CN115041049B - Automatic stirring device for charging barrel - Google Patents

Abstract

The application relates to a feed cylinder automatic stirring device belongs to decorative material stirring technical field, and feed cylinder automatic stirring device includes feed cylinder and sets up the cover on the feed cylinder, it is provided with the (mixing) shaft to rotate on the cover, be provided with the conveying pipeline in the (mixing) shaft, the conveying pipeline runs through the cover, the conveying pipeline is located the outer one end rotation of feed cylinder and is connected with the inlet pipe, the intercommunication has a plurality of discharging pipes on the conveying pipeline, and is a plurality of the discharging pipe wears to establish on the (mixing) shaft, be provided with the subassembly of opening and close that is used for opening and close the discharging pipe on the discharging pipe. This application has to a certain extent shortens the churning time, improves stirring efficiency's advantage.

Description

Automatic stirring device for charging barrel

Technical Field

The application relates to the technical field of decorative material stirring, in particular to an automatic stirring device for a charging barrel.

Background

The decorative material is mainly used for decorating the inner wall and the outer wall of a building, manufacturing the inner wall and realizing partial use functions on the basis of decoration, and comprises a decorative plate, decorative paper, concrete mortar, paint and the like. In the process of processing the decorative material, an automatic stirring device is required to stir various raw materials into slurry, and then the next operation is carried out.

At present, automatic stirring device on the market includes feed cylinder and sets up the cover on the feed cylinder, is provided with the feeder hopper on the cover, and the bottom intercommunication of feed cylinder lateral wall has ejection of compact pipeline, installs control valve on the ejection of compact pipeline, rotates on the cover and is provided with the (mixing) shaft, is provided with the stirring leaf on the (mixing) shaft, is provided with on the cover and is used for driving (mixing) shaft pivoted driving piece. Raw materials are put into the feeding pipe, and the stirring shaft is driven by the driving piece to drive the stirring blade to rotate, so that the raw materials are uniformly stirred, and the required slurry is formed.

In view of the above-mentioned related art, the inventors found that when it is necessary to continue adding other raw materials into the cylinder after the slurry in the cylinder is stirred to a certain extent, the newly added raw materials are spread on the surface of the existing slurry in the cylinder, so that the time taken for re-stirring uniformly is long and the stirring efficiency is low.

Disclosure of Invention

In order to shorten the stirring time to a certain extent and improve the stirring efficiency, the application provides an automatic stirring device for a charging barrel.

The application provides a feed cylinder automatic stirring device adopts following technical scheme:

the utility model provides an automatic agitating unit of feed cylinder, includes feed cylinder and sets up the cover on the feed cylinder, the cover is gone up to rotate and is provided with the (mixing) shaft, be provided with the conveying pipeline in the (mixing) shaft, the conveying pipeline runs through the cover, the conveying pipeline is located the outer one end rotation of feed cylinder and is connected with the inlet pipe, the intercommunication has a plurality of discharging pipes on the conveying pipeline, and is a plurality of the discharging pipe wears to establish on the (mixing) shaft, be provided with the subassembly of opening and close that is used for opening and close the discharging pipe on the discharging pipe.

Through adopting the technical scheme, the raw materials to be added are input through the feeding pipe, the raw materials reach the positions of each discharging pipe from the feeding pipe through the material conveying pipe, and the material discharging pipes are opened through the opening and closing assembly, so that the raw materials enter all positions of the slurry in the charging barrel along the material discharging pipes, meanwhile, the stirring shaft drives the material conveying pipe and the material discharging pipes to rotate, the raw materials are further uniformly added into the existing slurry in the charging barrel through the material discharging pipes, the time spent for uniformly stirring is short to a certain extent, and the stirring efficiency is improved; simultaneously after the feeding finishes, close the discharging pipe through opening and closing the subassembly, when the (mixing) shaft drove conveying pipeline and discharging pipe rotation, the discharging pipe stirs the thick liquids, helps improving stirring effect and stirring efficiency.

Preferably, the one end downward sloping of conveying pipeline is kept away from to the discharging pipe, open and close the subassembly and include the board of opening and close on the discharging pipe inner wall and set up the elasticity driver on the discharging pipe, the board of opening and close is used for opening and close the discharging pipe, the articulated axis perpendicular to the length direction of discharging pipe of board of opening and close, elasticity driver is used for driving the board of opening and close and rotates in order to seal the discharging pipe towards the direction that is close to the (mixing) shaft.

