CN218189039U - Multi-dimensional mixing stirring self-turning single-shaft feed mixing machine - Google Patents

Abstract

The utility model relates to a multidimension is thoughtlessly stirred from stirring unipolar feed mixing machine, belong to feed mixing machine's technical field, it contains the casing, be equipped with the mix chamber on the casing, it is connected with the drive shaft all to rotate on the relative lateral wall of casing, the one end of drive shaft extends to the mix intracavity, it is connected with the mixing axle to rotate on the casing, the rotation of mixing axle sets up in the mix intracavity, the both ends of mixing axle are located the one end of mix intracavity with two drive shafts respectively and are connected, the drive shaft is eccentric settings with the mixing axle, the rotation axis of drive shaft is parallel with the rotation axis of mixing axle, be connected with the mix pole on the mixing axle, be connected with the mixing leaf on the mix pole, be equipped with control drive shaft pivoted driving piece on the casing. This application has the effect of the mix efficiency that promotes unipolar feed mixer.

Description

Multi-dimensional mixing stirring self-turning single-shaft feed mixing machine

Technical Field

The utility model belongs to the technical field of the technique of feed mixer and specifically relates to a multidimensional mixing stirs from stirring unipolar feed mixer.

Background

Finished feed generally is formed by the feed mixing of several kinds of differences, needs a mix device to carry out the mix processing to several kinds of different fodder, makes its intensive mixing, generally uses single-axle feed mixing machine in the course of working of current feed mix.

The single-shaft feed mixing machine comprises a mixing cavity, a mixing shaft is rotatably connected to the inner wall of the mixing cavity, a plurality of mixing rods are connected to the mixing shaft, mixing blades are connected to the mixing rods, and the mixing blades are driven by the mixing rods to mix feed when the mixing shaft rotates.

The rotation axis of mixing shaft and the centre of a circle of mixing shaft cross section are located the collinear during single-shaft feed mixing machine operation among the prior art, and the stirring is difficult to be participated in to accumulational fodder on the inner wall in part mix chamber when mixing shaft rotates to influence single-shaft feed mixing machine's mix efficiency.

SUMMERY OF THE UTILITY MODEL

For the mix efficiency that promotes unipolar feed mixer, this application provides a multidimensional is mixed and is stirred from stirring unipolar feed mixer.

The application provides a pair of multidimensional mixing stirs from stirring unipolar feed mixing machine adopts following technical scheme:

the utility model provides a multidimension is mixed and is stirred from unipolar feed mixing machine of stirring, contains the casing, be equipped with the mix chamber on the casing, all rotate on the relative lateral wall of casing and be connected with the drive shaft, the one end of drive shaft extends to the mix intracavity, rotate on the casing and be connected with the stirring axle, the stirring axle rotates and sets up in the mix intracavity, the both ends of stirring axle are connected with the one end that two drive shafts are located the mix intracavity respectively, the drive shaft is eccentric settings with the stirring axle, the rotation axis of drive shaft is parallel with the rotation axis of stirring axle, be connected with the mixing pole on the stirring axle, be connected with the stirring leaf on the mixing pole, be equipped with control drive shaft pivoted driving piece on the casing.

Through adopting above-mentioned technical scheme, be connected with the mix pole on the mixing axle, be connected with the mixing leaf on the mix pole, when the drive shaft rotates under the effect of driving piece, because the drive shaft is eccentric settings with the mix axle, the drive shaft drives the mixing axle and uses the drive shaft to rotate as the axis of rotation, the mixing leaf can with the inner wall butt in mix chamber when mixing the axle rotation, and scrape accumulational fodder on the inner wall in mix chamber and participate in the mix, make unipolar feed mixer can realize the function that multidimension thoughtlessly stirs and turn over the material, the mix efficiency of unipolar feed mixer has been promoted.

Preferably, the one end that the drive shaft is located the mix intracavity is connected with the transition piece, be connected with the ring gear on the inner wall in mix chamber, the ring gear is coaxial setting with the drive shaft, rotate on the transition piece and be connected with the gear with ring gear engagement, the one end that the mix intracavity wall was kept away from to the gear is connected with the transmission shaft, the one end that the gear was kept away from to the transmission shaft extends to in the transition piece and is connected with the mix axle, it is parallel with the transmission shaft to mix the axle.

