AU2019201660B1 - A Mixing Cup Capable Of Automatically And Uniformly Shaking - Google Patents

Abstract

This invention discloses a mixing cup capable of automatically and uniformly shaking, comprising a cup base 10 with a liner chamber 11 therein, and a cup lid 54 is slidably connected to an outer side at a top end of the liner chamber 11; wherien the cup lid 54 and the cup base 10 are abutted against each other via semi-spherical balls 99 with elasticity; wherein the liner chamber 11 is provided therein with a water insulation box 17 in which a transmission chamber 19 is disposed; self-suspending stirring device in a cup realizes the insulation of water from the human being when stirring is performed, and the safety of the user is protected to a maximum; moreover, the double stirring of the water surface and the underwater can shake liquid evenly in all directions and in mutiple levels.

Description

A MIXING CUP CAPABLE OF AUTOMATICALLY AND UNIFORMLY SHAKING TECHNICAL FIELD

[0001] The present invention relates to the technical field of daily necessities, in

particular to a mixing cup capable of automatically and uniformly shaking.

BACKGROUND OF THE INVENTION

[0002] When we need to stir to mix water and powder, a single cup is impossible to

complete mixing. However, adding a stirring spoon will cause trouble for the user to store.

And in general, hot water is required for mixing, and stirring makes the water splash, which

may burn the user's skin. In addition, a tea cup that has been mixed with the mixture will

adhere to the mixed liquid on an inner surface; and dirt will form if the cup is not cleaned in

time, and the long-term drinking is bad for the human body, and the inner surface of the cup is

not easy to clean. Therefore, a cup that can be automatically stirred and shaken and can be

cleaned by itself is an inevitable trend in the development of the industry today.

BRIEF SUMMARY OF THE INVENTION

[0003] The aim of the invention is to provide a mixing cup capable of automatically and

uniformly shaking, so as to overcome the above disadvantages in the prior art.

[0004] A mixing cup capable of automatically and uniformly shaking according to the

present invention includes a cup base with a liner chamber therein, and a cup lid is slidably

connected to an outer side at a top end of the liner chamber; wherien the cup lid 54 and the

cup base are abutted against each other via semi-spherical balls with elasticity, and when hot

water is required to be stirred, a cup body can be closed; wherein the liner chamber is provided therein with a water insulation box in which a transmission chamber is disposed, wherein the transmission chamber is fixedly provided with a motor in an inner wall at a top end thereof; a transmission shaft extending through the transmission chamber is in power connection with the motor, wherein an upper end of the transmission shaft is provided with a suspension fixing device, wherein the transmission shaft is provided with an underwater stirring device located an outer side of a bottom of the transmission chamber, wherein the underwater stirring device is provided therein with stirring blocks in which cleaning devices are arranged; the transmission shaft is provided thereon with a steering switching device which controls the underwater stirring device, and the transmission shaft is provided thereon with a transmission bevel gear located at an upper end of the steering switching device, and the transmission chamber is rotatably connected at both ends thereof with water surface stirring devices which are symmetrical, wherein, the water surface stirring devices are controlled by the transmission bevel gear; a drain hole is disposed in and communicates with an inner wall at a bottom end of the liner chamber, wherein the drain hole is rotatably connected with a spherical valve therein; the liner chamber is provided therein with an unlocking groove located on a side of the drain hole, and the unlocking groove is provided therein with a sluicing valve device to control the spherical valve; and the underwater stirring device is rotated to achieve overall stirring in circumferential range.

[0005] Preferably, the suspension fixing device includes a buoyancy plate connected to an upper end of the transmission shaft, wherein the buoyancy plate is provided therein with chutes which are symmetrical, and the chutes are slidably connected with centrifugal rods therein respectively; tension springs are connected between the centrifugal rods and the chutes respectively, and ends of the centrifugal rods, away from a symmetry center, are respectively connected with docking plates which are abutted against an inner wall of the liner chamber.

