CN114307805A - Coulter mixer with directional spraying and wetting functions - Google Patents

Abstract

The invention discloses a colter mixer with a directional spraying and wetting function, which comprises a base, a rack, a feeding hole and a discharging hole, wherein the base is a bottom supporting structure of the device, the upper end of the base is provided with the cylindrical rack, the inside of the rack is respectively provided with a mixing structure and a cutting ejection structure, the inside of the mixing structure is provided with a directional spraying and wetting structure, the upper end of the base is symmetrically provided with 2 feeding holes, and the side surface of the base is provided with the arc-shaped discharging hole; the cutting is launched the structure and can be sprayed the material, and small-size viscidity material has the breakdown effect to large-scale viscidity material, and water can enter into the inside of large-scale viscidity material through the position that large-scale viscidity material punctured to make the inside powdered material of large-scale viscidity material can mix with water contact, large-scale viscidity material under unsettled state receives can take place to deflect and rotate after the striking, thereby increase the area of contact of large-scale viscidity material and water.

Description

Coulter mixer with directional spraying and wetting functions

Technical Field

The invention relates to the technical field of coulter mixing machines, in particular to a coulter mixing machine with a directional spraying and wetting function.

Background

The coulter mixer is a novel and efficient powder mixing device, which can be divided into a stainless steel coulter mixer and a carbon steel coulter mixer according to the material, can be divided into a horizontal coulter mixer and a multifunctional coulter mixer according to the structure type, and water needs to be added into the coulter mixer in the process of mixing the powdery material in the coulter mixer, so as to wet the material and facilitate the mixing of the material, the traditional coulter mixer has some defects when wetting the material, for example, after partial material is contacted with water, the material can generate viscosity, so that the phenomenon of agglomeration among the materials can be caused, after agglomeration among the materials, the phenomenon of wrapping the powdery material which is not contacted with the water can be caused, and in the process of mixing the material, the coulter can hardly damage the agglomerated material, so that the powdery material wrapped by the agglomerated material is difficult to be contacted with the external water, therefore, the mixing effect of the device is poor, and meanwhile, in the running process of the coulter, when the coulter grinds materials, the position of the coulter cannot be changed, so that when the coulter is subjected to large force, the abrasion of the coulter is increased, the service life of the coulter is shortened, and the use of the device is not facilitated.

Disclosure of Invention

The invention aims to provide a coulter mixer with a directional spraying and wetting function, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: a colter mixer with a directional spraying and wetting function comprises a base, a rack, feed inlets and discharge outlets, wherein the base is a bottom supporting structure of the device, the upper end of the base is provided with the cylindrical rack, the inside of the rack is respectively provided with a mixing structure and a cutting ejection structure, the inside of the mixing structure is provided with the directional spraying and wetting structure, the upper end of the base is symmetrically provided with 2 feed inlets, the side surface of the base is provided with an arc-shaped discharge outlet, when the device is used, a powdery material is added into the inside of the rack through the feed inlets, then the mixing structure can stir and mix the material in the device, meanwhile, the spraying and wetting structure can add water into the inside of the device, so that the stirring and mixing effects are improved, after the material is mixed with water, the material can generate viscosity, and the material which is generated can be easily wrapped up without being mixed with the water, thereby cause the powdery material of the inside of viscidity material can not mix with water, cause the not good of mixed effect, like figure 6, divide into large-scale viscidity material and can enter into the inside small-size viscidity material of cutting ejection structure with the viscidity material according to the volume of viscidity material, open the discharge gate after processing finishes, collect the material in the frame through the discharge gate, at the in-process of processing, the base can support the device to guarantee the stability of device when the operation.

