CN108481552B - Environment-friendly agitating unit for building - Google Patents

Abstract

The invention provides an environment-friendly stirring device for buildings, which comprises a rack, an outer box body, a material injection mechanism and a stirring motor, wherein a main rotating shaft connected with the stirring motor is arranged in the outer box body, two ends of the main rotating shaft are respectively provided with a rotating disk and a driving gear, a plurality of auxiliary rotating shafts are arranged between the rotating disks at the two ends, the auxiliary rotating shafts are provided with spiral stirring blades, the auxiliary rotating shafts are provided with driven gears matched with the driving gears, and the main rotating shaft can drive the rotating disks and the driving gears to rotate under the action of the stirring motor, so that revolution stirring and rotation stirring can be realized; annotate and be equipped with in the material mechanism and annotate the material axle and annotate the material blade, annotate the material blade and be in it is rotatory and can hug closely the inner wall of branch workbin to annotate the drive of material axle down, outer box bottom is equipped with and is used for and goes out barrel spaced seal baffle to realize the sealed effect to outer box internal portion, prevent dust and impurity pollution.

Description

Environment-friendly agitating unit for building

Technical Field

The invention relates to the technical field of building devices, in particular to an environment-friendly stirring device for buildings.

Background

Mortar is a bonding substance used for building bricks on buildings, and is formed by adding water into sand and cementing materials (cement, lime paste, clay and the like) according to a certain proportion, and is also called mortar and also used as mortar. As the mortar, cement mortar, mixed mortar (or cement lime mortar), lime mortar and clay mortar are generally used.

The applicant finds that at least the following technical problems exist in the prior art: the existing mortar stirring device has poor sealing performance, and generates a large amount of dust during material injection or stirring, thereby causing dust pollution; the material injection amount is not easy to control, so that the injected stirring raw materials are easy to form blockage; meanwhile, single-shaft stirring is adopted, and the stirring efficiency is not ideal.

Disclosure of Invention

The invention aims to solve the problems, and provides an environment-friendly stirring device for buildings, which aims to solve the problems that the existing mortar stirring device in the prior art is not ideal in sealing performance, and generates a large amount of dust during material injection or stirring to cause dust pollution; and the difficult control notes material volume leads to the stirring raw materials of injection to form easily and blocks up, adopts the unipolar stirring simultaneously, technical problem such as stirring efficiency is unsatisfactory.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides an environment-friendly stirring device for buildings, which comprises a rack, wherein an outer box body is arranged at the upper end of the rack, and a material injection mechanism is arranged at the upper end of the outer box body; a stirring motor is installed on one transverse side of the outer box body, a main rotating shaft is installed in the outer box body, and the main rotating shaft is fixedly connected with the stirring motor; the two ends of the main rotating shaft are provided with a driving gear and a rotating disk, at least two auxiliary rotating shafts are arranged between the two rotating disks, and a plurality of spiral stirring blades are arranged on the auxiliary rotating shafts along the axial direction; driven gears are mounted at two ends of the auxiliary rotating shaft and meshed with the driving gear;

the material injection mechanism comprises a material distribution box, the upper end of the material distribution box is provided with a feed hopper, and one transverse side of the material distribution box is provided with a material injection motor; the material distributing box is characterized in that a material injection shaft is arranged in the material distributing box and fixedly connected with the material injection motor, two material injection blades which are matched with each other are arranged along opposite radial directions on the same diameter of the cross section of the material injection shaft, and the length of each material injection blade along the axial direction of the material injection shaft is consistent with the transverse length of the material distributing box; a discharging barrel is mounted at the bottom of the outer box body, and a sealing baffle plate is arranged between the discharging barrel and the outer box body;

annotate the material blade and include the fixed plate, fixed plate inside is provided with the slip chamber and imbeds slide plate in the slip chamber, be equipped with the elastic component in the slip chamber, the elastic component be used for to the slide plate application of force makes on the slide plate keep away from the one end in slip chamber can hug closely divide the workbin inner wall.

Preferably, the outer case is provided with a water injection pipe.

Preferably, the number of the auxiliary rotating shafts is at least four, and the auxiliary rotating shafts are uniformly distributed along the circumferential direction of the rotating disc.

Preferably, the helical stirring blades are staggered in the axial direction of the auxiliary rotating shaft.

Preferably, one end of the sliding plate, which is far away from the sliding cavity, is arranged in a rounded manner.

Preferably, the material injection shaft is circumferentially provided with at least four material injection blades, and the material injection blades are sequentially arranged at equal intervals.