[0006] Preferably, the underwater stirring device includes therein a spherical cover rotatably connected to a lower end of the transmission shaft, and the transmission shaft is provided with a track block located within the spherical cover, wherein the spherical cover is provided therein with openings located at two ends of the track block; the openings are fixedly and respectively connected therein with slide rails which are vertically symmetrical, wherein the slide rails are slidably connected therein with restraining rods, and restraining springs are connected between the restraining rods and the openings respectively; swinging arms extending to both sides are fixedly connected respectively at sides of the restraining rods approaching each other, wherein the swinging arms are respectively provided therein with through grooves extending through in both directions; the stirring blocks are respectively connected at ends, away from the symmetry center, of the through grooves and the stirring blocks are provided therein with the cleaning devices respectively, wherein each of the cleaning devices include a respective one of piston chambers disposed in each of the stirring blocks, wherein hydraulic machines are respectively embedded in inner walls at sides, close to the symmetry center, of the piston chambers, and the hydraulic machines are in power connection with hydraulic rods respectively at ends thereof away from the symmetry center; the hydraulic rods are respectively connected with piston plates at ends thereof away from the symmetry center, each of the stirring blocks is provided therein with a respective one of grooves with each located at a end, away from the symmetry center, of each of the piston chambers; water blocking plates which are vertically symmetrical are rotatably connected to the grooves respectively; the grooves are slidably connected in inner walls thereof being close to the symmetry center with push rods extending to both sides, wherein each of the push rods is provided thereon with a respective one of sealing discs located in each of the piston chambers, and compression springs are connected between the sealing discs and inner walls of the piston chambers respectively, and the push rods are respectively provided thereon with cleaning brushes rotatably connected thereto; each of the stirring blocks is provided therein with a respective one of opening grooves symmetrically located at upper and lower ends of each of the piston chambers; the opening grooves are slidably connected with buoyancy balls extending vetically in inner walls thereof being close to a symmetry center, wherein each of the buoyancy balls is provided with a respective one of wiping plates located in each of the opening grooves; the spherical cover is provided therein with rotating shafts which are symmetrically located on both sides of the track block and extend in both directions, wherein the rotating shafts are slidably connected with the through grooves.

[0007] Preferably, the steering switching device includes a ramped ring that is sleeved

on the transmission shaft, wherein the transmission shaft is provided with a turntable located

at a lower end of the ramped ring, and the turntable is slidably connected therein with a

connecting rod extending vertically; the connecting rod is provided at an upper end thereof

with a ball abutted against the ramped ring, wherein a return spring is connected between a

lower side of the ball and an upper side of the turntable; a reciprocating disk at a lower end of

the turntable is rotatably connected to the transmission shaft; the reciprocating disk is

provided thereon with a restraining chute for abutting against the connecting rod, and an outer

diameter of the reciprocating disk is fixedly connected to a connecting barrel fixedly

connected to the slide rails, and a torque spring is connected between the reciprocating disc

and an inner wall of the transmission chamber.

[0008] Preferably, the water surface stirring devices include drive shafts which are

symmetrical rotatably connected to inner walls at both ends of the transmission chamber, and

each of the drive shafts is provided thereon with a respective one of reversing bevel gears

geared with the transmission bevel gear; each of the drive shafts is rotatably connected with a

respective one of stirring boxs located outside both ends of the transmission chamber, wherein

the stirring boxs are provided therein with closed chambers respectively, each of the drive

shafts is provided thereon with a respective one of drive gears located in each of the closed

chambers, and inner walls, away from the symmetry center, of the closed chambers are

rotatably connected to driven shafts which are vertically symmetrical, and each of the driven

shafts is provided thereon with a respective one of driven gears, and the driven gears are

geared with the drive gears; and each of the driven shafts is provided thereon with a

respective one of stirring plates, with each located outside, away from the symmetry center, of

each of the closed chambers; and the sluicing valve device includes a sliding chamber

disposed in the spherical valve; an inner wall at one end of the unlocking groove is sleeved

with a pull rod extending to both sides, wherein the pull rod extends into the sliding chamber, and a end of the pull rod is provided with a handle, and the pull rod is provided with a ratchet located at a side of the handle, and an inner wall at one end of the unlocking groove is provided with a ratchet lever abutted against the ratchet.

[0009] The invention has an advantageous effect that the mixing under a closed space is realized by a stirring structure which can be suspended inside the cup body, and a condition of contacting between the water and the human body during the stirring to cause damage to health of the human body can be avoided; in addition, a combination of water surface stirring and circumferential stirring underwater ensures the mixing ability and improves the mixing efficiency; and a hidden cleaning structure within the stirring device realizes the cleaning of the inner wall of the cup body, thereby solving a problem that a barrel structure cannot be easily cleaned by the human body.

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] For better description, the present invention is described in detail by the following specific embodiments and drawings.