Further, the mixing structure comprises a fixed shaft, a fixed column and a coulter, the fixed shaft is rotatably arranged inside the base, one end of the fixed shaft is connected with a motor, the motor is arranged on the side surface of the base, the fixed column is alternately arranged on the upper side and the lower side of the fixed shaft, the coulter is arranged on the side surface of the fixed column, one end of the coulter is an inclined surface, the other end of the coulter is planar, as shown in fig. 1 and 2, when the device is used, the motor can drive the fixed shaft to rotate, the fixed column and the coulter can rotate when the fixed shaft rotates, materials can be stirred when the fixed column and the coulter rotate, so that the mixing efficiency of the materials and water is increased, in the process of stirring the materials, the coulter moves to the bottom and can be contacted with the materials, then the coulter can drive the materials to move upwards, in the moving process, because the frictional force between powdery material and the coulter is less, the frictional force between small-size viscous material and large-scale viscous material and the coulter increases according to the increase of volume gradually, so when the coulter pushes the material to move, the both sides that powdery material can be quick move, and the frictional force of small-size viscous material and the coulter is great, so small-size viscous material can drop after moving a distance along with the coulter is ascending, and the frictional force of large-scale viscous material and the coulter is the biggest, so large-size viscous material just can drop with the coulter separation after the coulter moves to the eminence, part can enter into the inside of cutting ejection structure and store when powdery material and small-size viscous material move downwards.

Furthermore, the directional spraying wetting structure comprises a fixing shaft, a water inlet pipe, a fixing column, a water storage chamber and a fixing channel, wherein the water inlet pipe is arranged on the side surface of the fixing shaft, the fixing shaft and the water inlet pipe are hollow, water flows, the water storage chamber and the fixing channel are arranged inside the coulter, water can enter the fixing shaft from the water inlet pipe, the fixing shaft and the water inlet pipe are communicated, so that the water can enter the fixing column from the fixing shaft, and then the water can enter the water storage chamber and the fixing channel to be sprayed to the outside, so that water is added into the device for mixing.

Further, the coulter is a grinding and stirring mixing structure of the device, the coulter and the fixed column form a telescopic structure, a first sealing ring for increasing air tightness is arranged on the side face of the fixed column far away from the fixed shaft, the first sealing ring is arranged inside the water storage chamber, a connecting column is arranged at the center of the inside of the fixed column, and a second sealing ring for controlling water flow in the water storage chamber is arranged at the upper end of the connecting column, as shown in fig. 3, when water enters the fixed column, the first sealing ring can increase the sealing performance between the fixed column and the coulter, so that the water is prevented from flowing in from a gap between the fixed column and the coulter, and the second sealing ring can block the water in the water storage chamber, so that the water is prevented from directly flowing into the inside of the fixed channel from the water storage chamber;

when the coulter is positioned at the lower end, the gravity of the coulter faces downwards at the moment, so that the second sealing ring can prevent water in the water storage chamber from flowing out, and the water can exert pressure on the coulter at the moment, so that the pressure of the coulter on materials below is increased, the coulter can grind the materials below along with the movement of the coulter, and the coulter and the fixing column can stretch out and draw back, so that the coulter can move upwards after the coulter is stressed greatly, the bottom of the coulter is prevented from being stressed excessively, the coulter is prevented from being worn due to large stress in the grinding process, and the service life of the coulter is prolonged;

as shown in fig. 7, when the coulter moves to the upper end, under the action of gravity of the coulter, the coulter and the fixed column stretch out and draw back, so that the second sealing ring is not blocked in the water storage chamber, water in the water storage chamber flows out from the fixed channel at the moment, and the object is sprayed and wetted to the materials in the device, and the mixing efficiency is increased.

Further, the inside of reservoir chamber is linked together with the inside of fixed way, the fixed way is provided with a plurality of in the inside of coulter, and the open end of fixed way is located the plane end inside of coulter, the open end of fixed way is the filter screen form, as figure 4, the inclined plane end of coulter can contact with the material when the coulter moves to cut and stir the material, and the plane end of coulter can spout water and moisten the material, and at the in-process of stirring, because the open end of fixed way is the filter screen form, so avoid the material to enter into the inside of fixed way, and the water in the fixed way outwards flows, so also can avoid the material to enter into the inside of fixed way.

