi-layer adsorption and filtration device for the drinking mineral water with the pre-oxidation function is characterized by comprising an oxidation pond (1), a flocculation sedimentation pond (2), a filtration pond (3) and an electric cabinet, wherein an oxidant feeding port (10) and a water inlet (11) are formed in the upper end of the oxidation pond (1), the lower end of the oxidation pond (1) is of a conical structure, a support frame (12) and a sewage discharge port are formed in the lower end of the oxidation pond (1), an oxidant releasing pipe (13) is vertically arranged at the top in the oxidation pond (1), the bottom of the oxidant releasing pipe (13) is sealed, a plurality of releasing holes (130) are uniformly formed in the pipe wall of the oxidant releasing pipe (13), the oxidant releasing pipe (13) is communicated with the oxidant feeding port (10), and a frame type stirrer (14) is arranged in the oxidation pond (1);

the flocculation sedimentation tank (2) comprises a flocculation cavity (20) and an adsorption cavity (21), the flocculation cavity (20) is connected with the lower end of the oxidation tank (1), a peristaltic pump I (22) is arranged at the joint, a flocculating agent feeding hopper (23) is arranged at the upper end of the flocculation sedimentation tank (2), the flocculating agent feeding hopper (23) is communicated with the flocculation cavity (20), a mixer (24) is arranged inside the flocculation cavity (20), the adsorption cavity (21) is arranged at the lower end of the flocculation cavity (20), a filter plate (25) is arranged between the adsorption cavity (21) and the flocculation cavity (20), and an adsorption component (26) is arranged inside the adsorption cavity (21);

the upper end of the filter tank (3) is connected with the adsorption cavity (21), a peristaltic pump II (30) is arranged at the connection position, a water outlet (31) is formed in the filter tank (3), a filter cylinder (32) is arranged in the filter tank (3), the bottom of the filter cylinder (30) is sealed, a plurality of filter holes (320) are uniformly formed in the side wall of the filter cylinder (32), and an ultrafiltration membrane (33) and a filter pressing assembly (34) are arranged in the filter cylinder (32);

the electric cabinet is respectively and electrically connected with the frame type stirrer (14), the peristaltic pump I (22), the mixer (24), the peristaltic pump II (30) and the filter pressing assembly (34), and the frame type stirrer (14), the peristaltic pump I (22), the mixer (24), the peristaltic pump II (30) and the filter pressing assembly (34) are powered by an external power supply.

2. The multi-layered adsorptive filtration device for drinking mineral water having pre-oxidation function according to claim 1, wherein said frame type agitator (14) comprises a power motor (140), an agitation frame (141) and an agitation blade (142), said agitation frame (141) is movably engaged with the inside of said oxidation pond (1), said power motor (140) provides power for said agitation frame (141), said agitation blade (142) is fixedly connected to said agitation frame (141) after passing through said oxidant releasing tube (13) via a shaft sleeve (143), and said agitation blade (142) is obliquely disposed with respect to said shaft sleeve (143).

3. A multi-layered adsorptive filter device for drinking mineral water having a pre-oxidation function according to claim 1, wherein said oxidizer releasing tube (13) is internally provided with buffer plates (131), said buffer plates (131) being staggered inside said oxidizer releasing tube (13).

4. A multi-layer adsorption filter for drinking mineral water with pre-oxidation function as claimed in claim 1, characterized in that a coarse filter box (15) is arranged inside the oxidation pond (1), and the coarse filter box (15) is communicated with the water inlet (11).

5. A multi-layered adsorptive filtration apparatus for drinking mineral water having pre-oxidation function according to claim 1, wherein said mixer (24) comprises a mixing plate (240) and a speed-reducing motor (241), said speed-reducing motor (241) is disposed outside the flocculation sedimentation tank (2), the output shaft (242) of the speed-reducing motor (241) is disposed inside the flocculation sedimentation tank (2), said mixing plate (240) is disposed inside the flocculation chamber (20) and is fixedly disposed on the output shaft (242), the mixing plate (240) is provided with a water passing hole (243), and one end of the mixing plate (240) close to the flocculation sedimentation tank (2) is provided with a dirt scraping strip (244).

6. The multi-layer adsorption filtration device for drinking mineral water with pre-oxidation function as claimed in claim 1, wherein the adsorption component (26) comprises an adsorption barrel (260) and adsorption discs (261), the adsorption barrel (260) is movably clamped inside the flocculation cavity (20), through holes (2600) are formed in the adsorption barrel (260), the bottom of the adsorption barrel (260) is fixedly connected with the output shaft (242), two adsorption discs (261) are arranged, the two adsorption discs (261) are sequentially sleeved on the output shaft (242), the two adsorption discs (261) are both located inside the adsorption barrel (260), and an adsorbent placing groove (2610) is formed in the adsorption discs (261).

7. The multi-layer adsorption filter device for drinking mineral water with pre-oxidation function as claimed in claim 1, wherein the filter pressing assembly (34) comprises a filter pressing plate (340), a pull rod (341) and an intermittent motor (342), the pull rod (341) is arranged inside the filter cartridge (30) in a penetrating manner, a swing frame (343) is arranged at the lower end of the pull rod (341), a return spring (3430) is arranged between the swing frame (343) and the filter tank (3), the filter pressing plate (340) is fixedly arranged at the top end of the pull rod (341), the filter pressing plate (340) is arranged inside the filter cartridge (30), the intermittent motor (342) is fixedly arranged inside the filter tank (3), a swing cam (344) is arranged on the output shaft of the intermittent motor (342), and the swing cam (344) is movably clamped with the swing frame (343).

8. A multi-layered adsorptive filter unit for drinking mineral water having a pre-oxidation function according to claim 1, wherein said oxidizer releasing tube (13) is provided with buffer plates (131) uniformly staggered inside.

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