CN112239961A - A agitating unit that is arranged in paper pulp of waste paper case system to get rid of printing ink - Google Patents

Abstract

The invention discloses a stirring device for removing printing ink from paper pulp made of waste paper boxes, which comprises a machine body and is characterized in that: the paper pulp stirring machine is characterized in that a first space is arranged in the machine body, a power mechanism for driving the stirring of the crushed waste paper box and water is arranged in the first space, an air inlet mechanism for inflating the paper pulp is arranged in the first space, a second space is arranged on the lower side of the first space, and a paper pulp mixing mechanism is arranged in the second space.

Description

A agitating unit that is arranged in paper pulp of waste paper case system to get rid of printing ink

Technical Field

The invention belongs to the related field of waste paper box treatment, and particularly relates to a stirring device for removing printing ink in paper pulp made of a waste paper box.

Background

With the continuous progress of our society, our lives are convenient and fast in the coming months, wherein logistics are developed most rapidly, and the packaging carton is an indispensable part of modern logistics, and bears the important responsibility of containing, protecting products and beautifying, and meanwhile, the yield of the waste cartons is increased more and more;

when traditional made paper pulp when carrying out recycle to the carton, the printing ink in the paper pulp is got rid of thoroughly, causes the fibre to run off great when getting rid of printing ink simultaneously, and the waste water volume is also great.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a stirring device for removing printing ink from paper pulp made from a waste paper box.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a agitating unit that is arranged in paper pulp of waste paper case system to get rid of printing ink, includes the organism, its characterized in that: the paper pulp mixing machine is characterized in that a first space is arranged in the machine body, a power mechanism used for driving the stirring of broken waste paper boxes and water is arranged in the first space, an air inlet mechanism used for inflating paper pulp is arranged in the first space, a second space is arranged on the lower side of the first space, a paper pulp mixing mechanism is arranged in the second space, the mixing mechanism is used for mixing the waste paper boxes and the water in a stirring mode and discharging ink in the paper pulp, an air inlet assembly and a stirring assembly are arranged in the mixing mechanism, the air inlet assembly is used for inflating air in the paper pulp after the stirring is completed, and the stirring assembly is used for stirring the waste paper boxes and the water.

Preferably, the power mechanism comprises a power motor fixedly mounted on the upper side wall of the first space, the output end of the power motor is fixedly connected with a power spline shaft, and the power spline shaft extends downwards to penetrate through the lower side wall of the first space to enter the second space. When the power motor is started, the power spline shaft is driven to rotate.

Preferably, the air inlet mechanism comprises an air inlet flow passage communicated with the right side wall of the first space, the upper end surface of the machine body is fixedly connected with an air blower, an air outlet of the air blower is communicated with the air inlet flow passage, the right side wall of the first space is fixedly connected with a communicating box body, a communicating cavity is arranged in the communicating box body, the right side wall of the communicating cavity is communicated with the air inlet flow passage, a mixing cylinder is sleeved on the power spline shaft and is in splined connection with the power spline shaft, the mixing cylinder extends downwards to penetrate through the lower side wall of the first space to enter the second space, a gap is formed between the mixing cylinder and the upper side wall of the second space, an air receiving box body is sleeved on the mixing cylinder and does not rotate along with the mixing cylinder, and the air receiving box body is in sliding connection with the power spline shaft, the lower end face of the gas receiving box body is fixedly connected with two fixed sliding columns, the two fixed sliding columns are distributed in bilateral symmetry about the central line of the gas receiving box body, the two fixed sliding columns are connected with the lower side wall of the first space in a sliding mode, the fixed sliding columns slide up and down relative to the lower side wall of the first space, a gas receiving cavity is formed in the gas receiving box body, when the gas receiving box body slides up, the gas receiving box body is connected with the communicating cavity in a sliding mode, the gas receiving cavity is communicated with the communicating cavity, a reset spring is sleeved on the mixing cylinder, one end of the reset spring is connected with the lower end face of the gas receiving box body, and the other end of the reset spring is connected with the lower side wall of the first space.

