CN219587278U - Assembled building supporting equipment - Google Patents

Abstract

The utility model relates to an assembled building support device, belonging to the technical field of building engineering devices. Including base (1), bracing piece (2), lift post (3), motor (5), threaded rod (6), spliced pole (8), lower brace table (10), the up end left and right sides fixedly connected with bracing piece (2) of base (1), lift post (3) sliding fit is in bracing piece (2), tip is provided with internal thread screw hole (4) under lift post (3) of one side, threaded rod (6) one end matching assembly is in screw hole (4), and one end assembly is fixed on the output of motor (5), motor (5) assembly is fixed in bracing piece (2), lower part symmetry fixed connection of spliced pole (8) both ends respectively with two lift posts (3). Through the drive of motor, realize the lift of whole device, can adapt to the roof of different specifications, prevent to receive the damage with the roof of last brace table contact.

Description

Assembled building supporting equipment

Technical Field

The utility model relates to an assembled building support device, belonging to the technical field of building engineering devices.

Background

The prefabricated construction in the building construction field has the advantages of convenience in construction, high engineering progress, small influence on surrounding environment, easiness in guaranteeing the quality of building components and the like, and the prefabricated building supporting equipment is needed to be used for guaranteeing the stability of the prefabricated building. Currently, common fabricated building support devices have two drawbacks: 1. the absence of a buffer structure often results in damage to the top plate; 2. the height of the equipment cannot be adjusted, and the equipment cannot be adapted to top plates with different specifications. Therefore, it is necessary to design an assembled building supporting device, which can realize stable lifting of the device, adapt to top plates of different specifications, increase the flexibility of the device, buffer and apply force to a supporting object during lifting, and prevent the top plate from being damaged, thereby prolonging the service life of the top plate.

Disclosure of Invention

The utility model aims to provide an assembled building supporting device which can realize stable lifting of a device, is suitable for top plates of different specifications, increases the use flexibility of the device, and can buffer and apply force to a supporting object during lifting so as to prevent the top plate from being damaged, thereby prolonging the service life of the top plate.

The technical scheme of the utility model is as follows: the utility model provides an assembled building supporting equipment, includes base, bracing piece, lifting column, motor, threaded rod, spliced pole, lower brace table, the base is the platform, the up end left and right sides fixedly connected with bracing piece of base, bracing piece tubular structure, the lifting column is columnar structure, sliding fit in the bracing piece, the lifting column lower tip of one side is provided with the screw hole of internal thread, threaded rod one end matching assembly is in the screw hole, and one end assembly is fixed on the output of motor, the motor assembly is fixed in the bracing piece bottom, lower brace table assembly fixed connection is at two lifting column tops, two inboard symmetry of bracing piece is provided with rectangular square spout I, the spliced pole assembly is in two square spouts I, two tip respectively with the lower part symmetry fixed connection of two lifting columns, one lifting column lift can parallel drive another lifting column parallel lift. The four end angles of up end of lower brace table department all fixedly connected with sleeve pipe, the buffer column is columnar structure, buffer column sliding fit is intraductal, and buffer column outer wall is equipped with spring II, it is platelike structure to go up the brace table, and four buffer column's top is four end angles in the bottom of last brace table of fixed connection respectively, spring II arranges in between sleeve pipe up end and the lower terminal surface of last brace table, and upper end fixed connection is on last brace table. The upper end face middle part symmetry of lower brace table is provided with two rectangular square spout II, square spout II's inside fixedly connected with spacing post, spacing post is the column, and the outer wall assembly of spacing post is provided with spring I, the outer wall sliding fit of spacing post has the slider, the slider is the metal block that the center was provided with the through-hole, and two sliders link to each other with the both ends of elastic plate are fixed, elastic plate elastic metal plate, two slider symmetry sets up in two square spout II's inboard, and spring I is arranged in between slider and square spout II's the lateral wall. The top end of the elastic plate is contacted with the upper supporting table when the top end is not pressed by the upper supporting table. The two sides of the base are provided with threaded through holes, the ground anchors are assembled in the threaded through holes, and the ground anchors are bolts with tips at the ends.

