CN217704014U - Building ground self-leveling mortar backfilling and stirring structure - Google Patents

Abstract

The utility model provides a building ground is from levelling mortar backfill stirring structure, including vibration platform, vibration platform's inner wall fixed mounting has and stirs the sand jar, all sides fixed mounting who stirs the sand jar has agitator motor, the inner wall that stirs the sand jar rotates and is connected with outer stirring section of thick bamboo, the inner wall fixed mounting who stirs the section of thick bamboo outward has a plurality of groups to be the outer stirring rod that linear array distributes, the axis position that stirs the sand jar rotates and is connected with the transmission seat, the week side and the outer transmission of stirring section of thick bamboo of transmission seat are connected, the inner wall of transmission seat rotates and is connected with interior stirring section of thick bamboo, agitator motor's output shaft end is connected with transmission seat and interior stirring section of thick bamboo transmission respectively, the internally mounted of interior stirring section of thick bamboo has the lifting unit, the all sides fixed mounting of interior stirring section of thick bamboo has the transmission to inlay a section of thick bamboo. This application is through the setting of the outer section of thick bamboo that stirs of setting, interior section of thick bamboo, permanent magnetism ring and electromagnetic ring, makes this device can high-efficiently accomplish the stirring mixed operation that the building self-leveling sand will, and this device when the stirring mixes, becomes traditional agitating unit's unipolar unidirectional type stirring structure and is bidirectional type stirring structure.

Description

Building ground self-leveling mortar backfilling and stirring structure

Technical Field

The utility model relates to a from the stirring field of flat mortar, particularly, relate to a building ground is from flat mortar backfill stirring structure.

Background

The self-leveling mortar is applied to various places, wherein, various building grounds are included, but the prior self-leveling mortar is processed and stirred, and only required water source and materials are stirred simply, because the stirring time is short, the quality of final finished products can not be well guaranteed, for solving the problems brought forward in the background technology, the patent document with the publication number of CN216372749U discloses a self-leveling mortar backfill stirring station device for building grounds, which is used by a stirring device and a water injection device when in use, can accurately control the total amount of the water source, and is used for continuously conveying the water source in the stirring process of equipment, so that the water source is mixed with the materials from the inside, thereby the quality of the final finished products is more perfect, the processing quality of the equipment is guaranteed, but the self-leveling mortar stirring device is a single-shaft static stirring structure, and because of the single-shaft static stirring structure, the stirring speed of the existing stirring device is lower, and the stirring effect is poorer, and based on the utility model provides a building ground stirring structure, which solves the problem of backfill in the background technology of self-leveling mortar.

Disclosure of Invention

The utility model aims to provide a: the stirring device is used for stirring the mortar automatically and automatically, and the stirring speed of the stirring device is low, so that the stirring effect is poor.

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

a self-leveling mortar backfilling and stirring structure for the ground of a building is provided to improve the problems.

The present application is specifically such that:

including vibration platform, vibration platform's inner wall fixed mounting has the sand jar of stirring, the week side fixed mounting who stirs the sand jar has agitator motor, the inner wall that stirs the sand jar rotates and is connected with outer stirring section of thick bamboo, the outer stirring stick that inner wall fixed mounting who stirs a section of thick bamboo has a plurality of groups to be linear array distribution, the axis position that stirs the sand jar rotates and is connected with the transmission seat, the week side of transmission seat is connected with outer stirring section of thick bamboo transmission, the inner wall of transmission seat rotates and is connected with interior stirring section of thick bamboo, agitator motor's output shaft end is connected with transmission seat and interior stirring section of thick bamboo transmission respectively, the internally mounted of interior stirring section of thick bamboo has the lifting means, the week side fixed mounting of interior stirring section of thick bamboo has the transmission to inlay a section of thick bamboo, the week side cover that the transmission inlayed a section of thick bamboo is equipped with driven sleeve, driven sleeve's week side fixed mounting has a plurality of groups to be linear array distribution's interior top fixed mounting has the drive assembly of drive driven sleeve reciprocating motion from top to bottom.

As the preferred technical scheme of this application, vibration platform includes the frame, the bottom surface fixed mounting of frame has the shock attenuation frame, a plurality of truckles are installed to the bottom surface of shock attenuation frame, the inner wall of frame with stir sand jar fixed connection, a plurality of regularly distributed's vibrating motor is installed to the top surface of frame.

