CN219639805U - Building base convenient to hydroelectric machinery installs - Google Patents

Abstract

The utility model discloses a building base convenient for hydroelectric machinery installation, which comprises a base bottom plate, a base connecting plate arranged on the base bottom plate and a building support column arranged on the base connecting plate, wherein a stud is arranged between the base bottom plate and the base connecting plate, a nut is connected on the stud in a threaded manner, and the nut abuts against the base connecting plate; an X-shaped supporting component with a changeable included angle is arranged between the base connecting plate and the base bottom plate. Compared with the air cylinder, the oil cylinder adjusting or supporting base connecting plate and the jack supporting base connecting plate, the design adopts the stud nut commonly used in engineering to adjust and support the base connecting plate, adopts the simple X-shaped supporting component to support the base connecting plate, and has the advantages of convenience in material taking, low cost, simple structure and convenience in operation, and is mainly used for the installation of hydroelectric machinery.

Description

Building base convenient to hydroelectric machinery installs

Technical Field

The utility model relates to the construction engineering technology, in particular to a building base.

Background

The building base is the device that is used for the building, and the patent document of bulletin number CN 214657778U has been granted discloses an adjustable built on stilts building base, including the base bottom plate, the top of base bottom plate is provided with the base connecting plate, the top swing joint of base connecting plate has the building support column, and the both sides at base bottom plate top all are provided with high adjustment mechanism, and high adjustment mechanism includes cylinder, screw rod, nut and concatenation gusset plate, and cylinder fixed connection is in the both sides at base connecting plate top. Through setting up high adjustment mechanism, control the distance between base connecting plate and the base bottom plate, height-adjusting has solved the problem that building base can not height-adjusting.

The above patent document adopts a cylinder to adjust the distance between the base connection plate and the base bottom plate, but the cylinder has only two states of extension and contraction, i.e., the distance value between the base connection plate and the base bottom plate has only two. Moreover, the cylinder requires a high pressure gas source and a sealed line connecting the high pressure gas source to the cylinder. Thus, the building base has high cost and weak practicability.

The patent document with the bulletin number of CN 218814359U discloses an adjustable overhead building base, which comprises a base bottom plate and a base connecting plate, the equal fixedly connected with mount pad in top both sides of base bottom plate, the top of a pair of mount pad all is equipped with three sets of erection poles, cover is equipped with triangle bottom plate and triangle roof on the outer wall of three sets of erection poles respectively, the level is connected with fixed connecting rod between a pair of mount pad, fixed connecting rod's outer wall both sides cover is equipped with the movable seat respectively, the top of base bottom plate is through bolt fixedly connected with base, the both sides position at base top swing joint has the pivot first respectively, the outside swing joint of pivot first has a pair of first connecting rod, the equal swing joint in both sides of movable seat has the pivot second. The building base of the patent document is composed of a base, a first connecting rod, a movable seat and

the cooperation of second connecting rod is used, has improved the stability that base connecting plate and base bottom plate connect. The support device between the pair of mounting seats corresponds to a simple jack for an automobile, and the support device is driven by the screw rod to realize lifting and falling, so that a heavy object can be supported in a short time, but the heavy object is not easy to support for a long time due to a plurality of movable connection points. Moreover, the triangular top plate is driven by the hydraulic cylinder, and the operation of the hydraulic cylinder needs hydraulic oil and a driving structure, so that the hydraulic cylinder has higher precision for ensuring the sealing of the hydraulic oil. Therefore, the building base of the patent document has a complex structure, high cost and weak practicability.

Disclosure of Invention

The technical problems solved by the utility model are as follows: the building base is simple in structure and high in practicability.

In order to solve the technical problems, the utility model provides the following technical scheme: the building base comprises a base bottom plate, a base connecting plate arranged on the base bottom plate and a building supporting column arranged on the base connecting plate, wherein a stud is arranged between the base bottom plate and the base connecting plate, a nut is connected to the stud in a threaded manner, and the nut abuts against the base connecting plate; an X-shaped supporting component with a changeable included angle is arranged between the base connecting plate and the base bottom plate, the bottom end of the X-shaped supporting component is propped against the base bottom plate, and the top end of the X-shaped supporting component is propped against the base connecting plate.

