CN112273309B

CN112273309B - High-efficient water-saving feed delivery device for large aquarium fish culture box

Info

Publication number: CN112273309B
Application number: CN202011189411.1A
Authority: CN
Inventors: 刘伟
Original assignee: Liaocheng Keenness Information Technology Co ltd
Current assignee: Liaocheng Keenness Information Technology Co ltd
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2022-10-11
Anticipated expiration: 2040-10-30
Also published as: CN112273309A

Abstract

The invention discloses a high-efficiency water-saving feed feeding device for a large aquarium fish culture box, which belongs to the technical field of aquarium fish culture, and comprises a culture box, wherein a servo motor is arranged at the bottom of the front end surface of the culture box, a gear is arranged at the front end of the servo motor, a feed feeding box is fixed in an inner cavity of a fixed frame, movable blocks are welded at the bottoms of the left side and the right side of the feed feeding box, and feed is uniformly fed: driving motor drives gear, drive gear and lead screw are rotatory, the rotatory movable block of drive of lead screw and fodder input case back-and-forth movement, evenly spill the material to breeding the incasement, the rotating electrical machines drives the rotation axis rotation, the rotation axis drives the belt pulley and rotates with lower belt pulley, lower transfer link is driven rotatoryly this moment, make the stirring rod rotate, when the stirring rod rotates the bottom, can push down lug and shutoff board, stretch the spring, the fodder is discharged through the space of ejection of compact shell with the shutoff board, when the fodder is put in the case back-and-forth movement, the fodder is spilt to the ration, avoid piling up of fodder.

Description

High-efficient water-saving feed delivery device for large aquarium fish culture box

Technical Field

The invention relates to the technical field of aquarium fish culture, in particular to a high-efficiency water-saving feed feeding device for a large aquarium fish culture box.

Background

The ornamental fish has high requirement on water quality, and bacteria breeding and fish hypoxia are easily caused under the condition of unstable water quality, so that pond water needs to be changed every day to ensure the cleanness of the water quality and the proportion of dissolved oxygen, discharged old water can be introduced into a purification pond for purification in order to save water sources, and new water in the purification pond can be introduced when the pond is changed to be new water, so that the aim of saving water is fulfilled;

however, when the pellet type feed is put in, the feed is usually poured into the cultivation box directly, the feed is easy to accumulate at the bottom of the feed putting position, the influence on the water quality is large, the feed is easy to adhere to the bottom of the cultivation box when the old water is discharged, the manual clearing is needed, the work difficulty is increased, in order to quantificationally, uniformly and quickly scatter the feed into the cultivation box, the ornamental fish can swallow the feed quickly and completely, the accumulation of the redundant feed at the bottom of the cultivation box is avoided, and the feed is put in the front, and if the feed is wetted or stained with water, the feed can be adhered together to cause the accumulation of the feed, therefore, the feed putting device for the large ornamental fish cultivation box with high efficiency and water conservation is provided.

Disclosure of Invention

The invention aims to provide a high-efficiency water-saving feed feeding device for a large ornamental fish culture box, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a large-scale aquarium fish of high-efficient water conservation breeds case and puts in device with fodder, is including breeding the case, it has all welded the footboard to breed the roof portion left and right sides, the equidistance welding has the floor around the footboard bottom, controls two sets ofly the welding of floor back to the back of the body one side is on breeding the incasement wall, breed the case front end bottom and install servo motor, the gear is installed to the servo motor front end, and is two sets of the spout has been seted up to the relative one side of footboard, and it is equipped with fixed frame to slide in two sets of spouts, fixed frame inner chamber is fixed with the fodder and puts in the case, the bottom of fodder is put in the case left and right sides all welded the movable block, the screw that link up around the movable block front end is seted up, and the thread bush is equipped with the lead screw in the screw, the bearing is all installed at both ends around the lead screw, and the bearing passes through the bearing frame and installs on the inner wall of breeding the case, the lead screw front end extends to breed the case front side outer wall and installs drive gear, drive gear passes through the chain with the gear and is connected.

