CN218027605U - Soft foundation reinforcing equipment for engineering construction - Google Patents

Abstract

The utility model relates to an engineering construction is with soft ground reinforcement equipment, be in including support frame and setting the roof at support frame top, the roof bottom is provided with connecting portion, the connecting portion bottom is provided with the casing, shells inner wall is provided with the motor, motor output end transmission is connected with the disc, the casing lower half is provided with the anchor block, be provided with drive assembly in the casing, drive assembly drives the anchor block along the reciprocal not constant velocity motion of casing direction of height, the through-hole has all been seted up to the two relative inner walls of casing, sliding connection has the gusset plate in the through-hole, be provided with the linkage subassembly in the casing, the linkage subassembly drives two the gusset plate is followed the horizontal reciprocating motion of casing direction of length. The utility model relates to an engineering construction's technical field. The utility model discloses when making the anchor block downstream to consolidate the ground, the gusset plate makes the soft ground of both sides by the compaction to both sides motion, has improved soft ground consolidation effect.

Description

Soft foundation reinforcing equipment for engineering construction

Technical Field

The utility model belongs to the technical field of engineering construction's technique and specifically relates to a soft ground reinforcing apparatus is used in engineering construction.

Background

Before the building is built, if the foundation is not firm enough, accidents such as unstable buildings and the like caused by sinking and pulling crack of the foundation can be caused, the soft foundation needs to be tamped, so that the settlement of the soft foundation is firm enough, and the consolidation degree and the stability of the soft foundation are improved.

Most of the existing soft foundation reinforcing equipment is used for reinforcing the foundation by using the falling impact force of a heavy hammer, but the method can only be used for reinforcing the foundation below the heavy hammer, and the soft foundation on the side surface of the heavy hammer can collapse towards the direction of the heavy hammer, so that the reinforcing effect of the soft foundation reinforcing equipment on the soft foundation is poor.

SUMMERY OF THE UTILITY MODEL

According to the not enough of prior art existence, the utility model aims at providing a soft ground reinforcing apparatus for engineering construction has the soft ground to the weight side and consolidates to improve the effect of consolidating the effect.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a soft foundation reinforcing device for engineering construction comprises a supporting frame and a top plate arranged at the top of the supporting frame, wherein a connecting part is arranged at the bottom of the top plate, a shell is arranged at the bottom of the connecting part, a motor is arranged on the inner wall of the shell, a disc is connected to the output end of the motor in a transmission manner, a reinforcing block is arranged at the lower half part of the shell, a driving assembly is arranged in the shell and drives the reinforcing block to reciprocate at a non-constant speed along the height direction of the shell;

the casing is relative two inner walls and has all been seted up the through-hole, sliding connection has the gusset plate in the through-hole, be provided with the linkage subassembly in the casing, the linkage subassembly drives two the gusset plate is followed casing length direction horizontal reciprocating motion.

Through adopting above-mentioned technical scheme, through the cooperation of motor, disc, drive assembly and linkage subassembly for when reinforcing block downstream consolidates the ground, the gusset plate is to both sides motion, makes the soft ground of both sides by the compaction, prevents that soft ground from collapsing towards reinforcing block direction, has improved soft ground consolidation effect.

The present invention may be further configured in a preferred embodiment as: the driving assembly comprises a convex rod, the convex rod is arranged on one side of the disc far away from the motor, a fixed rod is arranged on the inner wall of the shell, the outer peripheral surface of the fixed rod is rotatably connected with a connecting plate, a long hole is formed in one side of the connecting plate, the convex rod is connected in the long hole in a sliding mode, and a sector gear is arranged on one side of the connecting plate;

the top wall is provided with the stop collar in the casing, sliding connection has the actuating lever in the stop collar, the actuating lever bottom extends to the stop collar below, just the actuating lever bottom with the reinforcement piece top is connected, the actuating lever is close to one side of sector gear is provided with the teeth of a cogwheel, sector gear with the teeth of a cogwheel mesh mutually.

Through adopting above-mentioned technical scheme, through the cooperation of nose bar, dead lever, connecting plate, sector gear and actuating lever for the lifting speed of reinforcing block is different, and the reinforcing block can fall with very fast speed, thereby has improved the reinforcement effect.

