CN213005194U - Adaptive fixing device for building pipeline - Google Patents

Abstract

The utility model discloses an adaptive fixing device of a building pipeline, which comprises a base, a plurality of central supports and an upper pressure seat, wherein the central supports and the upper pressure seat are uniformly distributed up and down; a plurality of bottom limiting grooves which are uniformly distributed at the left and right and penetrate through the U-shaped groove in the front and at the back are formed on the upper end surface of the base; the left end and the right end of the upper end surface of the base are respectively detachably provided with a vertical connecting threaded rod; the central support and the upper pressing seat are vertically sleeved on the pair of vertical connecting threaded rods; a plurality of central limiting grooves which are uniformly distributed at the left and right and penetrate through the U-shaped groove in the front and at the back are formed on the upper end surface of the central support; a plurality of central pressing plates which are uniformly distributed from left to right are arranged on the bottom surface of the central support in a lifting way; a plurality of upper press plates which are uniformly distributed from left to right are arranged on the bottom surface of the upper press seat in a lifting way; the upper pressure plates correspond to the central limiting grooves of the central support at the uppermost side one by one; the upper end of the vertical connecting threaded rod is screwed with an upper limiting nut; the utility model has the advantages that: the pipeline fixing device is suitable for the fixed distribution of pipelines with different sizes and has strong adaptability.

Description

Adaptive fixing device for building pipeline

Technical Field

The utility model relates to a technical field of building construction equipment, concretely relates to adaptability fixing device of building pipeline.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and also can be a process of changing various lines on a design drawing into a real object at a specified place. The method comprises foundation engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like. The site of the construction work is called a "construction site" or "job site", also called a worksite.

Along with the continuous development of society, at the visible building construction site everywhere in the city, the indiscriminate problem of putting of construction pipeline is more serious on the building construction site, needs to carry out effectual management fixed to the construction pipeline, but current construction pipeline fixing device exists the not good shortcoming of effect when fixing different radius circuits.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a construction pipeline's adaptability fixing device to the technical problem that current construction pipeline pendulum was put in disorder.

The utility model provides an above-mentioned technical problem's technical scheme as follows: an adaptive fixing device for a building pipeline comprises a base, a plurality of central supports and an upper pressing base, wherein the central supports and the upper pressing base are uniformly distributed up and down; a plurality of bottom limiting grooves which are uniformly distributed at the left and right and penetrate through the U-shaped groove in the front and at the back are formed on the upper end surface of the base; the left end and the right end of the upper end surface of the base are respectively detachably provided with a vertical connecting threaded rod; the central support and the upper pressing seat are vertically sleeved on the pair of vertical connecting threaded rods; a plurality of central limiting grooves which are uniformly distributed at the left and right and penetrate through the U-shaped groove in the front and at the back are formed on the upper end surface of the central support; the central limiting grooves and the bottom limiting grooves are the same in shape and size, and the number of the central limiting grooves and the number of the bottom limiting grooves of the same central support are the same; a plurality of central pressing plates which are uniformly distributed from left to right are arranged on the bottom surface of the central support in a lifting way; the left width and the right width of the central pressing plate are respectively the same as the left width and the right width of the upper opening of the central limiting groove and the bottom limiting groove; a plurality of upper press plates which are uniformly distributed from left to right are arranged on the bottom surface of the upper press seat in a lifting way; the upper pressure plates correspond to the central limiting grooves of the central support at the uppermost side one by one; the left and right width of the upper pressure plate is the same as the left and right width of the upper opening of the central limiting groove; the upper end of the vertical connecting threaded rod is screwed with an upper limiting nut.

Preferably, the left end and the right end of the upper end surface of the base are respectively formed with a rectangular groove-shaped connecting slot; a connecting inserting block matched with the connecting inserting groove is formed at the bottom of the vertical connecting threaded rod; the left end surface and the right end surface of the base are respectively screwed with a connecting bolt; the inner ends of the pair of connecting bolts respectively abut against the end faces of the pair of connecting insertion blocks, which are far away from each other.

Preferably, a pair of lower connecting screws which are arranged in bilateral symmetry are formed on the bottom surface of the base; a connecting plate is sleeved on the pair of lower connecting screws from bottom to top; the bottom of the lower connecting screw rod is in threaded connection with a connecting nut; a pair of horizontal screw rods which are symmetrically arranged front and back are formed on the right end surface of the connecting plate.