As the preferred technical scheme of this application, it is top open-ended cavity tubular structure to stir a section of thick bamboo outward, the inner wall fixed mounting who stirs a section of thick bamboo outward has driven ring gear, the week side fixed mounting of driving seat has drive gear ring, the interior top rotation of stirring the sand jar is connected with the linkage gear, the week side of drive gear ring passes through linkage gear and driven ring gear meshing.

As the preferred technical scheme of this application, the equal fixed mounting in all sides of week of transmission seat and interior stirring section of thick bamboo has driven bevel gear, two drive bevel gear, two are installed to stirring motor's output shaft end drive bevel gear's week side respectively with two driven bevel gear meshing.

As the preferred technical scheme of this application, carry the material subassembly including carrying the material motor respectively, a set of circumference array distribution and install in stir the feed back pipe on a section of thick bamboo upper portion and a set of feed back hole that is circumference array distribution and set up in the interior stirring section of thick bamboo lower part, carry the bottom surface of material motor and stir sand jar fixed connection, the output shaft fixed mounting who carries the material motor has the material axle, the side fixed mounting that inclines of material axle has the spiral to carry the thick liquid blade, the side and the interior laminating of stirring section of thick bamboo that the thick liquid blade was carried to the spiral.

As the preferred technical scheme of this application, drive assembly includes connecting plate and driving-disc respectively, the top surface of connecting plate with stir sand jar fixed connection, the bottom surface fixed mounting of connecting plate has the electromagnetic ring, the inner wall and the driven sleeve fixed connection of driving-disc, the top surface fixed mounting of driving-disc have with electromagnetic ring complex permanent magnetism ring, fixed mounting has the tensile spring between the relative surface of a driving-disc and interior stirring section of thick bamboo.

As the preferable technical scheme of the application, a plurality of groups of material penetrating holes which are distributed in a circumferential array and matched with the material returning pipe are formed in the surface of the driving disc.

As the preferred technical scheme of this application, the top surface that stirs the sand jar is fixed mounting respectively has inlet pipe and liquid feeding pipe, the bottom fixed mounting who stirs a section of thick bamboo in has the discharge tube, the valve is all installed to the inside of inlet pipe, liquid feeding pipe and discharge tube.

As the preferred technical scheme of this application, the transmission inlays a section of thick bamboo and is regular polygon structure, driven sleeve is both ends open-ended cavity tubular structure, driven sleeve's inner chamber shape and the shape adaptation that the transmission inlayed a section of thick bamboo.

As the preferred technical scheme of this application, outer stirring rod and interior stirring rod are the interval setting in the inside of stirring the sand jar.

Compared with the prior art, the beneficial effects of the utility model are that:

in the scheme of the application:

through the outer stirring section of thick bamboo that sets up, interior stirring section of thick bamboo, the setting of permanent magnetism ring and electromagnetic ring, make this device can high-efficiently accomplish the stirring mixed operation that building self-leveling sand will, and this device is when the stirring mixes, become traditional agitating unit's unipolar one-way stirring structure and be two-way stirring structure, in operation, coaxial reverse rotation can take place for outer stirring section of thick bamboo and interior stirring section of thick bamboo, then realize reverse stirring operation, and this device is when stirring the operation, become traditional static state stirring structure and be dynamic formula stirring structure, in operation, the periodic circular telegram of electromagnetic ring, then drive the interior excellent reciprocating motion from top to bottom in setting for the stroke, through the emergence of interior excellent reciprocating motion from top to bottom, thereby can effectively improve the area of action of interior stirring rod, then effectively improve the stirring efficiency and the stirring effect of mortar.

Drawings

Fig. 1 is a schematic structural diagram of a ground self-leveling mortar backfill stirring structure of a building provided by the present application;

FIG. 2 is a schematic cross-sectional structure diagram of a sand stirring tank and an external stirring cylinder provided by the application;

FIG. 3 is an enlarged partial view of FIG. 2;

FIG. 4 is a partial enlarged view of FIG. 2;

FIG. 5 is a schematic structural diagram of an external mixing drum and a driven gear ring of the present application;

FIG. 6 is a schematic structural diagram of the transmission embedded cylinder, the inner stirring cylinder and the material return pipe.

The figures are marked by:

1. a sand stirring tank; 2. a stirring motor; 3. an external stirring cylinder; 4. an outer stirring rod; 5. a transmission seat; 6. an internal stirring cylinder; 7. driving and embedding the cylinder; 8. a driven sleeve; 9. an inner stirring rod; 10. a frame; 11. a shock-absorbing mount; 12. a vibration motor; 13. a driven gear ring; 14. a transmission gear ring; 15. a linkage gear; 16. a material lifting motor; 17. a material returning pipe; 18. a material returning hole; 19. a spiral pulp extracting blade; 20. a connecting plate; 21. a drive plate; 22. an electromagnetic ring; 23. a permanent magnet ring; 24. a tension spring; 25. a feed pipe; 26. a liquid feeding pipe; 27. a discharge tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them.

