CN114991150A - Foundation fender pile construction equipment - Google Patents

Abstract

The invention relates to foundation construction, in particular to a foundation protection pile construction device. The utility model provides a foundation fender pile construction equipment, includes supporting mechanism, supporting mechanism includes two bearing frame I, two positive and negative tooth lead screws, two splint to and make two synchronous pivoted synchronous drive assembly I of positive and negative tooth lead screws, wherein the both ends of every positive and negative tooth lead screw rotate respectively and connect on two bearing frame I, and the equal threaded connection of every splint is on two positive and negative tooth lead screws, and positive and negative tooth lead screw rotates the interval that can adjust two splint. The efficiency and the security that can improve fender pile erects.

Description

Foundation fender pile construction equipment

Technical Field

The invention relates to foundation construction, in particular to a foundation protection pile construction device.

Background

In newly-built building engineering, the situation that the existing road or the building is very close to the existing road or the building is often encountered, the construction of the newly-built engineering inevitably affects the existing engineering, particularly in the construction of a foundation pit and a groove of the newly-built engineering, a collapse accident often occurs on a roadbed of the existing road and a foundation of the building due to improper protective measures, and the serious influence is caused on the life and property of people, so the firmness of the foundation pit is particularly important, wherein the measures comprise using protective piles, but the installation of the protective piles is dangerous to a certain extent and the erection efficiency is low.

Disclosure of Invention

The invention provides a foundation fender pile construction device, aiming at improving the erection efficiency of fender piles.

The above purpose is realized by the following technical scheme:

the utility model provides a foundation fender pile construction equipment, includes supporting mechanism, supporting mechanism includes two bearing frame I, two positive and negative tooth lead screws, two splint to and make two synchronous pivoted synchronous drive assembly I of positive and negative tooth lead screws, wherein the both ends of every positive and negative tooth lead screw rotate respectively and connect on two bearing frame I, and the equal threaded connection of every splint is on two positive and negative tooth lead screws, and positive and negative tooth lead screw rotates the interval that can adjust two splint.

The supporting mechanism is characterized by further comprising a synchronous transmission assembly II, a connecting frame I, a motor I and a synchronous transmission assembly III, the two supporting mechanisms are arranged in an up-and-down symmetrical mode, the bearing seat I located on the same side in the left-and-right direction is fixedly connected to the upper end and the lower end of the connecting frame I respectively, the motor I is installed on one connecting frame I, the output shaft of the motor I is in transmission connection with one positive and negative tooth lead screw through the synchronous transmission assembly II, and the positive and negative tooth lead screws on the two supporting mechanisms are in synchronous transmission through the synchronous transmission assembly II.

The inner end face of the clamping plate is provided with longitudinally extending anti-slip grains.

Still include two round steel I, and two bearing frame II at two ends about two round steel I of rigid coupling respectively, and respectively overlap in the upper and lower both sides of every round steel I and establish a compression spring, and sliding connection is at the plate body at I middle part of round steel, and the square seat of a body coupling in the plate body rear end, and the cushion at both ends about the plate body of rigid coupling respectively, and two axles of rigid coupling on two bearing frame II respectively, and two support frames of rigid coupling on link I, wherein two axle difference sliding connection is on two support frames.

Drawings

FIGS. 1 and 2 show the overall structure of the present invention;

FIG. 3 shows the installation of two support mechanisms;

FIG. 4 shows a support mechanism;

FIGS. 5 and 6 are partial views of FIG. 3;

fig. 7 shows a bearing seat ii 31, round steel i 32, a compression spring 33, a square seat 34, a plate body 35, a cushion block 36, a shaft 37, a support frame 38 and an electric cylinder i 39;

FIG. 8 is a detail of FIG. 7;

FIG. 9 shows the mounting of the striking mechanism;

FIG. 10 shows a hydraulic cylinder 61, a motor base II 62, a motor III 63, and a connecting frame II 64;

figure 11 shows a preferred configuration of the fender post.

Detailed Description

As shown in fig. 1 to 6:

a foundation fender pile construction device comprises two supporting mechanisms, a synchronous transmission assembly II 15, a connecting frame I21, a motor I22 and a synchronous transmission assembly III 23 which are arranged up and down symmetrically;