Through adopting the technical scheme, the raw materials to be added enter the discharging pipe through the conveying pipe, and under the action of gravity of the raw materials, the opening and closing plate is pushed to rotate towards the direction away from the stirring shaft so as to open the discharging pipe, so that the raw materials enter the slurry in the charging barrel through the discharging pipe, and certain convenience is provided for improving the stirring efficiency; after the discharging is finished, the elastic driving piece drives the opening and closing plate to rotate towards the direction close to the stirring shaft until the discharging pipe is closed, so that slurry in the charging barrel is not easy to enter the discharging pipe, and the next raw material adding is facilitated.

Preferably, the opening and closing plate is provided with a rotating shaft, the rotating shaft rotates on the inner wall of the discharging pipe, the elastic driving piece comprises a torsion spring for driving the opening and closing plate to rotate towards the direction close to the stirring shaft, the torsion spring is movably sleeved on the rotating shaft, one end of the torsion spring is arranged on the inner wall of the discharging pipe, and the other end of the torsion spring is arranged on the opening and closing plate.

Through adopting above-mentioned technical scheme, after the ejection of compact finishes, drive through the torsional spring and open and close the board and rotate towards the direction that is close to the (mixing) shaft until seal the discharging pipe, and then make the thick liquids in the feed cylinder be difficult for getting into in the discharging pipe to use next time.

Preferably, one end of the opening and closing plate, which is far away from the rotating shaft, is inclined downwards towards the direction far away from the stirring shaft.

Through adopting above-mentioned technical scheme for the one end that the pivot was kept away from to the board is difficult for being rotated towards the direction that is close to the (mixing) shaft under the promotion of thick liquids after the butt of discharging pipe inner wall, further ensures that thick liquids are difficult for entering into the discharging pipe.

Preferably, the conveying pipe is arranged in the stirring shaft in a sliding manner, the sliding direction of the conveying pipe is parallel to the rotation axis of the stirring shaft, a through hole for the sliding of the conveying pipe is formed in the stirring shaft, a telescopic pipe is arranged at one end, close to the feeding pipe, of the conveying pipe, one end, far away from the conveying pipe, of the telescopic pipe is connected with the feeding pipe in a rotating manner, and a transmission part for driving the conveying pipe to slide in a reciprocating manner when the stirring shaft rotates is arranged on the cylinder cover.

Through adopting above-mentioned technical scheme, when the (mixing) shaft rotated, made the (mixing) shaft drive conveying pipeline slide from top to bottom through the driving medium to drive the discharging pipe and slide from top to bottom, help making the more even thick liquids of adding into in the feed cylinder of raw materials, the thick liquids of the messenger in the feed cylinder of sliding from top to bottom is difficult for producing layering phenomenon simultaneously, further shortens the time that the stirring was spent, improves stirring efficiency.

Preferably, the transmission piece comprises a transmission ring arranged on one side of the cylinder cover close to the stirring shaft and a fixed rod arranged on the conveying pipe, the transmission ring is positioned in the stirring shaft, the conveying pipe is positioned in the transmission ring, the fixed rod is positioned below the transmission ring, the fixed rod and the transmission ring are in sliding connection with one side of the cylinder cover far away from, and one side of the transmission ring close to the fixed rod is an inclined surface.

Through adopting above-mentioned technical scheme, the (mixing) shaft drives conveying pipeline pivoted in-process, makes the dead lever slide along the one side that the drive ring kept away from the cover, because the one side that the drive ring kept away from the cover is the inclined plane, and then makes the dead lever drive conveying pipeline and slide from top to bottom, realizes that the discharging pipe slides from top to bottom when pivoted for the raw materials that follow the discharging pipe output can more even reach each position of thick liquids in the feed cylinder, and then help shortening stirring time, improve stirring efficiency; meanwhile, the conveying pipe slides back and forth through the driving ring and the fixing rod, so that cost is saved.

Preferably, the included angles between the discharging pipes and the stirring shaft are the same, and the lengths of the discharging pipes are different.

Through adopting above-mentioned technical scheme, the length of discharging pipe is different for the tip that the (mixing) shaft was kept away from to the discharging pipe is located different positions, helps making the even thick liquids of adding into in the feed cylinder of raw materials in, further shortens the time that the stirring was spent, thereby helps improving stirring efficiency.

