CN115646274A

CN115646274A - A grit mixing apparatus for gardens artificial hillock is made

Info

Publication number: CN115646274A
Application number: CN202211577114.3A
Authority: CN
Inventors: 范东岗; 陈飞颖; 江华球; 游智春
Original assignee: Fujian Chunjin Municipal Garden Co ltd
Current assignee: Fujian Chunjin Municipal Garden Co ltd
Priority date: 2022-12-09
Filing date: 2022-12-09
Publication date: 2023-01-31
Anticipated expiration: 2042-12-09
Also published as: CN115646274B

Abstract

The invention relates to a sand and stone mixing device for manufacturing garden rockery. The invention belongs to the technical field of sand and stone mixing equipment; the gravel powder mixing device comprises a mixing cylinder for containing gravel powder and a binder, wherein a mixing plate for stirring the gravel powder and the binder is arranged in the mixing cylinder, and a mixing cavity for the gravel powder and the binder to enter is formed in the mixing plate.

Description

A grit mixing apparatus for gardens artificial hillock is made

Technical Field

The invention relates to the field of sand and stone mixing equipment, in particular to sand and stone mixing equipment for manufacturing garden rockery.

Background

The existing garden rockery is manufactured by fully mixing sand and stone powder and a binder and then molding so as to reduce the cost of long-distance transportation.

In order to reduce cost better, a garden rockery is usually manufactured by building a steel bar frame firstly and then pouring gravel powder and a binder on the surface of the steel bar frame for molding, but the garden rockery manufactured and molded when the mixing degree of the gravel powder and the binder is insufficient is easy to crack or crack.

The gravel powder and the binder are usually stirred directly by a stirring device, and the binder is likely to form a block structure during stirring, so that the mixing effect between the gravel powder and the binder is not ideal.

Therefore, it is necessary to provide a sand mixing apparatus for landscape rockery manufacturing to solve the above problems.

Disclosure of Invention

The invention aims to provide a sand mixing device for garden rockery manufacturing, which solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a grit mixing apparatus for gardens artificial hillock is made, is including the mixing drum that is used for splendid attire grit powder and binder, the inside of mixing drum is provided with the mixing plate that is used for stirring grit powder and binder, be provided with the hybrid chamber that supplies grit powder and binder to get into on the mixing plate, the hybrid chamber is the dovetail groove structure, and the dovetail groove structure has long bottom surface and the short bottom surface that is parallel to each other, and the tip that the dovetail groove structure has the short bottom surface is provided with rectangle exhaust duct, rectangle exhaust duct and mixing plate body coupling, be provided with in the rectangle exhaust duct and be used for the crushing mechanism who smashes grit powder and binder, crushing mechanism realizes the intensive mixing between grit powder and the binder through the broken degree of control grit powder and binder after smashing.

Preferably, crushing mechanism includes the elastic metal plate, the elastic metal plate is rectangle platelike structure, is provided with the multiunit round hole on the elastic metal plate, and the multiunit round hole is the equidistance and distributes, rectangle exhaust pipe's inside forms the discharge cavity, the elastic metal plate is located the discharge cavity.

The crushing mechanism provided by the invention can be used for fully crushing and mixing the sandstone powder and the binder, so that the mixing fullness of the sandstone powder and the binder is improved, and the crushing degree of the crushed sandstone powder and the crushed binder can be controlled by the crushing mechanism, so that the regulation and control of the fully mixed degree between the sandstone powder and the crushed binder are realized.

The during operation, the mixing plate rotates along its axis position in the inside of mixing drum, rotate the inside gravel powder and the binder motion of in-process mixing plate drive mixing drum, when the mixing plate rotates at a high speed, because inertia effect, the opening part entering of hybrid chamber can be followed to gravel powder and binder, when the blocking of process elasticity metal sheet when gravel powder and binder enter into the discharge chamber along the hybrid chamber inner wall, gravel powder and binder are subdivided into the powder and are followed the round hole and pass through, thereby realize the breakage to cubic gravel powder or cubic binder, improve the degree of filling of mixing between the two.