the supporting mechanism comprises bearing seats I11, positive and negative threaded screws 12, clamping plates 13 and synchronous transmission assemblies I14, the bearing seats I11 are bilaterally and symmetrically provided with two, the positive and negative threaded screws 12 are vertically and symmetrically provided with two, the thread turning directions of the two sides of the positive and negative threaded screws 12 are opposite, the two ends of each positive and negative threaded screw 12 are respectively and rotatably connected to the two bearing seats I11, the two clamping plates 13 are bilaterally and mirror-symmetrically provided with two, the inner end surfaces of the two clamping plates 13 are provided with longitudinally extending anti-skidding lines, one clamping plate 13 is in threaded connection with the left sides of the two positive and negative threaded screws 12, the other two clamping plates 13 are in threaded connection with the right sides of the two positive and negative threaded screws 12, the left ends of the two positive and negative threaded screws 12 are in transmission connection through the synchronous transmission assemblies I14 to realize synchronous rotation, wherein the synchronous transmission assemblies I14 can be belt pulley belt assemblies;

two support mechanisms are installed on two link frames I21, concretely, two bearing frame I11 that are located the top are respectively the rigid coupling in the upper end of two link frames I21, two bearing frame I11 that are located the below are respectively the rigid coupling in the lower extreme of two link frames I21, positive and negative tooth lead screw 12 among one of them support mechanism and the other support mechanism is through synchronous transmission subassembly II 15 synchronous transmission connection, motor I22 rigid coupling is on the link frame I21 that is located the right side, motor I22's output shaft and the positive and negative tooth lead screw 12 that is located the upside pass through synchronous transmission subassembly III 23 synchronous transmission connection, can utilize the removal base, if the above-mentioned overall structure of crawler chassis drive removes, be convenient for continuous transport and support the operation.

The motor I22 is started to enable all the positive and negative tooth lead screws 12 to rotate, and then the distance between the clamping plates 13 with the same height can be adjusted to be used for righting the protection pile;

the fender pile preferably adopts panel, refer to fig. 11, and the fender pile structure is equipped with square groove for the middle part of rectangle panel, and the limit in square groove equals with the broadside length of gusset plate, uses and makes and utilize four splint 13 to right vertical fender pile to the mounted position, carries out the hammering at the top to the fender pile and pounces into the underground, and square groove is convenient for other fender piles horizontal card to go into fixedly, and then supports mutually between the fender pile of horizontal setting and vertically inserts the underground, sound construction.

As in fig. 7 to 8:

the construction device further comprises a bearing seat II 31, two round steels I32, a compression spring 33, a square seat 34, a plate body 35, a cushion block 36, a shaft 37, a support frame 38 and an electric cylinder I39;

wherein, bearing frame II 31 upper and lower mirror symmetry is equipped with two, the both ends of two round steel I32 rigid coupling respectively are in the inner of two bearing frames II 31, a compression spring 33 is established to each cover in the upper and lower both sides of every round steel I32, plate body 35 sliding connection is on two round steel I32, plate body 35 keeps stable through the compression spring 33 of upper and lower both sides, square seat 34 a body coupling is in the rear end of plate body 35, the upper and lower both ends of plate body 35 are cushion 36 of rigid coupling respectively, lie in the bearing frame II 31 of below on the rigid coupling axle 37, lie in the movable end of the I39 of electronic jar of II 31 rigid coupling of bearing frame rigid coupling of top, two support frames 38 of rigid coupling on link I21, electronic jar I39 rigid coupling is on the support frame 38 that lies in the top, axle 37 sliding connection is on the support frame 38 that lies in the below.

The square base 34 can be used for entering a square groove of the protective pile, then the square base 34 or the plate body 35 is hammered so that the protective pile can be conveniently inserted into the ground or taken out of the ground, the protective pile can be hammered from bottom to top when taken out, and the protective pile cannot topple over and injure an operator due to the fact that the square base 34 and a foundation pit are avoided and the periphery of the clamping plate 13 is limited when the protective pile is hammered out; the square seat 34 can be moved into or out of the square groove by activating the electric cylinder i 39.

As shown in fig. 9:

the construction device also comprises a frame 41, round steel II 42 and a striking mechanism;

the left side and the right side in the frame 41 are fixedly connected with a round steel II 42 respectively, the striking mechanism comprises an electric cylinder II 51, a motor base I52, a motor II 53 and an eccentric wheel 54, the movable end of the electric cylinder II 51 is fixedly connected with the motor base I52, the lower end of the motor base I52 is fixedly connected with the motor II 53, the output shaft of the motor II 53 is fixedly connected with the eccentric wheel 54, the two striking mechanisms are arranged in a vertical mirror symmetry mode, the two electric cylinders II 51 are fixedly connected to the upper end and the lower end of the frame 41 respectively, and the two eccentric wheels 54 are in contact with the two cushion blocks 36 respectively;

when one of the electric cylinders II 51 extends, the other electric cylinder II 51 retracts, the extending electric cylinder II 51 can enable the eccentric wheel 54 to follow the hammering direction, hammering is carried out by the eccentric wheel 54, and automatic mounting or dismounting of the protective pile is achieved.