The air receiving cavity is not communicated with the communicating cavity in an initial state, the reset spring is in a normal length, when the power motor is started, the power spline shaft is driven to rotate, so that the mixing cylinder is driven to rotate, and the mixing mechanism arranged on the mixing cylinder enables the mixing cylinder to slide upwards when rotating, so that the air receiving box body is driven to slide upwards, the reset spring is stretched, so that the bulge on the right side of the air receiving box body slides into the communicating cavity, so that the communicating cavity is communicated with the air receiving cavity, and air generated in the air blower enters the air receiving cavity.

Preferably, the mixing mechanism comprises two bearing sliding columns which are slidably connected and installed on the lower side wall of the second space, the two bearing sliding columns are bilaterally and symmetrically distributed about the center line of the second space, the bearing sliding columns slide up and down relative to the lower side wall of the second space, the upper end faces of the two bearing sliding columns are fixedly connected with bearing plates, each bearing sliding column is sleeved with a bearing spring, one end of each bearing spring is connected with the lower end face of each bearing plate, the other end of each bearing spring is connected with the lower side wall of the second space, the upper side wall of the second space is communicated with a feeding space with an upward opening, the feeding space is used for entering waste cartons, the right side wall of the second space is communicated with a water inlet channel inclining upwards, the right side opening of the water inlet channel is connected with an external water source, and the right side wall of the second space is communicated with a discharge space with a right, fixedly connected with discharge valve between the last lower lateral wall in discharge space, be provided with the drum chamber in the hybrid cylinder, the drum chamber go up the lateral wall with connect the gas chamber to be linked together, four articulated blocks of fixedly connected with on the hybrid cylinder outside terminal surface, every be provided with articulated connection chamber in the articulated block respectively, articulated connection chamber with the drum chamber is linked together, every be equipped with air inlet assembly and stirring subassembly on the articulated connection chamber respectively. The air inlet assembly comprises a semi-circular arc-shaped ring box body fixedly connected and installed on the upper end face of the hinge block, the arc end of the ring box body is fixedly connected with the outer end face of the mixing cylinder, a ring transmission cavity is arranged in the ring box body, the ring transmission cavity is communicated with the hinge connection cavity, the right arc-shaped wall of the ring transmission cavity is communicated with a ring cavity opening facing the mixing cylinder, the upper side wall and the lower side wall of the ring cavity opening are communicated with arc-shaped chutes, arc-shaped sliding blocks are connected in the arc-shaped chutes in a sliding manner, the upper end face of each arc-shaped sliding block is fixedly connected with a switch push rod, the switch push rod extends through the ring box body towards the mixing cylinder, switch springs are connected between the upper end face of the switch push rod and the upper side wall of each arc-shaped chute, and arc-shaped openings which penetrate, when the arc-shaped sliding block slides upwards, the arc-shaped opening is communicated with the annular cavity through opening; the stirring subassembly is including articulating linking arm on the articulated piece, the linking arm lower extreme articulates there is the stirring arm, the stirring arm with ring box sliding connection, the stirring arm winds articulated piece is in slide on the ring box circular arc, be provided with the stirring chamber in the stirring arm, the stirring chamber from top to bottom the lateral wall all with ring box sliding connection, side wall intercommunication has the stirring to go out the gas chamber under the stirring chamber, works as the stirring arm along when the ring box up slided, the stirring arm up end with switch push rod butt, the ring chamber opening with the stirring chamber is linked together.