Furthermore, the cutting ejection structure comprises an electric push rod, a twist rod, a top plate, a fixing spring, a collecting pipe and a cutting knife, the cutting ejection structure is arranged between 2 coulters, as shown in fig. 5, when the coulters cut and mix materials, as the contact ends of the coulters and the materials are inclined planes, the coulters can push the materials to two sides to be in contact with the cutting ejection structure, the cutting ejection structure can cut the materials, and meanwhile, the powdery materials and the small-sized viscous materials can enter the inside of the cutting ejection structure, so that the materials are stored.

Furthermore, the electric push rod is arranged on the side face of the base, one end of the electric push rod is provided with a twist rod, a top plate is arranged in the twist rod in a telescopic mode, the top plate is connected with the collecting pipe in a sliding mode, the collecting pipe is arranged in the base in a rotating mode, a fixing spring is arranged on the outer side of the top plate and located in the collecting pipe, when the device is used, powdery materials and small viscous materials can enter the collecting pipe, the electric push rod can push the twist rod and the top plate to move, when the twist rod and the top plate move downwards, the fixing spring can contract to charge the fixing spring, when the electric push rod pushes the twist rod to move outwards, the fixing spring has certain reaction delay, and when the twist rod moves outwards to drive the top plate to move, the fixing spring can push the top plate to move again when the twist rod stretches, the top plate is accelerated to eject the powdery material and the small viscous material, and the small viscous material has certain mass and can be ejected to a high position;

as shown in fig. 7, after the ejected small viscous material contacts the large viscous material, the small viscous material has a puncture effect on the large viscous material, and the falling speed of the large viscous material is delayed, so that the large viscous material can contact water, and the water can enter the large viscous material through the punctured position of the large viscous material, so that the powdery material inside the large viscous material can contact with the water to be mixed, and the large viscous material in a suspended state can deflect and rotate after being impacted, so that the contact area between the large viscous material and the water is increased, and the large viscous material and the water can be conveniently mixed;

as shown in figure 8, when the small-sized viscous material does not contact and impact the coulter with the large-sized viscous material in the upward moving process, the coulter can vibrate under the action of the impact force, so that the coulter is cleaned, the phenomenon that the bottom of the coulter is adhered with the material when being ground to influence the next grinding is avoided, meanwhile, the quality of the coulter is hard, so that the small-sized viscous material has a crushing effect on the small-sized viscous material after being contacted with the coulter, the small-sized viscous material is changed into the powdery material again to be mixed again, and the powdery material in the small-sized viscous material is released to increase the mixing efficiency.

Further, the outside equidistance of collecting pipe is provided with a plurality of cutting knife, can lead to the collecting pipe when the fluted twist pole removes to make collecting pipe and cutting knife rotate, can cut the material when the cutting knife rotates.

Compared with the prior art, the invention has the following beneficial effects: when the cutting ejection structure is used, materials are ejected, after the ejected small-sized viscous materials are contacted with the large-sized viscous materials, the small-sized viscous materials have a breakdown effect on the large-sized viscous materials, meanwhile, the falling speed of the large-sized viscous materials is delayed, the large-sized viscous materials can be contacted with water, the water can enter the large-sized viscous materials through the breakdown positions of the large-sized viscous materials, so that powdery materials in the large-sized viscous materials can be contacted with the water to be mixed, the large-sized viscous materials in a suspended state can deflect and rotate after being impacted, the contact area of the large-sized viscous materials and the water is increased, and the large-sized viscous materials and the water can be conveniently mixed;

after the small-size viscidity material that erupts contacts with large-scale viscidity material, small-size viscidity material has the breakdown effect to large-scale viscidity material, delay the falling speed of large-scale viscidity material simultaneously, make large-scale viscidity material can contact with water, and water can enter into the inside of large-scale viscidity material through the position that large-scale viscidity material punctured, thereby make the inside powdery material of large-scale viscidity material can mix with water contact, large-scale viscidity material under unsettled state receives can take place to deflect and rotate after the striking, thereby increase the area of contact of large-scale viscidity material and water, be convenient for large-scale viscidity material and water mix.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic overall front cross-sectional structural view of the present invention;

FIG. 3 is a cross-sectional side view of the stationary post and coulter mounting arrangement of the present invention;

FIG. 4 is a top cross-sectional view of the plow blade and fixed way mounting of the present invention;

FIG. 5 is a side cross-sectional view of the mounting arrangement of the rack and collection tube of the present invention;

FIG. 6 is a schematic view of the material distribution within the housing of the present invention;

FIG. 7 is a schematic illustration of the material impact of the present invention;

fig. 8 is a schematic view of the material and coulter impact configuration of the present invention.

