CN221089493U - Geotechnical engineering agitating unit - Google Patents

Abstract

The utility model discloses a geotechnical engineering stirring device which comprises a stirring tank, a feeding funnel, a bidirectional stirring assembly, a dredging assembly and a damping assembly, wherein the stirring tank is arranged on the stirring tank; the pan feeding funnel is located the top of agitator tank, two-way stirring subassembly is located the top of agitator tank, the mediation subassembly is located one side of agitator tank, damper is located the outside of agitator tank. Compared with the prior art, the utility model has the advantages that: the utility model can stir bidirectionally, has higher stirring efficiency, can slow down the vibration during stirring, and can dredge the discharge pipe to prevent blockage.

Description

Geotechnical engineering agitating unit

Technical Field

The utility model relates to the technical field of geotechnical engineering construction, in particular to a geotechnical engineering stirring device.

Background

Geotechnical engineering is a new technological system established in civil engineering practice in the 20 th century 60 in European and American countries. Geotechnical engineering aims to solve the problems of rock mass and soil engineering, including foundation and foundation, side slope, underground engineering and the like, and is used as a research object of the geotechnical engineering. All kinds of engineering above ground, underground and in water are collectively referred to as civil engineering. The civil engineering involves rock, earth, underground and water partly called geotechnical engineering. With the development of various engineering construction enterprises and the breaking of cross-regional operation barriers, the geotechnical engineering market is in a complete competition state. Geotechnical engineering project bearing is mainly realized through public bidding activities, the market degree in the industry is higher, and the market concentration is lower. At present, in the existing geotechnical engineering construction process, a stirring device is required to stir mortar.

The utility model provides a prior art in patent number CN217123546U discloses a geotechnical engineering agitating unit, including the agitating unit main part to and the rabbling mechanism of setting in the agitating unit main part, all be provided with a plurality of stirring rod on the both sides outer wall that the rabbling mechanism is relative, the homonymy the stirring rod is located same horizontal line, the one end that stirring mechanism was kept away from to the stirring rod is equipped with the spout, and sliding connection has the draw runner in the spout, and the opposite side of draw runner is provided with the scraper blade, and the opposite side of scraper blade contacts with the inner wall of agitating unit main part, two about the top be equipped with the draw-in hole on the relative wall of spout of stirring rod. This geotechnical engineering agitating unit, closed door plant are opened and are placed the mouth, insert the spout with the scraper blade in through the draw-bar to lock through the joint relation of locking subassembly and draw-in hole, then start rotating electrical machines and pass through the rotation of rabbling mechanism and make the scraper blade scrape the mortar on the agitating unit main part inner wall, can dismantle the scraper blade fast through relieving the joint relation of locking subassembly simultaneously, use nimble convenience.

However, the prior art patents suffer from several drawbacks:

(1) The stirring assembly arranged on the geotechnical engineering stirring device can only stir unidirectionally, and the stirring time is long, so that the stirring and mixing efficiency is low.

(2) The geotechnical engineering stirring device is not provided with the damping component, and the stirring tank can be severely vibrated in the process of stirring mortar by the geotechnical engineering stirring device, so that the geotechnical engineering stirring device is easily damaged.

(3) The geotechnical engineering stirring device is not provided with a dredging component, and when the mortar is too high in density, the mortar is easy to block in a pipeline and not easy to discharge, so that the working efficiency is affected.

Disclosure of utility model

The geotechnical engineering stirring device has the advantages of bidirectional stirring, higher stirring efficiency, capability of reducing vibration during stirring, and capability of dredging a discharge pipe and preventing blockage.

In order to solve the problems, the technical scheme of the utility model is as follows: the geotechnical engineering stirring device comprises a stirring tank, a feeding funnel, a bidirectional stirring assembly, a dredging assembly and a damping assembly; the pan feeding funnel is located the top of agitator tank, two-way stirring subassembly is located the top of agitator tank, the mediation subassembly is located one side of agitator tank, damper is located the outside of agitator tank.

Further, one side of agitator tank is equipped with the discharging pipe, the one end of discharging pipe is equipped with the mediation storehouse, one side of mediation storehouse is equipped with motor one, one side of motor one is equipped with rotation axis one, the outside of rotation axis one is equipped with the mediation board.

Further, the top of agitator tank is equipped with the gear storehouse, the top in gear storehouse is equipped with the motor two, the bottom in motor two is equipped with the rotation axis two, the outside of rotation axis two is equipped with conical gear one, conical gear one and rotation axis two fixed connection, the inboard in gear storehouse is equipped with the holding ring one, the holding ring one with conical gear one swivelling joint, the inboard in gear storehouse is equipped with conical gear two, conical gear two and conical gear one meshing, one side of conical gear two is equipped with conical gear three, conical gear three and rotation axis two swivelling joint, the inboard in gear storehouse is equipped with the holding ring two, the holding ring two is equipped with rotatory pipe with conical gear three swivelling joint, rotatory pipe and rotation axis two swivelling joint, the outside of rotation axis two is equipped with stirring rake one, the outside of rotatory pipe is equipped with stirring rake two.