Preferably, a central lifting driving groove is formed at the lower part of the central support; a central adjusting bolt is pivoted on the rear side wall of the central lifting driving groove; an isosceles trapezoid-shaped center adjusting driving block is formed at the rear end of the center lifting driving groove; the front end of the central adjusting bolt is pivoted on the rear end surface of the central adjusting driving block; the front end surface of the central adjusting driving block is arranged from bottom to top obliquely and forwards; the front end of the central lifting driving groove is provided with a central lifting plate in a lifting way; the rear end face of the central lifting plate is obliquely arranged from bottom to top forwards, and the rear end face of the central lifting plate abuts against the front end face of the central adjusting driving block; a pair of central vertical guide rods distributed front and back are formed on the lower end surface of the central lifting plate; the central vertical guide rod vertically penetrates through the lower side wall of the central lifting driving groove; the central pressure plate is fixed at the lower ends of the central vertical guide rods; the lower part of the central vertical guide rod is sleeved with a central tension spring; the upper end of the central tension spring is fixed on the lower end surface of the central support, and the lower end of the central tension spring is fixed on the upper end surface of the central pressure plate;

the lower part of the upper pressure seat is formed with an ascending and descending driving groove; an upper adjusting bolt is pivoted on the rear side wall of the lifting driving groove; an isosceles trapezoid-shaped upper adjusting driving block is formed at the rear end of the upper lifting driving groove; the front end of the upper adjusting bolt is pivoted on the rear end surface of the upper adjusting driving block; the front end surface of the upper adjusting driving block is arranged obliquely and forwards from bottom to top; the front end of the lifting driving groove is provided with an upper lifting plate in a lifting way; the rear end surface of the upper lifting plate is arranged from bottom to top in an inclined and forward manner, and the rear end surface of the upper lifting plate abuts against the front end surface of the upper adjusting driving block; a pair of upper vertical guide rods distributed front and back are formed on the lower end surface of the upper lifting plate; the upper vertical guide rod vertically penetrates through the lower side wall of the upper lifting driving groove; the upper pressure plate is fixed at the lower ends of the pair of upper vertical guide rods; the lower part of the upper vertical guide rod is sleeved with an upper tension spring; the upper end of the upper tension spring is fixed on the lower end face of the upper pressure seat, and the lower end of the upper tension spring is fixed on the upper end face of the upper pressure plate.

Preferably, the vertical connecting threaded rod is screwed with a plurality of lower limiting nuts; the number of the lower limiting nuts is the same as the sum of the number of the central support and the number of the upper pressing seats.

Preferably, a bottom placing groove in the shape of a semicircular ring groove is formed at the bottom of the bottom limiting groove; a semicircular bottom damping ring is arranged in the bottom placement groove; a semicircular annular groove-shaped central placement groove is formed at the bottom of the central limiting groove; a semicircular central damping ring is arranged in the central placement groove.

The beneficial effects of the utility model reside in that: the pipeline fixing device is suitable for the fixed distribution of pipelines with different sizes and has strong adaptability.

Drawings

Fig. 1 is a schematic structural view of a cross section of the present invention;

fig. 2 is a schematic structural view of a cross section of the center support 20 of the present invention;

fig. 3 is a schematic structural view of a cross section of the upper pressing base 30 according to the present invention;

in the figure, 10, the base; 100. a bottom limiting groove; 101. connecting the slots; 102. a bottom placement groove; 11. a connecting bolt; 12. a lower connecting screw rod; 121. a connecting nut; 13. a connecting plate; 131. a horizontal screw; 14. a bottom damping ring; 15. a threaded rod is vertically connected; 151. connecting the plug blocks; 16. a lower limit nut; 17. an upper limiting nut; 20. a central support; 200. a central limiting groove; 201. a central placement groove; 202. a central lifting driving groove; 21. a central damping ring; 22. a center adjusting bolt; 23. a center adjustment drive block; 24. a central lifter plate; 241. a central vertical guide rod; 25. a central pressing plate; 26. a central tension spring; 30. an upper pressing seat; 300. an upper lifting driving groove; 31. an upper adjusting bolt; 32. an upper adjustment drive block; 33. an upper lifting plate; 331. an upper vertical guide rod; 34. an upper pressure plate; 35. and an upper tension spring.