In the figure: 1. a base; 2. a frame; 3. an electric motor; 4. a fixed shaft; 5. a water inlet pipe; 6. fixing a column; 7. a first seal ring; 8. a coulter; 9. a water storage chamber; 10. connecting columns; 11. a second seal ring; 12. a fixed way; 13. cutting the ejection structure; 14. an electric push rod; 15. a twisted rod; 16. a top plate; 17. fixing the spring; 18. a collection pipe; 19. a cutting knife; 20. a feed inlet; 21. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution: a colter mixer with a directional spraying and wetting function comprises a base 1, a rack 2, a feeding hole 20 and a discharging hole, wherein the base 1 is a bottom supporting structure of the device, the upper end of the base 1 is provided with the cylindrical rack 2, the inside of the rack 2 is respectively provided with a mixing structure and a cutting ejection structure 13, the inside of the mixing structure is provided with the directional spraying and wetting structure, the upper end of the base 1 is symmetrically provided with 2 feeding holes 20, the side surface of the base 1 is provided with an arc-shaped discharging hole 21, when the device is used, a powdery material is added into the inside of the rack 2 through the feeding hole 20, then the mixing structure can stir and mix the material in the device, meanwhile, the spraying and wetting structure can add water into the inside of the device, so that the stirring and mixing effects are increased, after the material is mixed with water, the material can generate viscosity, so that the material which generates viscosity can easily hold the material which is not mixed with the water, thereby cause the powdery material of the inside of viscidity material can not mix with water, cause the not good of mixed effect, like figure 6, divide into large-scale viscidity material and can enter into the inside small-size viscidity material of cutting ejection structure 13 with the viscidity material according to the volume of viscidity material, open discharge gate 21 after processing finishes, collect the material in frame 2 through discharge gate 21, at the in-process of processing, base 1 can support the device, thereby guarantee the stability of device when the operation.

The mixing structure comprises a fixed shaft 4, a fixed column 6 and a coulter 8, wherein the fixed shaft 4 is rotatably arranged inside a base 1, one end of the fixed shaft 4 is connected with a motor 3, the motor 3 is arranged on the side surface of the base 1, the fixed column 6 is alternately arranged on the upper side and the lower side of the fixed shaft 4, the coulter 8 is arranged on the side surface of the fixed column 6, one end of the coulter 8 is inclined, the other end of the coulter 8 is planar, as shown in figures 1 and 2, when the device is used, the motor 3 can drive the fixed shaft 4 to rotate, the fixed column 6 and the coulter 8 can rotate when the fixed shaft 4 rotates, materials can be stirred when the fixed column 6 and the coulter 8 rotate, so that the mixing efficiency of the materials and water is improved, in the process of stirring the materials, the coulter 8 moves to the bottom to be contacted with the materials, and then the coulter 8 can drive the materials to move upwards, in the moving process, because the friction force between the powdery material and the coulter 8 is small, and the friction force between the small-sized viscous material and the coulter 8 and the friction force between the large-sized viscous material and the coulter 8 are gradually increased according to the increase of the volume, when the coulter 8 pushes the material to move, the two sides of the powdery material can move quickly, and the friction force between the small-sized viscous material and the coulter 8 is large, so the small-sized viscous material can fall off after moving for a certain distance along with the rising of the coulter 8, and the friction force between the large-sized viscous material and the coulter 8 is maximum, so the large-sized viscous material can be separated from the coulter 8 and fall off after the coulter 8 moves to a high position, and when the powdery material and the small-sized viscous material move downwards, part of the powdery material can enter the inside of the cutting ejection structure 13 to be stored.