Further, the fodder is put in case and is included down and put in the case, put in the roof portion down and install and put in the case, put in the bottom of the case portion left and right sides down and all welded and have a plate down, put in bottom of the case portion center down and install and prevent stifled formula ration discharging device, on put in the roof portion and install the casing, go up the casing inner chamber and install the funnel, dry formula ration feed arrangement is installed to the funnel bottom, dry formula ration feed arrangement bottom is installed on last casing, on put in case left side welding and have the mounting panel, the rotating electrical machines is installed to the mounting panel bottom, the rotation axis is installed on the rotating electrical machines right side, the rotation axis passes through the bearing and puts in the case and be connected on, the rotation axis is located and puts in the outer wall of incasement chamber part and is equipped with the stirring tooth, two sets of belt pulleys about the rotation axis outer wall is located the left side of putting in the case and installs.

Further, anti-blocking type ration discharging device includes the ejection of compact shell of being connected with lower input box, the mounting hole has been seted up in lower plate left side, installs the bearing in the mounting hole, installs lower transfer lever in two sets of bearing inner circles, lower transfer lever passes through the bearing and is connected with ejection of compact shell, the outer wall that lower transfer lever lies in ejection of compact shell intracavity portion is equipped with the stirring rod, the wheel is installed to stirring rod bottom, ejection of compact shell inner chamber activity is inserted and is equipped with about two sets of slides, and is two sets of the shutoff board is installed to the slide bottom, the lug is installed at the shutoff board top, the jack has all been seted up to the shutoff board top left and right sides, and the activity is inserted in the jack and is equipped with the gag lever post, the gag lever post both ends all are fixed with the stopper, the top the stopper is fixed on ejection of compact shell, gag lever post outer wall cover is equipped with the spring, the both ends of spring are fixed respectively on top stopper and shutoff board, lower belt pulley is installed to the lower left end, lower belt pulley passes through the belt and is connected with the right side belt pulley.

Further, dry formula ration feed arrangement is including connecting the lower connection shell on last input case, connect the shell top down and install the connection shell, the connection shell is installed to the funnel bottom, connection shell and lower connection shell inner chamber all are equipped with the annular groove, and it is two sets of to slide in the annular groove and be equipped with the go-between, be fixed with rotatory barrel in the link, go up the casing left and right sides and all seted up the mounting hole, install the bearing in the mounting hole, install the upper rotating rod in two sets of bearing inner circles, the upper rotating rod passes through the bearing with lower connection shell and is connected, the outer wall that the upper rotating rod is located lower connection shell inner chamber part is installed the drum, the drum outer wall is evenly seted up flutedly, upper belt pulley is installed to upper rotating rod left end, upper belt pulley passes through the belt with the left side belt pulley and is connected.

Further, the internal jet-propelled subassembly that is fixed with of rotatory barrel, the pump body is installed on fixed frame top right side, the jet-propelled subassembly top is connected with the pipeline, the pipeline top is installed through rotary joint and is given vent to anger the pipeline, the pipeline other end of giving vent to anger is connected in pump body left side, rotatory barrel outer wall cover is equipped with the ring gear, the dwang is installed through the bearing in funnel bottom left side, bevel gear is installed to the dwang bottom, go up the dwang and be located the left outer wall of lower junction housing and install transmission bevel gear, bevel gear bottom left side and the meshing of transmission bevel gear top, driven gear meshes with the relative one side of ring gear.

Further, the air injection assembly is provided with two sets of from top to bottom, the air injection assembly is including fixing the solid fixed ring at rotatory barrel inner chamber, gu fixed ring inner wall annular array is equipped with the connecting pipe, the pipeline outer wall is installed to the connecting pipe other end, the connecting pipe is radial distribution, and is upper and lower two sets of connect the fumarole has been seted up to connecting pipe mutually back of the body one side, the connecting pipe outer wall is equipped with the spinning cloth layer.

