CN212440940U - Accelerate stirring building of stirring efficiency - Google Patents

Abstract

The utility model discloses an accelerate stirring building of stirring efficiency, including lift storehouse and first device shell, the stabilizer blade is all installed at the both ends of first device shell bottom, and the bottom of stabilizer blade one end installs the bottom plate, the top of first device shell is provided with second device shell, and the top of second device shell is provided with third device shell, the pan feeding mouth that runs through third device shell is all seted up at the both ends on third device shell top, the second cavity has all been seted up with the top of first device shell to the second device shell, and the inside top of second cavity all installs fourth conical gear through the bearing. This accelerate stirring efficiency's stirring building increases and reduces the height of device through the dismantlement of second device shell and increase, extrudees the inside of inserting the recess with fixed ejector pin through fixed ejector pin to first spring simultaneously and makes the device can have more the demand to go to increase or reduce.

Description

Accelerate stirring building of stirring efficiency

Technical Field

The utility model relates to an agitated vessel technical field specifically is a accelerate stirring efficiency's stirring building.

Background

Along with the continuous development of domestic building technology, need stir mud at the in-process of building preparation, can make the equipment of stirring at the in-process of stirring, wherein the stirring building is the most common, and the stirring building is because of a series of characteristics such as its productivity ratio is high, environmental protection performance is good, the appearance is pleasing to the eye, and is extensively applicable to in the middle of the construction of various big-and-middle-sized buildings, and the stirring building of traditional quickening stirring efficiency basically can satisfy people's user demand, but still has certain problem, and specific problem is as follows:

1. most of mixing plants in the market at present need to stir the slurry in the device when stirring the inside of the device when in use, and the effect is low in the stirring process, so that the slurry in the device cannot be fully stirred when in use;

2. most stirring building on the existing market need the artificial mode to carry spare part to the stirring building and use if the in-process that uses breaks down or need carry out the change of part and break down or carry out the part when changing for the device causes the influence to the work efficiency of device when changing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an accelerate stirring efficiency's stirring building to solve the problem that can't carry out intensive mixing and cause the influence to work efficiency when changing the maintenance part that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a stirring building for accelerating stirring efficiency comprises a lifting bin and a first device shell, wherein supporting legs are arranged at two ends of the bottom end of the first device shell, a bottom plate is arranged at the bottom end of one end of each supporting leg, a second device shell is arranged at the top end of the first device shell, a third device shell is arranged at the top end of the second device shell, material inlet holes penetrating through the third device shell are formed in two ends of the top end of the third device shell, a second cavity is formed in the top ends of the second device shell and the first device shell, a fourth bevel gear is arranged at the top end of the inner portion of the second cavity through a bearing, a fifth bevel gear is arranged at one end of the inner portion of the second cavity through a bearing, a sixth bevel gear meshed with the fifth bevel gear is arranged at the bottom end of the inner portion of the second cavity at the bottom end of the fifth bevel gear, and a third stirring rod penetrating through the second cavity is arranged at the bottom end of the sixth bevel gear through a bearing, fourth poking bar that runs through the third poking bar is all installed to fourth conical gear bottom, the fourth cavity has evenly been seted up to the inner wall of first device shell, second device shell and third device shell, and the inside one end of fourth cavity all installs the clearance shower nozzle, the slide rail is all installed to the one end of stabilizer blade, first device shell, second device shell and third device shell, and the outside sliding connection of slide rail has the lift storehouse.

Preferably, all set up all around on first device shell and the second device shell top and run through the recess to first device shell and second device shell inner wall, and the inside bottom of recess all installs first spring, discharge valve is installed to the bottom of first device shell, first device shell and third device shell bottom all install the fixed ejector pin that extends to the inside first spring top of recess.