The present invention may be further configured in a preferred embodiment as: the linkage subassembly includes the uide bushing, the uide bushing sets up the actuating lever outer peripheral face, the relative both sides wall of uide bushing all articulates there is a plurality of connecting rod, is located a plurality of uide bushing homonymy the connecting rod is kept away from the one end of uide bushing all with corresponding the reinforcing plate is articulated mutually.

Through adopting above-mentioned technical scheme, through the setting of reinforcement sleeve and connecting rod for when reinforcing block downstream consolidates the ground, the gusset plate is to the both sides motion, makes the soft ground of both sides by the compaction, prevents that soft ground from collapsing towards reinforcing block direction, has improved soft ground consolidation effect.

The present invention may be further configured in a preferred embodiment as: the connecting part comprises a plurality of buffer sleeves, the buffer sleeves are arranged at the bottom of the top plate, the top of the shell corresponds to the buffer sleeves, buffer rods are arranged at the positions of the top of the shell corresponding to the buffer sleeves, the upper half parts of the buffer rods are connected in the buffer sleeves in a sliding mode, and the buffer rods correspond to the outer peripheral surfaces of the buffer sleeves and are provided with springs together.

Through adopting above-mentioned technical scheme, through the cooperation of cushion collar, buffer beam and spring, vibration range when having reduced the reinforcing block striking ground to the life of this equipment has been improved.

The present invention may be further configured in a preferred embodiment as: the support frame is arranged in a height-adjustable manner.

Through adopting above-mentioned technical scheme for this structure can consolidate the ground of different degree of depth or height, thereby has improved the suitability of this structure.

The present invention may be further configured in a preferred embodiment as: the reinforcing sleeve is characterized in that a plurality of reinforcing rods are arranged on the peripheral surface of the reinforcing sleeve, and one ends of the reinforcing rods, far away from the reinforcing sleeve, are connected with the reinforcing blocks.

Through adopting above-mentioned technical scheme, through the setting of stiffener, improved the joint strength of actuating lever and reinforcing block to the life of this equipment has been improved.

To sum up, the utility model discloses a following at least one useful technological effect:

1. through the matching of the motor, the disc, the convex rod, the fixed rod, the connecting plate, the sector gear and the driving rod, the lifting speeds of the reinforcing blocks are different, and the reinforcing blocks can fall at a higher speed, so that the reinforcing effect is improved; through the setting of reinforcement sleeve and connecting rod for when reinforcing block downstream consolidates the ground, the gusset plate moves to both sides, makes the soft ground of both sides compacted, prevents that soft ground from collapsing towards reinforcing block direction, further improvement soft ground consolidation effect.

2. Through the cooperation of cushion collar, buffer beam and spring, the vibration range when having reduced the reinforcing block striking ground to the life of this equipment has been improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a sectional top view of the present embodiment;

fig. 3 is a three-dimensional view of the present embodiment.

In the figure, 1, a support frame; 2. a top plate; 3. a connecting portion; 31. a buffer sleeve; 32. a buffer rod; 33. a spring; 4. a housing; 5. a motor; 6. a disc; 7. a reinforcing block; 8. a drive assembly; 81. a nose bar; 82. fixing the rod; 83. a connecting plate; 84. a long hole; 85. a sector gear; 86. a limiting sleeve; 87. a drive rod; 88. gear teeth; 9. a through hole; 10. a reinforcing plate; 11. a linkage assembly; 111. a reinforcing sleeve; 112. a connecting rod; 12. a reinforcing rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

referring to the figure 1, the utility model discloses a soft ground reinforcing apparatus for engineering construction, including support frame 1, support frame 1 is the setting of adjustable height for this equipment can adapt to the not ground of co-altitude. The top of the support frame 1 is provided with a top plate 2, the bottom of the top plate 2 is provided with a connecting part 3, and the bottom of the connecting part 3 is provided with a shell 4.