Furthermore, the discharging barrel penetrates through the rack, a discharging baffle is slidably mounted in the discharging barrel, and the discharging baffle penetrates out of the discharging barrel; the upper end part of the discharge barrel is of a conical structure, and the outer end part of the discharge baffle is of an L-shaped structure.

Preferably, the sliding plates are provided with sliding blocks on two sides, the inner wall of the sliding cavity is provided with a sliding groove, and the sliding blocks are in clearance fit with the sliding groove.

Compared with the prior art, the invention has the beneficial effects that:

1. the material injection motor drives the material injection blade to rotate through the material injection shaft, the sliding plate is slowly contacted with the inner wall of the material distribution box in the process that the material injection blade rotates along with the material injection shaft, at the moment, the inner wall of the material distribution box extrudes the sliding plate, so that the sliding plate compresses the elastic part, the elastic part applies acting force on the sliding plate towards the inner wall of the material distribution box, one end of the sliding plate, far away from the sliding cavity, is tightly attached to the inner wall of the material distribution box, and at the moment, one end of the sliding plate of the other material injection blade matched with the material injection blade is also tightly attached to the inner wall of the material distribution box; meanwhile, the length of the material injection blades in the axial direction of the material injection shaft is consistent with the transverse length of the material distribution box, so that the two material injection blades are matched to realize the complete separation of the material injection hopper and the outer box body; on the other hand, a sealing baffle plate is arranged between the discharging barrel and the outer box body, so that external impurities can be prevented from entering the outer box body through the discharging barrel, dust can also be prevented from diffusing to the outside from the inside of the outer box body, sealing treatment on the outer box body can be realized, and pollution of the dust and other impurities is prevented.

2. Through the analysis, when the sliding plate is tightly attached to the inner wall of the material distribution box, raw materials in the feeding hopper cannot be injected into the inner part of the outer box body, so that the material injection shaft is rotated at certain intervals, the material injection blade is then driven to rotate, material injection at intervals can be realized, raw material blockage can be prevented, and material injection progress can be controlled conveniently.

3. In the environment-friendly stirring device for the building, the stirring motor can drive the rotating disc and the driving gear to rotate, then the rotating disc drives the auxiliary rotating shaft to revolve for stirring, meanwhile, the driving gear drives the driven gear to rotate, and force is applied in multiple directions to drive the auxiliary rotating shaft to rotate, so that the spiral stirring blades are driven to rotate for stirring, double stirring is realized, the stirring effect is good, the efficiency is high, and energy is saved. The two ends of the main rotating shaft are provided with the rotating disc and the driving gear, so that the two ends of each auxiliary rotating shaft are stressed uniformly; in addition, because the stirring blade is arranged in a spiral shape, the contact area between the stirring blade and mortar can be increased, the stirring effect is enhanced, and the stirring efficiency is improved.

4. Annotate in the material blade, the one end of sliding plate is the fillet setting, can prevent on the one hand the sliding plate with scrape when dividing the workbin inner wall contact and decrease divide the workbin inner wall, on the other hand can reduce the resistance of dividing the workbin inner wall to the sliding plate, thereby be convenient for rotate annotate the material blade.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of an exemplary embodiment of an environmentally friendly construction mixer apparatus according to the present invention;

FIG. 2 is a schematic view showing the internal structure of the eco-friendly construction mixing apparatus of FIG. 1;

FIG. 3 is a left side sectional view of the eco-friendly construction mixing apparatus of FIG. 2;

fig. 4 is an enlarged schematic view of the structure of the material injection blade of the stirring device for environment-friendly buildings in fig. 3.

The reference numerals are explained below:

1. a frame; 2. an outer case; 201. a water injection pipe; 3. a material injection mechanism; 301. a feed hopper; 302. a material distributing box; 303. a material injection shaft; 304. a material injection motor; 305. injecting a material blade; 306. a fixing plate; 307. a sliding cavity; 308. a chute; 309. a sliding plate; 310. a slider; 311. an elastic member; 312. rounding off; 4. a stirring motor; 5. a main rotating shaft; 6. rotating the disc; 7. an auxiliary rotating shaft; 8. a stirring blade; 9. a driven gear; 10. a driving gear; 11. a discharging barrel; 12. a discharge baffle; 13. and sealing the baffle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Referring to fig. 1 to 4, the invention provides an environment-friendly stirring device for buildings, which comprises a frame 1, wherein an outer box 2 is installed at the upper end of the frame 1, and a material injection mechanism 3 is installed at the upper end of the outer box 2; stirring motor 4 is installed to the horizontal one side of outer box 2, and outer box 2 internally mounted has main pivot 5, main pivot 5 with stirring motor 4 fixed connection. Driving gears 10 are mounted at two ends of the main rotating shaft 5, rotating discs 6 are mounted at two ends of the main rotating shaft 5, at least two auxiliary rotating shafts 7 are mounted between the two rotating discs 6, and a plurality of spiral stirring blades 8 are arranged on each auxiliary rotating shaft 7 along the axial direction of the auxiliary rotating shaft; driven gears 9 are mounted at two ends of the auxiliary rotating shaft 7, the driven gears 9 are meshed with corresponding driving gears 10, and the driving gears 10 can drive the driven gears 9 to rotate.