Preferably, first cavity has been seted up to the inner wall on third device shell top, first motor is installed on the top of third device shell, and first motor output installs through the bearing and runs through to the inside first conical gear of first cavity, the inside one end of first cavity installs the second conical gear who meshes with first conical gear through the bearing, and the inside bottom of the first cavity in second conical gear bottom is provided with the third conical gear who meshes with second conical gear mutually, third conical gear bottom is installed through the bearing and is run through to the inside first stirring rod of third device shell, first conical gear bottom is installed and is run through first cavity bottom and the second stirring rod with fourth conical gear active link.

Preferably, the fixed plate is installed on the top that the third device shell is close to slide rail one end, and the second motor is installed to the one end of fixed plate one side, the gyro wheel that runs through the fixed plate is installed through the bearing to the second motor output, and installs the cable wire that is connected with the lift storehouse top end in the gyro wheel outside.

Preferably, the damping spring pole is installed to the both ends on bottom plate top equidistant, and the top of damping spring pole one end all transverse connection have the guide arm, the outside of guide arm evenly is provided with the second spring, and the outside of second spring one end guide arm all is provided with the slider, the top of slider all articulates there is articulated ejector pin, and the top of articulated ejector pin articulates there is the roof.

Preferably, electric telescopic handle is all installed to the inside one end bottom of fourth cavity, and electric telescopic handle's top all installs fourth device shell, the third spring is evenly installed to the inside one end of fourth device shell, and third spring one end all installs the closure plate that runs through fourth device shell.

Compared with the prior art, the beneficial effects of the utility model are that: the stirring building accelerates the stirring efficiency;

1. by installing the first motor, the first stirring rod and the second stirring rod, the first motor drives the first bevel gear to rotate, when the first bevel gear rotates, the second stirring rod is driven to rotate, and the first stirring rod is driven to rotate to stir;

2. meanwhile, the device is provided with a lifting bin, a sliding rail and a roller, the roller is driven by a second motor to rotate, when the roller rotates, the lifting bin is driven to slide outside the sliding rail when the lifting bin is lifted, so that tools and parts needing to be replaced and maintained can be more conveniently taken to a set position to be used in the using process of the device, meanwhile, the lifting bin impacts a top plate when the lifting bin is lowered, meanwhile, the hinged ejector rod is extruded through the top plate, and when the hinged ejector rod is extruded, a sliding block is driven to extrude a second spring, so that the gravity of the lifting bin when the lifting bin is lowered can be buffered when the device is used;

3. meanwhile, the device is provided with a first spring, a groove and a second device shell, the height of the device is increased and reduced through the disassembly and heightening of the second device shell, and the first spring is extruded through the fixed ejector rod to insert the fixed ejector rod into the groove, so that the device can be heightened or reduced according to requirements.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a left side view of the structure of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the portion B of FIG. 1 according to the present invention;

FIG. 6 is an enlarged schematic view of the portion C of FIG. 1 according to the present invention;

fig. 7 is an enlarged schematic view of a portion D in fig. 1 according to the present invention.

In the figure: 1. a lifting bin; 2. a slide rail; 3. a support leg; 4. a first device housing; 5. cleaning the spray head; 6. a first spring; 7. a groove; 8. a second device housing; 9. a third device housing; 10. a fixing plate; 11. a roller; 12. a first motor; 13. a feeding port; 14. a first stirring rod; 15. a second stirring rod; 16. fixing the ejector rod; 17. a third stirring rod; 18. a fourth stirring rod; 19. an electric telescopic rod; 20. a discharge valve; 21. a base plate; 22. a second motor; 23. a top plate; 24. a shock absorbing spring rod; 25. a second spring; 26. a mandril is hinged; 27. a guide bar; 28. a first cavity; 29. a first bevel gear; 30. a second bevel gear; 31. a third bevel gear; 32. a second cavity; 33. a fourth bevel gear; 34. a fifth bevel gear; 35. a sixth bevel gear; 36. a blocking plate; 37. a third spring; 38. a fourth cavity; 39. a fourth device housing; 40. a slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides an embodiment: a mixing plant for accelerating mixing efficiency comprises a lifting bin 1 and a first device shell 4, wherein two ends of the bottom end of the first device shell 4 are both provided with support legs 3, the peripheries of the top ends of the first device shell 4 and a second device shell 8 are both provided with grooves 7 penetrating through the inner walls of the first device shell 4 and the second device shell 8, the bottom end of the inner part of the groove 7 is provided with a first spring 6, the bottom end of the first device shell 4 is provided with a discharge valve 20, the bottom ends of the first device shell 4 and the third device shell 9 are provided with a fixed ejector rod 16 extending to the top end of the first spring 6 in the groove 7, when in use, the first spring 6 is inserted into the groove 7 through the fixed mandril 16 and is pressed through the fixed mandril 16, the height of the device can be better adjusted when the device is used, and simultaneously, the slurry in the device is discharged through the discharge valve 20;