Detailed Description

As shown in fig. 1 to 3, an adaptive fixing device for building pipelines comprises a base 10, a plurality of central supports 20 and upper pressure bases 30 which are uniformly distributed up and down; a plurality of bottom limiting grooves 100 which are uniformly distributed at the left and right and penetrate through the upper end surface of the base 10 in the shape of a U-shaped groove are formed on the upper end surface of the base; the left end and the right end of the upper end face of the base 10 are respectively detachably provided with a vertical connecting threaded rod 15; the central support 20 and the upper pressure seat 30 are vertically sleeved on the pair of vertical connecting threaded rods 15; a plurality of central limiting grooves 200 which are uniformly distributed at the left and right and penetrate through the U-shaped groove in the front and at the back are formed on the upper end surface of the central support 20; the central limiting grooves 200 and the bottom limiting grooves 100 have the same shape and size, and the number of the central limiting grooves 200 and the number of the bottom limiting grooves 100 of the same central support 20 are the same; a plurality of central pressing plates 25 which are uniformly distributed from left to right are arranged on the bottom surface of the central support 20 in a lifting way; the left and right widths of the central pressing plate 25 are respectively the same as the left and right widths of the upper openings of the central limiting groove 200 and the bottom limiting groove 100; a plurality of upper press plates 34 which are uniformly distributed from left to right are arranged on the bottom surface of the upper press seat 30 in a lifting way; the upper press plates 34 correspond to the central limiting grooves 200 of the central support 20 on the uppermost side one by one; the left and right width of the upper press plate 34 is the same as the left and right width of the upper opening of the center stopper groove 200; the upper end of the vertical connecting threaded rod 15 is screwed with an upper limiting nut 17.

As shown in fig. 1, the left end and the right end of the upper end surface of the base 10 are respectively formed with a rectangular groove-shaped connecting slot 101; a connecting plug block 151 matched with the connecting slot 101 is formed at the bottom of the vertical connecting threaded rod 15; the left end surface and the right end surface of the base 10 are respectively screwed with a connecting bolt 11; the inner ends of the pair of connecting bolts 11 abut against end surfaces of the pair of connecting blocks 151 that are away from each other, respectively.

As shown in fig. 1, a pair of lower connecting screws 12 symmetrically arranged left and right are formed on the bottom surface of the base 10; a connecting plate 13 is sleeved on the pair of lower connecting screw rods 12 from bottom to top; the bottom of the lower connecting screw 12 is screwed with a connecting nut 121; a pair of horizontal screws 131 symmetrically arranged in front and back are formed on the right end surface of the connecting plate 13.

As shown in fig. 1 and 2, a central lifting driving groove 202 is formed at the lower part of the central support 20; a central adjusting bolt 22 is pivoted on the rear side wall of the central lifting driving groove 202; an isosceles trapezoid-shaped center adjusting driving block 23 is formed at the rear end of the center lifting driving groove 202; the front end of the central adjusting bolt 22 is pivoted on the rear end surface of the central adjusting driving block 23; the front end surface of the central adjusting driving block 23 is arranged from bottom to top obliquely and forwards; the front end of the central lifting driving groove 202 is provided with a central lifting plate 24 in a lifting way; the rear end surface of the central lifting plate 24 is arranged from bottom to top obliquely and forwards, and the rear end surface of the central lifting plate 24 abuts against the front end surface of the central adjusting driving block 23; a pair of central vertical guide rods 241 distributed front and back are formed on the lower end surface of the central lifting plate 24; a central vertical guide bar 241 vertically passes through the lower sidewall of the central elevation drive groove 202; the central pressing plate 25 is fixed at the lower ends of the pair of central vertical guide rods 241; the lower part of the central vertical guide rod 241 is sleeved with a central tension spring 26; the upper end of the central tension spring 26 is fixed on the lower end face of the central support 20, and the lower end is fixed on the upper end face of the central pressure plate 25;