Thus, the following detailed description of the embodiments of the present invention is not intended to limit the scope of the invention as claimed, but is merely representative of some embodiments of the invention. 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.

It should be noted that, in the present invention, the embodiments and the features and technical solutions in the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "upper" and "lower" indicate the orientation or position relationship based on the orientation or position relationship shown in the drawings, or the orientation or position relationship that the product of the present invention is usually placed when in use, or the orientation or position relationship that a person skilled in the art would conventionally understand, and such terms are only used for convenience of description and simplification of the description, but do not indicate or imply that the device or element that is referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 6, the present embodiment provides a structure for backfilling and stirring a self-leveling mortar on a floor of a building, which includes a vibration platform, wherein a sand stirring tank 1 is fixedly installed on an inner wall of the vibration platform;

a feeding pipe 25 and a liquid feeding pipe 26 are fixedly installed on the top surface of the sand stirring tank 1 respectively, a discharging pipe 27 is fixedly installed at the bottom of the inner stirring cylinder 6, and valves are installed inside the feeding pipe 25, the liquid feeding pipe 26 and the discharging pipe 27;

the vibration platform comprises a rack 10, a shock absorption frame 11 is fixedly installed on the bottom surface of the rack 10, a plurality of trundles are installed on the bottom surface of the shock absorption frame 11, the inner wall of the rack 10 is fixedly connected with the sand stirring tank 1, and a plurality of regularly distributed vibration motors 12 are installed on the top surface of the rack 10;

during stirring operation, the vibration motor 12 outputs vibration frequency in a set state, so that the mixing uniformity of the self-leveling mortar in the sand stirring tank 1 is improved;

a stirring motor 2 is fixedly installed on the peripheral side surface of the sand stirring tank 1, an outer stirring cylinder 3 is rotatably connected to the inner wall of the sand stirring tank 1, and the outer stirring cylinder 3 is of a hollow cylindrical structure with an opening at the top end;

a plurality of groups of external stirring rods 4 distributed in a linear array are fixedly arranged on the inner wall of the external stirring cylinder 3, the axis position of the sand stirring tank 1 is rotatably connected with a transmission seat 5, and the peripheral side surface of the transmission seat 5 is in transmission connection with the external stirring cylinder 3;

a driven gear ring 13 is fixedly arranged on the inner wall of the outer stirring cylinder 3, a transmission gear ring 14 is fixedly arranged on the peripheral side surface of the transmission seat 5, a linkage gear 15 is rotatably connected to the inner top of the sand stirring tank 1, and the peripheral side surface of the transmission gear ring 14 is meshed with the driven gear ring 13 through the linkage gear 15;

the inner wall of the transmission seat 5 is rotatably connected with an inner stirring cylinder 6, and the output shaft end of the stirring motor 2 is respectively in transmission connection with the transmission seat 5 and the inner stirring cylinder 6;

driven bevel gears are fixedly arranged on the peripheral side surfaces of the transmission seat 5 and the inner stirring cylinder 6, two driving bevel gears are arranged at the output shaft end of the stirring motor 2, the peripheral side surfaces of the two driving bevel gears are respectively meshed with the two driven bevel gears, after the servo motor works, the transmission seat 5 and the inner stirring cylinder 6 rotate in the same direction, and the rotation direction of the inner stirring cylinder 6 is opposite to that of the outer stirring cylinder 3 due to the arrangement of the linkage gear 15;

the internal stirring cylinder 6 is internally provided with a material lifting assembly, the material lifting assembly respectively comprises a material lifting motor 16, a group of material returning pipes 17 which are distributed in a circumferential array and are arranged at the upper part of the internal stirring cylinder 6 and a group of material returning holes 18 which are distributed in a circumferential array and are arranged at the lower part of the internal stirring cylinder 6, the bottom surface of the material lifting motor 16 is fixedly connected with the sand stirring tank 1, the output shaft end of the material lifting motor 16 is fixedly provided with a material lifting shaft, the peripheral side surface of the material lifting shaft is fixedly provided with a spiral pulp lifting blade 19, and the peripheral side surface of the spiral pulp lifting blade 19 is attached to the internal stirring cylinder 6;