Preferably, the conveying pipe is internally provided with a conveying pipe, the outer diameter of the conveying pipe is smaller than the inner diameter of the conveying pipe, a plurality of output pipes are communicated on the conveying pipe and extend to the outside of the stirring shaft through holes, one end of the conveying pipe, which is close to the cylinder cover, is communicated with a corrugated pipe, one end, which is far away from the conveying pipe, of the corrugated pipe is rotationally connected with a feeding pipe, the feeding pipe is L-shaped, one end, which is far away from the corrugated pipe, of the feeding pipe transversely penetrates out of the feeding pipe, and an adjusting piece for adjusting the opening or closing of the output pipe is arranged on the output pipe.

Through adopting above-mentioned technical scheme, will wait to add the raw materials and get into the conveying pipe through the filling tube, rethread conveying pipe gets into the output tube, opens through regulating part regulation output tube for the raw materials gets into in the thick liquids in the feed cylinder, and then helps simultaneously to evenly add two kinds of raw materials in the feed cylinder, has enlarged the application scope of device.

Preferably, the regulating member comprises a regulating plate hinged to the inner wall of the output pipe and a spring arranged on the inner wall of the output pipe, the hinge axis of the regulating plate is perpendicular to the length direction of the output pipe, one side, away from the hinge axis, of the regulating plate is inclined downwards towards the direction away from the stirring shaft, one end, away from the inner wall of the output pipe, of the spring is arranged on one side, away from the stirring shaft, of the regulating plate, and the spring is used for pushing the regulating plate to rotate towards the direction close to the stirring shaft so as to seal the output pipe.

By adopting the technical scheme, after the raw materials to be added enter the output pipe, the adjusting plate is pushed to rotate towards the direction away from the stirring shaft under the action of gravity, so that the spring is compressed, the output pipe is opened, and the raw materials can smoothly enter the slurry in the charging barrel; after the raw materials are conveyed, the spring pushes the adjusting plate to rotate towards the direction close to the stirring shaft until the output pipe is closed, so that the slurry is not easy to enter the output pipe.

Preferably, the opening and closing plate and the adjusting plate are respectively provided with a sealing gasket for enhancing the sealing performance, and the sealing gaskets are respectively arranged along the circumferences of the opening and closing plate and the adjusting plate.

Through adopting above-mentioned technical scheme, the leakproofness between opening and close board and the discharging pipe, between output tube and the regulating plate has been strengthened respectively in the setting of sealed pad, further helps making thick liquids be difficult for getting into in discharging pipe or the output tube.

In summary, the present application includes at least one of the following beneficial technical effects:

raw materials to be added are input through a feed pipe, the raw materials reach the positions of all discharge pipes from the feed pipe through a feed pipe, the discharge pipes are opened through an opening and closing assembly, so that the raw materials enter all positions of slurry in a feed cylinder along the discharge pipes, meanwhile, a stirring shaft drives the feed pipe and the discharge pipes to rotate, the raw materials are further uniformly added into the existing slurry in the feed cylinder through the discharge pipes, the time spent for uniformly stirring is short to a certain extent, and the stirring efficiency is improved;

when the stirring shaft rotates, the stirring shaft drives the conveying pipe to slide up and down through the transmission part, so that the discharging pipe is driven to slide up and down, the raw materials are enabled to be added into the slurry in the charging barrel more uniformly, the slurry in the charging barrel is enabled not to be layered easily due to the fact that the discharging pipe slides up and down, the time spent for stirring uniformly is further shortened, and stirring efficiency is improved.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a cross-sectional view of the overall structure of an embodiment of the present application.

Fig. 3 is a cross-sectional view of the overall structure of an embodiment of the present application.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is an enlarged view of a portion B in fig. 3.

Fig. 6 is an enlarged view of a portion C in fig. 3.