as shown in fig. 1 and 3, the upper pressing base 30 has an upper and lower driving groove 300 formed at a lower portion thereof; the rear side wall of the ascending and descending driving groove 300 is pivoted with an upper adjusting bolt 31; the rear end of the ascending and descending driving groove 300 is formed with an isosceles trapezoid-shaped upper adjusting driving block 32; the front end of the upper adjusting bolt 31 is pivoted on the rear end surface of the upper adjusting driving block 32; the front end surface of the upper adjusting driving block 32 is arranged obliquely and forwards from bottom to top; the upper lifting plate 33 is arranged at the front end of the upper lifting driving groove 300 in a lifting way; the rear end surface of the upper lifting plate 33 is arranged obliquely and forwards from bottom to top, and the rear end surface of the upper lifting plate 33 abuts against the front end surface of the upper adjusting driving block 32; a pair of upper vertical guide rods 331 distributed back and forth are formed on the lower end surface of the upper lifting plate 33; the upper vertical guide rod 331 vertically passes through the lower sidewall of the upper and lower driving grooves 300; the upper press plate 34 is fixed to the lower ends of a pair of upper vertical guide rods 331; the lower part of the upper vertical guide rod 331 is sleeved with an upper tension spring 35; the upper end of the upper tension spring 35 is fixed on the lower end surface of the upper pressure seat 30, and the lower end is fixed on the upper end surface of the upper pressure plate 34.

As shown in fig. 1, a plurality of lower limiting nuts 16 are screwed on the vertical connecting threaded rod 15; the number of the lower limiting nuts 16 is the same as the sum of the number of the central support 20 and the number of the upper press seats 30.

As shown in fig. 1, a bottom positioning groove 102 in the shape of a semicircular ring groove is formed at the bottom of the bottom limiting groove 100; a semicircular bottom damping ring 14 is arranged in the bottom accommodating groove 102; a semicircular annular groove-shaped central placement groove 201 is formed at the bottom of the central limiting groove 200; a semicircular central damping ring 21 is arranged in the central placement groove 201.

Working principle of the adaptive fixing device of the building pipeline;

firstly, a pipeline penetrates through a bottom limiting groove 100 and a center limiting groove 200 in the front-back direction, then the upper and lower positions of a lower limiting nut 16 are adjusted, then the distance between each center pressure plate 25 and the lower end face of a center support 20 and the distance between each upper pressure plate 34 and the lower end face of an upper pressure seat 30 are adjusted according to the diameters of the pipeline in the limiting grooves 100 and the center limiting groove 200, then the center support 20 and the upper pressure seat 30 descend, so that the upper pressure plates 34 and the center pressure plates 25 abut against the upper ends of the pipelines on the corresponding sides, the pipelines are limited, and finally a pair of upper limiting nuts 17 are screwed to abut against the upper end faces of the upper pressure seats 30; therefore, the problem of poor fixing effect caused by different diameters of pipelines is solved.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (6)

1. An adaptive fixing device of building pipeline which characterized in that: comprises a base (10), a plurality of central supports (20) and an upper pressure seat (30), wherein the central supports are uniformly distributed up and down; a plurality of U-shaped groove-shaped bottom limiting grooves (100) which are uniformly distributed from left to right and penetrate through the upper end surface of the base (10) from front to back are formed on the upper end surface of the base; the left end and the right end of the upper end face of the base (10) are respectively detachably provided with a vertical connecting threaded rod (15); the central support (20) and the upper pressure seat (30) are vertically sleeved on the pair of vertical connecting threaded rods (15); a plurality of U-shaped groove-shaped central limiting grooves (200) which are uniformly distributed from left to right and penetrate through the upper end surface of the central support (20) from front to back are formed on the upper end surface of the central support; the shape and the size of the central limiting groove (200) and the bottom limiting groove (100) are the same, and the number of the central limiting grooves (200) of the same central support (20) is the same as that of the bottom limiting grooves (100); a plurality of central pressing plates (25) which are uniformly distributed from left to right are arranged on the bottom surface of the central support (20) in a lifting way; the left width and the right width of the central pressing plate (25) are respectively the same as the left width and the right width of the upper openings of the central limiting groove (200) and the bottom limiting groove (100); a plurality of upper press plates (34) which are uniformly distributed from left to right are arranged on the bottom surface of the upper press seat (30) in a lifting way; the upper pressure plates (34) correspond to the central limiting grooves (200) of the central support (20) at the uppermost side one by one; the left and right width of the upper pressure plate (34) is the same as the left and right width of the upper opening of the central limit groove (200); the upper end of the vertical connecting threaded rod (15) is screwed with an upper limit nut (17).