[0011] FIG.1 is a schematic diagram of the overall structure of a mixing cup capable of automatically and uniformly shaking in this invention;

[0012] FIG.2 is a schematic structural diagram of the cleaning device in FIG.1.

DETAILED DESCRIPTION OF THE INVENTION

[0013] A mixing cup capable of automatically and uniformly shaking according to the present invention includes a cup base 10 with a liner chamber 11 therein, and a cup lid 54 is slidably connected to an outer side at a top end of the liner chamber 11; wherien the cup lid 54 and the cup base 10 are abutted against each other via semi-spherical balls 99 with elasticity, and when hot water is required to be stirred, a cup body can be closed; wherein the liner chamber 11 is provided therein with a water insulation box 17 in which a transmission chamber 19 is disposed, wherein the transmission chamber 19 is fixedly provided with a motor 50 in an inner wall at a top end thereof; a transmission shaft 49 extending through the transmission chamber 19 is in power connection with the motor 50, wherein an upper end of the transmission shaft 49 is provided with a suspension fixing device 100, wherein the transmission shaft 49 is provided with an underwater stirring device 200 located an outer side of a bottom of the transmission chamber 19, wherein the underwater stirring device 200 is provided therein with stirring blocks 68 in which cleaning devices 600 are arranged; the transmission shaft 49 is provided thereon with a steering switching device 300 which controls the underwater stirring device 200, and the transmission shaft 49 is provided thereon with a transmission bevel gear 51 located at an upper end of the steering switching device 300, and the transmission chamber 19 is rotatably connected at both ends thereof with water surface stirring devices 400 which are symmetrical, wherein, the water surface stirring devices 400 are controlled by the transmission bevel gear 51; a drain hole 29 is disposed in and communicates with an inner wall at a bottom end of the liner chamber 11, wherein the drain hole 29 is rotatably connected with a spherical valve 27 therein; the liner chamber 11 is provided therein with an unlocking groove 34 located on a side of the drain hole 29, and the unlocking groove 34 is provided therein with a sluicing valve device 500 to control the spherical valve 27; and the underwater stirring device 200 is rotated to achieve overall stirring in circumferential range.

[0014] Advantageously, the suspension fixing device 100 includes a buoyancy plate 52 connected to an upper end of the transmission shaft 49, wherein the buoyancy plate 52 is provided therein with chutes 48 which are symmetrical, and the chutes 48 are slidably connected with centrifugal rods 47 therein respectively; tension springs 53 are connected between the centrifugal rods 47 and the chutes 48 respectively, and ends of the centrifugal rods 47, away from a symmetry center, are respectively connected with docking plates 46 which are abutted against an inner wall of the liner chamber 11.

[0015] Advantageously, the underwater stirring device 200 includes therein a spherical

cover 26 rotatably connected to a lower end of the transmission shaft 49, and the transmission

shaft 49 is provided with a track block 37 located within the spherical cover 26, wherein the

spherical cover 26 is provided therein with openings 98 located at two ends of the track block

37; the openings 98 are fixedly and respectively connected therein with slide rails 25 which

are vertically symmetrical, wherein the slide rails 25 are slidably connected therein with

restraining rods 36, and restraining springs 38 are connected between the restraining rods 36

and the openings 98 respectively; swinging arms 23 extending to both sides are fixedly

connected respectively at sides of the restraining rods 36 approaching each other, wherein the

swinging arms 23 are respectively provided therein with through grooves 24 extending

through in both directions; the stirring blocks 68 are respectively connected at ends, away

from the symmetry center, of the through grooves 24 and the stirring blocks 68 are provided

therein with the cleaning devices 600 respectively, wherein each of the cleaning devices 600

include a respective one of piston chambers 67 disposed in each of the stirring blocks 68,

wherein hydraulic machines 55 are respectively embedded in inner walls at sides, close to the

symmetry center, of the piston chambers 67, and the hydraulic machines 55 are in power

connection with hydraulic rods 56 respectively at ends thereof away from the symmetry

center; the hydraulic rods 56 are respectively connected with piston plates 57 at ends thereof

away from the symmetry center, each of the stirring blocks 68 is provided therein with a

respective one of grooves 61 with each located at a end, away from the symmetry center, of

each of the piston chambers 67; water blocking plates 58 which are vertically symmetrical are

rotatably connected to the grooves 61 respectively; the grooves 61 are slidably connected in

inner walls thereof being close to the symmetry center with push rods 59 extending to both

sides, wherein each of the push rods 59 is provided thereon with a respective one of sealing