In the above design, the stirring motor 4 can drive the main rotating shaft 5 and the rotating disks 6 at two ends of the main rotating shaft 5 to rotate, and the driving gear 10 is arranged on the main rotating shaft 5, and the driven gear 9 on the auxiliary rotating shaft 7 is meshed with the driving gear 10, so that the driving gear 10 can drive the auxiliary rotating shaft 7 to rotate while the rotating disks 6 drive the auxiliary rotating shaft 7 to rotate, and therefore, the spiral stirring blades 8 on the auxiliary rotating shafts 7 can rotate at the same time, and the mortar in the outer box 2 can be fully stirred. In addition, the driving gear 10 and the rotating disk 6 are arranged at two ends of the main rotating shaft 5, and the driven gears 9 are arranged at two ends of the auxiliary rotating shaft 7, so that the auxiliary rotating shaft 7 can be uniformly stressed, and the power consumption of the stirring motor 4 can be reduced. The spiral stirring blade 8 has a large contact area with the mortar, so that the mortar can be sufficiently stirred, and the stirring efficiency is improved.

Annotate material mechanism 3 is including dividing workbin 302, divide workbin 302 upper end to install feeder hopper 301, divide workbin 302 horizontal one side to install and annotate material motor 304, and, divide workbin 302 internally mounted to have annotates material axle 303, annotate material axle 303 with annotate material motor 304 fixed connection, follow annotate and radially install two notes material blades 305 that match each other on the same diameter of material axle 303 cross section opposite. In addition, the length of the material injection blade 305 in the axial direction of the material injection shaft 303 is the same as the transverse length of the material distribution box 302, a material discharge barrel 11 is installed at the bottom of the outer box 2, and a sealing baffle 13 is arranged between the material discharge barrel 11 and the outer box 2.

Further, the injection blade 305 includes a fixed plate 306, a sliding cavity 307 and a sliding plate 309 embedded in the sliding cavity 307 are disposed inside the fixed plate 306, and an elastic member 311 is further disposed inside the sliding cavity 307, preferably, the elastic member 311 is a compression spring. The elastic member 311 is used to apply a force to the sliding plate 309 so that an end 312 of the sliding plate 309 away from the sliding chamber 307 can be tightly attached to the inner wall of the material distribution box 302.

The specific working principle is that, on one hand, the injecting motor 304 drives the injecting blade 305 to rotate through the injecting shaft 303, and in the process that the injecting blade 305 rotates along with the injecting shaft 303, the sliding plate 309 slowly contacts with the inner wall of the distributing box 302, at this time, the inner wall of the distributing box 302 presses the sliding plate 309, so that the sliding plate 309 compresses the elastic member 311, and therefore, the elastic member 311 exerts the acting force on the sliding plate 309 towards the inner wall of the distributing box 302, so that the end 312, far away from the sliding cavity 307, of the sliding plate 309 is tightly attached to the inner wall of the distributing box 302, and similarly, at this time, the end of the sliding plate 309 of another injecting blade 305 matching with the injecting blade 305 is also tightly attached to the inner wall of the distributing box 302; meanwhile, since the length of the injecting blade 305 in the axial direction of the injecting shaft 303 is the same as the transverse length of the distributing box 302, the two injecting blades 305 can realize complete separation between the injecting hopper 301 and the inside of the outer box 2; on the other hand, the sealing baffle 13 is disposed between the discharging barrel 11 and the outer box 2, so that external impurities can be prevented from entering the outer box through the discharging barrel 11, and dust inside the outer box 2 can be prevented from diffusing to the outside, thereby realizing sealing treatment of the outer box 2 and preventing pollution of dust and other impurities.