2. An adaptive fixing device for building pipelines according to claim 1, wherein: the left end and the right end of the upper end surface of the base (10) are respectively formed with a rectangular groove-shaped connecting slot (101); a connecting plug block (151) matched with the connecting slot (101) is formed at the bottom of the vertical connecting threaded rod (15); the left end surface and the right end surface of the base (10) are respectively screwed with a connecting bolt (11); the inner ends of the pair of connecting bolts (11) respectively abut against the end faces of the pair of connecting insertion blocks (151) which are far away from each other.

3. An adaptive fixing device for building pipelines according to claim 1, wherein: a pair of lower connecting screw rods (12) which are arranged in bilateral symmetry are formed on the bottom surface of the base (10); a connecting plate (13) is sleeved on the pair of lower connecting screw rods (12) from bottom to top; the bottom of the lower connecting screw rod (12) is screwed with a connecting nut (121); a pair of horizontal screw rods (131) which are symmetrically arranged in front and back are formed on the right end surface of the connecting plate (13).

4. An adaptive fixing device for building pipelines according to claim 1, wherein: a central lifting driving groove (202) is formed at the lower part of the central support (20); a central adjusting bolt (22) is pivoted on the rear side wall of the central lifting driving groove (202); an isosceles trapezoid-shaped center adjusting driving block (23) is formed at the rear end of the center lifting driving groove (202); the front end of the central adjusting bolt (22) is pivoted on the rear end surface of the central adjusting driving block (23); the front end surface of the central adjusting driving block (23) is arranged obliquely and forwards from bottom to top; the front end of the central lifting driving groove (202) is provided with a central lifting plate (24) in a lifting way; the rear end surface of the central lifting plate (24) is arranged obliquely forwards from bottom to top, and the rear end surface of the central lifting plate (24) abuts against the front end surface of the central adjusting driving block (23); a pair of central vertical guide rods (241) distributed front and back are formed on the lower end surface of the central lifting plate (24); the central vertical guide rod (241) vertically penetrates through the lower side wall of the central lifting driving groove (202); the central pressing plate (25) is fixed at the lower ends of the pair of central vertical guide rods (241); the lower part of the central vertical guide rod (241) is sleeved with a central tension spring (26); the upper end of the central tension spring (26) is fixed on the lower end surface of the central support (20), and the lower end of the central tension spring is fixed on the upper end surface of the central pressure plate (25);

an ascending and descending driving groove (300) is formed at the lower part of the upper pressing seat (30); an upper adjusting bolt (31) is pivoted on the rear side wall of the upper lifting driving groove (300); an upper adjusting driving block (32) in an isosceles trapezoid shape is formed at the rear end of the upper lifting driving groove (300); the front end of the upper adjusting bolt (31) is pivoted on the rear end surface of the upper adjusting driving block (32); the front end surface of the upper adjusting driving block (32) is arranged obliquely and forwards from bottom to top; an upper lifting plate (33) is arranged at the front end of the upper lifting driving groove (300) in a lifting way; the rear end surface of the upper lifting plate (33) is arranged obliquely forwards from bottom to top, and the rear end surface of the upper lifting plate (33) abuts against the front end surface of the upper adjusting driving block (32); a pair of upper vertical guide rods (331) distributed front and back are formed on the lower end surface of the upper lifting plate (33); the upper vertical guide rod (331) vertically penetrates through the lower side wall of the upper lifting driving groove (300); the upper pressure plate (34) is fixed at the lower ends of the pair of upper vertical guide rods (331); the lower part of the upper vertical guide rod (331) is sleeved with an upper tension spring (35); the upper end of the upper tension spring (35) is fixed on the lower end surface of the upper pressure seat (30), and the lower end is fixed on the upper end surface of the upper pressure plate (34).

5. An adaptive fixing device for building pipelines according to claim 1, wherein: a plurality of lower limiting nuts (16) are screwed on the vertical connecting threaded rod (15); the number of the lower limiting nuts (16) is the same as the sum of the number of the central support (20) and the number of the upper pressing seats (30).

6. An adaptive fixing device for building pipelines according to claim 1, wherein: a bottom placing groove (102) in the shape of a semicircular ring groove is formed at the bottom of the bottom limiting groove (100); a semicircular bottom damping ring (14) is arranged in the bottom placing groove (102); a semicircular annular groove-shaped central placement groove (201) is formed at the bottom of the central limiting groove (200); a semi-circular central damping ring (21) is arranged in the central placement groove (201).

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