By adopting the technical scheme, the transition block is connected with the driving shaft, the inner wall of the mixing cavity is provided with the gear ring, the transition block is provided with the gear meshed with the gear ring, the mixing shaft is connected with the transmission shaft of the gear, when the driving shaft rotates under the action of the driving piece, the driving shaft drives the mixing shaft to rotate by taking the driving shaft as a rotation axis under the action of the transition block, when the transition block rotates, the gear slides on the gear ring, the gear rotates under the action of the gear ring, and the gear drives the mixing shaft to rotate by taking the transmission shaft as a rotation axis through the transmission shaft; under the cooperation of transition piece, ring gear, gear and transmission shaft, the axle that mixes can use drive shaft and transmission shaft to rotate as axis of rotation simultaneously, has promoted single-axle feed mixer's mix efficiency.

Preferably, it slides and sets up on the transition piece to mix the axle, it slides and is connected with the locking piece to mix the both ends of combining the axle, set up the locking groove that supplies the locking piece embedding on the transmission shaft, set up the fixed slot that supplies the locking piece embedding on the transition piece, mix the axle and slide back locking piece embedding locking groove or fixed slot, be connected with the elastic component on the locking piece, the elastic component is used for driving the locking piece and slides towards locking groove or fixed slot, it is epaxial to be equipped with the unlocking piece that drives the locking piece and slide towards the direction of keeping away from the transition piece to mix.

By adopting the technical scheme, when the feed to be mixed is in a viscous state, the locking block on the mixing shaft can be embedded into the locking groove on the transmission shaft, the mixing shaft can simultaneously rotate by taking the driving shaft and the transmission shaft as rotating axes, and the feed accumulated on the inner wall of the mixing cavity is scraped off by the mixing blade to participate in mixing; when the feed to be mixed is in a granular state, the interlocking piece can be used for releasing the interlocking between the locking block and the locking groove, then the locking block on the mixing shaft is embedded into the fixing groove on the transition block, at the moment, the mixing shaft only rotates by taking the driving shaft as a rotation axis, the mixing blade is not easy to be attached to the inner wall of the stirring cavity, the rotation speed of the mixing shaft can be increased, and the mixing efficiency of the single-shaft feed mixer is improved; through the arrangement of the elastic piece, the locking block is not easy to slip from the locking groove or the fixing groove, and the reliability of the device is improved; under the cooperation of the locking groove on the transmission shaft, the fixed slot on the transition piece and the epaxial locking piece of mix, can mix the rotation mode of axle according to the state adjustment of fodder to promote the mix efficiency of unipolar feed mixer.

Preferably, the unlocking piece comprises a pull rope, the pull rope is arranged on the mixing shaft in a sliding mode, one end of the pull rope is connected with one end, far away from the transition block, of the locking block, and the other end of the pull rope extends out of the mixing shaft.

Through adopting above-mentioned technical scheme, make the locking piece slide towards the direction of keeping away from the transition piece through the pulling stay cord, be convenient for control locking piece epaxial the sliding of mix.

Preferably, the mixing shaft is provided with a grabbing rod, and one end of the pull rope, which is positioned outside the mixing shaft, is positioned below the grabbing rod.

By adopting the technical scheme, the arrangement of the grabbing rod is convenient for controlling the slippage of the mixing shaft on the transition block; the stay cord setting is grabbing the pole below, and the slip of accessible stay cord control locking piece when workman's control mixes the axle and slides, only needs a workman alright adjust the rotation mode of mixing the axle as required, has promoted the maneuverability of device.

Preferably, one end of the pull rope, which is positioned outside the mixing shaft, is connected with a fixing block.

Through adopting above-mentioned technical scheme, through the setting of fixed block, the difficult condition that the stay cord is located the outer one end of mixing axle and glides to mixing in the axle under the effect of elastic component that appears has promoted the reliability of device.

Preferably, a dust cover is arranged on the mixing shaft, and one end of the pull rope, which is positioned outside the mixing shaft, is positioned in the dust cover.