As shown in fig. 10:

the construction device also comprises a hydraulic cylinder 61, a motor base II 62, a motor III 63 and a connecting frame II 64;

the movable end of the hydraulic cylinder 61 is fixedly connected with a motor base II 62, the upper end of the motor base II 62 is fixedly connected with a motor III 63, an output shaft of the motor III 63 is fixedly connected with a connecting frame II 64, and the connecting frame II 64 is fixedly connected with the front end of the frame 41.

Utilize motor III 63 drive to make each part transversely rotate 90 degrees, realize the horizontal installation of fender pile, utilize square seat 34 to move forward and can push away horizontal fender post card and go into vertical fender post's square groove, start the whole height that pneumatic cylinder 61 adjusted each part and make each part rotate smoothly and go on, can not block subaerial, and be convenient for highly regulated by a wide margin in order to adapt to at the subaerial fender pile of installing of high difference, and can install horizontal fender pile on the fender pile of the vertical setting of co-altitude, adapt to the fender pile installation of different length, replace artifical guarantee security.

Claims (7)

1. A foundation fender pile construction device comprises a supporting mechanism, wherein the supporting mechanism comprises two bearing seats I (11), two positive and negative threaded screws (12), two clamping plates (13) and a synchronous transmission assembly I (14) which enables the two positive and negative threaded screws (12) to synchronously rotate, two ends of each positive and negative threaded screw (12) are respectively and rotatably connected to the two bearing seats I (11), each clamping plate (13) is in threaded connection with the two positive and negative threaded screws (12), and the positive and negative threaded screws (12) rotate to adjust the distance between the two clamping plates (13);

the lifting mechanism is characterized by further comprising two synchronous transmission assemblies II (15), two connecting frames I (21), two motors I (22) and two synchronous transmission assemblies III (23), wherein the two supporting mechanisms are arranged in an up-down symmetrical mode, the bearing seats I (11) which are positioned on the same side in the left-right direction are fixedly connected to the upper end and the lower end of one connecting frame I (21) respectively, the motor I (22) is installed on one connecting frame I (21), the output shaft of the motor I (22) is in transmission connection with one positive and negative tooth lead screw (12) through the synchronous transmission assemblies II (15), and the positive and negative tooth lead screws (12) on the two supporting mechanisms are in synchronous transmission through the synchronous transmission assemblies II (15);

the inner end surface of the clamping plate (13) is provided with longitudinally extending anti-skid grains;

still include two round steel I (32), and two bearing frame II (31) at both ends about two round steel I (32) of rigid coupling respectively, and respectively overlap in the upper and lower both sides of every round steel I (32) and establish a compression spring (33), and plate body (35) of sliding connection at I (32) middle part of round steel, and square seat (34) of a body coupling in plate body (35) rear end, and cushion (36) at both ends about plate body (35) of rigid coupling respectively, and two axle (37) of rigid coupling on two bearing frame II (31) respectively, and support frame (38) of two rigid couplings on link I (21), wherein two axle (37) sliding connection respectively are on two support frames (38).

2. The construction equipment according to claim 1, further comprising an electric cylinder I (39) instead of the shaft (37) positioned above, wherein the movable end of the electric cylinder I (39) is fixedly connected with the corresponding bearing seat II (31), and the electric cylinder I (39) is fixedly connected with the corresponding support frame (38).

3. Construction device according to claim 2, wherein the square seat (34) is a cube.

4. The construction device as claimed in claim 3, further comprising a frame (41) fixedly connected to the front end of the connecting frame I (21), and two striking mechanisms which are mirror-symmetrical up and down;

the striking mechanism comprises an electric cylinder II (51), a motor base I (52) fixedly connected to the movable end of the electric cylinder II (51), a motor II (53) fixedly connected to the motor base I (52), and an eccentric wheel (54) fixedly connected with an output shaft of the motor II (53); the two eccentric wheels (54) are respectively contacted with the two cushion blocks (36).

5. The construction device according to claim 4, further comprising a round steel II (42) fixedly connected in the frame (41), wherein the two motor bases I (52) are connected to the round steel II (42) in a sliding manner.

6. The construction device as claimed in claim 5, further comprising a hydraulic cylinder (61), a motor base II (62) fixedly connected to the movable end of the hydraulic cylinder (61), a motor III (63) fixedly connected to the motor base II (62), a connecting frame II (64) fixedly connected to an output shaft of the motor III (63), and a movable chassis for carrying the hydraulic cylinder (61); the connecting frame II (64) is fixedly connected to the front end of the frame (41).

7. The construction apparatus as claimed in any one of claims 2 to 6, wherein a reinforcing plate is used during construction, and the reinforcing plate is provided at a central portion thereof with a square groove having sides equal in length to wide sides of the reinforcing plate.

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