the peripheral side surface of the inner stirring cylinder 6 is fixedly provided with a transmission embedded cylinder 7, and the peripheral side surface of the transmission embedded cylinder 7 is sleeved with a driven sleeve 8;

the transmission embedded cylinder 7 is of a regular polygon structure, the driven sleeve 8 is of a hollow cylindrical structure with openings at two ends, and the shape of the inner cavity of the driven sleeve 8 is matched with that of the transmission embedded cylinder 7;

through the structural arrangement of the transmission embedded cylinder 7 and the driven sleeve 8, the driven sleeve 8 can be effectively transmitted by the transmission embedded cylinder 7, and meanwhile, the driven sleeve 8 can be ensured to slide up and down along the direction of the transmission embedded cylinder 7;

a plurality of groups of inner stirring rods 9 which are distributed in a linear array are fixedly arranged on the peripheral side face of the driven sleeve 8, the outer stirring rods 4 and the inner stirring rods 9 are arranged at intervals in the sand stirring tank 1, and a driving assembly for driving the driven sleeve 8 to reciprocate up and down is fixedly arranged at the inner top of the sand stirring tank 1.

As shown in fig. 2 and fig. 3, as a preferred embodiment, in addition to the above-mentioned mode, the driving assembly further includes a connecting plate 20 and a driving plate 21, the top surface of the connecting plate 20 is fixedly connected with the sand stirring tank 1, the bottom surface of the connecting plate 20 is fixedly provided with an electromagnetic ring 22, the electromagnetic ring 22 is essentially an electromagnet, the electromagnetic ring 22 generates magnetism when being energized, and loses magnetism when being de-energized, and after the electromagnetic ring 22 is energized, the magnetism of the electromagnetic ring 22 is the same as that of the permanent magnetic ring 23, and the same magnetism is set, so as to generate thrust to the driving plate 21, and during the stirring operation, the electromagnetic ring 22 is in a periodic energization mode;

the inner wall of the driving disc 21 is fixedly connected with the driven sleeve 8, a plurality of groups of material penetrating holes which are distributed in a circumferential array and matched with the material returning pipe 17 are formed in the surface of the driving disc 21, a permanent magnet ring 23 matched with the electromagnetic ring 22 is fixedly installed on the top surface of the driving disc 21, the permanent magnet ring 23 is a permanent magnet, and a tensile spring 24 is fixedly installed between the driving disc 21 and the opposite surface of the inner stirring cylinder 6.

Example 3:

the schemes of example 1 and example 2 are further described below in conjunction with specific working examples, which are described in detail below:

specifically, this device is mainly applicable to the mortar stirring operation of ground self-leveling mortar backfill in-process: when the mortar mixing device is used, mortar preparation raw materials are injected into the mortar mixing tank 1 from the feeding pipe 25, after the mortar preparation raw materials are injected, the mixing motor 2 is normally opened, the material lifting motor 16 periodically works, after the mixing motor 2 works, the inner mixing cylinder 6 and the outer mixing cylinder 3 are driven to coaxially and reversely rotate, after the inner mixing cylinder 6 and the outer mixing cylinder 3 rotate, the inner stirring rod 9 and the outer stirring rod 4 are driven to perform mixing operation, when the mixing motor 2 works, the electromagnetic ring 22 is periodically electrified, after the electromagnetic ring 22 is periodically electrified, the driven sleeve 8 is driven to vertically reciprocate along the direction of the transmission embedded cylinder 7, in the working period of the material lifting motor 16, the spiral mortar lifting blades 19 lift mortar upwards, then the mortar vertically circularly flows, when the mortar needs to be discharged, the valve at the discharging pipe 27 is opened, the spiral mortar lifting blades 19 are downwards discharged, and then the processed mortar is discharged.

The above embodiments are only used to illustrate the present invention and not to limit the technical solutions described in the present invention, and although the present invention has been described in detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and therefore, any modification or equivalent replacement may be made to the present invention; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.

Claims (10)

1. The utility model provides a building ground is from flat-bed mortar backfill stirring structure, includes vibration platform, vibration platform's inner wall fixed mounting has and stirs sand jar (1), its characterized in that, all side fixed mounting that stirs sand jar (1) has agitator motor (2), the inner wall that stirs sand jar (1) rotates and is connected with outer stirring section of thick bamboo (3), the outer inner wall fixed mounting that stirs section of thick bamboo (3) has outer stirring rod (4) that a plurality of groups are linear array distribution, the axis position that stirs sand jar (1) rotates and is connected with drive seat (5), the all side of drive seat (5) is connected with outer stirring section of thick bamboo (3) transmission, the inner wall of drive seat (5) rotates and is connected with interior stirring section of thick bamboo (6) transmission respectively, the internally mounted that the interior stirring section of thick bamboo (6) has the lifting assembly, the face fixed mounting that the interior stirring section of thick bamboo (6) has a transmission section of thick bamboo (7), the transmission section of thick bamboo side cover is equipped with all side sleeve (8) and all side sleeve (8) the side sleeve (8) is driven section of stirring the reciprocal drive of thick bamboo (8) and the top that the movable sleeve (9) is the reciprocal movable sleeve (8) from top of the interior stirring section of jar (1).