Preferably, the both ends of elastic metal sheet are fixed respectively and are provided with attaching plate and first electro-magnet, the fixed direction casing that is provided with of one side inner wall of discharge cavity, the one side middle part that discharge cavity inner wall was kept away from to the direction casing is provided with the opening, and the activity of elastic metal sheet passes through the open position, and the first electro-magnet of elastic metal sheet tip slides and sets up in the inside of direction casing, the fixed slip track that is provided with of lateral surface of rectangle exhaust pipe, the slip track is arranged along the direction of height of rectangle exhaust pipe, the inside fixed third electro-magnet that is provided with of orbital lower extreme that slides, the orbital inside slip that slides of sliding is provided with magnetic sheet two, and magnetic sheet two is located the third electro-magnet top, repel each other between magnetic sheet two and the third electro-magnet, the upper surface of magnetic sheet two is provided with magnetic sheet one, repel each other between magnetic sheet one and the first electro-magnet, attract each other between elastic metal sheet, attaching plate and the magnetic sheet one.

Furthermore, the elastic metal plate, attract between the attaching plate and the first magnetic plate, thereby preliminarily positioning the elastic metal plate on one side of the first magnetic plate again, and when changing the magnetic force of the third electromagnet, the corresponding change of the repulsive force between the third electromagnet and the second magnetic plate, when the repulsive force between the third electromagnet and the second magnetic plate changes, the positions of the second magnetic plate in different heights inside the sliding track are switched, and the first magnetic plate on the surface of the second magnetic plate attracts with the elastic metal plate, therefore, when the magnetic plate changes the height along with the second magnetic plate in the sliding track, the position of the elastic metal plate in the discharge chamber can also be moved, thereby controlling the elastic metal plate to crush and mix the sandstone powder and the binder in different layer heights inside the mixing cylinder, and the mixing plate stirs in the mixing cylinder to realize the mixing of the sandstone powder and the binder.

And the mode that the elastic metal plate can move in the discharge chamber ensures that most of sand and stone powder and the binder can be directly discharged through the spare part of the discharge chamber at the upper and lower positions of the elastic metal plate, and the phenomenon of blockage or structural damage caused by small discharge space can be avoided.

Preferably, the first magnetic plate is arranged on the upper surface of the second magnetic plate in a sliding manner, a second electromagnet is further fixedly arranged on the upper surface of the second magnetic plate, the second electromagnet and the first magnetic plate repel each other, and the second electromagnet is arranged on one side, far away from the first electromagnet, of the first magnetic plate.

Further, when the magnetic force of the second electromagnet is changed, the first magnetic plate can slide on the second magnetic plate due to different repulsive forces between the second electromagnet and the first magnetic plate, so that the position between the first magnetic plate and the first electromagnet is adjusted, the first magnetic plate and the first electromagnet repel each other, when the first magnetic plate moves, the first electromagnet moves correspondingly along the inside of the guide shell, the elastic metal plate is compressed, the elastic metal plate elastically deforms when compressed to form an arc-shaped plate structure, the circular holes in the arc-shaped plate structure are correspondingly stretched and expanded, the diameter range of the gravel powder and the binder passing through the circular holes is enlarged, and the purposes of adjusting the crushing degree of the gravel powder and the binder and the full scale of mutual mixing between the gravel powder and the binder are achieved.

Preferably, the bottom surface of hybrid chamber is fixed and is provided with the second motor, second motor upper end transmission is connected with power shaft two, the outer lane department fixed mounting of power shaft two has the fixed connection cover, the fixed welding of the outer lane department of fixed connection cover has the clamp plate, the clamp plate is provided with the multiunit, and the multiunit clamp plate is angular distribution such as, the clamp plate corresponds the position of discharge cavity and hybrid chamber intercommunication.

When the second motor drives the second power shaft to rotate, the second power shaft drives the pressing plate to rotate, so that the gravel powder and the binder can be stirred into the mixing cavity, the speed and the force of the gravel powder and the binder entering the mixing cavity are increased, and the gravel powder and the binder are discharged after being extruded through the structure of the mixing cavity easily and smoothly.

Compared with the mode of continuously increasing the power of the first motor, the mode of matching the second motor with the first motor can correspondingly save energy under the condition of ensuring the moving speed of the gravel powder and the binder.

Preferably, the pressure plate is bent in an S-shape.

The bottom surface of the S-shaped bending structure is smaller in outlet height from the opening, so that the pressing plate can shift more gravel powder and the binder, and meanwhile, the gravel powder and the binder can normally pass through the surface of the pressing plate, and larger resistance cannot be achieved.