Reference numerals illustrate: 1. a charging barrel; 2. a cylinder cover; 3. a stirring shaft; 4. a material conveying pipe; 5. a feed pipe; 6. a discharge pipe; 7. an opening and closing assembly; 71. an opening and closing plate; 72. an elastic driving member; 721. a torsion spring; 8. a rotating shaft; 9. a through hole; 10. a telescopic tube; 101. a sleeve; 102. a slide tube; 11. a transmission member; 111. a drive ring; 112. a fixed rod; 12. a material conveying pipe; 13. an output pipe; 14. a bellows; 15. a feeding tube; 16. an adjusting member; 161. an adjusting plate; 162. a spring; 17. a sealing gasket; 18. stirring the leaves; 19. a guide block; 20. a guide groove; 21. a first gear; 22. a second gear; 23. a motor; 24. a protective cover; 25. a mounting cavity; 26. a spherical block; 27. an annular groove; 28. a slide block; 29. a chute; 30. and (3) a bracket.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a feed cylinder automatic stirring device. Referring to fig. 1 and 2, the automatic feed cylinder stirring device comprises a feed cylinder 1 and a cylinder cover 2 fixedly arranged on the feed cylinder 1, wherein a stirring shaft 3 is rotatably arranged on one side, close to the feed cylinder 1, of the cylinder cover 2, stirring blades 18 are symmetrically fixed on opposite outer walls of the stirring shaft 3, a feed conveying pipe 4 is slidably arranged in the stirring shaft 3, the sliding direction of the feed conveying pipe 4 is parallel to the rotation axis of the stirring shaft 3, guide blocks 19 are fixedly connected to the outer walls of two opposite sides of the feed conveying pipe 4, guide grooves 20 in sliding fit with the guide blocks 19 are formed in the inner walls of the stirring shaft 3, the arrangement direction of the guide blocks 19 on two sides is parallel to the arrangement direction of the stirring blades 18 on two sides of the stirring shaft 3, the feed conveying pipe 4 is movably arranged on the cylinder cover 2 in a penetrating manner, a sleeve 101 fixedly connected with a telescopic pipe 10 at one end, located outside the feed conveying pipe 4, located at the outer end of the feed cylinder 1, of the sleeve 101, of the telescopic pipe 10 is fixedly connected with a sliding direction of the feed conveying pipe 4, the sliding direction of the sliding pipe 102 is parallel to the sliding direction of the feed conveying pipe 4, one end, which is far away from the sleeve 101, of the rotary direction of the guide block 20 is connected with a feed pipe 5, and the feed pipe 5 is fixedly arranged on the feed pipe 2 through the support 30.

Referring to fig. 2 and 3, a plurality of discharging pipes 6 are communicated on the material conveying pipe 4, in this embodiment, the discharging pipes 6 are 4, the 4 discharging pipes 6 are symmetrically communicated on the material conveying pipe 4 along the length direction of the material conveying pipe 4, the 4 discharging pipes 6 are slidably arranged on the stirring shaft 3 in a penetrating manner, the arrangement direction of the discharging pipes 6 on two sides of the material conveying pipe 4 is perpendicular to the arrangement direction of the guide blocks 19 on two sides, through holes 9 for sliding the discharging pipes 6 on two sides are formed on two opposite sides of the stirring shaft 3, the through holes 9 extend along the length direction of the stirring shaft 3, one ends of the discharging pipes 6 away from the material conveying pipe 4 are obliquely arranged downwards, the inclination angles are the same, the lengths of the 4 discharging pipes 6 are different, one ends of the discharging pipes 6 away from the material conveying pipe 4 are provided with an opening and closing assembly 7 for opening and closing the discharging pipes 6, and a driving part 11 for driving the material conveying pipe 4 to slide back and forth when the stirring shaft 3 rotates is arranged on the cylinder cover 2.

Referring to fig. 3 and 4, the fixed cover of one end that (mixing) shaft 3 is close to (mixing) shaft 2 is equipped with first gear 21, one side that (mixing) shaft 3 is close to (mixing) shaft 2 rotates and is provided with second gear 22, second gear 22 and first gear 21 meshing, one side that (mixing) shaft 3 was kept away from to (mixing) shaft 2 fixed mounting has motor 23, the output shaft of motor 23 rotates and wears to establish on (mixing) shaft 2, the output shaft coaxial coupling of second gear 22 and motor 23, one side that (mixing) shaft 3 is close to (mixing) shaft 2) is fixedly connected with protection casing 24, first gear 21 and second gear 22 are located protection casing 24, (mixing) shaft 3 rotates and wears to establish on protection casing 24, protection casing 24 can effectively protect first gear 21 and second gear 22, reduce the thick liquids adhesion.