discs 63 located in each of the piston chambers 67, and compression springs 62 are connected

between the sealing discs 63 and inner walls of the piston chambers 67 respectively, and the

push rods 59 are respectively provided thereon with cleaning brushes 60 rotatably connected

thereto; each of the stirring blocks 68 is provided therein with a respective one of opening

grooves 66 symmetrically located at upper and lower ends of each of the piston chambers 67; the opening grooves 66 are slidably connected with buoyancy balls 64 extending vetically in inner walls thereof being close to a symmetry center, wherein each of the buoyancy balls 64 is provided with a respective one of wiping plates 65 located in each of the opening grooves 66; the spherical cover 26 is provided therein with rotating shafts 35 which are symmetrically located on both sides of the track block 37 and extend in both directions, wherein the rotating shafts 35 are slidably connected with the through grooves 24.

[0016] Advantageously, the steering switching device 300 includes a ramped ring 18

that is sleeved on the transmission shaft 49, wherein the transmission shaft 49 is provided

with a turntable 41 located at a lower end of the ramped ring 18, and the turntable 41 is

slidably connected therein with a connecting rod 40 extending vertically; the connecting rod

is provided at an upper end thereof with a ball 42 abutted against the ramped ring 18,

wherein a return spring 69 is connected between a lower side of the ball 42 and an upper side

of the turntable 41; a reciprocating disk 21 at a lower end of the turntable 41 is rotatably

connected to the transmission shaft 49; the reciprocating disk 21 is provided thereon with a

restraining chute 20 for abutting against the connecting rod 40, and an outer diameter of the

reciprocating disk 21 is fixedly connected to a connecting barrel 22 fixedly connected to the

slide rails 25, and a torque spring 39 is connected between the reciprocating disc 21 and an

inner wall of the transmission chamber 19.

[0017] Advantageously, the water surface stirring devices 400 include drive shafts 43

which are symmetrical rotatably connected to inner walls at both ends of the transmission

chamber 19, and each of the drive shafts 43 is provided thereon with a respective one of

reversing bevel gears 16 geared with the transmission bevel gear 51; each of the drive shafts

43 is rotatably connected with a respective one of stirring boxs 45 located outside both ends

of the transmission chamber 19, wherein the stirring boxs 45 are provided therein with closed

chambers 44 respectively, each of the drive shafts 43 is provided thereon with a respective

one of drive gears 14 located in each of the closed chambers 44, and inner walls, away from

the symmetry center, of the closed chambers 44 are rotatably connected to driven shafts 13 which are vertically symmetrical, and each of the driven shafts 13 is provided thereon with a respective one of driven gears 15, and the driven gears 15 are geared with the drive gears 14; and each of the driven shafts 13 is provided thereon with a respective one of stirring plates 12

, with each located outside, away from the symmetry center, of each of the closed chambers 44;

and the sluicing valve device 500 includes a sliding chamber 28 disposed in the spherical

valve 27; an inner wall at one end of the unlocking groove 34 is sleeved with a pull rod 30

extending to both sides, wherein the pull rod 30 extends into the sliding chamber 28, and a

end of the pull rod 30 is provided with a handle 33, and the pull rod 30 is provided with a

ratchet 32 located at a side of the handle 33, and an inner wall at one end of the unlocking

groove 34 is provided with a ratchet lever 31 abutted against the ratchet 32.

[0018] In an initial state, the motor 50 is turned off, and a through hole of the spherical

valve 27 is placed perpendicular to the drain hole 29, such that the liner chamber 11 is a

closed chamber.

[0019] When the device is in operation, water and mixture are poured into the liner

chamber 11 to cover the cup lid 54, and the presence of the buoyancy plate 52 causes the

water insulation box 17 to suspend and the stirring boxes 45 to float on a water surface, and

then the motor 50 is started to make the buoyancy plate 52, the transmission bevel gear 51,

the turntable 41 and the track block 37 rotate through the transmission shaft 49; and the

buoyancy plate 52 rotates to centrifugally push the centrifugal rods 47 such that the docking

plates 46 are abutted against the inner wall of the liner chamber 11; a height of the device is

fixed, and the transmission bevel gear 51 transmits rotation sequentially to the reversing bevel

gears 16 through gear connection, and the reversing bevel gears 16 make the drive gears 14

rotate through the drive shafts 43; and the drive gears 14 make the driven gears 15 rotate

through gear connection, and finally the driven shafts 13 make the stirring plates 12 rotate,