Preferably, the top of mixing drum is provided with actuating mechanism, and actuating mechanism includes first motor and power shaft one, the upper surface of mixing drum has an upper fixed plate through screw fixed mounting, an upper fixed plate fixes first motor block at the mixing drum upper surface, the first motor lower extreme is connected in power shaft transmission, the inside of mixing drum is stretched into in power shaft activity, and the equal fixed mounting in both ends has the adapter sleeve about the power shaft, the upper and lower both ends of hybrid sheet are fixed mounting respectively on upper and lower two sets of adapter sleeves, the upper and lower both ends middle part of mixing drum is integrative respectively to be provided with and rotates the shell, rotates the shell down, and a set of adapter sleeve in top rotates to be connected in rotating the shell on, and a set of adapter sleeve in below rotates to be connected in rotating the shell down.

Preferably, the mixing cylinder is of a cylindrical structure, and the first power shaft coincides with the axis of the mixing cylinder.

First motor passes through power axle one in this device and drives the mixing plate and rotate, and the length and the inside radius of mixing drum of mixing plate match, can mix stirring with inside whole grit powder of mixing drum and binder when the mixing plate rotates.

Preferably, the mixing plate is provided with a plurality of groups of through holes which are distributed equidistantly, and the mixing plate is at least provided with one group.

After the sand powder and the binder are mixed with each other and enter the mixing cavity, the sand powder and the binder can pass through the through holes along the inner wall of the mixing cavity, the purpose that the fine-particle sand powder and the binder directly reach the other side of the mixing plate is achieved, and the rest large-particle sand powder and the binder are crushed and mixed in the rectangular discharge pipeline.

Preferably, an upper feeding pipeline and a lower discharging pipeline are respectively arranged on the upper part and the lower part of the mixing cylinder.

The quantity of mixing plate designs according to the actual demand, and mixing plate is provided with two sets ofly in this device, is provided with the supporting leg in the bottom of mixing drum.

The invention has the technical effects and advantages that:

the crushing mechanism can be used for fully crushing and mixing the sandstone powder and the binder, so that the mixing sufficiency degree of the sandstone powder and the binder is improved, the crushing degree of the crushed sandstone powder and the crushed binder can be controlled by the crushing mechanism, the full mixing degree of the sandstone powder and the crushed binder can be controlled, the rockery made of the sandstone powder and the crushed binder with high mixing degree is not easy to crack and break, and is firm and good in quality;

according to the invention, the elastic metal plate, the attaching plate and the first magnetic plate are attracted, so that the elastic metal plate is preliminarily positioned on one side of the first magnetic plate, when the magnetic force of the first electromagnet is changed, the repulsive force between the first electromagnet and the second magnetic plate is correspondingly changed, when the repulsive force between the third electromagnet and the second magnetic plate is changed, the second magnetic plate is switched at different height positions in the sliding track, and the first magnetic plate on the surface of the second magnetic plate is attracted with the elastic metal plate, so that when the height of the first magnetic plate changes along with the height of the second magnetic plate in the sliding track, the position of the elastic metal plate in the discharge chamber can be moved, the elastic metal plate is controlled to crush and mix the sandstone powder and the binder at different layer heights in the mixing cylinder, and the mixing plate is stirred in the mixing cylinder to mix the sandstone powder and the binder;

when the magnetic force of second electro-magnet changes, the repulsion force difference between second electro-magnet and the magnetic sheet one can make magnetic sheet one slide on magnetic sheet two, thereby adjust the position between magnetic sheet one and the first electro-magnet, repel each other between magnetic sheet one and the first electro-magnet, the corresponding removal of first electro-magnet when magnetic sheet one removes, first electro-magnet moves along the inside of direction casing, thereby compress the elasticity metal sheet, elastic deformation and formation arc platelike structure when the elasticity metal sheet is compressed, the last round hole of arc platelike structure is enlarged by corresponding tensile, thereby increase the diameter scope through round hole department gravel powder and binder, the mesh of adjusting the degree of filling that gravel powder and binder are broken degree and the intermixing between the two has been played.