In an initial state, the switch spring is in a normal state, the discharge valve is closed, the arc-shaped opening is not communicated with the annular cavity through opening, the annular cavity through opening is not communicated with the stirring cavity, when the waste carton enters the second space from the feeding space, the weight of the carton presses the bearing plate to slide downwards so as to drive the bearing sliding column to slide downwards so as to extrude the bearing spring, at the moment, an external water source is opened, so that the water enters the second space from the water inlet channel, the hinge block is driven to rotate due to the rotation of the mixing cylinder, so that the annular box body is driven to rotate, so that the stirring arm is driven to rotate, the waste carton and the water are stirred, and the stirring arm drives the mixing cylinder to slide upwards due to the centrifugal action of the stirring arm, so that the stirring arm is driven to slide on the arc of the annular box body around the hinge block, at the moment, because the waste carton is not pulped yet, the resistance of the stirring arm in water is large, after the carton is pulped, the resistance of the stirring arm in the grout is small, so that the stirring arm continuously slides on the circular arc of the circular ring box body around the hinge block and is abutted to the switch push rod, the switch push rod is driven to slide along the arc-shaped sliding groove, the switch spring is extruded, the arc-shaped opening is communicated with the circular cavity through opening, the circular cavity through opening is communicated with the stirring cavity, air blown in the air blowing machine enters the circular cylinder cavities, enters the hinge connection cavity, enters the circular ring transmission cavity, enters the stirring air outlet cavity, rotates along with the stirring arm, and is uniformly filled into the grout, the ink in the pulp is discharged to the liquid level of the pulp by utilizing the principle of a flotation method, and air is uniformly filled into the pulp while the pulp is fully stirred, so that the problem that the ink in the pulp is not discharged cleanly is avoided, the purity of the pulp is greatly improved, and the quality of the produced paper material is further greatly improved.

The invention has the beneficial effects that: the invention not only can effectively stir the paper pulp, but also can automatically and uniformly charge air according to the forming degree of the paper pulp so that the paper pulp is fully contacted with the air, the ink in the slurry is discharged onto the liquid level of the slurry by utilizing the flotation principle, and the air is uniformly charged into the slurry while fully stirring, so that the problem that the ink in the slurry is not discharged cleanly is avoided, the purity of the slurry is greatly improved, and the quality of the produced paper material is greatly improved.

Drawings

Fig. 1 is a sectional view showing the entire structure of the waste paper box pulp making apparatus.

Fig. 2 is a partially enlarged schematic view of the invention at a in fig. 1.

Fig. 3 is a partially enlarged schematic view of the invention at B in fig. 1.

Fig. 4 is an enlarged partial schematic view of the invention at C in fig. 1.

Fig. 5 is an enlarged partial schematic view of the invention at D in fig. 1.

Fig. 6 is an enlarged partial schematic view at E of fig. 4 of the present invention.

Fig. 7 is an enlarged partial schematic view of the invention at F in fig. 4.

In the figure, a machine body 10; an air blower 11; an intake runner 12; a first space 13; a power motor 14; a power spline shaft 15; a gas receiver box 16; a feeding space 17; a second space 18; a water inlet flow passage 19; a mixing cylinder 20; a cylindrical cavity 21; a bearing plate 22; the discharge space 23; a discharge valve 24; a load bearing spring 25; a load-bearing strut 26; a communicating tank body 27; a communication chamber 28; an air receiving chamber 29; a stationary spool 30; a return spring 31; an annular case 32; an annular transfer chamber 33; a hinge block 34; the hinge connection chamber 35; a connecting arm 36; a stirring arm 37; a stir chamber 38; a stirring air outlet cavity 39; an arc-shaped chute 41; a switch spring 42; a switch push rod 43; an arc slider 44; an annular cavity through opening 45; an arcuate opening 46.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a stirring device for removing ink from paper pulp made of waste paper boxes includes a machine body 10, and is characterized in that: the paper pulp mixing machine is characterized in that a first space 13 is arranged in the machine body 10, a power mechanism used for driving broken waste paper boxes and water to be mixed is arranged in the first space 13, an air inlet mechanism used for inflating paper pulp is arranged in the first space 13, a second space 18 is arranged on the lower side of the first space 13, a paper pulp mixing mechanism is arranged in the second space 18, the mixing mechanism is used for mixing the waste paper boxes and water and discharging ink in the paper pulp, an air inlet assembly and a stirring assembly are arranged in the mixing mechanism, the air inlet assembly is used for inflating air in the paper pulp after the mixing is completed, and the stirring assembly is used for stirring the waste paper boxes and the water.