The connecting part 3 comprises two buffer sleeves 31, and the buffer sleeves 31 are arranged at the bottom of the top plate 2. The top of the housing 4 is provided with a buffer rod 32 corresponding to the position of the buffer sleeve 31, and the upper half part of the buffer rod 32 is slidably connected in the corresponding buffer sleeve 31. The buffer rod 32 and the corresponding buffer sleeve 31 are provided with a spring 33 on the outer peripheral surface together, the spring 33 has larger elasticity, and the buffer rod 32 is always partially positioned in the corresponding buffer sleeve 31.

Referring to fig. 1 and 2, a motor 5 is arranged on the inner wall of the housing 4, and the output end of the motor 5 is connected with a disc 6 in a transmission manner. The lower half part of the shell 4 is provided with a reinforcing block 7, the reinforcing block 7 is attached to the inner wall of the shell 4, and the reinforcing block 7 is always partially positioned in the shell 4. A driving assembly 8 is arranged in the shell 4, and the driving assembly 8 drives the reinforcing block 7 to reciprocate at different speeds along the height direction of the shell 4.

Referring to fig. 1 and 2, the driving assembly 8 includes a protruding rod 81, and the protruding rod 81 is disposed on a side of the disc 6 away from the motor 5. The inner wall of the shell 4 is provided with a fixed rod 82, and the outer peripheral surface of the fixed rod 82 is rotatably connected with a connecting plate 83. One side of the connecting plate 83 is provided with a long hole 84, and the protruding rod 81 is slidably connected in the long hole 84. The connecting plate 83 is provided with a sector gear 85 on one side.

The motor 5 is started to drive the disc 6 to rotate, the disc 6 drives the protruding rod 81 to rotate, the protruding rod 81 slides in the long hole 84, so that the connecting plate 83 is driven to move up and down in a reciprocating and offsetting mode by taking the fixed rod 82 as a rotating center, and the upward movement speed and the downward movement speed of the sector gear 85 are different.

Referring to fig. 1, a limiting sleeve 86 is arranged on the inner top wall of the housing 4, a driving rod 87 is slidably connected in the limiting sleeve 86, the bottom end of the driving rod 87 extends to the lower part of the limiting sleeve 86, and the bottom end of the driving rod 87 is connected with the top of the reinforcing block 7. The driving rod 87 can only move along the height direction of the shell 4 through the limit of the limit sleeve 86 and the reinforcing block 7. The driving lever 87 is provided with gear teeth 88 on a side thereof adjacent to the sector gear 85, and the sector gear 85 is engaged with the gear teeth 88. The sector gear 85 is shifted up and down to drive the driving rod 87 to reciprocate up and down, and the speed of the driving rod 87 moving downwards is greater than the speed of the driving rod 87 moving upwards.

Referring to fig. 1, through holes 9 are formed in two opposite inner walls of the housing 4, a reinforcing plate 10 is slidably connected in the through holes 9, and the reinforcing plate 10 is always partially located in the through holes 9, so that the movement direction of the reinforcing plate 10 is always the length direction of the housing 4. A linkage assembly 11 is arranged in the shell 4, and the linkage assembly 11 drives the two reinforcing plates 10 to horizontally reciprocate along the length direction of the shell 4.

Referring to fig. 1, the linkage assembly 11 includes a reinforcing sleeve 111, and the reinforcing sleeve 111 is disposed on the outer circumferential surface of the driving rod 87. The peripheral surface of reinforcement cover 111 is provided with a plurality of stiffener 12, and the one end that the reinforcement cover 111 is kept away from to a plurality of stiffener 12 all is connected with reinforcing block 7. The reinforcing rod 12 improves the strength of the connection of the driving rod 87 to the reinforcing block 7.

Referring to fig. 1, the opposite two side walls of the reinforcing sleeve 111 are hinged with a plurality of connecting rods 112, and the ends of the connecting rods 112 on the same side of the reinforcing sleeve 111, which are far away from the reinforcing sleeve 111, are hinged with the corresponding reinforcing plates 10. The driving rod 87 moves downwards to rotate the connecting rod 112, so as to drive the reinforcing plate 10 to move away from the shell 4, so that the foundations on two sides are compacted.