Drawings

FIG. 1 is a first structural diagram of a sand mixing device for manufacturing a garden rockery according to the present invention;

FIG. 2 is a second structural schematic diagram of a sand mixing device for landscape rockery manufacturing according to the present invention;

FIG. 3 is a front view showing the construction of a sand mixing apparatus for use in the manufacture of landscape rockery according to the present invention;

FIG. 4 is a radial cross-sectional view of a mixing drum of the present invention;

FIG. 5 is an axial cross-sectional view of a mixing drum of the present invention;

FIG. 6 is a first structural diagram of a hybrid board according to the present invention;

FIG. 7 is a second schematic diagram of the structure of the hybrid board of the present invention;

FIG. 8 is a side view of a mixing plate of the present invention;

FIG. 9 is a cross-sectional view taken at C-C of FIG. 8 in accordance with the present invention;

FIG. 10 is a cross-sectional view taken at D-D of FIG. 8 in accordance with the present invention;

FIG. 11 is an enlarged view of the structure at A in FIG. 9 according to the present invention;

FIG. 12 is an enlarged view of the structure at B in FIG. 10 according to the present invention;

FIG. 13 is a schematic view of the internal structure of a rectangular discharge duct of the present invention;

FIG. 14 is an enlarged view of the structure of FIG. 13 at C in accordance with the present invention;

FIG. 15 is a schematic structural view of the elastic metal plate of the present invention in a bent state;

FIG. 16 is an enlarged view of the structure of FIG. 15 at D in accordance with the present invention;

fig. 17 is a schematic structural view of a mixing drum in embodiment 2 of the present invention.

In the figure: 1. a mixing drum; 2. a first motor; 3. supporting legs; 4. an upper fixing plate; 5. a lower rotation shell; 6. an upper rotating shell; 7. through the hole; 8. a mixing plate; 9. a mixing chamber; 10. a second power shaft; 11. pressing a plate; 12. a rectangular discharge duct; 13. connecting sleeves; 14. a sliding track; 15. a second motor; 16. a first power shaft; 17. a discharge chamber; 18. a first electromagnet; 19. attaching a plate; 20. an elastic metal plate; 21. a circular hole; 22. a first magnetic plate; 23. a second electromagnet; 24. a second magnetic plate; 25. fixing the connecting sleeve; 26. a guide housing; 27. an upper feed conduit; 28. a lower discharge pipe; 29. a third electromagnet.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

As shown in fig. 1 to 16, a sand and stone mixing device for manufacturing garden rockery comprises a mixing cylinder 1 for containing sand and stone powder and a binder, wherein a mixing plate 8 for stirring the sand and stone powder and the binder is arranged inside the mixing cylinder 1, a mixing cavity 9 for the sand and stone powder and the binder to enter is arranged on the mixing plate 8, the mixing cavity 9 is of a trapezoidal groove structure, the trapezoidal groove structure is provided with a long bottom surface and a short bottom surface which are parallel to each other, a rectangular discharge pipeline 12 is arranged at the end part of the trapezoidal groove structure with the short bottom surface, the rectangular discharge pipeline 12 is integrally connected with the mixing plate 8, a crushing mechanism for crushing the sand and stone powder and the binder is arranged in the rectangular discharge pipeline 12, and the crushing mechanism can realize the sufficient mixing of the sand and stone powder and the binder by controlling the crushing degree of the crushed sand and stone powder and the crushed binder.

The crushing mechanism comprises an elastic metal plate 20, the elastic metal plate 20 is of a rectangular plate-shaped structure, a plurality of groups of round holes 21 are formed in the elastic metal plate 20, the round holes 21 are distributed at equal intervals, a discharge cavity 17 is formed in the rectangular discharge pipeline 12, and the elastic metal plate 20 is located in the discharge cavity 17.

The during operation, mixing plate 8 rotates along its axis position in the inside of mixing drum 1, it drives the inside sand powder and the binder motion of mixing drum 1 to rotate in-process mixing plate 8, when mixing plate 8 rotates at a high speed, because inertia effect, sand powder and binder can get into from the opening part of hybrid chamber 9, through the blockking of elasticity metal sheet 20 when sand powder and binder get into discharge chamber 17 along the hybrid chamber 9 inner wall, sand powder and binder are subdivided into the powder and are passed through from round hole 21, thereby realize the breakage to cubic sand powder or cubic binder, improve the degree of filling of mixing between the two.