Further, it can be known from the above analysis that when the sliding plate 309 is tightly attached to the inner wall of the material separating box 302, the raw material in the feeding hopper 301 cannot be injected into the outer box 2, so that the material injecting shaft 303 is rotated at certain intervals to drive the material injecting blades 305 to rotate, so that material can be injected at intervals, and not only can the raw material be prevented from being blocked, but also the material injecting progress can be conveniently controlled.

Preferably, an end 312 of the sliding plate 309 remote from the sliding chamber 307 is rounded. With this structure, on the one hand, the sliding plate 309 is prevented from scraping the inner wall of the distribution box 302 when contacting the inner wall of the distribution box 302, and on the other hand, the resistance of the inner wall of the distribution box 302 to the sliding plate 309 can be reduced, thereby facilitating the rotation of the injection blade 305.

Further, the horizontal one side of outer box 2 is provided with water injection pipe 201, is convenient for through water injection pipe 201 outside 2 inside water injections of box mix with the raw materials, is convenient for stir.

Preferably, at least four auxiliary rotating shafts 7 are arranged and are uniformly distributed along the axial direction of the rotating disc 6, so that the stirring efficiency is improved, and the running stability of the device can be ensured.

Further, a plurality of helical mixing blades 8 are arranged along the axial direction of the auxiliary rotating shaft 7, namely the length direction, in a staggered manner, so that the arrangement can prevent different auxiliary rotating shafts 7 from being mutually blocked in the rotating process, the mixing is more sufficient, and the mixing quality and the mixing efficiency are improved.

Preferably, at least four injecting blades 305 are arranged on the circumferential direction of the injecting shaft 303, and the injecting blades 303 are arranged in sequence at equal intervals. It should be noted that the number of the injecting blades 305 is even, and two injecting blades 305 matching each other are located on the same plane. The injection blades 305 are not necessarily provided in an excessive number, and if the number of the injection blades is excessive, the raw material entering from the hopper 301 is easily accumulated between two adjacent injection blades 305, resulting in the clogging of the raw material.

Further, the discharging barrel 11 penetrates through the rack 1, meanwhile, a discharging baffle plate 12 is slidably mounted inside the discharging barrel 11, and the discharging baffle plate 12 penetrates out of the discharging barrel 11. After the mortar is stirred in the outer box body 2, the sealing baffle 13 is removed, and the stirred mortar can enter the discharging barrel 11. The upper end part of the discharging barrel 11 adopts a conical structure, so that the stirred mixture in the outer box body 2 can be conveniently discharged through the discharging barrel 11; the outer end part of the discharging baffle plate 12 is of an L-shaped structure, so that the discharging baffle plate 12 is convenient to pull, and discharging of the stirring mixture in the discharging barrel 11 is convenient to control.

Furthermore, both sides of the sliding plate 309 are provided with sliding blocks 310, the inner wall of the sliding cavity 307 is correspondingly provided with sliding grooves 308, and the sliding blocks 310 are in clearance fit with the sliding grooves 308, so that the sliding plate 309 can be guided and limited, and the sliding plate 309 can be ensured to slide stably in the sliding cavity 307.

In conclusion, when the environment-friendly stirring device for buildings is used, raw materials are injected into the feed hopper 301, the material injection motor 304 drives the material injection blade 305 to rotate through the material injection shaft 303, so that automatic material injection at intervals is realized, and the phenomenon of material blockage during material injection is prevented; in the process of injecting materials, the elastic force of the elastic element 311 is utilized to enable the sliding plate 309 to cling to the inner wall of the material distribution box 302, and meanwhile, through the matching of the sealing baffle 13, the sealing of the inner part of the outer box body 2 can be realized, so that dust leakage in the process of injecting materials or stirring is prevented, and the dust pollution is avoided; during stirring, the stirring motor 4 drives the main rotating shaft 5 to rotate, so that the rotating disc 6 drives the auxiliary rotating shaft 7 to rotate, revolution stirring is realized, the main rotating shaft 5 drives the driving gear 10 to rotate, the auxiliary rotating shaft 7 drives the spiral stirring blades 8 to rotate through meshing transmission of the driving gear 10 and the driven gear 9, rotation stirring is realized, revolution stirring of the auxiliary rotating shaft 7 is driven by the rotating disc 6, and rotation stirring of the spiral stirring blades 8 is driven by the auxiliary rotating shaft 7, double stirring is realized, the stirring effect is good, the efficiency is high, and energy conservation is facilitated; after the stirring is finished, the sealing baffle 13 is moved away, so that the stirred mixture enters the discharging barrel 11, and the discharging baffle 12 is pulled, so that the stirred mixture is discharged through the discharging barrel 11.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (3)