the bottom end of one end of the support leg 3 is provided with a bottom plate 21, the two ends of the top end of the bottom plate 21 are provided with damping spring rods 24 at equal intervals, the top end of one end of each damping spring rod 24 is transversely connected with a guide rod 27, the outer side of each guide rod 27 is uniformly provided with a second spring 25, the outer side of each guide rod 27 at one end of each second spring 25 is provided with a sliding block 40, the top end of each sliding block 40 is hinged with a hinged ejector rod 26, the top end of each hinged ejector rod 26 is hinged with a top plate 23, the damping spring rods 24 are extruded through the top plates 23 when the device is used, the hinged ejector rods 26 are extruded through the top plates 23 at the same time, and the sliding blocks 40 are driven to extrude the second springs 25 outside the guide rods 27 when the hinged ejector rods 26 are extruded, so that the;

the top end of the first device shell 4 is provided with a second device shell 8, the top end of the second device shell 8 is provided with a third device shell 9, the inner wall of the top end of the third device shell 9 is provided with a first cavity 28, the top end of the third device shell 9 is provided with a first motor 12, the model of the first motor 12 can be MSME-5AZG1, the output end of the first motor 12 is provided with a first bevel gear 29 penetrating into the first cavity 28 through a bearing, one end inside the first cavity 28 is provided with a second bevel gear 30 meshed with the first bevel gear 29 through a bearing, the bottom end inside the first cavity 28 at the bottom end of the second bevel gear 30 is provided with a third bevel gear 31 meshed with the second bevel gear 30, the bottom end of the third bevel gear 31 is provided with a first stirring rod 14 penetrating into the third device shell 9 through a bearing, the bottom end of the first bevel gear 29 is provided with a second stirring rod penetrating through the bottom end of the first cavity 28 and movably connected with a fourth bevel gear 33 The stirring rods 15 are used for driving the second stirring rods 15 to rotate through the first bevel gears 29, driving the second bevel gears 30 to rotate when the first bevel gears 29 rotate, driving the third bevel gears 31 to rotate when the second bevel gears 30 rotate, and driving the first stirring rods 14 and the second stirring rods 15 to rotate in opposite directions when the third bevel gears 31 rotate, so that the slurry in the device can be better stirred when the device is used;

the top end of the third device shell 9 close to one end of the sliding rail 2 is provided with a fixing plate 10, one end of one side of the fixing plate 10 is provided with a second motor 22, the model of the second motor 22 can be MSME-011G1, the output end of the second motor 22 is provided with a roller 11 penetrating through the fixing plate 10 through a bearing, the outer side of the roller 11 is provided with a steel cable connected with the top end of the lifting bin 1, the roller 11 can be driven to rotate by the second motor 22 when in use, and when the roller 11 rotates, the lifting bin 1 is driven to ascend and descend by the steel cable, so that the device can climb better when in use;

