CN216685734U - Storage device for placing self-leveling mortar - Google Patents

Abstract

The utility model discloses a storage device for placing self-leveling mortar, relates to the technical field of self-leveling mortar storage, and aims to solve the problem that the conventional storage device cannot store the self-leveling mortar for a long time. The inside upper end of storing up sodium storehouse shell is provided with first storage sodium cavity, the annular evenly distributed in inside of first storage sodium cavity has the first stirring rake of a plurality of, the upper end of first stirring rake is provided with second output gear, one side of second output gear is provided with first output gear, the lower extreme of first output gear is provided with the transfer line, the inside upper end of storing up sodium storehouse shell is provided with the horizontal slip rail, the inside lower extreme of storing up sodium storehouse shell is provided with the second and stores up sodium cavity, the outside of second storage sodium cavity is provided with the second stirring rake, one side of storing up sodium storehouse shell is provided with the support frame, one side of the inside of support frame is provided with the transmission threaded rod, the outside of transmission threaded rod is provided with the sliding block.

Description

Storage device for placing self-leveling mortar

Technical Field

The utility model relates to the technical field of self-leveling mortar storage, in particular to a storage device for placing self-leveling mortar.

Background

The self-leveling mortar comprises cement-based self-leveling mortar, leveling mortar and the like, and is a product with high technological content and more complex technical links, the self-leveling mortar is a dry-mixed powdery material consisting of multiple active ingredients and can be used after being mixed with water, and the self-leveling mortar is safe to use, free of pollution, attractive in appearance, and has the characteristic of self-leveling cement in quick construction and use, so that the demand of the self-leveling mortar in the field of buildings is gradually increased, if the self-leveling mortar cannot be used immediately after being stirred, the self-leveling mortar needs to be stored for preventing air drying, and a storage device is required to be used during storage.

However, the self-leveling mortar stored in the existing storage device mostly stands and is sealed when being stored, and the self-leveling mortar can be effectively prevented from being solidified when standing in a sealed state, but the self-leveling mortar can be gradually solidified when standing for a long time, so that the self-leveling mortar is not beneficial to long-time storage of the self-leveling mortar, and the existing requirements are not met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a storage device for placing self-leveling mortar, and aims to solve the problem that the storage device proposed in the background art cannot store the self-leveling mortar for a long time.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a storage device for placing self-leveling mortar, includes and stores up sodium storehouse shell, the inside upper end of storing up sodium storehouse shell is provided with first storage sodium cavity, the cyclic annular evenly distributed in the inside of first storage sodium cavity has the first stirring rake of a plurality of, the upper end of first stirring rake is provided with second output gear, and the lower extreme and the first stirring rake fixed connection of second output gear, one side of second output gear is provided with first output gear, the lower extreme of first output gear is provided with the transfer line, and all meshes between transfer line, second output gear and the first output gear and connect, the inside upper end of storing up sodium storehouse shell is provided with horizontal sliding rail, and horizontal sliding rail and transfer line sliding connection, one side of first storage sodium cavity upper end is provided with the dog-house.

Preferably, the inside lower extreme in storage sodium storehouse shell is provided with the second and stores up the sodium cavity, the outside that the sodium cavity was stored up to the second is provided with the second stirring rake, and second stirring rake and first stirring rake fixed connection, the vertical evenly distributed in inside of first stirring rake has a plurality of cavity that flows, and flows the cavity and run through and extend to the front and back both ends of first stirring rake.

Preferably, the two sides of the second stirring paddle are both provided with a water outlet, one side of the water outlet is provided with a water flow ring, one side of the water flow ring is provided with a water conveying pipeline, the water outlet and the water flow ring are all in sealing connection, and the lower end of the second stirring paddle is provided with a sealing valve.

