CN110342112B - Storage device is used in rice processing - Google Patents

Abstract

The invention provides a storage device for rice processing, which comprises a storage barrel, a wind power circulation mechanism for generating airflow to ventilate and radiate, a feeding control mechanism for dispersing rice and controlling the feeding speed during feeding, a damp and hot emission mechanism for controlling and sucking out heat energy and moisture in the rice at any time, and an intermittent fluctuation mechanism for continuously fluctuating the rice from bottom to top to exchange positions, wherein the wind power circulation mechanism, the feeding control mechanism, the damp and hot emission mechanism and the intermittent fluctuation mechanism are fixedly arranged on the storage barrel, and the storage device relates to the field of food processing. This storage device is used in rice processing is interrupted the wave mechanism through setting up, and the rice can be through being interrupted the continuous fluctuation of wave mechanism when piling up, makes the rice space enlarge, makes things convenient for the effluvium of wet hot gas flow to effectual general rice processing storage device volume of having solved is great, the inside deposition of rice, and the inside ventilation effect of accumulational rice is poor, and heat energy is difficult for effluvium, the rotten problem of easy mould of rice.

Description

Storage device is used in rice processing

Technical Field

The invention relates to the technical field of food processing, in particular to a storage device for rice processing.

Background

In order to solve the problem, the prior common processing mode is stirring, but the storage device of a processing factory is generally large, stirring blades required by a stirring device are large, but the resistance between the rice is also large, the larger the resistance of the stirring blades is, the contradiction between the stirring blades is not easy to dissipate heat and the frequent friction heat is large, the storage device for processing the rice is high in energy consumption, the volume of a common rice processing and storing device is large, the rice is deposited, the ventilation effect of the inner part of the accumulated rice is poor, heat energy is not easy to be dissipated, and the rice is easy to mildew and deteriorate.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a storage device for rice processing, which solves the problems that the volume of a common rice processing and storage device is large, the internal of rice is deposited, the internal ventilation effect of the deposited rice is poor, heat energy is not easy to diffuse out, and the rice is easy to mildew and deteriorate.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a storage device is used in rice processing, including storage bucket, be used for producing the air current and carry out ventilation cooling's wind-force circulation mechanism, be used for the feeding with rice dispersion and control input speed's feeding control mechanism, be used for carrying out the inside heat energy of rice and the moist heat effluvium mechanism of moisture control suction at any time and be used for carrying out the continuous fluctuation of position exchange with rice from bottom to top and be interrupted the fluctuation mechanism, wind-force circulation mechanism, feeding control mechanism, moist heat effluvium mechanism and be interrupted the equal fixed mounting of fluctuation mechanism on storage bucket.

The wind power circulation mechanism comprises a fan, a wind suction cavity, a wind blowing cavity, an air inlet pipe, an air outlet pipe, a wind suction opening and a blowing pipe, wherein the fan is fixedly arranged on the surface of the storage barrel, the wind suction cavity and the wind blowing cavity are both arranged on the storage barrel, one end of the air inlet pipe is sleeved with the input end of the fan, the other end of the air inlet pipe penetrates through and extends into the wind suction cavity, one end of the air outlet pipe is sleeved on the output end of the fan, the other end of the air outlet pipe penetrates through and extends into the wind blowing cavity, the wind suction opening is arranged on the inner wall of the storage barrel, the wind suction opening is communicated with the wind suction cavity, the blowing pipe is positioned on the axis of the storage barrel, one end of the blowing pipe is communicated with the wind blowing cavity, a plurality of inclined convection openings are arranged on the surface of the blowing pipe, steel balls are clamped on the inner wall of the inclined convection openings, and the inclined convection openings are arranged to generate upward airflow, the steel balls are arranged inside the convection opening to prevent the rice from being clamped inside the convection opening.

Preferably, feeding control mechanism includes feeder hopper, rotatory feed plate, controllable feeding net and adjustable ring, the surface of feeder hopper is the slope form, the one end of feeder hopper runs through and extends to the inside of storing the bucket, the feeder hopper is located the top of rotatory feed plate, the fixed surface of rotatory feed plate is connected with a plurality of slope dispersion bar, the surface of rotatory feed plate is the slope form, the surface of blowing pipe is provided with the bearing, the surface of rotatory feed plate and the inner circle fixed connection of bearing are set up the feeder hopper and are the slope form for the convenience rice is inclining towards rotatory feed plate to can promote rotatory feed plate to rotate with the help of the strength of rice and with the help of slope dispersion bar.