As shown in fig. 1, the power mechanism includes a power motor 14 fixedly mounted on the upper side wall of the first space 13, an output end of the power motor 14 is fixedly connected with a power spline shaft 15, and the power spline shaft 15 extends downward to penetrate through the lower side wall of the first space 13 to enter the second space 18. When the power motor 14 is started, the power spline shaft 15 is driven to rotate.

Referring to fig. 1, 2 and 3, the air intake mechanism includes an air intake channel 12 communicating with a right side wall of the first space 13, an air blower 11 is fixedly connected to an upper end surface of the machine body 10, an air outlet of the air blower 11 is communicated with the air intake channel 12, a communicating box 27 is fixedly connected to the right side wall of the first space 13, a communicating chamber 28 is provided in the communicating box 27, a right side wall of the communicating chamber 28 is communicated with the air intake channel 12, a mixing cylinder 20 is sleeved on the power spline shaft 15, the mixing cylinder 20 is spline-connected to the power spline shaft 15, the mixing cylinder 20 extends downward to penetrate through the lower side wall of the first space 13 to enter the second space 18, a gap exists between the mixing cylinder 20 and the upper side wall of the second space 18, an air receiving box 16 is sleeved on the mixing cylinder 20, and the air receiving box 16 does not rotate along with the mixing cylinder 20, the gas receiving box body 16 is connected with the power spline shaft 15 in a sliding mode, the lower end face of the gas receiving box body 16 is fixedly connected with two fixed sliding columns 30, the two fixed sliding columns 30 are distributed in bilateral symmetry about the central line of the gas receiving box body 16, the two fixed sliding columns 30 are connected with the lower side wall of the first space 13 in a sliding mode, the fixed sliding columns 30 slide up and down relative to the lower side wall of the first space 13, a gas receiving cavity 29 is arranged in the gas receiving box body 16, when the gas receiving box body 16 slides upwards, the gas receiving box body 16 is connected with the communication cavity 28 in a sliding mode, the gas receiving cavity 29 is communicated with the communication cavity 28, a reset spring 31 is sleeved on the mixing cylinder 20, one end of the reset spring 31 is connected with the lower end face of the gas receiving box body 16, and the other end of the reset spring is connected with the lower side wall.

The air receiving cavity 29 is not communicated with the communicating cavity 28 in the initial state, the return spring 31 has a normal length, when the power motor 14 is turned on, the power spline shaft 15 is driven to rotate, so that the mixing cylinder 20 is driven to rotate, and due to the mixing mechanism arranged on the mixing cylinder 20, the mixing cylinder 20 slides upwards when rotating, so that the air receiving box body 16 is driven to slide upwards, so that the return spring 31 is stretched, so that the bulge on the right side of the air receiving box body 16 slides into the communicating cavity 28, so that the communicating cavity 28 is communicated with the air receiving cavity 29, and air generated in the air blower 11 enters the air receiving cavity 29.