The beneficial effects of the utility model are as follows: through the drive of motor, realized the steady lift of lift post to realize the lift of whole device, make whole device can adapt to the roof of different specifications, increase the flexibility of use of device. Through set up buffer such as elastic plate, spring I, spring II between upper and lower brace table, played the cushioning effect when bearing on the brace table, prevent to receive the damage with the roof of upper brace table contact to its life has been improved.

Drawings

FIG. 1 is a schematic view of an apparatus of the present utility model;

FIG. 2 is a schematic cross-sectional view of a support rod and lifting column of the device of the present utility model;

FIG. 3 is a schematic view of a limiting column, a spring I, a sliding block, an elastic plate, a sleeve, a spring II and a buffer column of the device of the utility model;

the marks in the figure: base 1, bracing piece 2, lifting column 3, screw hole 4, motor 5, threaded rod 6, square spout I7, spliced pole 8, earth anchor 9, lower brace table 10, square spout II 11, spacing post 12, spring I13, slider 14, elastic plate 15, sleeve pipe 16, spring II 17, buffer post 18, upper brace table 19.

Detailed Description

The utility model is further illustrated by way of example with reference to the accompanying drawings.

Referring to the drawings, the assembled building supporting device comprises a base 1, a supporting rod 2, lifting columns 3, a motor 5, a threaded rod 6, connecting columns 8 and a lower supporting table 10, wherein the base 1 is a platform, the left side and the right side of the upper end face of the base 1 are fixedly connected with the supporting rods 2, the supporting rods 2 are of tubular structures, the lifting columns 3 are of columnar structures and are slidingly assembled in the supporting rods 2, threaded holes 4 with internal threads are formed in the lower end portions of the lifting columns 3 on one side, one end of each threaded rod 6 is assembled and assembled in the threaded holes 4, one end of each threaded rod is assembled and fixed at the output end of the motor 5, the motor 5 is assembled and fixed at the inner bottom of each supporting rod 2, the lower supporting table 10 is fixedly connected to the tops of the two lifting columns 3, the inner sides of the two supporting rods 2 are symmetrically provided with rectangular square sliding grooves I7, the connecting columns 8 are assembled in the two square sliding grooves I7, the two end portions are respectively symmetrically and fixedly connected with the lower portions of the two lifting columns 3, and one lifting column 3 can lift and drive the other lifting columns 3 to lift in parallel. The four end angles of the upper end face of the lower supporting table 10 are fixedly connected with sleeves 16, the buffer columns 18 are of columnar structures, the buffer columns 18 are slidably assembled in the sleeves 16, springs II 17 are assembled on the outer walls of the buffer columns 18, the upper supporting table 19 is of a plate-shaped structure, the top ends of the four buffer columns 18 are respectively and fixedly connected with the four end angles of the bottom end of the upper supporting table 19, the springs II 17 are arranged between the upper end face of the sleeves 16 and the lower end face of the upper supporting table 19, and the upper end portions of the springs II are fixedly connected to the upper supporting table 19. The upper end face middle part symmetry of lower brace table 10 is provided with two rectangular square spout II 11, the inside fixedly connected with spacing post 12 of square spout II 11, spacing post 12 is the column, and the outer wall assembly of spacing post 12 is provided with spring I13, the outer wall slip assembly of spacing post 12 is equipped with slider 14, slider 14 is the metal block that the center was provided with the through-hole, and two sliders 14 link to each other with the both ends of elastic plate 15 are fixed, elastic plate 15 elastic metal plate, and two sliders 14 symmetry set up the inboard at two square spouts II 11, and spring I13 is arranged in between the lateral wall of slider 14 and square spout II 11. The top end of the elastic plate 15 is in contact with the upper support table 19 when not pressed by the upper support table 19. The two sides of the base 1 are provided with threaded through holes, a ground anchor 9 is assembled in each threaded through hole, and the ground anchor 9 is a bolt with a tip arranged at the end.