Through adopting above-mentioned technical scheme, through the setting of dust cover, the stay cord is difficult to be stretched behind the rotation in-process of mixing the axle and the fodder adhesion to make the locking piece slide towards the direction of keeping away from the transition piece, promoted the reliability of device.

Preferably, be connected with the gas storage package on the casing, be connected with jet-propelled pipe on the gas storage package, the one end that the gas storage package was kept away from to jet-propelled pipe extends to the mix intracavity, be connected with pulse solenoid valve on the casing, pulse solenoid valve is used for controlling the opening and closing of jet-propelled pipe.

By adopting the technical scheme, through the arrangement of the gas storage bag, the gas injection pipe and the pulse electromagnetic valve for controlling the on-off of the gas injection pipe, when feed is accumulated on the inner wall of the mixing cavity or the mixing shaft, the pulse electromagnetic valve can be opened, so that gas in the gas storage bag is introduced into the mixing cavity through the gas injection pipe, the feed on the inner wall of the mixing cavity or the mixing shaft is blown to be separated from the inner wall of the mixing shaft or the mixing cavity, and the condition that the rotation of the mixing shaft is influenced by feed accumulation is not easy to occur, so that the mixing efficiency of the single-shaft feed mixer is influenced; the rotation of the mixing shaft is not required to be paused when the air storage bag is ventilated towards the mixing cavity, and the mixing efficiency of the single-shaft feed mixer is improved.

Preferably, the shell is provided with an observation port, the observation port is communicated with the mixing cavity, and the shell is rotatably connected with a cover plate for controlling the opening and closing of the observation port.

Through adopting above-mentioned technical scheme, through the setting of viewing aperture, can observe the mix condition of mix intracavity fodder at any time, the fodder that can in time change new batch after the fodder mix of mix intracavity carries out the mix to promote the mix efficiency of unipolar feed mixing machine.

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

1. when the driving shaft rotates under the action of the driving piece, the driving shaft and the mixing shaft are eccentrically arranged, the driving shaft drives the mixing shaft to do circular motion in the mixing cavity, the mixing blade can be abutted against the inner wall of the mixing cavity when the mixing shaft rotates, and feed accumulated on the inner wall of the mixing cavity is scraped down to participate in mixing, so that the single-shaft feed mixer can realize the functions of multi-dimensional mixing and self-turning, and the mixing efficiency of the single-shaft feed mixer is improved;

2. under the cooperation of the locking groove on the transmission shaft, the fixed slot on the transition block and the epaxial locking block of mix, the rotation mode of mixing axle can be adjusted as required to promote single-axle feed mixer's mix efficiency.

Drawings

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

FIG. 2 is a schematic view of the internal structure of a single shaft feed mixer in the embodiment of the present application.

Fig. 3 is an exploded view of a coupling structure of a hybrid shaft in the embodiment of the present application.

Fig. 4 is a sectional view of a coupling structure of a kneading shaft in an embodiment of the present application.

Description of reference numerals: 1. a single-shaft feed mixer; 2. a housing; 21. a mixing cavity; 211. a ring gear; 22. a feed inlet; 23. a discharge port; 231. a cover plate; 24. a viewing port; 241. a cover plate; 25. rotating the motor; 26. a speed reducer; 3. a drive shaft; 4. a transition block; 41. a gear; 42. a drive shaft; 421. a locking groove; 43. a chute; 44. fixing grooves; 5. a mixing shaft; 51. a locking block; 511. a limiting groove; 512. a spring; 52. a mixing rod; 521. mixing and closing leaves; 53. pulling a rope; 531. a fixed block; 54. grabbing a rod; 55. a dust cover; 6. a gas storage bag; 61. a gas ejector tube; 611. a pulse electromagnetic valve; 7. a limiting slide block; 71. and limiting through holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-4.