The operator rotates the nut, the nut lifts along the stud, the base connecting plate is driven to lift, and the building support column lifts along with the base connecting plate. After the building support column is adjusted to a proper height, an operator places the X-shaped support component between the base bottom plate and the base connecting plate, adjusts the included angle of the X-shaped support component, and enables the height of the X-shaped support component to be equal to the distance between the base bottom plate and the base connecting plate, and the X-shaped support component supports the base connecting plate.

The X-shaped supporting components are arranged in a plurality of numbers and can be circumferentially distributed between the base bottom plate and the base connecting plate to stably support the base connecting plate.

Compared with the air cylinder and oil cylinder adjusting or supporting base connecting plate and the jack supporting base connecting plate, the utility model adopts stud nuts commonly used in engineering to adjust and support the base connecting plate, adopts a simple X-shaped supporting component to support the base connecting plate, and has the advantages of convenient material taking, low cost, simple structure and convenient operation. In addition, the X-shaped supporting component has a strong supporting function, and the building base is stable.

Alternatively, a pair of studs are disposed on the left and right sides of the base plate and a pair of X-shaped support assemblies are disposed on the front and rear sides of the base plate. In this way, the building foundation is structurally stable under the support of the pair of studs and the pair of X-shaped support assemblies.

The nut on any stud comprises an upper nut and a lower nut, wherein the upper nut is propped against the top surface of the base connecting plate, and the lower nut is propped against the bottom surface of the base connecting plate. The operator screws the lower nut, and the lower nut rises along the stud, can drive the base connecting plate to rise, and the operator screws the upper nut to cooperate with the rising of the base connecting plate. The operator screws the lower nut, the lower nut descends along the stud, the base connecting plate descends under the action of gravity, and the operator screws the upper nut to match with the descending of the base connecting plate. Finally, the upper nut and the lower nut clamp the base connecting plate, so that the base connecting plate is stable.

The base bottom plate is provided with a first tooth-shaped structure, and the bottom end of the X-shaped supporting component is matched with the first tooth-shaped structure. The contained angle of X-shaped supporting component can be adjusted, therefore, base connecting plate or base bottom plate need carry out spacingly to X-shaped supporting component's top or bottom, just can make X-shaped supporting component stabilize between base bottom plate and base connecting plate. For this purpose, the utility model proposes a first tooth structure. In operation, the operator first adjusts the height of base connecting plate through the double-screw bolt nut, afterwards, places X shape supporting component between base connecting plate and base bottom plate, adjusts X shape supporting component's contained angle, makes X shape supporting component have suitable height, X shape supporting component's bottom and first profile of tooth structure cooperation, X shape supporting component's bottom can not skid on the base bottom plate. At this time, a gap exists between the top end of the X-shaped supporting component and the base connecting plate. And then, an operator descends the base connecting plate through the stud nut to enable the base connecting plate to be pressed on the top end of the X-shaped supporting component, so that the X-shaped supporting component stably supports the base connecting plate.

The first tooth-shaped structure is positioned in a first rectangular groove, the first rectangular groove is formed in the base bottom plate, the side edge of the bottom end of the X-shaped supporting component abuts against the inner side wall of the first rectangular groove, and the X-shaped supporting component is limited to slide back and forth on the base bottom plate. Thus, the first tooth-shaped structure limits the X-shaped supporting component to slide left and right on the base bottom plate, and the first rectangular groove limits the X-shaped supporting component to slide back and forth on the base bottom plate.

As an improvement, the bottom surface of the base connecting plate is provided with a second tooth-shaped structure, and the top end of the supporting component is matched with the second tooth-shaped structure. The second tooth structure is located in the second rectangular groove. The first tooth-shaped structure and the second tooth-shaped structure are arranged up and down correspondingly. The top end of the X-shaped supporting component is limited to slide left and right on the base connecting plate by the second tooth-shaped structure, and the top end of the X-shaped supporting component is limited to slide back and forth on the base connecting plate by the second rectangular groove.

The X-shaped supporting component comprises a pair of supporting rods hinged together, the supporting rods can be square steel, holes are formed in the middle of the pair of supporting rods, and shaft pins are inserted into the holes to realize the hinging of the pair of supporting rods.