Compared with the prior art, the invention has the beneficial effects that:

1. uniformly feeding the feed: the driving motor drives the gear, the transmission gear and the lead screw to rotate, the lead screw rotates to drive the movable block and the feed feeding box to move back and forth, the feed is uniformly scattered in the breeding box, the rotating motor drives the rotating shaft to rotate, the rotating shaft drives the belt pulley and the lower belt pulley to rotate, the lower rotating rod is driven to rotate at the moment to enable the stirring rod to rotate, when the stirring rod rotates to the bottom, the lug and the plugging plate are pressed downwards, the spring is stretched, the feed is discharged through a gap between the discharging shell and the plugging plate, quantitative discharging is realized by controlling the rotating speed of the rotating motor, and the feed is quantitatively scattered while the feed feeding box moves back and forth, so that the accumulation of the feed is avoided;

2. pretreatment of the feed: at first pour the fodder into the funnel in, the fodder leaks into dry formula ration feed arrangement through the funnel, pour into dry gas into via the pump body, dry the fodder, avoid the fodder to wet to adhere and cause the jam, behind the fodder dry period, start-up rotating electrical machines, the rotation axis drives the rotation pole and rotates, the rotation pole drives transmission bevel gear, bevel gear and dwang are rotatory, the dwang drives driven gear and ring gear rotation, rotatory barrel drives inside jet-propelled subassembly and rotates this moment, the connecting pipe rotates thereupon and evenly spouts dry gas to the fodder, carry out abundant drying to the fodder, the drum is rotatory along with the rotation pole of going up, make the fodder can only pass through the groove row and descend, through control rotating electrical machines's rotational speed, realize ration feeding, slow ration feeding, can improve drying time, improve drying effect.

Drawings

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

FIG. 2 is a schematic view of the feed delivery box of the present invention;

FIG. 3 is a schematic structural view of the anti-blocking quantitative discharging device of the present invention;

FIG. 4 is a schematic view of a dry type quantitative feeding device according to the present invention;

fig. 5 is a schematic view of the structure of the air injection assembly of the present invention.

In the figure: 1. a cultivation box; 2. a pedal; 3. a rib plate; 4. a servo motor; 5. a gear; 6. a screw rod; 7. a transmission gear; 8. a movable block; 9. a feed delivery box; 901. a lower throwing box; 902. putting in a box; 903. a lower plate; 904. an anti-blocking quantitative discharging device; 9041. a discharging shell; 9042. a stirring rod; 9043. a wheel; 9044. a slide plate; 9045. a plugging plate; 9046. a bump; 9047. a limiting rod; 9048. a limiting block; 9049. a spring; 905. rotating the rod downwards; 906. a lower pulley; 907. an upper housing; 908. rotating the rotating rod upwards; 909. a dry type quantitative feeding device; 9091. a lower connecting shell; 9092. a cylinder; 9093. a groove; 9094. an upper connection shell; 9095. a connecting shell; 9096. a connecting ring; 9097. rotating the cylinder; 9098. a ring gear; 9099. a gas injection assembly; 90991. a fixing ring; 90992. a connecting pipe; 90993. a gas injection hole; 90994. spinning cloth layer; 910. a pump body; 911. an air outlet pipe; 912. a pipeline; 913. a funnel; 914. rotating the rod; 915. a driven gear; 916. a bevel gear; 917. a drive bevel gear; 918. an upper belt pulley; 919. mounting a plate; 920. a rotating electric machine; 921. a belt pulley; 922. a rotating shaft; 923. stirring teeth; 10. a fixing frame is provided.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme that: a feed feeding device for a large-scale ornamental fish culture box with high efficiency and water saving is disclosed, please refer to figure 1, and comprises a culture box 1, pedals 2 are welded on the left side and the right side of the top of the culture box 1, the pedals 2 are mainly used for being conveniently stepped by workers to feed and salvage, rib plates 3 are welded on the front side and the rear side of the bottom of each pedal 2 at equal intervals, the rib plates 3 are mainly reinforcing pedals 2, one sides of the left and the right groups of rib plates 3, which are opposite to each other, are welded on the inner wall of the culture box 1, a servo motor 4 is installed at the bottom of the front end surface of the culture box 1, a gear 5 is installed at the front end of the servo motor 4, sliding grooves are formed in the opposite sides of the two groups of pedals 2, fixing frames 10 are arranged in the two groups of sliding grooves, a feed feeding box 9 is fixed in the inner cavity of each fixing frame 10, the bottom of the left side and the bottom of the right side of the feed feeding box 9 are welded with movable blocks 8, the front ends of the movable blocks 8 are provided with screw holes which are communicated front and back, screw rods 6 are sleeved in the screw holes in a threaded manner, bearings are mounted at the front ends and the back ends of the screw rods 6 respectively, the bearings are mounted on the inner wall of the breeding box 1 through bearing seats, the front ends of the screw rods 6 extend to the outer wall of the front side of the breeding box 1 and are provided with transmission gears 7, the transmission gears 7 are connected with gears 5 through chains, a driving motor 4 drives the gears 5 to rotate, the gears 5 drive the chains to rotate so that the transmission gears 7 and the screw rods 6 rotate, the movable blocks 8 and the feed feeding box 9 are driven to move back and forth through rotation of the screw rods 6, and materials are uniformly scattered in the breeding box 1;