a feeding port 13 penetrating through the third device shell 9 is formed in each of two ends of the top end of the third device shell 9, a second cavity 32 is formed in each of the top ends of the second device shell 8 and the first device shell 4, a fourth bevel gear 33 is mounted at each of the top ends of the second cavity 32 through a bearing, a fifth bevel gear 34 is mounted at one end of each of the second cavity 32 through a bearing, a sixth bevel gear 35 meshed with the fifth bevel gear 34 is arranged at each of the bottom ends of the fifth bevel gear 34 and the second cavity 32, a third stirring rod 17 penetrating through the second cavity 32 is mounted at each of the bottom ends of the sixth bevel gears 35 through a bearing, a fourth stirring rod 18 penetrating through the third stirring rod 17 is mounted at each of the bottom ends of the fourth bevel gears 33, and fourth cavities 38 are uniformly formed in the inner walls of the first device shell 4, the second device shell 8 and the third device shell 9;

the bottom end of one end inside the fourth cavity 38 is provided with the electric telescopic rod 19, the top end of the electric telescopic rod 19 is provided with the fourth device shell 39, one end inside the fourth device shell 39 is uniformly provided with the third spring 37, one end of the third spring 37 is provided with the blocking plate 36 penetrating through the fourth device shell 39, the fourth device shell 39 is driven by the electric telescopic rod 19 to move towards the inside of the fourth cavity 38 when the device is used, and meanwhile, the blocking plate 36 is driven by the fourth device shell 39 to move towards the inside of the fourth device shell 39 in the moving process, so that the cleaning nozzle 5 inside the device can be better protected when the device is used;

and the cleaning nozzle 5 is all installed to the inside one end of fourth cavity 38, and slide rail 2 is all installed to the one end of stabilizer blade 3, first device shell 4, second device shell 8 and third device shell 9, and the outside sliding connection of slide rail 2 has lift storehouse 1.

The working principle is as follows: when the mixing plant for accelerating mixing efficiency is used, the external power supply can adjust the height of the device when the device is used by increasing and decreasing the second device shell 8, when the second device shell 8 is installed, the fixing ejector rod 16 is inserted into the groove 7 to extrude the first spring 6, so that the device can be better fixed in the heightening process, meanwhile, the second mixing rod 15 is inserted into the fourth bevel gear 33, mud is poured into the device through the feeding port 13 and then the first motor 12 drives the first bevel gear 29 to rotate, when the first bevel gear 29 rotates, the second mixing rod 15 and the second bevel gear 30 are simultaneously driven to rotate, and simultaneously the third bevel gear 31 rotates, when the third bevel gear 31 rotates, the first mixing rod 14 is driven to rotate, simultaneously stirring the mud in the device, driving the fourth bevel gear 33 to rotate when the second stirring rod 15 rotates, driving the fourth stirring rod 18 and the fifth bevel gear 34 to rotate the fifth bevel gear 34, driving the sixth bevel gear 35 to rotate when the fifth bevel gear 34 rotates, driving the third stirring rod 17 to rotate, stirring the mud in the device, discharging the stirred mud by opening the discharge valve 20 after the mud in the device is stirred, driving the fourth device shell 39 to move downwards by the electric telescopic rod 19 after the device is used, extruding and retracting the third spring 37 into the fourth device shell 39 by the blocking plate 36 in the downward process by the fourth device shell 39, simultaneously cleaning the device by connecting a water pipe into the cleaning spray head 5, and when the device needs to be replaced by parts or maintained, filling tools and parts by the lifting bin 1, simultaneously, it is rotatory to drive gyro wheel 11 through second motor 22, drive lift storehouse 1 through the cable wire and slide in the outside of slide rail 2 when gyro wheel 11 is rotatory, take corresponding position with operation workman and instrument part, extrude roof 23 at the in-process that descends when lift storehouse 1, can extrude damping spring pole 24 when roof 23 receives the extrusion, receive the extrusion through articulated ejector pin 26 simultaneously, drive slider 40 and extrude second spring 25 in the outside of guide arm 27, make lift storehouse 1 receive the shock attenuation buffering at the in-process that descends, protect the inside operating personnel in lift storehouse 1, do above the utility model discloses a whole theory of operation.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an accelerate stirring efficiency's stirring building, includes lift storehouse (1) and first device shell (4), its characterized in that: the two ends of the bottom end of the first device shell (4) are provided with support legs (3), the bottom end of one end of each support leg (3) is provided with a bottom plate (21), the top end of the first device shell (4) is provided with a second device shell (8), the top end of the second device shell (8) is provided with a third device shell (9), the two ends of the top end of the third device shell (9) are provided with a feeding port (13) penetrating through the third device shell (9), the top ends of the second device shell (8) and the first device shell (4) are provided with second cavities (32), the top ends of the interiors of the second cavities (32) are provided with fourth conical gears (33) through bearings, one ends of the interiors of the second cavities (32) are provided with fifth conical gears (34) through bearings, and the bottom ends of the interiors of the second cavities (32) at the bottoms of the fifth conical gears (34) are provided with sixth conical gears (35) meshed with the fifth conical gears (34), sixth conical gear (35) bottom all installs third puddler (17) that run through second cavity (32) through the bearing, fourth puddler (18) that run through third puddler (17) are all installed to fourth conical gear (33) bottom, fourth cavity (38) have evenly been seted up with the inner wall of third device shell (9) to first device shell (4), second device shell (8), and the inside one end of fourth cavity (38) all installs clearance shower nozzle (5), slide rail (2) are all installed to the one end of stabilizer blade (3), first device shell (4), second device shell (8) and third device shell (9), and the outside sliding connection of slide rail (2) has lift storehouse (1).