When raw materials need to be continuously added into the feed cylinder 1, the raw materials to be added are added from the feed pipes 5, the raw materials reach the positions of the discharge pipes 6 through the feed pipes 4, and the discharge pipes 6 are opened through the opening and closing assembly 7, so that the raw materials to be added enter different positions of the slurry; when raw materials are added, the motor 23 is started, the motor 23 drives the second gear 22 to rotate, the second gear 22 drives the first gear 21 to rotate, the stirring shaft 3 drives the conveying pipe 4 to rotate, meanwhile, the stirring shaft 3 is driven to slide up and down when rotating through the transmission piece 11, the discharging pipe 6 is further used for conveying raw materials to all positions of the existing slurry in the charging barrel 1, the discharging pipe 6 slides up and down when rotating, slurry layering is reduced, time required for stirring the slurry uniformly is short, and working efficiency is improved to a certain extent. Meanwhile, the lengths of the discharging pipes 6 are different, so that the horizontal distances from one end of the discharging pipe 6 far away from the stirring shaft 3 to the stirring shaft 3 are different, and the raw materials are further enabled to uniformly enter the slurry.

When the raw materials do not need to be added, the discharging pipe 6 is closed through the opening and closing component 7, the stirring shaft 3 drives the conveying pipe 4 to rotate and slide up and down, and the stirring effect and stirring efficiency are improved to a certain extent.

Referring to fig. 3 and 4, the end of the stirring shaft 3, which is close to the cylinder cover 2, is provided with a mounting cavity 25, the transmission part 11 comprises a transmission ring 111 fixedly connected to one side of the cylinder cover 2, which is close to the stirring shaft 3, and a fixed rod 112 fixedly connected to the outer wall of the conveying pipe 4, the transmission ring 111 is positioned in the mounting cavity 25, the conveying pipe 4 is positioned in the transmission ring 111, the longitudinal section of the fixed rod 112 is L-shaped, the fixed rod 112 is positioned below the transmission ring 111, one end of the fixed rod 112, which is close to the transmission ring 111, is fixedly connected with a spherical block 26, one side of the spherical block 26, which is far away from the cylinder cover 2, of the transmission ring 111 is in sliding connection with one side, which is close to the spherical block 26, of the transmission ring 111, is provided with an annular groove 27 in sliding fit with the spherical block 26, and the diameter of the spherical block 26 is larger than that of the fixed rod 112, so that the spherical block 26 is not easy to drop from the annular groove 27.

When the stirring shaft 3 rotates, the conveying pipe 4 is driven to rotate, the conveying pipe 4 drives the spherical block 26 on the fixed rod 112 to slide along the annular groove 27, and as one surface of the driving ring 111, which is close to the fixed rod 112, is an inclined surface, the spherical block 26 and the fixed rod 112 drive the conveying pipe 4 to slide up and down while rotating, so that the discharging pipe 6 slides up and down while rotating, and further, the raw materials are uniformly added to different positions of slurry, the stirring time is shortened, and the stirring efficiency is improved.

Referring to fig. 3 and 5, for facilitating the opening or closing of the discharge pipe 6, the opening and closing assembly 7 includes an opening and closing plate 71 hinged on the inner wall of the discharge pipe 6 and an elastic driving member 72 disposed on the discharge pipe 6, the opening and closing plate 71 is used for opening and closing the discharge pipe 6, the hinge axis of the opening and closing plate 71 is perpendicular to the length direction of the discharge pipe 6, a rotating shaft 8 is fixedly connected to the opening and closing plate 71, the rotating shaft 8 rotates on the inner wall corresponding to one end of the discharge pipe 6 far away from the feed pipe 4, one end of the opening and closing plate 71 far away from the rotating shaft 8 is inclined downwards in a direction far away from the stirring shaft 3, the elastic driving member 72 is used for driving the opening and closing plate 71 to rotate in a direction near the stirring shaft 3 to close the discharge pipe 6, the elastic driving member 72 includes a torsion spring 721 for driving the opening and closing plate 71 to rotate in a direction near the stirring shaft 3, one end of the torsion spring 721 is movably sleeved on the rotating shaft 8, and the other end of the torsion spring is fixedly connected to the inner wall of the discharge pipe 6. In other embodiments, the opening and closing assembly 7 may be replaced by a valve mounted on the tapping pipe 6 and a controller mounted on the outer wall of the barrel 1 for controlling the opening and closing of the valve.