During operation, the base 1 is fixed on the ground through the ground anchor 9 at first, the motor 5 is started, under the effect of the motor 5, the threaded rod 6 is driven to rotate, thereby the right lifting column 3 is driven to lift, simultaneously, slide in the square chute I7 through the connecting column 8, the left lifting column 3 is driven to lift, thereby the whole device is lifted, the whole device can adapt to top plates of different specifications, the flexibility of use of the device is increased, the top plates are placed on the upper supporting table 19, when the top plates are stressed, the upper supporting table 19 is pushed to drive the buffer column 18 to slide in the sleeve 16, thereby the spring II 17 is compressed, the upward movement of the upper supporting table 19 is pushed under the reaction force of the spring II 17, thereby the force counteracting is realized, the upper supporting table 19 is pushed to move the elastic plate 15 is driven to slide in the square chute II 11, thereby the spring I13 is compressed, the elastic plate 15 is pushed to slide under the reaction force of the spring I13, the force counteracting effect of the force is realized, the top plates contacted with the upper supporting table 19 are prevented from being damaged, and the service life of the device is prolonged.

Through the drive of motor, realized the steady lift of lift post to realize the lift of whole device, make whole device can adapt to the roof of different specifications, increase the flexibility of use of device. Through set up buffer such as elastic plate, spring I, spring II between upper and lower brace table, played the cushioning effect when bearing on the brace table, prevent to receive the damage with the roof of upper brace table contact to its life has been improved.

Claims (5)

1. The utility model provides an assembled building supporting equipment, characterized by includes base (1), bracing piece (2), lift post (3), motor (5), threaded rod (6), spliced pole (8), lower support platform (10), base (1) is the platform, up end left and right sides fixedly connected with bracing piece (2) of base (1), bracing piece (2) tubular structure, lift post (3) are columnar structure, sliding fit is in bracing piece (2), screw hole (4) of internal thread are provided with at the tip under lift post (3) of one side, threaded rod (6) one end matching assembly is in screw hole (4), and one end assembly is fixed on the output of motor (5), motor (5) assembly is fixed in bracing piece (2) inner bottom, lower support platform (10) assembly fixed connection is at two lift post (3) tops, two inboard symmetries of bracing piece (2) are provided with square spout I (7) of rectangular shape, spliced pole (8) assembly can drive lift post (3) parallel connection with two lift post (3) respectively in two tip parallel connection.

2. The assembly type building supporting device according to claim 1, wherein the four end corners of the upper end face of the lower supporting table (10) are fixedly connected with sleeves (16), the buffer columns (18) are of columnar structures, the buffer columns (18) are slidably assembled in the sleeves (16), springs II (17) are assembled on the outer walls of the buffer columns (18), the upper supporting table (19) is of a plate-shaped structure, the top ends of the four buffer columns (18) are respectively fixedly connected with the four end corners of the bottom end of the upper supporting table (19), the springs II (17) are arranged between the upper end face of the sleeves (16) and the lower end face of the upper supporting table (19), and the upper ends of the springs II (17) are fixedly connected to the upper supporting table (19).

3. The assembled building supporting device according to claim 2, characterized in that two rectangular square sliding grooves II (11) are symmetrically arranged in the middle of the upper end face of the lower supporting table (10), limiting columns (12) are fixedly connected to the inside of the square sliding grooves II (11), the limiting columns (12) are columnar bodies, springs I (13) are arranged on the outer walls of the limiting columns (12) in an assembling mode, sliding blocks (14) are arranged on the outer walls of the limiting columns (12) in a sliding mode, the sliding blocks (14) are metal blocks with through holes in the center, two sliding blocks (14) are fixedly connected with two ends of an elastic plate (15), the elastic plate (15) is arranged on the elastic metal plate, the two sliding blocks (14) are symmetrically arranged on the inner sides of the two square sliding grooves II (11), and the springs I (13) are arranged between the sliding blocks (14) and the outer side walls of the square sliding grooves II (11).

4. A modular building support device according to claim 3, characterised in that the top end of the resilient plate (15) is in contact with the upper support table (19) when not under pressure from the upper support table (19).

5. The fabricated building support device according to claim 1, wherein threaded through holes are formed in two sides of the base (1), an earth anchor (9) is assembled in the threaded through holes, and the earth anchor (9) is a bolt with a tip at the end.