Preferably, the outer ring of the controllable feeding net is fixedly connected with the inner wall of the storage barrel, the controllable feeding net is positioned below the rotary feeding plate, the surface of the controllable feeding net is inclined, the inclination direction of the controllable feeding net is opposite to that of the rotary feeding plate, the material of the controllable feeding net comprises a spring steel wire, the inner ring of the controllable feeding net is fixedly connected with an adjusting ring, the inner wall of the adjusting ring is provided with a chute, the inner wall of the chute is slidably connected with a plurality of connecting rods clamped inside the chute, one end of each connecting rod is fixedly connected with a threaded ring, the inner ring of the threaded ring is in threaded connection with the surface of the blowing pipe, the threaded ring and the connecting rods are arranged to drive the adjusting ring to ascend and descend through the rotation of the threaded ring on the blowing pipe, the ascending and descending adjusting ring can stretch and contract the controllable feeding net, so that the mesh size of the controllable feeding, thereby conveniently controlling the feeding speed of the rice and the emission of damp and hot.

Preferably, the moist heat release mechanism comprises a corrugated air bag, a main ring pipe, a plurality of independent air distribution pipes, a moist heat suspension ball and air distribution pipes, the corrugated air bag is fixedly connected to the surface of the storage barrel, the main ring pipe is communicated with the corrugated air bag, an air outlet is formed in the surface of the corrugated air bag, one-way air guide valves are fixedly mounted inside the air outlet and inside the main ring pipe, a water outlet is formed in the surface of the corrugated air bag, sealing plugs are connected to the inner wall of the water outlet in a threaded manner, the independent air distribution pipes are different in length and are hung on a controllable feeding net, the bottoms of the independent air distribution pipes are fixedly connected with the moist heat suspension ball, the corrugated air bag is arranged to facilitate people to suck gas inside the moist heat suspension ball through the corrugated air bag, and the moisture absorption sponge is mainly arranged to absorb moist heat gas in rice through moisture absorption, the water outlet is arranged to hang the independent gas distribution pipe on the controllable feeding net to conveniently control the position of the wet and hot suspension ball in order to discharge accumulated water in the corrugated air bag.

Preferably, the inner wall fixedly connected with reset spring of damp and hot suspension ball, the inner wall fixedly connected with moisture absorption sponge of damp and hot suspension ball, the surface of damp and hot suspension ball is the ripple shape, a plurality of suction inlet has been seted up on the surface of damp and hot suspension ball, the one end of branch pipe cup joints with the surface of play tuber pipe, the other end of branch pipe cup joints with the surface of total ring pipe, the equal fixed mounting in surface of branch pipe and total ring pipe has the control pneumatic valve, and it is in order when extracting the inside gas of damp and hot suspension ball to set the surface waviness with damp and hot suspension ball, and damp and hot suspension ball surface contraction seals each suction inlet in the twinkling of an eye to avoid the inside moisture of moisture absorption sponge to enter into the rice.

Preferably, it includes the hang plate to be interrupted the fluctuation mechanism, the fixed surface of hang plate is connected with the shake bag, the surface of shake bag is the slope form, the inner wall fixedly connected with a plurality of magnet pole of shake bag, the surface of magnet pole is inhaled with the surface magnetism of hang plate and is connected, the one end and the chamber intercommunication of blowing of the passageway that forms between hang plate and the shake bag, and the other end and the chamber intercommunication that induced drafts, it is for the circulation that blocks the air current to set up the magnet pole, reopen the magnet pole when the air current reaches certain pressure, magnet pole both sides pressure differential makes the shake bag shake in the twinkling of an eye, thereby produce the whereabouts in the twinkling of an eye of rice, space between the fluidity increase rice with the help of rice, the hang plate setting is the height slope form and is for shaking the rice of each level, and up more, the pressure of rice is the smaller, and the shake is obvious more, down, the jitter is not frequent but large in amplitude.