When raw materials are added into the feeding pipe 5, the raw materials enter each discharging pipe 6 through the feeding pipe 4, and under the action of gravity of the raw materials, the opening and closing plate 71 is pushed to rotate towards the direction away from the stirring shaft 3, so that the opening and closing plate 71 opens the discharging pipes 6, and the raw materials enter the charging barrel 1 from the discharging pipes 6; after the raw materials are discharged along the discharge pipe 6, the opening and closing plate 71 is driven to rotate towards the direction close to the stirring shaft 3 under the action of the torsion spring 721, so that the discharge pipe 6 is closed, and the slurry in the charging barrel 1 is not easy to enter the discharge pipe 6. The one end that pivot 8 was kept away from to the board 71 is opened and close to the board 71 downward sloping for when not adding the raw materials, the board 71 is opened and close to the direction rotation that is close to the (mixing) shaft 3 in the promotion of thick liquids, and then makes the board 71 only can one-way open, further makes thick liquids be difficult for getting into in the discharging pipe 6, in order to use next time.

Referring to fig. 4, a sliding block 28 is fixedly connected to opposite inner walls of the sleeve 101, a sliding groove 29 in sliding fit with the sliding block 28 is formed in opposite outer walls of the sliding tube 102, the length direction of the sliding groove 29 is parallel to the sliding direction of the conveying pipe 4, and the sliding fit between the sliding block 28 and the sliding groove 29 helps to reduce the possibility of relative rotation between the sleeve 101 and the sliding tube 102.

Referring to fig. 3 and 4, the conveying pipe 4 is internally and fixedly provided with a conveying pipe 12 in a penetrating manner, the outer diameter of the conveying pipe 12 is smaller than the inner diameter of the conveying pipe 4, the conveying pipe 12 is communicated with an output pipe 13, the output pipe 13 corresponds to the discharge pipe 6 one by one, the output pipe 13 is located below the corresponding discharge pipe 6, the output pipe 13 penetrates through the through hole 9 to extend out of the stirring shaft 3, one end, close to the cylinder cover 2, of the conveying pipe 12 is communicated with a corrugated pipe 14, the corrugated pipe 14 is located in the telescopic pipe 10, one end, far away from the conveying pipe 12, of the corrugated pipe 14 is rotationally connected with a feeding pipe 15, the feeding pipe 15 is L-shaped, one end, far away from the corrugated pipe 14, of the feeding pipe 15 is fixedly transversely penetrated out of the feeding pipe 5, and one end, far away from the conveying pipe 12, of the output pipe 13 is provided with an adjusting part 16 for adjusting the opening or closing of the output pipe 13. In other embodiments, the bellows 14 may be replaced by a telescopic tube, one end of which is fixedly connected to one end of the delivery tube 12 near the cap 2, and the other end is rotatably connected to the feeding tube 15.

Referring to fig. 3 and 6, the adjusting member 16 includes an adjusting plate 161 hinged to an inner wall of an end of the output tube 13 far from the stirring shaft 3 and a spring 162 fixedly connected to the inner wall of the output tube 13, the hinge axis of the adjusting plate 161 is perpendicular to the length direction of the output tube 13, the hinge axis of the adjusting plate 161 is parallel to the hinge axis of the opening and closing plate 71, the hinge axis of the adjusting plate 161 is located at one side of the output tube 13 near the cylinder cover 2, the adjusting plate 161 is inclined downward toward a direction far from the stirring shaft 3, one end of the spring 162 far from the inner wall of the output tube 13 is fixedly connected to one side of the adjusting plate 161 far from the stirring shaft 3, and the spring 162 is used for pushing the adjusting plate 161 to rotate toward a direction near to the stirring shaft 3.

When two raw materials need to be added into the feed cylinder 1 at the same time, one raw material enters through the feed pipe 5, the other raw material enters through the feed pipe 15, the raw material entering the feed pipe 15 enters into each output pipe 13 through the feed pipe 12, under the action of the gravity of the raw material, the raw material pushes the adjusting plate 161 to rotate towards the direction away from the stirring shaft 3, so that the spring 162 is compressed, the output pipes 13 are opened, the raw material uniformly enters into the slurry, and the application range of the device is enlarged; when the raw material is completely fed, the spring 162 pushes the adjusting plate 161 to rotate towards the direction approaching the stirring shaft 3, so that the adjusting plate 161 seals the output pipe 13 to reduce the feeding of the slurry.