2. The building ground self-leveling mortar backfilling and stirring structure according to claim 1, wherein the vibration platform comprises a frame (10), a shock absorption frame (11) is fixedly installed on the bottom surface of the frame (10), a plurality of casters are installed on the bottom surface of the shock absorption frame (11), the inner wall of the frame (10) is fixedly connected with the sand stirring tank (1), and a plurality of regularly distributed vibration motors (12) are installed on the top surface of the frame (10).

3. The ground self-leveling mortar backfill stirring structure for the building according to claim 1, wherein the outer stirring cylinder (3) is a hollow cylindrical structure with an open top end, a driven gear ring (13) is fixedly mounted on the inner wall of the outer stirring cylinder (3), a transmission gear ring (14) is fixedly mounted on the peripheral side surface of the transmission seat (5), a linkage gear (15) is rotatably connected to the inner top of the stirring sand tank (1), and the peripheral side surface of the transmission gear ring (14) is meshed with the driven gear ring (13) through the linkage gear (15).

4. The ground self-leveling mortar backfilling and stirring structure of the building according to claim 1, wherein the peripheral side surfaces of the transmission seat (5) and the inner stirring cylinder (6) are fixedly provided with driven bevel gears, the output shaft end of the stirring motor (2) is provided with two driving bevel gears, and the peripheral side surfaces of the two driving bevel gears are respectively meshed with the two driven bevel gears.

5. The building ground self-leveling mortar backfilling and stirring structure according to claim 1, wherein the lifting assembly comprises a lifting motor (16), a group of material returning pipes (17) which are distributed in a circumferential array and installed on the upper portion of the inner stirring cylinder (6), and a group of material returning holes (18) which are distributed in a circumferential array and opened on the lower portion of the inner stirring cylinder (6), the bottom surface of the lifting motor (16) is fixedly connected with the sand stirring tank (1), the output shaft of the lifting motor (16) is fixedly provided with a lifting shaft, the peripheral side surface of the lifting shaft is fixedly provided with a spiral slurry lifting blade (19), and the peripheral side surface of the spiral slurry lifting blade (19) is attached to the inner stirring cylinder (6).

6. The building ground self-leveling mortar backfilling and stirring structure according to claim 1, wherein the driving assembly comprises a connecting plate (20) and a driving disc (21), the top surface of the connecting plate (20) is fixedly connected with the sand stirring tank (1), the bottom surface of the connecting plate (20) is fixedly provided with an electromagnetic ring (22), the inner wall of the driving disc (21) is fixedly connected with the driven sleeve (8), the top surface of the driving disc (21) is fixedly provided with a permanent magnetic ring (23) matched with the electromagnetic ring (22), and a tensile spring (24) is fixedly arranged between the driving disc (21) and the opposite surface of the inner stirring cylinder (6).

7. The structure of claim 6, wherein the surface of the driving plate (21) is provided with a plurality of groups of material penetrating holes which are distributed in a circumferential array and matched with the material returning pipe (17).

8. The structure for backfilling and stirring the self-leveling mortar on the ground of the building according to claim 1, wherein a feeding pipe (25) and a liquid feeding pipe (26) are respectively and fixedly installed on the top surface of the mortar stirring tank (1), a discharging pipe (27) is fixedly installed at the bottom of the inner stirring cylinder (6), and valves are installed inside the feeding pipe (25), the liquid feeding pipe (26) and the discharging pipe (27).

9. The ground self-leveling mortar backfill mixing structure for the building according to claim 1, wherein the transmission embedded cylinder (7) is a regular polygon structure, the driven sleeve (8) is a hollow cylindrical structure with openings at two ends, and the shape of the inner cavity of the driven sleeve (8) is matched with the shape of the transmission embedded cylinder (7).

10. The building ground self-leveling mortar backfilling and stirring structure according to claim 1, wherein the outer stirring rod (4) and the inner stirring rod (9) are arranged at intervals inside the sand stirring tank (1).

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