Preferably, the surface of storage bucket articulates there is the operating door, the fixed surface of operating door installs the padlock, the fixed surface of operating door is connected with the fixed surface of storage bucket through the padlock, the surface of operating door articulates there is ejection of compact board, the fixed surface of ejection of compact board installs the kayser, the fixed surface of ejection of compact board is connected with the fixed surface of operating door through the kayser, sets up the operating door and is for passing in and out the storage bucket conveniently, sets up the ejection of compact board and is for the convenience ejection of compact.

(III) advantageous effects

(1) The rice feeding device controls the dispersion through the feeding control mechanism when the rice is stored and fed, the rice is uniformly dispersed and dropped, meanwhile, the wind power circulation mechanism draws air from the upper part and blows air obliquely from the lower part, the wind power direction is opposite to the dropping direction of the rice, and the rice is blown, radiated and dehumidified during feeding.

(2) According to the invention, the damp-heat radiating mechanism is arranged and is scattered at each position in the rice after the rice is fed, and the damp-heat in the rice is removed after a special working step through the special structure in the damp-heat radiating mechanism, so that the dehumidifying and radiating can be manually and repeatedly operated, and the rice gap and the dehumidifying and radiating can be expanded by being connected to the wind power circulating mechanism.

(3) According to the invention, the feeding control mechanism is arranged, and the feeding control mechanism can be matched with the wind power circulation mechanism to uniformly dehumidify and dissipate heat in a large area during feeding, and can also be matched with the damp and heat dissipating mechanism to conveniently adjust the damp and heat dissipating mechanism at a proper position in the rice.

(4) By arranging the intermittent fluctuation mechanism, the rice can fluctuate continuously through the intermittent fluctuation mechanism when being stacked, so that gaps of the rice are expanded, and the wet hot air flow is convenient to diffuse out, thereby effectively solving the problems that the common rice processing and storing device has larger volume, the inner part of the rice is deposited, the ventilation effect of the stacked rice is poor, the heat energy is not easy to diffuse out, and the rice is easy to mildew and deteriorate.

Drawings

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

FIG. 2 is a sectional view of the storage bucket of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

fig. 4 is a cross-sectional view of a structure of a damp-heat floating ball according to the present invention.

Wherein, 1 storage barrel, 2 wind power circulating mechanism, 21 blower, 22 air suction cavity, 23 air blowing cavity, 24 air inlet pipe, 25 air outlet pipe, 26 air suction opening, 27 air blowing pipe, 28 inclined convection opening, 29 steel ball, 3 feeding control mechanism, 31 feed hopper, 32 rotary feeding plate, 33 controllable feeding net, 34 adjusting ring, 35 inclined dispersion rod, 36 connecting rod, 37 thread ring, 4 damp heat dispersion mechanism, 41 corrugated air bag, 42 total ring pipe, 43 independent air distribution pipe, 44 damp heat suspension ball, 45 branch pipe, 46 air outlet, 47 one-way air guide valve, 48 water outlet, 49 sealing plug, 410 reset spring, 411 moisture absorption sponge, 412 suction opening, 413 control air valve, 5 discontinuous fluctuation mechanism, 51 inclined plate, 52 shaking bag, 53 magnet rod, 6 operation door, 7 latch, 8 discharge plate, 9 latch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings 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.

As shown in fig. 1-4, the embodiment of the invention provides a storage device for rice processing, which comprises a storage barrel 1, a wind power circulation mechanism 2 for generating air flow to ventilate and radiate, a feeding control mechanism 3 for dispersing rice and controlling feeding speed during feeding, a damp heat emission mechanism 4 for controlling and sucking out heat energy and damp in the rice at any time, and an intermittent fluctuation mechanism 5 for continuously fluctuating the rice from bottom to top to exchange positions, wherein the wind power circulation mechanism 2, the feeding control mechanism 3, the damp heat emission mechanism 4 and the intermittent fluctuation mechanism 5 are all fixedly arranged on the storage barrel 1, an operation door 6 is hinged on the surface of the storage barrel 1, a buckle lock 7 is fixedly arranged on the surface of the operation door 6, the surface of the operation door 6 is fixedly connected with the surface of the storage barrel 1 through the buckle lock 7, a discharge plate 8 is hinged on the surface of the operation door 6, a lock 9 is fixedly arranged on the surface of the discharge plate 8, the surface of the discharging plate 8 is fixedly connected with the surface of the operating door 6 through a clamping lock 9.