Referring to fig. 5 and 6, the opening and closing plate 71 and the adjusting plate 161 are bonded with sealing gaskets 17, the sealing gaskets 17 are respectively disposed along the circumferential directions of the opening and closing plate 71 and the adjusting plate 161, in this embodiment, the sealing gaskets 17 are rubber gaskets, and in other embodiments, the rubber gaskets may be replaced by plastic gaskets. The provision of the gasket 17 contributes to an enhanced tightness between the opening and closing plate 71 and the discharge pipe 6 and between the adjusting plate 161 and the outlet pipe 13, thereby further reducing the penetration of the slurry.

The implementation principle of the embodiment of the application is as follows: when raw materials need to be added into the feed cylinder 1, the motor 23 is started, raw materials to be added are simultaneously added from the feed pipe 5 or from the feed pipe 15 or two different raw materials are simultaneously added into the feed pipe 5 and the feed pipe 15, the raw materials reach the positions of the discharge pipes 6 through the feed pipe 4 or reach the positions of the output pipes 13 through the feed pipe 12, the opening and closing plate 71 or the regulating plate 161 is pushed to rotate in a direction away from the stirring shaft 3 under the action of gravity, so that the discharge pipes 6 or the output pipes 13 are opened, and the raw materials enter slurry along the discharge pipes 6 and the output pipes 13; when the motor 23 works, the second gear 22 is driven to rotate, the second gear 22 drives the first gear 21 to rotate, the stirring shaft 3 drives the conveying pipe 4 to rotate, the conveying pipe 4 drives the spherical block 26 on the fixed rod 112 to slide along the annular groove 27, and as one surface of the driving ring 111, which is close to the fixed rod 112, is an inclined surface, the spherical block 26 and the fixed rod 112 drive the conveying pipe 4 to slide reciprocally while rotating, so that the raw materials are uniformly added to different positions in the slurry, the time required for uniformly stirring the slurry is shorter, and the working efficiency is improved to a certain extent.

When the raw materials are basically discharged, the torsion spring 721 drives the opening and closing plate 71 to rotate towards the direction close to the stirring shaft 3 to close the discharging pipe 6, and the spring 162 pushes the adjusting plate 161 to rotate towards the direction close to the stirring shaft 3 to close the output pipe 13, so that slurry is not easy to enter the pipeline.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (7)

1. The utility model provides an automatic agitating unit of feed cylinder, includes feed cylinder (1) and sets up cover (2) on feed cylinder (1), rotate on cover (2) and be provided with (3), its characterized in that: be provided with conveying pipeline (4) in (mixing) shaft (3), conveying pipeline (4) run through cover (2), conveying pipeline (4) are located the one end rotation outside feed cylinder (1) and are connected with inlet pipe (5), the intercommunication has a plurality of discharging pipes (6) on conveying pipeline (4), and a plurality of discharging pipes (6) wear to establish on (mixing) shaft (3), be provided with on discharging pipe (6) and be used for opening and close discharging pipe (6) opening and close subassembly (7), be provided with conveying pipeline (12) in conveying pipeline (4), the external diameter of conveying pipeline (12) is less than the internal diameter of conveying pipeline (4), the intercommunication has a plurality of output pipes (13) on conveying pipeline (12), a plurality of output pipes (13) all pass through-hole (9) and extend outside (mixing) shaft (3), the one end intercommunication that conveying pipeline (12) are close to cover (2) has bellows (14), the one end rotation that bellows (14) kept away from conveying pipeline (12) is connected with filling tube (15), for filling tube (15) is L shape (13) is, one end that is used for adjusting (13) is kept away from on (13) is opened and is used for adjusting (13), the utility model discloses a stirring device, including stirring shaft (3) and a material conveying pipe (4), wherein the material conveying pipe (4) is arranged in the stirring shaft (3) in a sliding way, the sliding direction of the material conveying pipe (4) is parallel to the rotation axis of the stirring shaft (3), a through hole (9) for feeding the material discharging pipe (6) is formed in the stirring shaft (3), one end, close to the material feeding pipe (5), of the material conveying pipe (4) is provided with a telescopic pipe (10), one end, far away from the material conveying pipe (4), of the telescopic pipe (10) is rotationally connected with the material feeding pipe (5), a transmission part (11) for driving the material conveying pipe (4) to slide in a reciprocating way when the stirring shaft (3) rotates is arranged on the material conveying pipe (2), a first gear (21) is fixedly sleeved at one end, close to the stirring shaft (3), close to the stirring shaft (2), a second gear (22) is rotationally arranged at one side, close to the stirring shaft (3), of the second gear (22) is meshed with the first gear (21), one side, far away from the stirring shaft (3), of the material conveying pipe (2) is fixedly provided with a motor (23), one side, close to the stirring shaft (2) is rotationally connected with the first gear (24), the first gear (21) and the second gear (22) are positioned in the protective cover (24), the stirring shaft (3) is rotatably arranged on the protective cover (24) in a penetrating way, one end of the stirring shaft (3) close to the cylinder cover (2) is provided with a mounting cavity (25), the transmission part (11) comprises a transmission ring (111) fixedly connected to one side of the cylinder cover (2) close to the stirring shaft (3) and a fixed rod (112) fixedly connected to the outer wall of the conveying pipe (4), the transmission ring (111) is positioned in the mounting cavity (25), the conveying pipe (4) is positioned in the transmission ring (111), the longitudinal section of the fixed rod (112) is L-shaped, the fixed rod (112) is positioned below the transmission ring (111), one end of the fixed rod (112) close to the transmission ring (111) is fixedly connected with a spherical block (26), one side of the spherical block (26) and the transmission ring (111) far away from the cylinder cover (2) is in a sliding way, one side of the transmission ring (111) close to the spherical block (26) is an inclined plane, the diameter of the transmission ring (111) is larger than the diameter of the spherical block (26) is matched with the spherical block (27), so that the spherical block (26) is not easy to fall off from the annular groove (27).