The embodiment of the application discloses multidimension thoughtlessly stirs from stirring unipolar feed mixing machine, refer to fig. 1 and fig. 2, including casing 2, be equipped with mix chamber 21 on casing 2, feed inlet 22 that is used for the feeding is seted up on casing 2's top, offer the discharge gate 23 that is used for the ejection of compact on casing 2's the lateral wall, it is connected with the apron 231 that is used for controlling discharge gate 23 to rotate on casing 2, viewing aperture 24 has still been seted up on casing 2's the lateral wall of discharge gate 23, viewing aperture 24 is located the top of discharge gate 23, it is connected with the cover plate 241 that is used for controlling viewing aperture 24 to lead to and close to rotate on casing 2, discharge gate 23, feed inlet 22, viewing aperture 24 all communicates with mix chamber 21.

Referring to fig. 2 and 3, a driving shaft 3 is rotatably connected to opposite side walls of the housing 2, the driving shaft 3 is arranged along the length direction of the discharge port 23, one end of the driving shaft 3 extends into the mixing cavity 21, one end of the driving shaft 3, which is located in the mixing cavity 21, is fixedly connected with a transition block 4, the transition block 4 is arranged in a cylindrical shape, the transition block 4 and the driving shaft 3 are coaxially fixed, one end of the transition block 4, which is close to the driving shaft 3, is rotatably connected with a gear 41, a gear ring 211 meshed with the gear 41 is fixedly connected to the inner wall of the mixing cavity 21, the gear ring 211 and the driving shaft 3 are coaxially arranged, one end of the gear 41, which is far away from the inner wall of the mixing cavity 21, is fixedly connected with a transmission shaft 42, the transmission shaft 42 is arranged along the length direction of the driving shaft 3, and the rotation axis of the transmission shaft 42 is parallel to the rotation axis of the driving shaft 3; in order to control the rotation of the driving shaft 3, a driving member is arranged on the housing 2, in the embodiment of the present application, the driving member includes a rotating motor 25 and a speed reducer 26, an output shaft of the rotating motor 25 is coaxially fixed with an input shaft of the speed reducer 26, and an output shaft of the speed reducer 26 is coaxially fixed with one end of the driving shaft 3 away from the mixing chamber 21.

Referring to fig. 3 and 4, a mixing shaft 5 is rotatably connected to the housing 2, the mixing shaft 5 is disposed along a length direction of the driving shaft 3, the mixing shaft 5 is rotatably disposed in the mixing chamber 21, the mixing shaft 5 is slidably disposed on the transition block 4, and a rotation mode of the mixing shaft 5 can be adjusted by sliding of the mixing shaft 5; a sliding groove 43 for the end part of the mixing shaft 5 to slide is formed in the transition block 4, the sliding groove 43 is formed along the diameter of the transition block 4, one end, far away from the gear 41, of the transmission shaft 42 extends into the sliding groove 43, and the end, far away from the gear 41, of the transmission shaft 42 is flush with the inner wall of the sliding groove 43; the limiting slide block 7 which is in square arrangement is connected with the sliding groove 43 in a sliding mode, the limiting slide block 7 is connected with the mixing shaft 5 in a rotating mode, a limiting through hole 71 for the mixing shaft 5 to rotate is formed in the limiting slide block 7, the inner diameter of the limiting through hole 71 is the same as the outer diameter of the mixing shaft 5, and the sliding stability of the mixing shaft 5 in the sliding groove 43 is improved through the arrangement of the limiting slide block 7.

Referring to fig. 3 and 4, in order to fix the blending shaft 5 and the transition block 4, two ends of the blending shaft 5 are connected with locking blocks 51 in a sliding manner, the cross section of each locking block 51 is square, each locking block 51 is arranged along the length direction of the blending shaft 5 and slides along the length direction of the blending shaft 5, a limiting groove 511 for the locking block 51 to slide is formed in the blending shaft 5, an elastic part is fixedly connected to each locking block 51 and used for driving each locking block 51 to slide towards the outside of the limiting groove 511, in the embodiment of the application, the elastic part is a spring 512, one end of the spring 512 is fixed with one end of the locking block 51 far away from the transition block 4, and the other end of the spring 512 is fixed with the inner wall of the limiting groove 511.