The wind power circulating mechanism 2 comprises a fan 21, an air suction cavity 22, an air blowing cavity 23, an air inlet pipe 24, an air outlet pipe 25, an air suction opening 26 and an air blowing pipe 27, the fan 21 is fixedly installed on the surface of the storage barrel 1, the air suction cavity 22 and the air blowing cavity 23 are both arranged on the storage barrel 1, one end of the air inlet pipe 24 is sleeved with the input end of the fan 21, the other end of the air inlet pipe 24 penetrates through and extends to the inside of the air suction cavity 22, one end of the air outlet pipe 25 is sleeved on the output end of the fan 21, the other end of the air outlet pipe 25 penetrates through and extends to the inside of the air blowing cavity 23, the air suction opening 26 is arranged on the inner wall of the storage barrel 1, the air suction opening 26 is communicated with the air suction cavity 22, the air blowing pipe 27 is located on the axis of the storage barrel 1, one end of the air blowing pipe 27 is communicated with the air blowing cavity 23, a plurality of inclined convection.

The feeding control mechanism 3 comprises a feeding hopper 31, a rotary feeding plate 32, a controllable feeding net 33 and an adjusting ring 34, the surface of the feeding hopper 31 is inclined, one end of the feeding hopper 31 penetrates through and extends into the storage barrel 1, the feeding hopper 31 is positioned above the rotary feeding plate 32, the surface of the rotary feeding plate 32 is fixedly connected with a plurality of inclined dispersion rods 35, the surface of the rotary feeding plate 32 is inclined, the outer ring of the controllable feeding net 33 is fixedly connected with the inner wall of the storage barrel 1, the controllable feeding net 33 is positioned below the rotary feeding plate 32, the surface of the controllable feeding net 33 is inclined, the surface of the blowing pipe 27 is provided with a bearing, the surface of the rotary feeding plate 32 is fixedly connected with the inner ring of the bearing, the inclined direction of the controllable feeding net 33 is opposite to the inclined direction of the rotary feeding plate 32, the material of the controllable feeding net 33 comprises a spring steel wire, the inner ring of the controllable feeding net 33 is fixedly connected with the adjusting ring 34, the inner wall of the adjusting ring 34 is provided with a sliding groove, the inner wall of the sliding groove is connected with a plurality of connecting rods 36 clamped inside the sliding groove in a sliding mode, one end of each connecting rod 36 is fixedly connected with a threaded ring 37, and the inner ring of each threaded ring 37 is in threaded connection with the surface of the blowing pipe 27.

The damp-heat emission mechanism 4 comprises a ripple air bag 41, a main ring pipe 42, a plurality of independent air distribution pipes 43, a damp-heat suspension ball 44 and a branch pipe 45, the ripple air bag 41 is fixedly connected on the surface of the storage barrel 1, the main ring pipe 42 is communicated with the ripple air bag 41, the surface of the ripple air bag 41 is provided with an air outlet 46, the inside of the air outlet 46 and the inside of the main ring pipe 42 are both fixedly provided with a one-way air guide valve 47, the surface of the ripple air bag 41 is provided with a water outlet 48, the inner wall of the water outlet 48 is in threaded connection with a sealing plug 49, the independent air distribution pipes 43 have different lengths, the independent air distribution pipes 43 are hung on the controllable feeding net 33, the bottom of the independent air distribution pipes 43 is fixedly connected with the damp-heat suspension ball 44, the inner wall of the damp-heat suspension, the surface of damp and hot suspension ball 44 is the corrugate, and a plurality of suction port 412 has been seted up on the surface of damp and hot suspension ball 44, and the one end of minute pipe 45 cup joints with the surface of tuber pipe 25, and the other end of minute pipe 45 cup joints with the surface of total ring pipe 42, and the equal fixed mounting in surface of minute pipe 45 and total ring pipe 42 has control pneumatic valve 413.