1. The utility model provides an environment-friendly agitating unit for building, includes frame (1), its characterized in that: the upper end of the rack (1) is provided with an outer box body (2), and the upper end of the outer box body (2) is provided with a material injection mechanism (3); a stirring motor (4) is installed on one transverse side of the outer box body (2), a main rotating shaft (5) is installed inside the outer box body (2), and the main rotating shaft (5) is fixedly connected with the stirring motor (4); the two ends of the main rotating shaft (5) are provided with a driving gear (10) and rotating discs (6), at least two auxiliary rotating shafts (7) are arranged between the two rotating discs (6), and a plurality of spiral stirring blades (8) are arranged on the auxiliary rotating shafts (7) along the axial direction; driven gears (9) are mounted at two ends of the auxiliary rotating shaft (7), and the driven gears (9) are meshed with the driving gear (10);

the material injection mechanism (3) comprises a material distribution box (302), the upper end of the material distribution box (302) is provided with a feed hopper (301), and one side of the material distribution box (302) in the transverse direction is provided with a material injection motor (304); the material distribution box (302) is internally provided with a material injection shaft (303), the material injection shaft (303) is fixedly connected with a material injection motor (304), two material injection blades (305) which are matched with each other are arranged along opposite radial directions on the same diameter of the cross section of the material injection shaft (303), and the axial length of the material injection blades (305) along the material injection shaft (303) is consistent with the transverse length of the material distribution box (302); a discharge barrel (11) is mounted at the bottom of the outer box body (2), and a sealing baffle plate (13) is arranged between the discharge barrel (11) and the outer box body (2);

the material injection blade (305) comprises a fixed plate (306), a sliding cavity (307) and a sliding plate (309) embedded in the sliding cavity (307) are arranged in the fixed plate (306), an elastic piece (311) is arranged in the sliding cavity (307), and the elastic piece (311) is used for applying force to the sliding plate (309) so that one end, far away from the sliding cavity (307), of the sliding plate (309) can be tightly attached to the inner wall of the material distribution box (302); sliding blocks (310) are arranged on two sides of the sliding plate (309), a sliding groove (308) is arranged on the inner wall of the sliding cavity (307), and the sliding blocks (310) are in clearance fit with the sliding groove (308);

the material injection motor drives the material injection blade to rotate through the material injection shaft, the sliding plate is slowly contacted with the inner wall of the material distribution box in the process that the material injection blade rotates along with the material injection shaft, at the moment, the inner wall of the material distribution box extrudes the sliding plate, so that the sliding plate compresses the elastic part, the elastic part applies acting force on the sliding plate towards the inner wall of the material distribution box, one end of the sliding plate, far away from the sliding cavity, is tightly attached to the inner wall of the material distribution box, and at the moment, one end of the sliding plate of the other material injection blade matched with the material injection blade is also tightly attached to the inner wall of the material distribution box; meanwhile, the length of the material injection blades in the axial direction of the material injection shaft is consistent with the transverse length of the material distribution box, so that the two material injection blades are matched to realize the complete separation of the material injection hopper and the outer box body;

when the sliding plate (309) is tightly attached to the inner wall of the material distribution box (302), raw materials in the feeding hopper (301) cannot be injected into the outer box body (2), the material injection shaft (303) is rotated at certain intervals, and then the material injection blades (305) are driven to rotate, so that the interval material injection can be realized, the raw materials can be prevented from being blocked, and the material injection progress can be conveniently controlled;

one end of the sliding plate (309) far away from the sliding cavity (307) is arranged in a rounded way; the spiral stirring blades (8) are arranged in a staggered mode along the axial direction of the auxiliary rotating shaft (7); at least four material injection blades (305) are arranged on the circumferential direction of the material injection shaft, and the material injection blades (305) are sequentially arranged at equal intervals; the discharging barrel (11) penetrates through the rack (1), a discharging baffle plate (12) is slidably mounted in the discharging barrel (11), and the discharging baffle plate (12) penetrates out of the discharging barrel (11); the upper end part of the discharging barrel (11) is of a conical structure, and the outer end part of the discharging baffle plate (12) is of an L-shaped structure.

2. The environment-friendly stirring device for buildings as claimed in claim 1, wherein: the outer box body (2) is provided with a water injection pipe (201).

3. The environment-friendly stirring device for buildings as claimed in claim 1, wherein: the auxiliary rotating shafts (7) are at least four and are uniformly distributed along the circumferential direction of the rotating disc (6).

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