Referring to fig. 1, fig. 4, fig. 5, fig. 6 and fig. 7, the mixing mechanism includes two bearing sliding pillars 26 installed on the lower side wall of the second space 18 in a sliding manner, two bearing sliding pillars 26 are distributed in a bilateral symmetry manner about the center line of the second space 18, the bearing sliding pillars 26 slide up and down relative to the lower side wall of the second space 18, two bearing plates 22 are fixedly connected to the upper end surfaces of the bearing sliding pillars 26, each bearing sliding pillar 26 is sleeved with a bearing spring 25, one end of each bearing spring 25 is connected to the lower end surface of the corresponding bearing plate 22, the other end of each bearing spring is connected to the lower side wall of the second space 18, the upper side wall of the second space 18 is communicated with a feeding space 17 with an upward opening, the feeding space 17 is used for entering of waste cartons, the right side wall of the second space 18 is communicated with a water inlet channel 19 inclined upward to the right, the right side opening of the water inlet channel 19 is connected with, the right side wall of the second space 18 is communicated with a discharge space 23 with a right opening, a discharge valve 24 is fixedly connected between the upper side wall and the lower side wall of the discharge space 23, a cylinder cavity 21 is arranged in the mixing cylinder 20, the upper side wall of the cylinder cavity 21 is communicated with the air receiving cavity 29, four hinge blocks 34 are fixedly connected to the end face of the outer side of the mixing cylinder 20, each hinge block 34 is respectively provided with a hinge connection cavity 35, the hinge connection cavity 35 is communicated with the cylinder cavity 21, and each hinge connection cavity 35 is respectively provided with an air inlet assembly and a stirring assembly. The air inlet assembly comprises a semi-circular arc-shaped ring box body 32 fixedly connected and installed on the upper end face of the hinge block 34, the arc end of the ring box body 32 is fixedly connected with the outer end face of the mixing cylinder 20, a ring transmission cavity 33 is arranged in the ring box body 32, the ring transmission cavity 33 is communicated with the hinge connection cavity 35, the right side arc wall of the ring transmission cavity 33 is communicated with a ring cavity through hole 45 with an opening facing the direction of the mixing cylinder 20, the upper side wall and the lower side wall of the ring cavity through hole 45 are communicated with an arc-shaped arc sliding groove 41, an arc-shaped sliding block 44 is connected in the arc-shaped sliding groove 41 in a sliding manner, the upper end face of the arc-shaped sliding block 44 is fixedly connected with a switch push rod 43, the switch push rod 43 extends through the ring box body 32 towards the direction of the mixing cylinder 20, and a switch spring 42 is connected between the upper end face, an arc opening 46 which penetrates through the arc sliding block 44 from left to right is arranged in the arc sliding block 44, and when the arc sliding block 44 slides upwards, the arc opening 46 is communicated with the annular cavity through opening 45; stirring subassembly is including articulating linking arm 36 on articulated piece 34, the 36 lower extreme of linking arm articulates there is stirring arm 37, stirring arm 37 with ring box 32 sliding connection, stirring arm 37 winds articulated piece 34 is in slide on the ring box 32 circular arc, be provided with stirring chamber 38 in the stirring arm 37, stirring chamber 38 about the lateral wall all with ring box 32 sliding connection, stirring chamber 38 downside wall intercommunication has stirring air outlet chamber 39, works as stirring arm 37 along when ring box 32 up slides, stirring arm 37 up end with switch push rod 43 butt, ring chamber opening 45 with stirring chamber 38 is linked together.