Referring to fig. 3 and 4, the locking groove 421 that supplies locking block 51 to imbed is seted up to the one end that transmission shaft 42 is located spout 43, when locking block 51 imbeds locking groove 421 in, transmission shaft 42 is coaxial setting with mix axle 5, mix axle 5 and drive shaft 3 and be eccentric settings, the axis of rotation of drive shaft 3 is parallel with the axis of rotation of mix axle 5, drive shaft 3 drives mix axle 5 under the effect of transition piece 4 when rotating and uses drive shaft 3 to rotate as the axis of rotation, drive gear 41 slides on ring gear 211 when transition piece 4 rotates, gear 41 rotates under the effect of ring gear 211, gear 41 drives mix axle 5 through transmission shaft 42 and uses transmission shaft 42 to rotate as the axis of rotation.

Referring to fig. 3 and 4, the transition block 4 is provided with a fixing groove 44 for the locking block 51 to be embedded in, the fixing groove 44 is located on the inner wall of the sliding groove 43, when the locking block 51 is embedded in the fixing groove 44, the mixing shaft 5 and the driving shaft 3 are coaxially arranged, and when the driving shaft 3 rotates, the mixing shaft 5 is driven to rotate by the action of the transition block 4, and the driving shaft 3 serves as a rotation axis.

Referring to fig. 3 and 4, a mixing rod 52 is fixedly connected to the mixing shaft 5, one end of the mixing rod 52, which is far away from the mixing shaft 5, is fixedly connected to a mixing leaf 521, one end of the mixing leaf 521, which is far away from the mixing rod 52, is obliquely arranged, when the locking block 51 on the mixing shaft 5 is located in the locking groove 421, one end of the mixing leaf 521, which is obliquely arranged, can contact with the inner wall of the mixing cavity 21 when the mixing shaft 5 rotates, and scrapes off feed accumulated on the inner wall of the mixing cavity 21 to participate in mixing; when the locking block 51 on the mixing shaft 5 is located in the fixing groove 44, the mixing leaf 521 is not easy to contact with the inner wall of the mixing cavity 21 when the mixing shaft 5 rotates, the rotating speed of the mixing shaft 5 can be properly accelerated, and the mixing efficiency of the single-shaft feed mixer 1 is improved.

When the feed to be mixed is in a viscous state, the locking block 51 on the mixing shaft 5 is embedded into the locking groove 421 on the transmission shaft 42, the mixing shaft 5 can rotate by taking the driving shaft 3 as a rotation axis and also can rotate by taking the transmission shaft 42 as a rotation axis, and when the mixing shaft 5 rotates, one end of the mixing blade 521 which is obliquely arranged scrapes the feed accumulated on the inner wall of the mixing cavity 21 off to participate in mixing; when the fodder that needs the mix is in the particulate state, in the fixed slot 44 on the locking block 51 embedding transition block 4 on will mixing the axle 5, mixing the axle 5 and can using drive shaft 3 to rotate as the axis of rotation, mix the difficult inner wall contact with mix chamber 21 of hinge 521 when mixing the axle 5 rotation this moment, can suitably accelerate mixing the rotational speed of axle 5, promote the mix efficiency of unipolar feed mixer 1.

Referring to fig. 4, in order to drive the locking block 51 to slide towards the limiting groove 511, so as to release the locking between the locking block 51 and the locking groove 421 or the fixing groove 44, an unlocking piece is arranged on the blending shaft 5, the unlocking piece comprises a pulling rope 53, the pulling rope 53 is slidably arranged on the blending shaft 5, one end of the pulling rope 53 is fixed to one end, far away from the transition block 4, of the locking block 51, the other end of the pulling rope 53 extends out of the blending shaft 5, one end, far away from the locking block 51, of the pulling rope 53 is fixedly connected with a fixing block 531, and the fixing block 531 is used for limiting one end, far away from the locking block 51, of the pulling rope 53 to slide into the blending shaft 5.

Referring to fig. 3 and 4, in order to adjust the rotation mode of the mixing shaft 5, a grabbing rod 54 is fixedly connected to the mixing shaft 5, the grabbing rod 54 is arranged in a U shape, the grabbing rod 54 is arranged along the length direction of the mixing shaft 5, and both ends of the grabbing rod 54 are fixed to the mixing shaft 5; one end of the pull rope 53 provided with the fixing block 531 is positioned below the grabbing rod 54, so that a worker can control the sliding of the locking block 51 through the pull rope 53 when the grabbing rod 54 slides the blending shaft 5, and the operation is convenient; the mixing shaft 5 is detachably connected with a dust cover 55, one end of the pull rope 53, which is provided with the fixing block 531, is positioned in the dust cover 55, and the pull rope 53 is not easy to be pulled when the mixing shaft 5 rotates through the arrangement of the dust cover 55.