and a material to be dissolved floating on the water surface is stirred into the water; and the

track block 37 is slidably connected to the swinging arms 23 such that the swinging arms 23

swing according to vertical sliding of the restraining rods 36 within the slid rails 25, and the mixture in the water is fully stirred; and the turntable 41 rotates, in this way, through change of a height difference on the ramped ring 18, the connecting rod 40 extends into the restraining chute 20 to rotate the connecting barrel 22, and thus the torque spring 39 accumulates dynamic potential energy; when the connecting rod 40 is located in the restraining chute 20 and make the spherical cover 26 rotate counterclockwise through the connecting barrel 22, and when a position height of the ramped ring 18 is insufficient, the connecting rod 40 is moved up to disengage from the restraining chute 20 due to an elastic recovery of the return spring 69, and clockwise rotation is recovered due to elastic recovery of the torque spring 39, thereby achieving a full range of stirring and mixing;

[0020] When it is necessary to clean an inside of a cup, fresh water is added and the

hydraulic machines 55 are started to push the hydraulic rods 56 to drive the piston plates 57 to

compress air in the piston chambers 67, thus pushing the buoyancy balls 64 to move the

wiping plates 65 out of the opening grooves 66, and driving the sealing discs 63 to push the

push rods 59 to push the cleaning brushes 60 out of the grooves 61 to clean an inner wall of

the cup; and after a period of time, the pull rod 30 is pulled to a side, and the ratchet 32 is

disengaged from the abutment with the ratchet lever 31, and the handle 33 is rotated to make

the spherical valve 27 rotate to drain the water from the drain hole 29 via the spherical valve

27, and the drain hole 29 is closed during reverse rotation to achieve cleaning of the inner

wall of the cup body in different heights due to changes in the water height.

[0021] The invention has an advantageous effect that the mixing under a closed space is

realized by a stirring structure which can be suspended inside the cup body, and a condition of

contacting between the water and the human body during the stirring to cause damage to

health of the human body can be avoided; in addition, a combination of water surface stirring

and circumferential stirring underwater ensures the mixing ability and improves the mixing

efficiency; and a hidden cleaning structure within the stirring device realizes the cleaning of

the inner wall of the cup body, thereby solving a problem that a barrel structure cannot be

easily cleaned by the human body.

[0022] In the above manner, those skilled in the art can make various changes

depending on the mode of operation within the scope of the present invention.

Claims (5)

1. A mixing cup capable of automatically and uniformly shaking, comrpising:

a cup base with a liner chamber therein;

a cup lid slidably connected to an outer side at a top end of the liner chamber;

wherien the cup lid 54 and the cup base are abutted against each other via semi-spherical balls

with elasticity, and when hot water is required to be stirred, a cup body can be closed;

wherein the liner chamber is provided therein with a water insulation box in which a

transmission chamber is disposed,

wherein the transmission chamber is fixedly provided with a motor in an inner wall at a top

end thereof;

a transmission shaft extending through the transmission chamber in power connection with

the motor,

wherein an upper end of the transmission shaft is provided with a suspension fixing device,

wherein the transmission shaft is provided with an underwater stirring device located an outer

side of a bottom of the transmission chamber,

wherein the underwater stirring device is provided therein with stirring blocks in which

cleaning devices are arranged; wherein the transmission shaft is provided thereon with a steering switching device which controls the underwater stirring device, and the transmission shaft is provided thereon with a transmission bevel gear located at an upper end of the steering switching device, and the transmission chamber is rotatably connected at both ends thereof with water surface stirring devices which are symmetrical, wherein, the water surface stirring devices are controlled by the transmission bevel gear; a drain hole disposed in and communicates with an inner wall at a bottom end of the liner chamber, wherein the drain hole is rotatably connected with a spherical valve therein; wherein the liner chamber is provided therein with an unlocking groove located on a side of the drain hole, and the unlocking groove is provided therein with a sluicing valve device, whereby the sluicing valve device controls the spherical valve, and the underwater stirring device is rotated to achieve overall stirring in circumferential range.

2. The mixing cup of claim 1,

wherein the suspension fixing device includes a buoyancy plate connected to an upper end of the transmission shaft,

wherein the buoyancy plate is provided therein with chutes which are symmetrical, and the chutes are slidably connected with centrifugal rods therein respectively;

tension springs are connected between the centrifugal rods and the chutes respectively, and ends of the centrifugal rods, away from a symmetry center, are respectively connected with docking plates which are abutted against an inner wall of the liner chamber.