In the initial state, the switch spring 42 is in the normal state, the discharge valve 24 is closed, the arc-shaped opening 46 is not communicated with the annular cavity through opening 45, the annular cavity through opening 45 is not communicated with the stirring cavity 38, when the waste carton enters the second space 18 from the feeding space 17, the weight of the carton presses the bearing plate 22 to slide downwards, so as to drive the bearing sliding column 26 to slide downwards, so as to squeeze the bearing spring 25, at this time, the external water source is opened, so that the water enters the second space 18 from the water inlet channel 19, as the mixing cylinder 20 rotates, the hinge block 34 is driven to rotate, so as to drive the annular box body 32 to rotate, so as to drive the stirring arm 37 to rotate, so as to stir the waste carton and the water, as the stirring arm 37 performs centrifugal action, so as to drive the mixing cylinder 20 to slide upwards, so that the stirring arm 37 is driven to slide on the circular arc of the circular ring box 32 around the hinge block 34, at this time, because the waste carton is not yet pulped, the resistance of the stirring arm 37 in the water is large, when the carton is pulped, the resistance of the stirring arm 37 in the grout becomes small, so that the stirring arm 37 continues to slide on the circular arc of the circular ring box 32 around the hinge block 34 to abut against the switch push rod 43, so that the switch push rod 43 is driven to slide along the arc chute 41, so as to press the switch spring 42, so that the arc opening 46 is communicated with the circular ring cavity through opening 45, so that the circular ring cavity through opening 45 is communicated with the stirring cavity 38, so that the air blown in the air blower 11 enters into the multiple cylindrical cavities 21 into the hinge connection cavity 35 to enter into the circular ring transmission cavity 33, the ink is discharged to the liquid level of the slurry by utilizing the principle of a flotation method, and the air is uniformly charged into the slurry while fully stirring, so that the problem that the ink in the slurry is not discharged cleanly is avoided, the purity of the slurry is greatly improved, and the quality of the produced paper material is greatly improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A agitating unit for getting rid of printing ink in paper pulp that is made of waste paper case, includes organism (10), its characterized in that: the paper pulp mixing machine is characterized in that a first space (13) is arranged in the machine body (10), a power mechanism used for driving broken waste paper boxes and water to be stirred is arranged in the first space (13), an air inlet mechanism used for inflating paper pulp is arranged in the first space (13), a second space (18) is arranged on the lower side of the first space (13), a paper pulp mixing mechanism is arranged in the second space (18), the mixing mechanism is used for mixing the waste paper boxes and the water in a stirring mode and discharging ink in the paper pulp, an air inlet assembly and a stirring assembly are arranged in the mixing mechanism, the air inlet assembly is used for filling air in the paper pulp after stirring is completed, and the stirring assembly is used for stirring the waste paper boxes and the water.

2. An agitation apparatus for removing ink from a pulp made from a waste paper box according to claim 1, wherein: the power mechanism comprises a power motor (14) fixedly installed on the upper side wall of the first space (13), the output end of the power motor (14) is fixedly connected with a power spline shaft (15), and the power spline shaft (15) extends downwards to penetrate through the lower side wall of the first space (13) to enter the second space (18).

3. An agitation apparatus for removing ink from a pulp made from a waste paper box according to claim 1, wherein: the air inlet mechanism comprises an air inlet flow channel (12) communicated with the right side wall of the first space (13), the upper end face of the machine body (10) is fixedly connected with an air blower (11), the air outlet of the air blower (11) is communicated with the air inlet flow channel (12), the right side wall of the first space (13) is fixedly connected with a communicating box body (27), a communicating cavity (28) is arranged in the communicating box body (27), the right side wall of the communicating cavity (28) is communicated with the air inlet flow channel (12), a mixing cylinder (20) is sleeved on the power spline shaft (15), the mixing cylinder (20) is in spline connection with the power spline shaft (15), the mixing cylinder (20) extends downwards to penetrate through the lower side wall of the first space (13) to enter the second space (18), and a gap exists between the mixing cylinder (20) and the upper side wall of the second space (18), the gas receiving box body (16) is sleeved on the mixing cylinder (20), the gas receiving box body (16) does not rotate along with the mixing cylinder (20), the gas receiving box body (16) is connected with the power spline shaft (15) in a sliding manner, two fixed sliding columns (30) are fixedly connected to the lower end face of the gas receiving box body (16), the two fixed sliding columns (30) are distributed in a bilateral symmetry manner relative to the central line of the gas receiving box body (16), the two fixed sliding columns (30) are connected with the lower side wall of the first space (13) in a sliding manner, the fixed sliding columns (30) slide up and down relative to the lower side wall of the first space (13), a gas receiving cavity (29) is arranged in the gas receiving box body (16), when the gas receiving box body (16) slides up, the gas receiving box body (16) is connected with the communicating cavity (28) in a sliding manner, and the gas receiving cavity (29) is communicated with the communicating cavity (28), the mixing cylinder (20) is sleeved with a return spring (31), one end of the return spring (31) is connected with the lower end face of the gas receiving box body (16), and the other end of the return spring is connected with the lower side wall of the first space (13).