2. The automatic cylinder stirring device according to claim 1, wherein: the one end downward sloping of conveying pipeline (4) is kept away from to discharging pipe (6), open and close subassembly (7) including articulated on discharging pipe (6) inner wall open and close board (71) and set up elasticity driver (72) on discharging pipe (6), open and close board (71) are used for opening and close discharging pipe (6), the articulated axis perpendicular to discharging pipe (6) of opening and close board (71) length direction, elasticity driver (72) are used for driving to open and close board (71) and rotate in order to seal discharging pipe (6) towards the direction that is close to (mixing) shaft (3).

3. The automatic cylinder stirring device according to claim 2, wherein: the stirring device is characterized in that a rotating shaft (8) is arranged on the opening and closing plate (71), the rotating shaft (8) rotates on the inner wall of the discharging pipe (6), the elastic driving piece (72) comprises a torsion spring (721) used for driving the opening and closing plate (71) to rotate towards the direction close to the stirring shaft (3), the torsion spring (721) is movably sleeved on the rotating shaft (8), one end of the torsion spring (721) is arranged on the inner wall of the discharging pipe (6), and the other end of the torsion spring (721) is arranged on the opening and closing plate (71).

4. A cartridge automatic stirring device as set forth in claim 3 wherein: one end of the opening and closing plate (71) far away from the rotating shaft (8) is inclined downwards in a direction far away from the stirring shaft (3).

5. The automatic cylinder stirring device according to claim 1, wherein: the included angles between the discharging pipes (6) and the stirring shaft (3) are the same, and the lengths of the discharging pipes (6) are different.

6. The automatic cylinder stirring device according to claim 2, wherein: the regulating part (16) comprises a regulating plate (161) hinged to the inner wall of the output pipe (13) and a spring (162) arranged on the inner wall of the output pipe (13), the hinge axis of the regulating plate (161) is perpendicular to the length direction of the output pipe (13), one side, away from the hinge axis, of the regulating plate (161) is inclined downwards towards the direction away from the stirring shaft (3), one end, away from the inner wall of the output pipe (13), of the spring (162) is arranged on one side, away from the stirring shaft (3), of the regulating plate (161), and the spring (162) is used for pushing the regulating plate (161) to rotate towards the direction close to the stirring shaft (3) so as to seal the output pipe (13).

7. The automatic cylinder stirring device according to claim 6, wherein: the sealing gaskets (17) for enhancing the sealing performance are arranged on the opening and closing plate (71) and the adjusting plate (161), and the sealing gaskets (17) are respectively arranged along the circumferences of the opening and closing plate (71) and the adjusting plate (161).

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