3. The mixing cup of claim 1,

wherein the underwater stirring device includes therein a spherical cover rotatably connected to a lower end of the transmission shaft, and the transmission shaft is provided with a track block located within the spherical cover,

wherein the spherical cover is provided therein with openings located at two ends of the track block;

the openings are fixedly and respectively connected therein with slide rails which are vertically symmetrical,

wherein the slide rails are slidably connected therein with restraining rods, and restraining springs are connected between the restraining rods and the openings respectively;

swinging arms extending to both sides are fixedly connected respectively at sides of the restraining rods approaching each other,

wherein the swinging arms are respectively provided therein with through grooves extending through in both directions;

the stirring blocks are respectively connected at ends, away from the symmetry center, of the through grooves and the stirring blocks are provided therein with the cleaning devices respectively,

wherein each of the cleaning devices include a respective one of piston chambers disposed in each of the stirring blocks, wherein hydraulic machines are respectively embedded in inner walls at sides, close to the symmetry center, of the piston chambers, and the hydraulic machines are in power connection with hydraulic rods respectively at ends thereof away from the symmetry center; the hydraulic rods are respectively connected with piston plates at ends thereof away from the symmetry center, and each of the stirring blocks is provided therein with a respective one of grooves with each located at a end, away from the symmetry center, of each of the piston chambers; water blocking plates which are vertically symmetrical are rotatably connected to the grooves respectively; the grooves are slidably connected in inner walls thereof being close to the symmetry center with push rods extending to both sides, wherein each of the push rods is provided thereon with a respective one of sealing discs located in each of the piston chambers, and compression springs are connected between the sealing discs and inner walls of the piston chambers respectively, and the push rods are respectively provided thereon with cleaning brushes rotatably connected thereto; each of the stirring blocks is provided therein with a respective one of opening grooves symmetrically located at upper and lower ends of each of the piston chambers; the opening grooves are slidably connected with buoyancy balls extending vetically in inner walls thereof being close to a symmetry center, wherein each of the buoyancy balls is provided with a respective one of wiping plates located in each of the opening grooves; the spherical cover is provided therein with rotating shafts which are symmetrically located on both sides of the track block and extend in both directions, wherein the rotating shafts are slidably connected with the through grooves.

4. The mixing cup of claim 1 or claim 3, wherein the steering switching device includes a

ramped ring that is sleeved on the transmission shaft,

wherein the transmission shaft is provided with a turntable located at a lower end of the

ramped ring, and the turntable is slidably connected therein with a connecting rod extending

vertically;

the connecting rod is provided at an upper end thereof with a ball abutted against the ramped

ring,

wherein a return spring is connected between a lower side of the ball and an upper side of the

turntable;

a reciprocating disk at a lower end of the turntable is rotatably connected to the transmission

shaft;

the reciprocating disk is provided thereon with a restraining chute for abutting against the

connecting rod, and an outer diameter of the reciprocating disk is fixedly connected to a

connecting barrel fixedly connected to the slide rails, and a torque spring is connected

between the reciprocating disc and an inner wall of the transmission chamber.

5. The mixing cup of claim 1, wherein the water surface stirring devices include drive

shafts which are symmetrical rotatably connected to inner walls at both ends of the

transmission chamber, and each of the drive shafts is provided thereon with a respective one

of reversing bevel gears geared with the transmission bevel gear; each of the drive shafts is rotatably connected with a respective one of stirring boxs located outside both ends of the transmission chamber, wherein the stirring boxs are provided therein with closed chambers respectively; each of the drive shafts is provided thereon with a respective one of drive gears located in each of the closed chambers, wherein inner walls, away from the symmetry center, of the closed chambers are rotatably connected to driven shafts which are vertically symmetrical; wherein each of the driven shafts is provided thereon with a respective one of driven gears, and the driven gears are geared with the drive gears, and each of the driven shafts is provided thereon with a respective one of stirring plates, with each located outside, away from the symmetry center, of each of the closed chambers; the sluicing valve device includes a sliding chamber disposed in the spherical valve; an inner wall at one end of the unlocking groove is sleeved with a pull rod extending to both sides, wherein the pull rod extends into the sliding chamber, and a end of the pull rod is provided with a handle, and the pull rod is provided with a ratchet located at a side of the handle, and an inner wall at one end of the unlocking groove is provided with a ratchet lever abutted against the ratchet.