referring to fig. 2, a feed feeding box 9 includes a lower feeding box 901, an upper feeding box 902 is installed on the top of the lower feeding box 901, lower plate members 903 are welded on the left and right sides of the bottom of the lower feeding box 901, an anti-blocking quantitative discharging device 904 is installed at the center of the bottom of the lower feeding box 901, an upper housing 907 is installed on the top of the upper feeding box 902, a funnel 913 is installed in an inner cavity of the upper housing 907, a dry quantitative feeding device 909 is installed at the bottom of the funnel 913, an upper housing 907 is installed at the bottom of the dry quantitative feeding device 909, a mounting plate 919 is welded on the left side of the upper feeding box 902, a rotating motor 920 is installed at the bottom of the mounting plate 919, a rotating shaft 922 is installed on the right side of the rotating motor 920, the rotating shaft 922 is connected with the upper feeding box 902 through a bearing, a stirring tooth 923 is installed on the outer wall of the inner cavity of the rotating shaft 922, two sets of the rotating shaft 922 is installed on the left side of the upper feeding box 902, the feed is firstly poured into the funnel 913, the feed is leaked into the dry quantitative feeding device 909, dry feed through the rotating shaft 910, the rotating motor 920, the rotating shaft 920 drives the rotating motor to rotate the rotating shaft to drive the rotating motor to rotate the rotating shaft 904, and only to stir the rotating shaft 92, and the rotating shaft 922, and the rotating shaft to realize that the feed discharging device 920 is discharged through the rotating shaft 922, the rotating shaft 92, the rotating shaft 922, the rotating shaft 92, and the rotating groove 922;

referring to fig. 2-3, the anti-blocking quantitative discharging device 904 includes a discharging shell 9041 connected to the lower feeding box 901, a mounting hole is formed in the left side of the lower plate 903, a bearing is installed in the mounting hole, a lower rotating rod 905 is installed in the inner rings of two groups of bearings, the lower rotating rod 905 is connected to the discharging shell 9041 through a bearing, a stirring rod 9042 is arranged on the outer wall of the lower rotating rod 905 positioned in the inner cavity portion of the discharging shell 9041, a wheel 9043 is installed at the bottom of the stirring rod 9042, a left group of sliding plates 9044 and a right group of sliding plates 9044 are movably inserted in the inner cavity of the discharging shell 9041, a plugging plate 9045 is installed at the bottom of the two groups of sliding plates 9044, a convex block 9046 is installed at the top of the plugging plate 9045, insertion holes are respectively formed on the left side and the right side of the top of the plugging plate 9045, a limiting rod 9047 is movably inserted in the insertion holes, and limiting blocks 9048 are respectively fixed at both ends of the limiting rod 9047, the top limiting block 9048 is fixed to the discharging shell 9041, a spring 9049 is sleeved on the outer wall of the limiting rod 9047, two ends of the spring 9049 are fixed to the top limiting block 9048 and the plugging plate 9045 respectively, a lower belt pulley 906 is installed at the left end of a lower rotating rod 905, the lower belt pulley 906 is connected with a right side belt pulley 921 through a belt, the lower rotating rod 905 is driven to rotate by a rotating shaft 922, the stirring rod 9042 is made to rotate, when the stirring rod 9042 rotates to the bottom, the protruding block 9046 and the plugging plate 9045 are pressed downwards, the spring 9049 is stretched, feed is discharged through a gap between the discharging shell 9041 and the plugging plate 9045, quantitative discharging is achieved by controlling the rotating speed of the rotating motor 920, and when the stirring rod 9042 rotates away from the bottom, the plugging plate 9045 rises under the driving of the spring 9049 to plug the discharging shell 9041;