Preferably, one side of storing up sodium storehouse shell is provided with the support frame, the inside one side of support frame is provided with transmission threaded rod, and transmission threaded rod's both ends all rotate with the support frame and be connected, transmission threaded rod's outside is provided with the sliding block, and sliding block and transmission threaded rod screw-thread fit, sliding block and support frame sliding connection, and sliding block and storing up sodium storehouse shell fixed connection, the lower extreme of support frame is provided with anti-skidding base.

Preferably, the upper end of the outer part of the water pipeline is provided with a storage roller, and the storage roller is rotatably connected with the shell of the sodium storage bin.

Preferably, the inside both sides of storing up sodium storehouse shell all are provided with vertical sliding rail, the outside of vertical sliding rail is provided with the suspension board, and suspension board and vertical sliding rail sliding connection, one side of suspension board is provided with the pointer, the outside of pointer is provided with the scale, and scale and storing up sodium storehouse shell fixed connection.

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

1. according to the utility model, the first output gear is arranged at the upper end in the sodium storage bin shell, the second output gear is arranged on one side of the first output gear, the transmission rod is arranged at the lower end of the second output gear, the second output gear is fixedly connected with the first stirring paddle, the second output gear is driven to rotate back and forth through the rotation of the first output gear and the transmission of the transmission rod, the first stirring paddle can be driven to rotate back and forth through the back and forth rotation of the second output gear, the back and forth rotation of the first stirring paddle can prevent the poor stirring effect caused by the rotation in the same direction, so that the raw materials can be precipitated, the sodium storage effect in the device can be effectively improved through the rotation of the first stirring paddle, the raw materials can be prevented from being solidified, and the raw materials can be stored for a long time.

2. According to the utility model, the two sides in the first sodium storage cavity are respectively provided with the suspension plate, the raw materials have floating force, the floating force can push the suspension plates to longitudinally move upwards in the longitudinal sliding rail, the suspension plates can drive the pointer to move upwards while longitudinally moving upwards, a user can observe outside the pointer through the graduated scale when moving, the graduated scale is made of plastic, the plastic is transparent, the external user can know the storage amount of the raw materials in the sodium storage bin shell through the position of the pointer, and the use of the user is convenient.

3. According to the utility model, the second stirring paddle is arranged at the lower end of the inner part of the shell of the sodium storage bin, the water outlet is arranged at the outer part of the second stirring paddle, the water flow ring is arranged at the outer part of the water outlet, the water pipeline is arranged at one end of the water flow ring, the opening diameter of the second sodium storage cavity is smaller, so that the dumps and the sodium is easy to solidify, the raw materials of the sodium stored in the second sodium storage cavity can be stirred by the rotation of the second stirring paddle, the external cleaning liquid can be conveyed by the water pipeline and is discharged from the water outlet, the cleaning liquid can directly clean the second sodium storage cavity, and the dumps and the sodium is effectively prevented from solidifying by matching the rotation of the second stirring paddle with the conveying of the water pipeline to the cleaning liquid.

Drawings

FIG. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a perspective view of the first output gear, the second output gear and the transmission rod of the present invention;

FIG. 3 is an enlarged view of a portion of the area A of FIG. 1 in accordance with the present invention;

fig. 4 is a partially enlarged view of the area B in fig. 1 according to the present invention.

In the figure: 1. an anti-slip base; 2. a support frame; 3. a transmission threaded rod; 4. a slider; 5. a sodium storage bin housing; 6. a first sodium storage cavity; 7. a suspension plate; 8. a longitudinal sliding rail; 9. a pointer; 10. a graduated scale; 11. A first stirring paddle; 12. a flow cavity; 13. a second stirring paddle; 14. a second sodium storage cavity; 15. a water flow ring; 16. a water outlet; 17. a water delivery pipeline; 18. a storage drum; 19. a feeding port; 20. a first output gear; 21. a second output gear; 22. a transmission rod; 23. a transverse sliding rail; 24. and sealing the valve.

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.