The implementation principle of the above embodiment is as follows:

firstly put this device in suitable position, adjust support frame 1 and make the high meet the requirements of casing 4, then start motor 5, motor 5 drives disc 6 and rotates, disc 6 drives nose bar 81 and rotates, nose bar 81 slides in slot hole 84, thereby it uses dead lever 82 to reciprocate the skew motion from top to bottom as the center of rotation to drive connecting plate 83, dead lever 82 drives sector gear 85 and rotates, sector gear 85 squints from top to bottom and drives actuating lever 87 reciprocating motion from top to bottom, thereby make reinforcing block 7 reciprocating motion from top to bottom, and the speed of reinforcing block 7 downstream is greater than the speed of reinforcing block 7 upward movement. At the same time, the driving rod 87 moves to drive the connecting rod 112 to rotate, so that the reinforcing plate 10 horizontally reciprocates along the length direction of the housing 4, and the foundations on both sides are compacted.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. The utility model provides an engineering construction is with soft ground reinforcement equipment, is in including support frame (1) and setting roof (2) at support frame (1) top, roof (2) bottom is provided with connecting portion (3), its characterized in that: a shell (4) is arranged at the bottom of the connecting part (3), a motor (5) is arranged on the inner wall of the shell (4), a disc (6) is connected to the output end of the motor (5) in a transmission manner, a reinforcing block (7) is arranged on the lower half part of the shell (4), a driving assembly (8) is arranged in the shell (4), and the driving assembly (8) drives the reinforcing block (7) to do reciprocating non-constant-speed motion along the height direction of the shell (4);

through holes (9) are formed in two opposite inner walls of the shell (4), reinforcing plates (10) are connected in the through holes (9) in a sliding mode, a linkage assembly (11) is arranged in the shell (4), and the linkage assembly (11) drives the two reinforcing plates (10) to horizontally reciprocate along the length direction of the shell (4).

2. The soft foundation stabilization equipment for engineering construction according to claim 1, characterized in that: the driving assembly (8) comprises a convex rod (81), the convex rod (81) is arranged on one side, away from the motor (5), of the disc (6), a fixing rod (82) is arranged on the inner wall of the shell (4), a connecting plate (83) is rotatably connected to the outer peripheral surface of the fixing rod (82), a long hole (84) is formed in one side of the connecting plate (83), the convex rod (81) is connected into the long hole (84) in a sliding mode, and a sector gear (85) is arranged on one side of the connecting plate (83);

roof is provided with stop collar (86) in casing (4), sliding connection has actuating lever (87) in stop collar (86), actuating lever (87) bottom extends to stop collar (86) below, just actuating lever (87) bottom with reinforcement piece (7) top is connected, actuating lever (87) are close to one side of sector gear (85) is provided with teeth of a cogwheel (88), sector gear (85) with teeth of a cogwheel (88) mesh mutually.

3. The soft foundation stabilization equipment for engineering construction according to claim 2, characterized in that: linkage subassembly (11) are including reinforcement sleeve (111), reinforcement sleeve (111) set up actuating lever (87) outer peripheral face, the relative both sides wall of reinforcement sleeve (111) all articulates there is a plurality of connecting rod (112), is located a plurality of reinforcement sleeve (111) homonymy connecting rod (112) are kept away from the one end of reinforcement sleeve (111) all with correspond gusset plate (10) are articulated mutually.

4. The soft foundation stabilization equipment for engineering construction according to claim 1, wherein: connecting portion (3) include a plurality of cushion collar (31), cushion collar (31) set up roof (2) bottom, casing (4) top corresponds the position of cushion collar (31) is provided with buffer beam (32), first half sliding connection in correspondence of buffer beam (32) in cushion collar (31), buffer beam (32) and correspondence cushion collar (31) outer peripheral face is provided with spring (33) jointly.

5. The soft foundation stabilization equipment for engineering construction according to claim 1, characterized in that: the supporting frame (1) is arranged to be adjustable in height.

6. The soft foundation stabilization equipment for engineering construction according to claim 3, wherein: the outer peripheral surface of the reinforcing sleeve (111) is provided with a plurality of reinforcing rods (12), and one ends, far away from the reinforcing sleeve (111), of the reinforcing rods (12) are connected with the reinforcing blocks (7).

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