When the rotation mode of the mixing shaft 5 needs to be adjusted, a worker firstly removes the dust cover 55, grasps the grabbing rod 54 and simultaneously extracts one end of the pulling rope 53 provided with the fixing block 531, so that the locking block 51 slides towards the limiting groove 511, then lifts the mixing shaft 5 to a proper position through the grabbing rod 54 to release the pulling rope 53, so that the locking block 51 is embedded into the locking groove 421 or the fixing groove 44, and then remounting the dust cover 55 on the mixing shaft 5 to complete the change of the rotation mode of the mixing shaft 5.

Referring to fig. 1 and 2, in order to make when mix axle 5 rotates that the inner wall of mix chamber 21 or the epaxial accumulational fodder of mix can participate in the mix, fixedly connected with gas storage package 6 on the casing 2, the jet-propelled pipe 61 of fixedly connected with on the gas storage package 6, the one end and the gas storage package 6 intercommunication of jet-propelled pipe 61, the other end and the mix chamber 21 intercommunication of jet-propelled pipe 61, fixedly connected with is used for controlling the pulse solenoid valve 611 that jet-propelled pipe 61 leads to and closes on the casing 2.

When there is the fodder to pile up on the inner wall of mix chamber 21 or mix axle 5, make jet pipe 61 and mix chamber 21 intercommunication through pulse solenoid valve 611, the gas in the gas storage package 6 passes through jet pipe 61 and gets into in mix chamber 21 to blow to the inner wall of mix chamber 21 or mix the inner wall separation with mix axle 5 or mix chamber 21 of the fodder on axle 5, participate in the fodder mix.

The embodiment of the application provides a multidimensional mixing stirring is from material-turning unipolar feed mixing machine's implementation principle does: when the feed to be mixed is in a viscous state, the locking block 51 on the mixing shaft 5 is embedded into the locking groove 421 on the transmission shaft 42, the mixing shaft 5 can rotate by taking the driving shaft 3 as a rotation axis and also can rotate by taking the transmission shaft 42 as a rotation axis, and when the mixing shaft 5 rotates, one end of the mixing blade 521 which is obliquely arranged scrapes the feed accumulated on the inner wall of the mixing cavity 21 off to participate in mixing; when the fodder that needs the mix is in the particulate state, in the fixed slot 44 on the locking block 51 embedding transition block 4 on will mixing the axle 5, mixing the axle 5 and can using drive shaft 3 to rotate as the axis of rotation, because mixing the difficult inner wall contact with mix chamber 21 of leaf 521 when mixing the axle 5 rotation, can suitably accelerate mixing the rotational speed of axle 5, promote the mix efficiency of unipolar fodder mixing machine 1.

When the rotation mode of the blending shaft 5 needs to be adjusted, a worker firstly removes the dust cover 55, grasps the grabbing rod 54 and simultaneously extracts one end of the pulling rope 53 provided with the fixing block 531, so that the locking block 51 slides towards the limiting groove 511, then lifts the blending shaft 5 to a proper position through the grabbing rod 54, releases the pulling rope 53, enables the locking block 51 to be embedded into the locking groove 421 or the fixing groove 44, and then remounts the dust cover 55 on the blending shaft 5, thereby completing the replacement of the rotation mode of the blending shaft 5.