Referring to fig. 1-4, an embodiment of the present invention is shown: the utility model provides a storage device for placing self-leveling mortar, including storing up sodium storehouse shell 5, the inside upper end of storing up sodium storehouse shell 5 is provided with first storage sodium cavity 6, the cyclic annular evenly distributed in the inside of first storage sodium cavity 6 has the first stirring rake 11 of a plurality of, the upper end of first stirring rake 11 is provided with second output gear 21, and the lower extreme and the 11 fixed connection of first stirring rake of second output gear 21, one side of second output gear 21 is provided with first output gear 20, the lower extreme of first output gear 20 is provided with transfer line 22, and transfer line 22, all mesh connection between second output gear 21 and the first output gear 20, the inside upper end of storing up sodium storehouse shell 5 is provided with horizontal sliding rail 23, and horizontal sliding rail 23 and transfer line 22 sliding connection, one side of first storage sodium cavity 6 upper end is provided with dog-house 19.

Further, the inside lower extreme of storing up sodium storehouse shell 5 is provided with the second and stores up sodium cavity 14, the outside that the sodium cavity 14 was stored up to the second is provided with second stirring rake 13, and second stirring rake 13 and first stirring rake 11 fixed connection, the vertical evenly distributed in inside of first stirring rake 11 has a plurality of cavity 12 that flows, and cavity 12 that flows runs through and extends to both ends around first stirring rake 11, the rotation of second stirring rake 13 can stir and prevent that the raw materials of storing in the sodium cavity 14 is blockked up and is solidified to the second.

Further, both sides of the second stirring paddle 13 are provided with a water outlet 16, one side of the water outlet 16 is provided with a water flow ring 15, one side of the water flow ring 15 is provided with a water pipeline 17, the water outlet 16 and the water flow ring 15 are all connected in a sealing manner, the lower end of the second stirring paddle 13 is provided with a sealing valve 24, cleaning liquid is conveyed through the water pipeline 17, the cleaning liquid enters the water flow ring 15 and is discharged from the water outlet 16, and the discharged cleaning liquid can directly clean the second sodium storage cavity 14.

Further, one side of storing up sodium storehouse shell 5 is provided with support frame 2, one side of 2 inside of support frame is provided with drive threaded rod 3, and drive threaded rod 3's both ends all rotate with support frame 2 and be connected, drive threaded rod 3's outside is provided with sliding block 4, and sliding block 4 and 3 screw-thread fit of drive threaded rod, sliding block 4 and 2 sliding connection of support frame, and sliding block 4 and 5 fixed connection of storing up sodium storehouse shell, the lower extreme of support frame 2 is provided with anti-skidding base 1, the rotation through drive threaded rod 3 drives and stores up 5 vertical adjusting positions in sodium storehouse shell, the adjustment of position is in order to drive.

Further, the upper end of the outside of the water pipeline 17 is provided with a storage roller 18, the storage roller 18 is rotatably connected with the sodium storage bin shell 5, and when the longitudinal position of the sodium storage bin shell 5 is adjusted, the redundant water pipeline 17 can be stored through the sealing valve 18.

Further, the inside both sides of storing up sodium storehouse shell 5 all are provided with vertical sliding rail 8, vertical sliding rail 8's outside is provided with suspension 7, and suspension 7 and vertical sliding rail 8 sliding connection, one side of suspension 7 is provided with pointer 9, pointer 9's outside is provided with scale 10, and scale 10 and the fixed connection of storing up sodium storehouse shell 5, the buoyancy of the raw materials of storing up in the sodium storehouse shell 5 can promote suspension 7 and vertically upwards move in vertical sliding rail 8 outside, suspension 7 moves up and can drive pointer 9 and move up, the outside user can through the position of observing pointer 9.