The two ends of the elastic metal plate 20 are respectively fixedly provided with the attaching plate 19 and the first electromagnet 18, the inner wall of one side of the discharge chamber 17 is fixedly provided with the guide shell 26, the middle part of one side of the guide shell 26, which is far away from the inner wall of the discharge chamber 17, is provided with an opening, the elastic metal plate 20 moves through the opening, the first electromagnet 18 at the end part of the elastic metal plate 20 is arranged in the guide shell 26 in a sliding manner, the outer side surface of the rectangular discharge pipeline 12 is fixedly provided with the sliding rail 14, the sliding rail 14 is arranged along the height direction of the rectangular discharge pipeline 12, the lower end of the sliding rail 14 is internally and fixedly provided with the third electromagnet 29, the inside of the sliding rail 14 is provided with the second magnetic plate 24 in a sliding manner, the second magnetic plate 24 is positioned above the third electromagnet 29, the second magnetic plate 24 and the third electromagnet 29 are mutually repelled, the upper surface of the second magnetic plate 24 is provided with the first magnetic plate 22, the first magnetic plate 22 is mutually repelled with the first electromagnet 18, and the elastic metal plate 20, the attaching plate 19 and the first magnetic plate 22 are mutually attracted.

Furthermore, the elastic metal plate 20, the attachment plate 19 and the first magnetic plate 22 are attracted to each other, so that the elastic metal plate 20 is initially positioned on one side of the first magnetic plate 22, when the magnetic force of the third electromagnet 29 is changed, the repulsive force between the third electromagnet 29 and the second magnetic plate 24 is correspondingly changed, when the repulsive force between the third electromagnet 29 and the second magnetic plate 24 is changed, the second magnetic plate 24 is switched at different height positions inside the sliding rail 14, and the first magnetic plate 22 on the surface of the second magnetic plate 24 is attracted to the elastic metal plate 20, so that when the height of the first magnetic plate 22 changes along with the second magnetic plate 24 in the sliding rail 14, the position of the elastic metal plate 20 in the discharge chamber 17 is also moved, so that the elastic metal plate 20 is controlled to crush and mix the sandstone powder and the binder at different layer heights inside the mixing cylinder 1, and the mixing plate 8 is stirred in the mixing cylinder 1 to mix the sandstone powder and the binder.

It should be noted that when the height of the elastic metal plate 20 is changed, the magnetic force of the first electromagnet 18 needs to be weakened accordingly, so that the elastic metal plate 20 can be smoothly lifted and lowered in the discharge chamber 17.

The mode that the elastic metal plate 20 can move in the discharge chamber 17 ensures that most of the sand and stone powder and the binder can be directly discharged through the vacant part of the discharge chamber 17 at the upper and lower positions of the elastic metal plate 20, and the phenomenon of blockage or structural damage caused by small discharge space can be avoided.

The first magnetic plate 22 is arranged on the upper surface of the second magnetic plate 24 in a sliding mode, the second electromagnet 23 is fixedly arranged on the upper surface of the second magnetic plate 24, the second electromagnet 23 and the first magnetic plate 22 repel each other, and the second electromagnet 23 is arranged on one side, away from the first electromagnet 18, of the first magnetic plate 22.

Still further, when the magnetic force of the second electromagnet 23 is changed, the different repulsive forces between the second electromagnet 23 and the first magnetic plate 22 can make the first magnetic plate 22 slide on the second magnetic plate 24, so as to adjust the position between the first magnetic plate 22 and the first electromagnet 18, the first magnetic plate 22 and the first electromagnet 18 repel each other, when the first magnetic plate 22 moves, the first electromagnet 18 moves correspondingly along the inside of the guide housing 26, so as to compress the elastic metal plate 20, the elastic metal plate 20 elastically deforms when compressed to form an arc-shaped plate structure, the circular hole 21 on the arc-shaped plate structure is correspondingly stretched and expanded, so as to increase the diameter range of the gravel powder and the binder passing through the circular hole 21, and achieve the purposes of adjusting the degree of crushing of the gravel powder and the binder and the degree of filling of mutual mixing between the gravel powder and the binder.

The bottom surface of hybrid chamber 9 is fixed and is provided with second motor 15, and the transmission of second motor 15 upper end is connected with second power shaft 10, and the outer lane department fixed mounting of second power shaft 10 has fixed adapter sleeve 25, and the fixed welding of fixed adapter sleeve 25's outer lane department has clamp plate 11, and clamp plate 11 is provided with the multiunit, and multiunit clamp plate 11 is the angular distribution such as, and clamp plate 11 corresponds the position of discharge chamber 17 and hybrid chamber 9 intercommunication.