The directional spraying wetting structure comprises a fixed shaft 4, a water inlet pipe 5, a fixed column 6, a water storage chamber 9 and a fixed channel 12, the side surface of the fixed shaft 4 is provided with the water inlet pipe 5, the inside of the fixed shaft 4 and the water inlet pipe 5 is a hollow shape for water to flow, the inside of a coulter 8 is opened in the water storage chamber 9 and the fixed channel 12, water can enter the inside of the fixed shaft 4 from the water inlet pipe 5, the inside of the fixed shaft 4 and the water inlet pipe 5 are communicated, so the water can enter the inside of the fixed column 6 from the fixed shaft 4, then the water can enter the inside of the water storage chamber 9 and the fixed channel 12 and then is sprayed to the outside, and therefore water is added to the inside of the device for mixing.

The coulter 8 is a grinding and stirring mixing structure of the device, the coulter 8 and the fixed column 6 form a telescopic structure, a first sealing ring 7 for increasing air tightness is arranged on the side face of the fixed column 6, which is far away from the fixed shaft 4, the first sealing ring 7 is arranged inside the water storage chamber 9, a connecting column 10 is arranged at the center of the inside of the fixed column 6, and a second sealing ring 11 for controlling water in the water storage chamber 9 to flow is arranged at the upper end of the connecting column 10, as shown in fig. 3, when water enters the fixed column 6, the first sealing ring 7 can increase the sealing performance between the fixed column 6 and the coulter 8, so that the water is prevented from flowing in from a gap between the fixed column 6 and the coulter 8, and the second sealing ring 11 can block the water in the water storage chamber 9, and the water is prevented from directly flowing into the fixed channel 12 from the water storage chamber 9;

when the coulter 8 is positioned at the lower end, the gravity of the coulter 8 faces downwards at the moment, so that the second sealing ring 11 can prevent water in the water storage chamber 9 from flowing out, the water can cause pressure to the coulter 8 at the moment, the pressure of the coulter 8 to materials below is increased, the coulter 8 can grind the materials below along with the movement of the coulter 8, and the coulter 8 and the fixed column 6 can be stretched and retracted, so that when the coulter 8 is stressed greatly, the coulter 8 can move upwards, the bottom of the coulter 8 is prevented from being stressed greatly and abraded, and the service life of the coulter 8 is prolonged;

as shown in fig. 7, when the coulter 8 moves to the upper end, under the action of gravity of the coulter 8, the coulter 8 and the fixed column 6 stretch out and draw back, so that the second seal ring 11 is not blocking the water storage chamber 9, and at the moment, water in the water storage chamber 9 flows out from the fixed channel 12, thereby realizing the functions of spraying and wetting the materials in the device by the object and increasing the mixing efficiency.

The inside of the water storage chamber 9 is communicated with the inside of the fixed channel 12, the fixed channel 12 is provided with a plurality of fixed channels in the coulter 8, the open end of the fixed channel 12 is positioned in the plane end of the coulter 8, the open end of the fixed channel 12 is in a filter screen shape, as shown in fig. 4, when the coulter 8 moves, the inclined plane end of the coulter 8 can be contacted with the material, so as to cut and stir the material, the plane end of the coulter 8 can spray water to moisten the material, and in the stirring process, the open end of the fixed channel 12 is in a filter screen shape, so that the material is prevented from entering the inside of the fixed channel 12, and the water in the fixed channel 12 flows outwards, so that the material can be prevented from entering the inside of the fixed channel 12.

The cutting ejection structure 13 comprises an electric push rod 14, a twist rod 15, a top plate 16, a fixed spring 17, a collecting pipe 18 and a cutting knife 19, the cutting ejection structure 13 is arranged between 2 coulters 8, as shown in fig. 5, when the coulters 8 cut and mix materials, because the contact ends of the coulters 8 and the materials are inclined planes, the coulters 8 can push the materials to two sides to be in contact with the cutting ejection structure 13, the cutting ejection structure 13 can cut the materials, and meanwhile, the powdery materials and the small-sized viscous materials can enter the inside of the cutting ejection structure 13, so that the materials are stored.