Further, the outside of agitator tank is equipped with the fixed block, the outside of agitator tank is equipped with the support column, the inboard of support column is equipped with the spout, the inboard of spout is equipped with the strut one, fixed block and strut one sliding connection, the outside of strut one is equipped with spring one.

Further, the bottom of agitator tank is equipped with the slide rail, the inboard of slide rail is equipped with the traveller two, the outside of traveller two is equipped with the slider, slider and traveller two sliding connection, the outside of traveller two is equipped with the spring two, be equipped with the bracing piece between slider and the support column, the bracing piece rotates with support column and slider to be connected.

Compared with the prior art, the utility model has the advantages that:

(1) According to the stirring assembly provided by the geotechnical engineering stirring device, bidirectional stirring can be realized, so that the stirring directions of the upper layer and the lower layer in the stirring tank are opposite, the mixed mortar can be stirred faster and better, and the stirring efficiency is improved.

(2) The geotechnical engineering stirring device is provided with the damping and buffering component, when the geotechnical engineering stirring device is stirred and subjected to severe shaking, the damping component can buffer impact force generated by shaking, the geotechnical engineering stirring device is protected from loss, and the stirring process is safer and more efficient.

(3) The geotechnical engineering stirring device is provided with the dredging component, and when the mortar is blocked by the discharging pipe, the hardened cement mortar can be stirred and dispersed by the dredging component, so that the mortar is smoothly discharged.

Drawings

Fig. 1 is a first structural view of a geotechnical engineering stirring device according to the present utility model.

Fig. 2 is a second structural diagram of a geotechnical engineering stirring device according to the present utility model.

FIG. 3 is a block diagram of a dredging assembly of the geotechnical engineering stirring device of the present utility model.

Fig. 4 is a structural diagram of a geotechnical engineering stirring device according to the present utility model.

Fig. 5 is a block diagram of a bi-directional stirring assembly of a geotechnical stirring device according to the present utility model.

Fig. 6 is a structural diagram of a geotechnical engineering stirring device according to the present utility model.

Fig. 7 is a block diagram of a damper assembly of a geotechnical stirring apparatus according to the present utility model.

As shown in the figure: 1. a stirring tank; 2. a feeding funnel; 3. a bi-directional stirring assembly; 4. a dredging assembly; 5. a shock absorbing assembly; 6. a discharge pipe; 7. dredging the bin; 8. a first motor; 9. a first rotating shaft; 10. a dredging plate; 11. a gear bin; 12. a second motor; 13. a second rotating shaft; 14. a first conical gear; 15. a first positioning ring; 16. a second bevel gear; 17. a conical gear III; 18. a positioning ring II; 19. a rotating tube; 20. a stirring paddle I; 21. a stirring paddle II; 22. a fixed block; 23. a support column; 24. a chute; 25. a first sliding column; 26. a first spring; 27. a slide rail; 28. a second sliding column; 29. a slide block; 30. a second spring; 31. and (5) supporting the rod.

Detailed Description

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals.

It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

In order to make the contents of the present utility model more clearly understood, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 7, the geotechnical engineering stirring device comprises a stirring tank 1, a feeding funnel 2, a bidirectional stirring assembly 3, a dredging assembly 4 and a damping assembly 5; the pan feeding funnel 2 is located the top of agitator tank 1, and two-way stirring subassembly 3 are located the top of agitator tank 1, and mediation subassembly 4 is located one side of agitator tank 1, and damper 5 is located the outside of agitator tank 1.

The bottom of agitator tank 1 has slide rail 27, and slide rail 27's inboard has the slide post two 28, and slide post two 28's outside has slider 29, and slider 29 and slide post two 28 sliding connection, and there is spring two 30 in the outside of slide post two 28, has bracing piece 31 between slider 29 and the support column 23, and bracing piece 31 and support column 23 and slider 29 rotate to be connected.

The outside of agitator tank 1 has fixed block 22, and the outside of agitator tank 1 has support column 23, and the inboard of support column 23 has spout 24, and the inboard of spout 24 has a strut one 25, and fixed block 22 and strut one 25 sliding connection, the outside of strut one 25 has spring one 26.

One side of the stirring tank 1 is provided with a discharging pipe 6, one end of the discharging pipe 6 is provided with a dredging bin 7, one side of the dredging bin 7 is provided with a motor I8, one side of the motor I8 is provided with a rotating shaft I9, and the outer side of the rotating shaft I9 is provided with a dredging plate 10.