2. The mixing plant for accelerating mixing efficiency according to claim 1, wherein: first device shell (4) and second device shell (8) top all offer all around and run through recess (7) to first device shell (4) and second device shell (8) inner wall, and recess (7) inside bottom all install first spring (6), ejection of compact valve (20) are installed to the bottom of first device shell (4), fixed ejector pin (16) that extend to recess (7) inside first spring (6) top are all installed to first device shell (4) and third device shell (9) bottom.

3. The mixing plant for accelerating mixing efficiency according to claim 1, wherein: a first cavity (28) is arranged on the inner wall of the top end of the third device shell (9), a first motor (12) is arranged on the top end of the third device shell (9), and the output end of the first motor (12) is provided with a first bevel gear (29) which penetrates into the first cavity (28) through a bearing, one end in the first cavity (28) is provided with a second bevel gear (30) meshed with the first bevel gear (29) through a bearing, and the bottom end of the second bevel gear (30) is provided with a third bevel gear (31) meshed with the second bevel gear (30) at the bottom end inside the first cavity (28), the bottom end of the third bevel gear (31) is provided with a first stirring rod (14) which penetrates into the third device shell (9) through a bearing, and a second stirring rod (15) which penetrates through the bottom end of the first cavity (28) and is movably connected with the fourth conical gear (33) is arranged at the bottom end of the first conical gear (29).

4. The mixing plant for accelerating mixing efficiency according to claim 1, wherein: third device shell (9) are close to the top of slide rail (2) one end and install fixed plate (10), and the one end of fixed plate (10) one side installs second motor (22), gyro wheel (11) that run through fixed plate (10) are installed through the bearing to second motor (22) output, and the cable wire that is connected with lift storehouse (1) top is installed in gyro wheel (11) outside.

5. The mixing plant for accelerating mixing efficiency according to claim 1, wherein: damping spring pole (24) are installed to the both ends on bottom plate (21) top at equidistant, and the top of damping spring pole (24) one end all transverse connection have guide arm (27), the outside of guide arm (27) evenly is provided with second spring (25), and the outside of second spring (25) one end guide arm (27) all is provided with slider (40), the top of slider (40) all articulates there is articulated ejector pin (26), and the top of articulated ejector pin (26) articulates there is roof (23).

6. The mixing plant for accelerating mixing efficiency according to claim 1, wherein: electric telescopic handle (19) are all installed to the inside one end bottom of fourth cavity (38), and electric telescopic handle (19)'s top all installs fourth device shell (39), third spring (37) are evenly installed to the inside one end of fourth device shell (39), and third spring (37) one end all installs closure plate (36) that run through fourth device shell (39).

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