Wherein, when second motor 15 drive power axle two 10 rotated, power axle two 10 drive clamp plate 11 rotates to can stir grit powder and binder to the hybrid chamber 9 in, thereby increase the inside speed and the dynamics of grit powder and binder entering hybrid chamber 9, guaranteed that grit powder and binder discharge behind discharging cavity 17 smoothly after passing through the structure extrusion of hybrid chamber 9 easily.

The provision of the second motor 15 in cooperation with the first motor 2 will result in a corresponding energy saving with respect to the continued increase in power to the first motor 2, while ensuring the speed of movement of the gravel powder and binder.

Such as:

the motor I: the servo motor is D180M-O250030C-E, the rated rotating speed is 3000rpm, and the rated power is 7.9Kw;

a second motor: the servo motor is D180M-16030C5-EB, the rated rotating speed is 2000rpm, and the rated power is 5Kw.

The rotation speed ratio and the power ratio of the first motor to the second motor are respectively 75 and 79, so that the electric energy used by the first motor is more than doubled when the rotation speed is doubled, and the mode of matching the first motor 2 with the second motor 15 has the advantage that the material processing capacity can be increased to a greater extent when two groups of low-power devices are used.

The pressing plate 11 is bent in an S-shape.

The distance from the bottom surface of the S-shaped bending structure to the opening is small, so that the pressing plate 11 can shift more gravel powder and the binder, and meanwhile, the gravel powder and the binder can normally pass through the surface of the pressing plate 11, and large resistance cannot be achieved.

The top of mixing drum 1 is provided with actuating mechanism, actuating mechanism includes first motor 2 and power shaft 16, there is an upper fixed plate 4 on the upper surface of mixing drum 1 through screw fixed mounting, an upper fixed plate 4 fixes the 2 block of first motor at 1 upper surface of mixing drum, 16 transmission connections at the 2 lower extremes of first motor for

power shaft

16, 16 activities of power shaft stretch into the inside of mixing drum 1, the equal fixed mounting in both ends has adapter sleeve 13 about power shaft 16, fixed mounting is respectively on two sets of adapter sleeve 13 about the upper and lower both ends of mixing plate 8, the upper and lower both ends middle part of mixing drum 1 is integrative respectively to be provided with and rotates shell 6 down, rotate shell 5 down, a set of adapter sleeve 13 in the top rotates to be connected in rotating shell 6, a set of adapter sleeve 13 in the below rotates to be connected in rotating shell 5 down.

The mixing cylinder 1 is of a cylindrical structure, and the first power shaft 16 is overlapped with the axis of the mixing cylinder 1.

First motor 2 drives mixing plate 8 through a power shaft 16 and rotates in this device, and mixing plate 8's length matches with the inside radius of mixing drum 1, can mix stirring with the inside whole grit powder of mixing drum 1 and binder when mixing plate 8 rotates.

The mixing plate 8 is provided with a plurality of groups of through holes 7, and the plurality of groups of through holes 7 are distributed at equal intervals.

After the sandstone powder and the binder are mixed with each other and enter the mixing chamber 9, the sandstone powder and the binder can pass through the through hole 7 along the inner wall of the mixing chamber 9, the aim of directly reaching the other side of the mixing plate 8 by supplying the sandstone powder and the binder with fine particles is achieved, and the residual sandstone powder and the binder with large particles are crushed and mixed in the rectangular discharge pipeline 12.

The mixing plates 8 are provided with at least one set.

The number of mixing plates 8 is designed according to the actual demand, and in this device the mixing plates 8 are provided with two sets, and the bottom of the mixing drum 1 is provided with the supporting legs 3.

Example 2

As shown in fig. 1 to 17, the mixing cylinder 1 is provided with an upper feeding pipe 27 and a lower discharging pipe 28 at the upper and lower parts, respectively, and the upper feeding pipe 27 and the lower discharging pipe 28 are respectively used for feeding and discharging materials into and from the mixing cylinder 1.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims

1. A grit mixing apparatus for gardens rockery is made, is including being used for splendid attire grit powder and binder's mixing cylinder (1), its characterized in that: the inside of mixing drum (1) is provided with mixing plate (8) that are used for stirring grit powder and binder, be provided with mixing chamber (9) that confession grit powder and binder got into on mixing plate (8), mixing chamber (9) are the dovetail groove structure, and the dovetail groove structure has long bottom and short bottom that is parallel to each other, and the tip that the dovetail groove structure has the short bottom surface is provided with rectangle discharge pipe way (12), rectangle discharge pipe way (12) and mixing plate (8) body coupling, be provided with in rectangle discharge pipe way (12) and be used for the broken mechanism of grit powder and binder, the intensive mixing between grit powder and binder is realized through the broken degree of control grit powder and binder after being smashed.

2. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 1, wherein: the crushing mechanism comprises an elastic metal plate (20), the elastic metal plate (20) is of a rectangular plate-shaped structure, a plurality of groups of round holes (21) are formed in the elastic metal plate (20), the plurality of groups of round holes (21) are distributed in an equal distance, a discharge cavity (17) is formed in the rectangular discharge pipeline (12), and the elastic metal plate (20) is located in the discharge cavity (17).

3. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 2, wherein: the utility model discloses a portable electromagnetic drainage device, including elastic metal plate (20), discharge chamber (17), guide shell (26), rectangle exhaust pipe way (12), slide track (14) along the direction of height of rectangle exhaust pipe way (12), slide track (14), first electro-magnet (18) of elastic metal plate (20) tip slide and set up in the inside of guide shell (26), the fixed slip track (14) that is provided with of lateral surface of rectangle exhaust pipe way (12), it arranges along the direction of height of rectangle exhaust pipe way (12) to slide track (20), the fixed third electro-magnet (29) that is provided with in the lower extreme of slip track (14), the inside slip of slip track (14) is provided with magnetic sheet two (24), and magnetic sheet two (24) are located third electro-magnet (29) top, repel each other between magnetic sheet two (24) and third electro-magnet (29), the upper surface of magnetic sheet two (24) is provided with magnetic sheet one (22), between magnetic sheet one (22) and the first electro-magnet (18), the first electro-magnet (18) repel each other between first electro-magnet (18), the elastic metal plate (18) attract each other.

4. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 3, wherein: the first magnetic plate (22) is arranged on the upper surface of the second magnetic plate (24) in a sliding mode, a second electromagnet (23) is further fixedly arranged on the upper surface of the second magnetic plate (24), the second electromagnet (23) and the first magnetic plate (22) repel each other, and the second electromagnet (23) is arranged on one side, away from the first electromagnet (18), of the first magnetic plate (22).

5. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 4, wherein: the fixed second motor (15) that is provided with in bottom surface of hybrid chamber (9), second motor (15) upper end transmission is connected with power shaft two (10), the outer lane department fixed mounting of power shaft two (10) has fixed connection cover (25), the fixed welding of the outer lane department of fixed connection cover (25) has clamp plate (11), clamp plate (11) are provided with the multiunit, and multiunit clamp plate (11) are angular distribution such as, clamp plate (11) correspond the position of discharge cavity (17) and hybrid chamber (9) intercommunication.

6. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 5, wherein: the pressing plate (11) is bent in an S shape.

7. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 6, wherein: the top of mixing drum (1) is provided with actuating mechanism, and actuating mechanism includes first motor (2) and power shaft (16), the upper surface of mixing drum (1) has an upper fixed plate (4) through screw fixed mounting, upper fixed plate (4) are fixed first motor (2) block at mixing drum (1) upper surface, power shaft (16) transmission is connected at first motor (2) lower extreme, the inside of mixing drum (1) is stretched into in power shaft (16) activity, and the equal fixed mounting in both ends has adapter sleeve (13) about power shaft (16), the upper and lower both ends difference fixed mounting of mixing plate (8) is on upper and lower two sets of adapter sleeve (13), the upper and lower both ends middle part of mixing drum (1) is integrative being provided with respectively and rotates shell (6), lower rotation shell (5), and a set of adapter sleeve (13) in the top rotates to be connected in upper rotation shell (6), and a set of adapter sleeve (13) in the below rotates to be connected in lower rotation shell (5).

8. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 7, wherein: the mixing cylinder (1) is of a cylindrical structure, and the first power shaft (16) is overlapped with the axis of the mixing cylinder (1).

9. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 8, wherein: be provided with multiunit clearing hole (7) on mixing plate (8), multiunit clearing hole (7) are equidistance and distribute, mixing plate (8) are provided with a set of at least.

10. A sand mixing apparatus for use in landscape rockery manufacturing according to claim 9, wherein: an upper feeding pipeline (27) and a lower discharging pipeline (28) are respectively arranged on the upper part and the lower part of the mixing cylinder (1).