referring to fig. 2-4, the dry type quantitative feeding device 909 includes a lower connecting shell 9091 connected to the upper feeding box 902, an upper connecting shell 9094 is installed on the top of the lower connecting shell 9091, a connecting shell 9095 is installed on the bottom of the funnel 913, annular grooves are formed in inner cavities of the connecting shell 9095 and the lower connecting shell 9091, connecting rings 9096 are slidably installed in the annular grooves, a rotary cylinder 9097 is fixed in each of the two groups of connecting rings 9096, mounting holes are formed in both left and right sides of the upper housing 907, bearings are installed in the mounting holes, an upper rotary rod 908 is installed in each of the two groups of bearings, the upper rotary rod 908 is connected to the lower connecting shell 9091 through a bearing, a cylinder 9092 is installed on an outer wall of the inner cavity portion of the lower connecting shell 9091 of the upper rotary rod 908, a groove 9093 is uniformly formed in an outer wall of the cylinder 9092, an upper belt pulley 918 is installed at a left end of the upper rotary rod 908, the upper belt pulley is connected to the left belt pulley 921 through a belt, the rotary shaft 922, the rotary shaft 908 drives the upper rotary rod 908 to rotate, the cylinder 9092 to enable feed to be discharged only through the groove 9093, and the rotary speed of the rotary motor 920 is controlled to achieve quantitative feeding;

referring to fig. 2-5, a gas injection assembly 9099 is fixed in a rotary cylinder 9097, a pump body 910 is installed on the right side of the top of a fixed frame 10, a pipeline 912 is connected to the top of the gas injection assembly 9099, a gas outlet pipeline 911 is installed on the top of the pipeline 912 through a rotary joint, the other end of the gas outlet pipeline 911 is connected to the left side of the pump body 910, a gear ring 9098 is sleeved on the outer wall of the rotary cylinder 9097, a rotating rod 914 is installed on the left side of the bottom of a funnel 913 through a bearing, a bevel gear 916 is installed on the bottom of the rotating rod 914, a transmission bevel gear 917 is installed on the outer wall of the upper rotating rod 908 on the left side of a lower connecting shell 9091, the left side of the bottom of the bevel gear 916 is meshed with the top of the transmission bevel gear 917, a driven gear 915 is meshed with the opposite side of the gear ring 9098, the upper rotating rod 908 drives the transmission bevel gear 917, the bevel gear 916 and the rotating rod 914 to rotate, the rotating rod 914 drives the driven gear 915 and the gear ring 9098 to rotate, at the moment, the rotating cylinder 9097 drives the internal air injection assembly 9099 to rotate, and internal feed is dried, two groups of air injection assemblies 9099 are arranged up and down, the air injection assemblies 9099 comprise fixing rings 90991 fixed in the inner cavity of the rotating cylinder 9097, connecting pipes 90992 are arranged on the inner walls of the fixing rings 90991 in an annular array mode, the outer wall of a pipeline 912 is installed at the other end of each connecting pipe 90992, the connecting pipes 90992 are distributed in a radial mode, air injection holes 90993 are formed in the opposite sides of the upper group connecting pipe and the lower group connecting pipe 90992, a spinning cloth layer 90994 is arranged on the outer wall of each connecting pipe 90992, the connecting pipes 90992 rotate accordingly to uniformly inject dry air to the feed, the feed is sufficiently dried, and the spinning cloth layer 90994 is arranged, so that the situation that granular feed is prevented from being clamped into the air injection holes 90993 can be avoided;

the embodiment is as follows:

1) Preparing feed throwing: firstly, the feed is poured into the funnel 913, the feed leaks into the dry quantitative feeding device 909 through the funnel 913, dry gas is injected through the pump body 910, the feed is dried, the feed is prevented from being wetted and adhered to cause blockage, after the feed is dried for a period of time, the rotating motor 920 is started, the rotating motor 920 drives the rotating shaft 922 to rotate, the rotating shaft 922 drives the upper rotating rod 908 to rotate, the cylinder 9092 is driven to rotate, the feed can only be discharged through the groove 9093, the quantitative feeding is realized by controlling the rotating speed of the rotating motor 920, the stirring teeth 923 are used for stirring the feed in the upper feeding box 902, the feed is scattered and then discharged through the anti-blocking quantitative discharging device 904;

2) And (3) feed putting: the driving motor 4 drives the gear 5, the transmission gear 7 and the screw rod 6 to rotate, the screw rod 6 rotates to drive the movable block 8 and the feed feeding box 9 to move back and forth, materials are uniformly scattered in the breeding box 1, the lower rotating rod 905 is driven to rotate to enable the stirring rod 9042 to rotate, when the stirring rod 9042 rotates to the bottom, the convex block 9046 and the plugging plate 9045 are pressed downwards to stretch the spring 9049, the feed is discharged from a gap between the discharging shell 9041 and the plugging plate 9045, and quantitative discharging is achieved by controlling the rotating speed of the rotating motor 920;

3) And (3) drying the feed: go up the rotor rod 908 and drive bevel gear 917, bevel gear 916 and dwang 914 rotation, the dwang 914 drives driven gear 915 and ring gear 9098 rotation, and rotatory barrel 9097 drives inside jet assembly 9099 and rotates this moment, and connecting pipe 90992 rotates thereupon evenly to spout dry gas to the fodder, carries out abundant drying to the fodder, and the setting on spinning cloth layer 90994 can avoid pellet feed card to go into jet orifice 90993.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a large-scale aquarium fish of high-efficient water conservation breeds case and puts in device with fodder, including breeding case (1), its characterized in that: the feed box is characterized in that pedals (2) are welded on the left side and the right side of the top of the feed box (1), rib plates (3) are welded on the inner wall of the feed box (1) at the front and the back of the bottom of each pedal (2) at equal intervals, two groups of rib plates (3) are welded on the inner wall of the feed box (1) at one side opposite to each other at the left and the right, a servo motor (4) is installed at the bottom of the front end face of the feed box (1), gears (5) are installed at the front end of each servo motor (4), two groups of pedals (2) are provided with chutes at the opposite sides, fixed frames (10) are arranged in the two chutes in a sliding manner, a feed feeding box (9) is fixed in an inner cavity of each fixed frame (10), movable blocks (8) are welded at the bottoms of the left and the right sides of the feed feeding box (9), screw holes which are communicated with each other in the front and back are formed in the front ends of the movable blocks (8), screw holes are sleeved with lead screws (6), bearings at the front ends of the lead screws (6), bearings are installed on the inner wall of the feed box (1), and transmission gears (7) are connected with the gears (5) through chains;

the feed throwing box (9) comprises a lower throwing box (901), an upper throwing box (902) is installed at the top of the lower throwing box (901), lower plate members (903) are welded on the left side and the right side of the bottom of the lower throwing box (901), an anti-blocking quantitative discharging device (904) is installed at the center of the bottom of the lower throwing box (901), an upper shell (907) is installed at the top of the upper throwing box (902), a funnel (913) is installed in an inner cavity of the upper shell (907), a drying quantitative feeding device (909) is installed at the bottom of the funnel (913), an upper shell (907) is installed at the bottom of the drying quantitative feeding device (909), a mounting plate (919) is welded on the left side of the upper throwing box (902), a rotating motor (920) is installed at the bottom of the mounting plate (919), a rotating shaft (922) is installed on the right side of the rotating motor (920), the rotating shaft (922) is connected with the upper throwing box (902) through a bearing, stirring teeth (923) are arranged on the outer wall of the inner cavity portion of the rotating shaft (922), and two groups of belt pulleys (921) are installed on the left side and right side of the upper throwing box (902);