When there is the fodder to pile up on the inner wall of mix chamber 21 or mix axle 5, make jet pipe 61 and mix chamber 21 intercommunication through pulse solenoid valve 611, the gas in the gas storage package 6 passes through jet pipe 61 and gets into in mix chamber 21 to blow to the inner wall of mix chamber 21 or mix the inner wall separation with mix axle 5 or mix chamber 21 of the fodder on axle 5, participate in the fodder mix.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a multidimension is thoughtlessly stirred from unipolar feed mixing machine of stirring, its characterized in that: contain casing (2), be equipped with mix chamber (21) on casing (2), it is connected with drive shaft (3) all to rotate on the relative lateral wall of casing (2), the one end of drive shaft (3) extends to in mix chamber (21), it is connected with mixing axle (5) to rotate on casing (2), mixing axle (5) rotate and set up in mix chamber (21), the both ends of mixing axle (5) are located the one end in mix chamber (21) with two drive shafts (3) respectively and are connected, drive shaft (3) are eccentric settings with mix axle (5), the axis of rotation of drive shaft (3) is parallel with the axis of rotation of mix axle (5), be connected with mix pole (52) on mixing axle (5), be connected with on mix pole (52) and mix leaf (521), be equipped with control drive shaft (3) pivoted driving piece on casing (2).

2. A multi-dimensional mixing self-stirring single-shaft feed mixer according to claim 1, characterized in that: one end that drive shaft (3) are located mix chamber (21) is connected with transition piece (4), be connected with ring gear (211) on the inner wall of mix chamber (21), ring gear (211) are coaxial setting with drive shaft (3), it is connected with gear (41) with ring gear (211) meshing to rotate on transition piece (4), the one end that mix chamber (21) inner wall was kept away from in gear (41) is connected with transmission shaft (42), the one end that gear (41) were kept away from in transmission shaft (42) extends to in transition piece (4) and is connected with mixing axle (5), it is parallel with transmission shaft (42) to mix axle (5).

3. A multi-dimensional mixing self-stirring single-shaft feed mixer according to claim 2, characterized in that: mix and to close axle (5) and slide and set up on transition piece (4), mix and to close the both ends of axle (5) and slide and be connected with locking piece (51), set up locking groove (421) that supply locking piece (51) embedding on transmission shaft (42), set up fixed slot (44) that supply locking piece (51) embedding on transition piece (4), mix and close axle (5) slip back locking piece (51) embedding locking groove (421) or fixed slot (44), be connected with the elastic component on locking piece (51), the elastic component is used for drive locking piece (51) to slide towards locking groove (421) or fixed slot (44) in, be equipped with the unlocking piece that drive locking piece (51) slided towards the direction of keeping away from transition piece (4) on mixing and close axle (5).

4. A multi-dimensional mixing and stirring self-stirring single-shaft feed mixer as claimed in claim 3, characterized in that: the unlocking piece comprises a pull rope (53), the pull rope (53) is arranged on the mixing shaft (5) in a sliding mode, one end of the pull rope (53) is connected with one end, far away from the transition block (4), of the locking block (51), and the other end of the pull rope (53) extends out of the mixing shaft (5).

5. A multi-dimensional mixing and stirring self-stirring single-shaft feed mixer according to claim 4, characterized in that: the mixing shaft (5) is provided with a grabbing rod (54), and one end of the pull rope (53) outside the mixing shaft (5) is positioned below the grabbing rod (54).

6. A multi-dimensional mixing and stirring self-stirring single-shaft feed mixer according to claim 4, characterized in that: one end of the pull rope (53) positioned outside the mixing shaft (5) is connected with a fixed block (531).

7. A multi-dimensional mixing self-stirring single-shaft feed mixer according to claim 5 or 6, characterized in that: and a dust cover (55) is arranged on the mixing shaft (5), and one end of the pull rope (53) outside the mixing shaft (5) is positioned in the dust cover (55).

8. A multi-dimensional mixing self-stirring single-shaft feed mixer according to claim 1, characterized in that: be connected with gas storage package (6) on casing (2), be connected with jet-propelled pipe (61) on gas storage package (6), the one end that gas storage package (6) were kept away from in jet-propelled pipe (61) extends to mix chamber (21), be connected with pulse solenoid valve (611) on casing (2), pulse solenoid valve (611) are used for controlling the logical of jet-propelled pipe (61) and close.

9. A multi-dimensional mixing self-stirring single-shaft feed mixer according to claim 1, characterized in that: casing (2) are last to have seted up viewing aperture (24), viewing aperture (24) and mix chamber (21) intercommunication, it is connected with cover plate (241) that are used for controlling viewing aperture (24) to lead to and close to rotate on casing (2).

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