The electric push rod 14 is arranged on the side of the base 1, one end of the electric push rod 14 is provided with a twist rod 15, the inside of the twist rod 15 is telescopically provided with a top plate 16, the top plate 16 is in sliding connection with a collecting pipe 18, the collecting pipe 18 is rotatably arranged inside the base 1, the outer side of the top plate 16 is provided with a fixed spring 17, the fixed spring 17 is positioned inside the collecting pipe 18, when the device is used, powdery materials and small viscous materials can enter the collecting pipe 18, the electric push rod 14 can push the twist rod 15 and the top plate 16 to move, when the twist rod 15 and the top plate 16 move downwards, the fixed spring 17 can be contracted to charge the fixed spring 17, and when the electric push rod 14 pushes the twist rod 15 to move outwards, at the moment, the fixed spring 17 has certain reaction delay, so when the twist rod 15 moves outwards to drive the top plate 16 to move, the fixed spring 17 pushes the top plate 16 to move again when being stretched, so that the top plate 16 is accelerated to eject powdery materials and small viscous materials, and the small viscous materials have certain mass and can be ejected to a high position;

as shown in fig. 7, after the ejected small viscous material contacts the large viscous material, the small viscous material has a puncture effect on the large viscous material, and the falling speed of the large viscous material is delayed, so that the large viscous material can contact water, and the water can enter the large viscous material through the punctured position of the large viscous material, so that the powdery material inside the large viscous material can contact with the water to be mixed, and the large viscous material in a suspended state can deflect and rotate after being impacted, so that the contact area between the large viscous material and the water is increased, and the large viscous material and the water can be conveniently mixed;

as shown in fig. 8, when the small-sized viscous material does not contact and impact the coulter 8 with the large-sized viscous material in the upward movement process, the coulter 8 vibrates under the action of the impact force, thereby cleaning the coulter 8, avoiding the situation that the bottom adhesion of the coulter 8 has the influence of the material on the next grinding when grinding, meanwhile, because the texture of the coulter 8 is hard, the small-sized viscous material has the crushing effect after contacting the coulter 8, at the moment, the small-sized viscous material is changed into the powdery material again to be mixed again, thereby releasing the powdery material in the small-sized viscous material and increasing the mixing efficiency.

The outside equidistance of collecting pipe 18 is provided with a plurality of cutting knife 19, can lead collecting pipe 18 when twist rod 15 removes to make collecting pipe 18 and cutting knife 19 rotate, can cut the material when cutting knife 19 rotates.

The working principle of the invention is as follows: the motor 3 can drive the fixed shaft 4 to rotate to stir materials, in the process of stirring the materials, the coulter 8 pushes the materials to move, meanwhile, the coulter 8 can grind the materials, the powder materials can rapidly move on two sides, the friction force between the small viscous materials and the coulter 8 is large, so that the small viscous materials can fall off after moving for a certain distance along with the rising of the coulter 8, the friction force between the large viscous materials and the coulter 8 is maximum, the large viscous materials can be separated from the coulter 8 and fall off after the coulter 8 moves to a high position, and when the powder materials and the small viscous materials move downwards, parts of the powder materials and the small viscous materials can enter the cutting ejection structure 13 to be stored;

the cutting ejection structure 13 sprays the materials, after the sprayed small-sized viscous materials are contacted with the large-sized viscous materials, the small-sized viscous materials have a breakdown effect on the large-sized viscous materials, the falling speed of the large-sized viscous materials is delayed, the large-sized viscous materials can be contacted with water, the water can enter the large-sized viscous materials through the breakdown positions of the large-sized viscous materials, so that powdery materials in the large-sized viscous materials can be contacted with the water for mixing, the large-sized viscous materials in a suspended state can deflect and rotate after being impacted, the contact area of the large-sized viscous materials and the water is increased, and the large-sized viscous materials and the water can be conveniently mixed;