Drawings

The utility model is further described with reference to the accompanying drawings:

FIG. 1 is a schematic view of a building foundation;

FIG. 2 is a schematic view of a building foundation from another perspective;

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is a front view of FIG. 1;

FIG. 5 is a schematic view of the base connection plate of FIG. 4 after being lowered;

FIG. 6 is a schematic view of a building foundation for supporting a water pipe;

fig. 7 is a schematic view of a building foundation for supporting machine parts.

The symbols in the drawings illustrate:

10. a base bottom plate; 11. a stud; 12. a nut; 13. a first tooth structure; 14. a first rectangular slot;

20. a base connecting plate; 21. a second tooth structure; 22. a second rectangular slot;

30. building support columns;

40. an X-shaped support assembly; 41. a support rod;

50. a water pipe; 51. a water pipe flange; 52. a threaded connector for connecting a water pipe;

60. mechanical parts; 61. a threaded connection for mounting a mechanical component to the body.

Detailed Description

As shown in fig. 1, a building base convenient for hydroelectric machinery installation comprises a base bottom plate 10, a base connecting plate 20 arranged on the base bottom plate, and a building supporting column 30 arranged on the base connecting plate, wherein a stud 11 is arranged between the base bottom plate and the base connecting plate, a nut 12 is connected on the stud in a threaded manner, and the nut abuts against the base connecting plate; an X-shaped supporting component 40 with a changeable included angle is arranged between the base connecting plate and the base bottom plate, the bottom end of the X-shaped supporting component is propped against the base bottom plate, and the top end of the X-shaped supporting component is propped against the base connecting plate.

Referring to fig. 4 and 5, the operator rotates the nut 12, and the nut moves up and down along the stud 11 to drive the base connection plate 20 to move up and down, and the building support column 30 moves up and down along with the base connection plate 20. After the building support column 30 is adjusted to a proper height, an operator places the X-shaped support assembly 40 between the base bottom plate 10 and the base connecting plate 20, adjusts the included angle of the X-shaped support assembly 40 to make the height of the X-shaped support assembly 40 equal to the distance between the base bottom plate 10 and the base connecting plate 20, and supports the base connecting plate 20 by the X-shaped support assembly 40.

A pair of studs 11 are distributed on the left and right sides of the base plate 10, and a pair of X-shaped support members 40 are distributed on the front and rear sides of the base plate. In this manner, the building foundation structure is stabilized with the pair of studs 11 and the pair of X-shaped support assemblies 40.

Referring to fig. 1 and 3, the nut 12 on any stud 11 includes an upper nut that abuts against the top surface of the base connection plate 20 and a lower nut that abuts against the bottom surface of the base connection plate. The operator screws the lower nut, and the lower nut rises along the stud 11, so that the base connecting plate 20 can be driven to rise, and the operator screws the upper nut to cooperate with the rising of the base connecting plate 20. The operator screws the lower nut, the lower nut descends along the stud 11, the base connecting plate 20 descends under the action of gravity, and the operator screws the upper nut to match with the descending of the base connecting plate 20. Finally, the upper and lower nuts clamp the base web 20, stabilizing the base web.

The base bottom plate 10 is provided with a first tooth-shaped structure 13, and the bottom end of the X-shaped supporting component 40 is matched with the first tooth-shaped structure. The operator first adjusts the height of the base connecting plate 20 through the stud 11 and the nut 12, then, places the X-shaped supporting component 40 between the base connecting plate 20 and the base bottom plate 10, adjusts the included angle of the X-shaped supporting component 40, enables the X-shaped supporting component 40 to have a proper height, and the bottom end of the X-shaped supporting component 40 is matched with the first tooth-shaped structure 13, so that the bottom end of the X-shaped supporting component 40 cannot slip on the base bottom plate 10. At this time, a gap exists between the top end of the X-shaped support assembly 40 and the base connection plate 20. Then, the operator descends the base connecting plate 20 through the stud 11 and the nut 12 to enable the base connecting plate 20 to be pressed on the top end of the X-shaped supporting component 40, and the X-shaped supporting component 40 stably supports the base connecting plate 20.