The intermittent fluctuation mechanism 5 comprises an inclined plate 51, a shaking bag 52 is fixedly connected to the surface of the inclined plate 51, the surface of the shaking bag 52 is inclined, a plurality of magnet rods 53 are fixedly connected to the inner wall of the shaking bag 52, the surface of each magnet rod 53 is magnetically attracted to the surface of the inclined plate 51, one end of a channel formed between the inclined plate 51 and the shaking bag 52 is communicated with the air blowing cavity 23, and the other end of the channel is communicated with the air suction cavity 22.

When the rice storage barrel is used, a power supply is connected, the threaded ring 37 is rotated to lift, the threaded ring 37 controls the size of meshes of the controllable feeding net 33 through the connecting rod 36 and the adjusting ring 34, the fan 21 is started, the fan 21 sucks air in the storage barrel 1 through the air inlet pipe 24, the air suction cavity 22 and the air suction opening 26, meanwhile, the fan 21 blows air into the air blowing cavity 23 through the air outlet pipe 25, the air is blown to the inclined convection ports 28 through the air blowing pipe 27, then rice is dumped into the storage barrel 1 through the feeding hopper 31, the rice rushes to the inclined dispersion rods 35 on the rotary feeding plate 32, the rotary feeding plate 32 rotates, the inclined dispersion rods 35 disperse and throw the rice far to the controllable feeding net 33, the rice slides downwards along the inclined controllable feeding net 33, the rice drops at each position on the controllable feeding net 33, and meanwhile, air flow blown out from the inclined convection ports 28 rushes to the dropped rice, taking away the moist heat gas of rice, after the rice covers each moist heat suspension ball 44, the moist heat suspension ball 44 sucks the moist heat gas in the rice through the suction port 412 under the expanding action of the return spring 410, when the rice needs to be continuously sucked, the corrugated air bag 41 is repeatedly pressed, the air in the moist heat suspension ball 44 is sucked through the main ring pipe 42 and the independent air distribution pipe 43 by the corrugated air bag 41, the moist heat suspension ball 44 contracts to seal the suction port 412, the air flow in the moist heat suspension ball 44 is sucked, the moisture absorption sponge 411 is squeezed, the water vapor is taken away, the moisture extracted by the corrugated air bag 41 is discharged through the air outlet 46, when the air is required to blow and dehumidify the rice, the main ring pipe 42 is cut off and communicated with the corrugated air bag 41 through the control air valve 413 on the main ring pipe 42, the fan 21 inflates the interior of the shaking bag 52 through the shaking bag 52 and the blowing cavity 23, the continuous fluctuation of the shaking bag 52, meanwhile, the air inside the damp and hot floating balls 44 dispersed in various places is blown to the rice through the suction port 412, thereby completing the use of the whole storage device for rice processing.

Claims (3)

1. The utility model provides a storage device is used in rice processing which characterized in that: the device comprises a storage barrel (1), a wind power circulation mechanism (2) for generating air flow to ventilate and radiate, a feeding control mechanism (3) for dispersing rice and controlling the feeding speed during feeding, a damp and hot discharge mechanism (4) for controlling the heat energy and the damp in the rice to be sucked out at any time, and an intermittent fluctuation mechanism (5) for continuously fluctuating the rice from bottom to top to perform position interchange, wherein the wind power circulation mechanism (2), the feeding control mechanism (3), the damp and hot discharge mechanism (4) and the intermittent fluctuation mechanism (5) are all fixedly arranged on the storage barrel (1);

the wind power circulation mechanism (2) comprises a fan (21), an air suction cavity (22), an air blowing cavity (23), an air inlet pipe (24), an air outlet pipe (25), an air suction opening (26) and an air blowing pipe (27), wherein the fan (21) is fixedly arranged on the surface of the storage barrel (1), the air suction cavity (22) and the air blowing cavity (23) are arranged on the storage barrel (1), one end of the air inlet pipe (24) is sleeved with the input end of the fan (21), the other end of the air inlet pipe (24) penetrates through and extends to the inside of the air suction cavity (22), one end of the air outlet pipe (25) is sleeved on the output end of the fan (21), the other end of the air outlet pipe (25) penetrates through and extends to the inside of the air blowing cavity (23), the air suction opening (26) is arranged on the inner wall of the storage barrel (1), the air suction opening (26) is communicated with the air suction cavity (22), and the air blowing pipe (27) is positioned on the axis of the storage barrel (1), one end of the blowing pipe (27) is communicated with the blowing cavity (23), the surface of the blowing pipe (27) is provided with a plurality of inclined convection ports (28), and the inner walls of the inclined convection ports (28) are clamped with steel balls (29);