The top of the stirring tank 1 is provided with a gear bin 11, the top of the gear bin 11 is provided with a motor II 12, the bottom of the motor II 12 is provided with a rotating shaft II 13, the outer side of the rotating shaft II 13 is provided with a conical gear I14, the conical gear I14 is fixedly connected with the rotating shaft II 13, the inner side of the gear bin 11 is provided with a positioning ring I15, the positioning ring I15 is rotationally connected with the conical gear I14, the inner side of the gear bin 11 is provided with a conical gear II 16, the conical gear II 16 is rotationally connected with the gear bin 11, the conical gear II 16 is meshed with the conical gear I14, one side of the conical gear II 16 is provided with a conical gear III 17, the conical gear III 17 is rotationally connected with the rotating shaft II 13, the inner side of the gear bin 11 is provided with a positioning ring II 18, the positioning ring II 18 is rotationally connected with the conical gear III 17, the bottom of the conical gear III 17 is provided with a rotating pipe 19, the rotating pipe 19 is rotationally connected with the rotating shaft II 13, the outer side of the rotating shaft II 13 is provided with a stirring paddle I20, and the outer side of the rotating pipe 19 is provided with a stirring paddle II 21.

In a specific use, raw materials are poured into the stirring tank 1 from the feeding hopper 2, the motor II 12 is started to enable the rotary shaft II 13 to rotate and drive the stirring paddle II 20 to rotate and stir in one direction, the rotary shaft II 13 drives the bevel gear II 14 to rotate, the bevel gear II 16 is enabled to rotate, the bevel gear III 17 and the rotary pipe 19 are enabled to rotate, and the stirring paddle II 21 is enabled to rotate and stir in the other direction.

When the stirring tank 1 shakes up and down, the fixed block 22 extrudes the first spring 26, the supporting rod 31 drives the sliding block 29 to extrude the second spring 30 to finish damping and buffering, when the discharging pipe 6 is blocked, the first motor 8 is started, the first rotating shaft 9 drives the dredging plate 10 to rotate, and the dredging plate 10 digs hardened mortar, so that the discharging pipe 6 is dredged.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (5)

1. Geotechnical engineering agitating unit, its characterized in that: comprises a stirring tank (1), a feeding funnel (2), a bidirectional stirring component (3), a dredging component (4) and a damping component (5);

The feeding funnel (2) is located at the top end of the stirring tank (1), the bidirectional stirring assembly (3) is located at the top end of the stirring tank (1), the dredging assembly (4) is located at one side of the stirring tank (1), and the damping assembly (5) is located at the outer side of the stirring tank (1).

2. The geotechnical engineering stirring device according to claim 1, wherein: one side of agitator tank (1) is equipped with discharging pipe (6), the one end of discharging pipe (6) is equipped with mediation storehouse (7), one side of mediation storehouse (7) is equipped with motor one (8), one side of motor one (8) is equipped with rotation axis one (9), the outside of rotation axis one (9) is equipped with mediation board (10).

3. The geotechnical engineering stirring device according to claim 1, wherein: the stirring tank is characterized in that a gear bin (11) is arranged at the top end of the stirring tank (1), a motor II (12) is arranged at the top end of the gear bin (11), a rotary shaft II (13) is arranged at the bottom end of the motor II (12), a conical gear III (17) is arranged at one side of the rotary shaft II (13), the conical gear III (14) is fixedly connected with the rotary shaft II (13), a positioning ring I (15) is arranged at the inner side of the gear bin (11), the positioning ring I (15) is rotationally connected with the conical gear I (14), a conical gear II (16) is arranged at the inner side of the gear bin (11), the conical gear II (16) is rotationally connected with the gear II (14), a conical gear III (17) is arranged at one side of the conical gear II (16), a positioning ring II (18) is rotationally connected with the rotary shaft II (13), a conical gear III (17) is rotationally connected with the rotary shaft II (19) at the bottom end of the conical gear II (16), a stirring tube II (19) is rotationally connected with the rotary shaft II (13), and a stirring paddle II (21) is arranged on the outer side of the rotary pipe (19).

4. The geotechnical engineering stirring device according to claim 1, wherein: the stirring tank is characterized in that a fixed block (22) is arranged on the outer side of the stirring tank (1), a supporting column (23) is arranged on the outer side of the stirring tank (1), a sliding groove (24) is formed in the inner side of the supporting column (23), a sliding column I (25) is arranged on the inner side of the sliding groove (24), the fixed block (22) is in sliding connection with the sliding column I (25), and a spring I (26) is arranged on the outer side of the sliding column I (25).

5. The geotechnical engineering stirring device according to claim 1, wherein: the bottom of agitator tank (1) is equipped with slide rail (27), the inboard of slide rail (27) is equipped with post two (28), the outside of post two (28) is equipped with slider (29), slider (29) and post two (28) sliding connection, the outside of post two (28) is equipped with spring two (30), be equipped with bracing piece (31) between slider (29) and support column (23), bracing piece (31) are connected with support column (23) and slider (29) rotation.