after the small-size viscidity material that erupts contacts with large-scale viscidity material, small-size viscidity material has the breakdown effect to large-scale viscidity material, delay the falling speed of large-scale viscidity material simultaneously, make large-scale viscidity material can contact with water, and water can enter into the inside of large-scale viscidity material through the position that large-scale viscidity material punctured, thereby make the inside powdery material of large-scale viscidity material can mix with water contact, large-scale viscidity material under unsettled state receives can take place to deflect and rotate after the striking, thereby increase the area of contact of large-scale viscidity material and water, be convenient for large-scale viscidity material and water mix.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a coulter mixes machine with wet function is sprayed to orientation, includes base (1), frame (2), feed inlet (20) and discharge gate, its characterized in that: base (1) is the bottom sprag structure of device, the upper end of base (1) is provided with frame (2) that are the cylinder, the inside of frame (2) is provided with mixed structure respectively and cuts launches structure (13), the inside of mixed structure is provided with the orientation and sprays moist structure, the upper end symmetry of base (1) is provided with 2 feed inlets (20), the side of base (1) is provided with and is curved discharge gate (21).

2. The coulter mixer with directional spray wetting function as claimed in claim 1, wherein: the mixing structure comprises a fixed shaft (4), a fixed column (6) and a coulter (8), wherein the fixed shaft (4) is rotatably arranged inside the base (1), one end of the fixed shaft (4) is connected with the motor (3), the motor (3) is arranged on the side face of the base (1), the fixed column (6) is alternately arranged on the upper side and the lower side of the fixed shaft (4), the coulter (8) is arranged on the side face of the fixed column (6), one end of the coulter (8) is an inclined plane, and the other end of the coulter (8) is planar.

3. The coulter mixer with directional spray wetting function as claimed in claim 2, wherein: the directional spraying wetting structure comprises a fixed shaft (4), a water inlet pipe (5), a fixed column (6), a water storage chamber (9) and a fixed channel (12), wherein the water inlet pipe (5) is arranged on the side face of the fixed shaft (4), the fixed shaft (4) and the water inlet pipe (5) are hollow, water flows are supplied to the hollow, and the water storage chamber (9) and the fixed channel (12) are arranged in a coulter (8).

4. The coulter mixer with directional spray wetting function as claimed in claim 3, wherein: coulter (8) is the grinding of device, stirs mixed structure, coulter (8) and fixed column (6) constitute extending structure, fixed column (6) are provided with first sealing washer (7) that increase the gas tightness apart from the side of the more distal end of fixed axle (4), first sealing washer (7) set up the inside in reservoir chamber (9), the inside center department of fixed column (6) is provided with spliced pole (10), the upper end of spliced pole (10) is provided with second sealing washer (11) that control reservoir chamber (9) internal water flows.

5. The coulter mixer with directional spray wetting function as claimed in claim 4, wherein: the inside of aqua storage chamber (9) is linked together with the inside of fixed way (12), fixed way (12) are provided with a plurality of in the inside of coulter (8), and the open end of fixed way (12) is located the plane end of coulter (8) inside, the open end of fixed way (12) is the filter screen form.

6. The coulter mixer with directional spray wetting function as claimed in claim 2, wherein: the cutting ejection structure (13) comprises an electric push rod (14), a twist rod (15), a top plate (16), a fixed spring (17), a collecting pipe (18) and a cutting knife (19), and the cutting ejection structure (13) is arranged among the 2 coulters (8).

7. The coulter mixer with directional spray wetting function as claimed in claim 6, wherein: electric putter (14) set up the side in base (1), the one end of electric putter (14) is provided with twist rod (15), the inside flexible roof (16) that is provided with of twist rod (15), roof (16) and collecting pipe (18) are sliding connection, the rotation of collecting pipe (18) sets up the inside in base (1), the outside of roof (16) is provided with fixed spring (17), fixed spring (17) are located the inside of collecting pipe (18).

8. The coulter mixer with directional spray wetting function as claimed in claim 1, wherein: a plurality of cutting knives (19) are equidistantly arranged on the outer side of the collecting pipe (18).

Images