the feeding control mechanism (3) comprises a controllable feeding net (33), the outer ring of the controllable feeding net (33) is fixedly connected with the inner wall of the storage barrel (1), the controllable feeding net (33) is positioned below the rotary feeding plate (32), the surface of the controllable feeding net (33) is inclined, the direction of inclination of the controllable feeding net (33) is opposite to the direction of inclination of the rotary feeding plate (32), the material of the controllable feeding net (33) comprises spring steel wires, the inner ring of the controllable feeding net (33) is fixedly connected with an adjusting ring (34), the inner wall of the adjusting ring (34) is provided with a sliding chute, the inner wall of the sliding chute is connected with a plurality of connecting rods (36) clamped in the sliding chute in a sliding way, one end of the connecting rod (36) is fixedly connected with a threaded ring (37), and the inner ring of the threaded ring (37) is in threaded connection with the surface of the blowing pipe (27);

the damp and heat radiating mechanism (4) comprises a corrugated air bag (41), a main ring pipe (42), a plurality of independent air distributing pipes (43), a damp and heat suspension ball (44) and branch pipes (45), wherein the corrugated air bag (41) is fixedly connected to the surface of the storage barrel (1), the main ring pipe (42) is communicated with the corrugated air bag (41), an air outlet (46) is formed in the surface of the corrugated air bag (41), one-way air guide valves (47) are fixedly arranged in the air outlet (46) and the main ring pipe (42), a water outlet (48) is formed in the surface of the corrugated air bag (41), the inner wall of the water outlet (48) is in threaded connection with a sealing plug (49), the independent air distributing pipes (43) are different in length, and the independent air distributing pipes (43) are hung on the controllable feeding net (33), the bottom of the independent air distributing pipe (43) is fixedly connected with a damp and hot suspension ball (44), the inner wall of the damp and hot suspension ball (44) is fixedly connected with a return spring (410), the inner wall of the damp and hot suspension ball (44) is fixedly connected with a moisture absorption sponge (411), the surface of the damp and hot suspension ball (44) is corrugated, the surface of the damp and hot suspension ball (44) is provided with a plurality of suction ports (412), one end of the air distributing pipe (45) is sleeved with the surface of the air outlet pipe (25), the other end of the air distributing pipe (45) is sleeved with the surface of the main ring pipe (42), and the surfaces of the air distributing pipe (45) and the main ring pipe (42) are both fixedly provided with a control air valve (413);

intermittent wave mechanism (5) are including hang plate (51), the fixed surface of hang plate (51) is connected with shake bag (52), the surface of shake bag (52) is the slope form, the inner wall fixedly connected with a plurality of magnet pole (53) of shake bag (52), the surface of magnet pole (53) is inhaled with the surface magnetism of hang plate (51) and is connected, the one end and the chamber (23) intercommunication that blows of the passageway that forms between hang plate (51) and shake bag (52), and the other end and chamber (22) intercommunication that sucks the wind.

2. The storage device for rice processing according to claim 1, wherein: feeding control mechanism (3) are including feeder hopper (31), rotatory feed plate (32) and adjustable ring (34), the surface of feeder hopper (31) is the slope form, the inside that the one end of feeder hopper (31) runs through and extends to storage bucket (1), feeder hopper (31) are located the top of rotatory feed plate (32), the fixed surface of rotatory feed plate (32) is connected with a plurality of slope dispersion pole (35), the surface of rotatory feed plate (32) is the slope form, the surface of blowing pipe (27) is provided with the bearing, the surface of rotatory feed plate (32) and the inner circle fixed connection of bearing.

3. The storage device for rice processing according to claim 1, wherein: the surface of storing bucket (1) articulates there is operating door (6), the fixed surface of operating door (6) installs padlock (7), the surface of operating door (6) is connected with the fixed surface who stores bucket (1) through padlock (7), the surface of operating door (6) articulates there is ejection of compact board (8), the fixed surface who goes out ejection of compact board (8) installs kayser (9), the fixed surface who goes out ejection of compact board (8) passes through kayser (9) and is connected with the fixed surface of operating door (6).

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