The first tooth formation 13 is located in a first rectangular slot 14. The first rectangular groove 14 is formed on the base bottom plate 10, and the side edge of the bottom end of the X-shaped supporting component 40 abuts against the inner side wall of the first rectangular groove 14 to limit the X-shaped supporting component 40 to slide back and forth on the base bottom plate 10. In this way, the first tooth structure 13 limits the sliding of the X-shaped support assembly 40 on the base plate 10, the inner sidewall of the first rectangular slot 14 limits the sliding of the X-shaped support assembly 40 back and forth on the base plate 10, and the X-shaped support assembly 40 is stable on the base plate 10.

As shown in fig. 2, a second tooth-shaped structure 21 is provided on the bottom surface of the base connecting plate 20, and the top end of the x-shaped supporting component 40 is matched with the second tooth-shaped structure, and the second tooth-shaped structure 21 is located in the second rectangular groove 22.

The first tooth-shaped structure 13 and the second tooth-shaped structure 21 are arranged up and down correspondingly. The second tooth structure 21 restricts the top end of the X-shaped support member 40 from sliding left and right on the base connection plate 20 as in the function of the first tooth structure 13. As with the first rectangular slot 14, the second rectangular slot 22 limits the sliding of the top end of the X-shaped support assembly 40 back and forth on the base web 20.

Referring to fig. 1, the x-shaped support assembly 40 includes a pair of support bars 41 hinged together to have a width equal to the width of the first rectangular slot 14 and a width equal to the width of the second rectangular slot 22. Thus, the bottom end of the X-shaped supporting component 40 is fitted in the first rectangular slot 14, and the inner side wall of the first rectangular slot 14 limits the bottom end; the top end of the X-shaped support member 40 fits into the second rectangular slot 22, and is restrained by the inner side wall of the second rectangular slot 22.

The building base is mainly used for the installation of hydroelectric machinery, and is used for supporting a water pipe 50 in the installation, so that workers can conveniently connect a water pipe flange 51; as shown in fig. 7, for supporting the machine parts 60, facilitating the connection of the machine parts by threaded connections.

The foregoing is merely illustrative of the preferred embodiments of the present utility model, and modifications in detail will readily occur to those skilled in the art based on the teachings herein without departing from the spirit and scope of the utility model.

Claims (8)

1. The utility model provides a building base convenient to hydroelectricity machinery installs, includes base bottom plate (10), sets up base connecting plate (20) on the base bottom plate, sets up building support column (30) on the base connecting plate, is equipped with double-screw bolt (11), its characterized in that between base bottom plate and the base connecting plate: a nut (12) is connected on the stud in a threaded manner, and the nut abuts against the base connecting plate; an X-shaped supporting component (40) with a changeable included angle is arranged between the base connecting plate and the base bottom plate, the bottom end of the X-shaped supporting component is propped against the base bottom plate, and the top end of the X-shaped supporting component is propped against the base connecting plate.

2. A building foundation for facilitating the installation of a hydroelectric machine according to claim 1, wherein: a pair of studs (11) are distributed on the left side and the right side of the base bottom plate (10), and a pair of X-shaped supporting components (40) are distributed on the front side and the rear side of the base bottom plate.

3. A building foundation for facilitating the installation of a hydroelectric machine according to claim 1, wherein: the nut (12) on any stud (11) comprises an upper nut and a lower nut, wherein the upper nut is propped against the top surface of the base connecting plate (20), and the lower nut is propped against the bottom surface of the base connecting plate.

4. A building foundation for facilitating the installation of a hydroelectric machine according to claim 1, wherein: the base bottom plate (10) is provided with a first tooth-shaped structure (13), and the bottom end of the X-shaped supporting component (40) is matched with the first tooth-shaped structure.

5. A building foundation for facilitating the installation of a hydroelectric machine as claimed in claim 4, wherein: the first tooth formation (13) is located in a first rectangular groove (14).

6. A building foundation for facilitating the installation of a hydroelectric machine as claimed in claim 4, wherein: the bottom surface of the base connecting plate (20) is provided with a second tooth-shaped structure (21), and the top end of the X-shaped supporting component (40) is matched with the second tooth-shaped structure.

7. A building foundation for facilitating the installation of a hydroelectric machine as claimed in claim 6, wherein: the second tooth formation (21) is located in a second rectangular groove (22).

8. A building foundation for facilitating the installation of a hydroelectric machine according to claim 1, wherein: the X-shaped support assembly (40) includes a pair of support bars (41) hinged together.