The working principle is as follows: when the device is used, in order to store raw materials for a long time and prevent the raw materials from being solidified during storage, the first output gear 20 rotates clockwise, the rotation of the first output gear 20 drives the transmission rod 22 to move transversely to one side, the transmission rod 22 moves transversely to one side to drive the second output gear 21 to rotate clockwise, the first output gear 20 continuously rotates until the transmission rod 22 is not limited to drive the second output gear 21 to rotate anticlockwise, the rotation direction of the second output gear 21 is changed and adjusted at regular time, the rotation of the second output gear 21 can drive the first stirring paddle 11 to rotate, in order to avoid the blockage of the second sodium storage cavity 14 in the sodium storage bin outer shell 5, the rotation of the first stirring paddle 11 can drive the second stirring paddle 13 to rotate, the rotation of the second stirring paddle 13 can stir and prevent the raw materials stored in the second sodium storage cavity 14 from being blocked and solidified, on the other hand, the cleaning liquid is conveyed through the water conveying pipeline 17, the cleaning liquid enters the water flow ring 15 and is discharged from the water discharge port 16, the discharged cleaning liquid can directly clean the second sodium storage cavity 14, in order to enable the outside to easily observe the storage capacity of the sodium storage raw material inside the sodium storage bin shell 5, the buoyancy of the raw material stored in the sodium storage bin shell 5 can push the suspension plate 7 to longitudinally move upwards outside the longitudinal sliding rail 8, the suspension plate 7 can move upwards to drive the pointer 9, and an external user can observe the position of the pointer 9.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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 a storage device for placing self-leveling mortar, includes sodium storage storehouse shell (5), its characterized in that: store up inside upper end of sodium storehouse shell (5) and be provided with first storage sodium cavity (6), the inside cyclic annular evenly distributed of first storage sodium cavity (6) has the first stirring rake (11) of a plurality of, the upper end of first stirring rake (11) is provided with second output gear (21), and the lower extreme and first stirring rake (11) fixed connection of second output gear (21), one side of second output gear (21) is provided with first output gear (20), the lower extreme of first output gear (20) is provided with transfer line (22), and all meshes between transfer line (22), second output gear (21) and first output gear (20) and connect, the inside upper end of sodium storehouse shell (5) is provided with horizontal sliding rail (23), and horizontal sliding rail (23) and transfer line (22) sliding connection.

2. A storage device for placing self-leveling mortar according to claim 1, wherein: the sodium storage bin is characterized in that a second sodium storage cavity (14) is formed in the lower end of the interior of the sodium storage bin shell (5), a second stirring paddle (13) is arranged outside the second sodium storage cavity (14), and the second stirring paddle (13) is fixedly connected with the first stirring paddle (11).

3. A storage device for placing self-leveling mortar according to claim 2, wherein: both sides of the second stirring paddle (13) are provided with water outlets (16), one side of each water outlet (16) is provided with a water flow ring (15), one side of each water flow ring (15) is provided with a water conveying pipeline (17), and the water conveying pipeline (17), the water outlets (16) and the water flow rings (15) are connected in a sealing mode.

4. A storage device for placing self-leveling mortar according to claim 1, wherein: store up one side of sodium storehouse shell (5) and be provided with support frame (2), the inside one side of support frame (2) is provided with drive threaded rod (3), and the both ends of drive threaded rod (3) all rotate with support frame (2) and be connected, the outside of drive threaded rod (3) is provided with sliding block (4), and sliding block (4) and drive threaded rod (3) screw-thread fit, sliding block (4) and support frame (2) sliding connection, and sliding block (4) and store up sodium storehouse shell (5) fixed connection.

5. A storage device for placing self-leveling mortar according to claim 3, wherein: the upper end of the outer part of the water pipeline (17) is provided with a storage roller (18), and the storage roller (18) is rotatably connected with the sodium storage bin shell (5).

6. A storage device for placing self-leveling mortar according to claim 4, wherein: the sodium storage bin is characterized in that longitudinal sliding rails (8) are arranged on two sides of the interior of the sodium storage bin shell (5), a suspension plate (7) is arranged outside the longitudinal sliding rails (8), the suspension plate (7) is connected with the longitudinal sliding rails (8) in a sliding mode, and a pointer (9) is arranged on one side of the suspension plate (7).

Images