the anti-blocking quantitative discharging device (904) comprises a discharging shell (9041) connected with the lower feeding box (901), a mounting hole is arranged on the left side of the lower plate (903), bearings are arranged in the mounting hole, lower rotating rods (905) are arranged in the inner rings of the two groups of bearings, the lower rotating rod (905) is connected with the discharging shell (9041) through a bearing, the outer wall of the lower rotating rod (905) positioned in the inner cavity part of the discharging shell (9041) is provided with a stirring rod (9042), the bottom of the stirring rod (9042) is provided with wheels (9043), the inner cavity of the discharging shell (9041) is movably inserted with a left group of sliding plates (9044) and a right group of sliding plates (9044), the bottoms of the two groups of sliding plates (9044) are provided with plugging plates (9045), a convex block (9046) is arranged at the top of the plugging plate (9045), jacks are respectively arranged at the left side and the right side of the top of the plugging plate (9045), a limiting rod (9047) is movably inserted in the jacks, two ends of the limiting rod (9047) are respectively fixed with a limiting block (9048), the top of the limiting block (9048) is fixed on the discharging shell (9041), a spring (9049) is sleeved on the outer wall of the limiting rod (9047), two ends of the spring (9049) are respectively fixed to the top limiting block (9048) and the plugging plate (9045), the left end of the lower rotating rod (905) is provided with a lower belt pulley (906), the lower belt pulley (906) is connected with the right belt pulley (921) through a belt;

the dry type quantitative feeding device (909) comprises a lower connecting shell (9091) connected to an upper feeding box (902), an upper connecting shell (9094) is mounted at the top of the lower connecting shell (9091), connecting shells (9095) are mounted at the bottoms of funnels (913), annular grooves are formed in inner cavities of the connecting shells (9095) and the lower connecting shell (9091), connecting rings (9096) are arranged in the annular grooves in a sliding mode, rotary cylinder bodies (9097) are fixed in two groups of the connecting rings (9096), mounting holes are formed in the left side and the right side of an upper shell (907), bearings are mounted in the mounting holes, upper rotating rods (908) are mounted in the inner rings of the two groups of bearings, the upper rotating rods (908) are connected with the lower connecting shell (9091) through the bearings, cylinders (9092) are mounted on the outer wall of the portion, located in the inner cavity of the lower connecting shell (9091), of the upper rotating rods (908), grooves (9093) are uniformly formed in the outer wall of the cylinders (9092), the left end of the upper rotating rods (908) is provided with a belt wheel (918), and a belt pulley (921) is connected with a belt pulley (921);

a gas injection assembly (9099) is fixed in the rotary cylinder (9097), a pump body (910) is installed on the right side of the top of the fixed frame (10), a pipeline (912) is connected to the top of the gas injection assembly (9099), a gas outlet pipeline (911) is installed at the top of the pipeline (912) through a rotary joint, the other end of the gas outlet pipeline (911) is connected to the left side of the pump body (910), a gear ring (9098) is sleeved on the outer wall of the rotary cylinder (9097), a rotating rod (914) is installed on the left side of the bottom of the funnel (912) through a bearing, a bevel gear (916) is installed at the bottom of the rotating rod (914), a transmission bevel gear (917) is installed on the outer wall of the left side of the lower connecting shell (9091) of the upper rotating rod (908), the left side of the bottom of the bevel gear (916) is meshed with the top of the transmission bevel gear (917), a driven gear (915) is arranged above the bevel gear (915), and the driven gear (915) is meshed with the opposite side of the gear ring (9098);

jet-propelled subassembly (9099) is provided with two sets ofly from top to bottom altogether, jet-propelled subassembly (9099) is including fixing solid fixed ring (90991) at rotatory barrel (9097) inner chamber, gu fixed ring (90991) inner wall annular array is equipped with connecting pipe (90992), pipeline (912) outer wall is installed to the connecting pipe (90992) other end, connecting pipe (90992) is radial distribution, and upper and lower two sets of fumarole (90993) have been seted up to one side mutually opposite to connecting pipe (90992), connecting pipe (90992) outer wall is equipped with spinning cloth layer (90994).