4. An agitation apparatus for removing ink from a pulp made from a waste paper box according to claim 1, wherein: the mixing mechanism comprises two bearing sliding columns (26) which are installed on the lower side wall of the second space (18) in a sliding connection mode, the two bearing sliding columns (26) are distributed in a bilateral symmetry mode relative to the center line of the second space (18), the bearing sliding columns (26) slide up and down relative to the lower side wall of the second space (18), the upper end faces of the two bearing sliding columns (26) are fixedly connected with bearing plates (22), each bearing sliding column (26) is sleeved with a bearing spring (25), one end of each bearing spring (25) is connected with the lower end face of each bearing plate (22), the other end of each bearing spring is connected with the lower side wall of the second space (18), the upper side wall of the second space (18) is communicated with a feeding space (17) with an upward opening, the feeding space (17) is used for entering waste cartons, and the right side wall of the second space (18) is communicated with a water inlet flow passage (19) which inclines upwards, the water inlet channel (19) is connected with an external water source through an opening in the right side, the right side wall of the second space (18) is communicated with a discharge space (23) with a rightward opening, a discharge valve (24) is fixedly connected between the upper side wall and the lower side wall of the discharge space (23), a cylinder cavity (21) is arranged in the mixing cylinder (20), the upper side wall of the cylinder cavity (21) is communicated with the air receiving cavity (29), four hinged blocks (34) are fixedly connected to the end face of the outer side of the mixing cylinder (20), each hinged connection cavity (35) is arranged in each hinged block (34), each hinged connection cavity (35) is communicated with the cylinder cavity (21), and each hinged connection cavity (35) is provided with an air inlet assembly and a stirring assembly. The air inlet assembly comprises a semi-circular arc-shaped ring box body (32) fixedly connected and installed on the upper end face of the hinge block (34), the arc end of the ring box body (32) is fixedly connected with the outer end face of the mixing cylinder (20), a ring transmission cavity (33) is arranged in the ring box body (32), the ring transmission cavity (33) is communicated with the hinge connection cavity (35), the right side arc wall of the ring transmission cavity (33) is communicated with a ring cavity through hole (45) with an opening facing the direction of the mixing cylinder (20), the upper side wall and the lower side wall of the ring cavity through hole (45) are communicated with an arc-shaped sliding groove (41), an arc-shaped sliding block (44) is slidably connected in the arc-shaped sliding groove (41), a switch push rod (43) is fixedly connected to the upper end face of the arc-shaped sliding block (44), and the switch push rod (43) extends through the ring box body (32) towards the direction of the mixing cylinder (20, a switch spring (42) is connected between the upper end surface of the switch push rod (43) and the upper side wall of the arc-shaped sliding groove (41), an arc-shaped opening (46) which penetrates through the arc-shaped sliding block (44) from left to right is arranged in the arc-shaped sliding block (44), and when the arc-shaped sliding block (44) slides upwards, the arc-shaped opening (46) is communicated with the annular cavity through opening (45); stirring subassembly is including articulating linking arm (36) on articulated piece (34), linking arm (36) lower extreme articulates there is stirring arm (37), stirring arm (37) with ring box (32) sliding connection, stirring arm (37) wind articulated piece (34) slide on the ring box (32) circular arc, be provided with stirring chamber (38) in stirring arm (37), the upper and lower lateral wall in stirring chamber (38) all with ring box (32) sliding connection, side wall intercommunication has stirring air outlet chamber (39) under stirring chamber (38), works as stirring arm (37) along when ring box (32) up slided, stirring arm (37) up end with switch push rod (43) butt, ring chamber opening (45) with stirring chamber (38) are linked together.

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