阅读说明：本技术 一种管道对接用角度与纵向高度调节装置 (Angle and longitudinal height adjusting device for pipeline butt joint ) 是由 徐炳祥 于 2020-04-16 设计创作，主要内容包括：本发明公开了一种管道对接用角度与纵向高度调节装置,包括底部安装基板。本发明配合管道对接用液体压缩装置使用,能够对支撑部位进行角度调节作用,并且在进行角度调节时,利用三点伸缩定位原理,利用液体压缩装置的定量注射,使得三个伸缩机构产生高度不一的位置,从而产生可控且稳定的角度定位作用,并且,该装置利用反向螺纹旋转原理,能够实现纵向高度的调节作用,实现必要的角度和高度调节作用,而且,该装置具有杆体安装尺寸限位式部件连接机构,能够实现部件之间的连接作用,同时不会影响两部件之间的角度旋转作用,此外,该装置具有液体伸缩式部件对接机构,能够在液体的作用下,实现伸长。(The invention discloses an angle and longitudinal height adjusting device for pipeline butt joint, which comprises a bottom mounting base plate. The device is matched with a liquid compression device for pipeline butt joint, can perform an angle adjusting effect on a supporting part, and can generate positions with different heights by using a three-point telescopic positioning principle and quantitative injection of the liquid compression device during angle adjustment, thereby generating a controllable and stable angle positioning effect.)

1. The utility model provides an angle and vertical height control device are used in pipeline butt joint, includes bottom mounting substrate (1) and screw sleeve (8), its characterized in that: a plurality of insertion rods (2) are installed at the bottom of the bottom installation substrate (1), a rod body installation size limiting type part connecting mechanism (4) with three annular arrays arranged is installed at the edge of the upper surface of the bottom installation substrate (1), a liquid telescopic part butt-joint mechanism (5) is installed at the top of each rod body installation size limiting type part connecting mechanism (4), a high-pressure pipeline (7) is installed at the liquid inlet hole position of each liquid telescopic part butt-joint mechanism (5), a liquid pipeline butt-joint port (6) is installed at the liquid inlet end part of each high-pressure pipeline (7), the top of each liquid telescopic part butt-joint mechanism (5) is installed on a top installation substrate (3) through the liquid telescopic part butt-joint mechanism (5), and a thread interval (9) communicated with two end faces of the thread sleeve (8) is arranged at the center inside the thread sleeve (8), the threaded sleeve (8) is provided with a threaded structure (10) on the inner wall positioned in the threaded interval (9), the bottom and the top of the threaded interval (8) are respectively connected with a bottom threaded rod (11) and a top threaded rod (12) through the threaded structure (10), the bottom threaded rod (11) and the top threaded rod (12) are respectively provided with a limiting hole (13) inside opposite ends, a limiting rod (14) is inserted into the limiting holes (13), the other two ends of the bottom threaded rod (11) and the top threaded rod (12) are respectively provided with a top mounting substrate (3) and a top connecting substrate (17), the inside of the top connecting substrate (17) is provided with a plurality of main bolt holes (18), the middle part outside the threaded sleeve (8) is arranged in an inner ring of an annular array conflict type rotation intensity control mechanism (15), the middle part of the outer side of the annular array collision buffer type rotating strength control mechanism (15) is sleeved with a rotating rod (16).

2. The angle and longitudinal height adjusting device for pipeline butt joint according to claim 1, wherein: the rod body installation size limiting type part connecting mechanism (4) comprises a connecting plate (41) for a rod body installation size limiting type part connecting mechanism, a bolt hole (42) for the rod body installation size limiting type part connecting mechanism, a hemispherical hollow shell (43) for the rod body installation size limiting type part connecting mechanism, a spherical groove structure (44) for the rod body installation size limiting type part connecting mechanism, a spherical body (45) for the rod body installation size limiting type part connecting mechanism, an installation hole (46) for the rod body installation size limiting type part connecting mechanism and a plane structure (47) for the rod body installation size limiting type part connecting mechanism; the inside of the connecting plate (41) for the limiting type part connecting mechanism of the rod body installation size is provided with bolt holes (42) for the limiting type part connecting mechanism of the rod body installation size, the center of the upper surface of the connecting plate (41) for the limiting type part connecting mechanism of the rod body installation size is provided with a plurality of hemispherical hollow shells (43) for the limiting type part connecting mechanism of the rod body installation size in an integrated structure with the connecting plate (41) for the limiting type part connecting mechanism of the rod body installation size, the inside center of the hemispherical hollow shell (43) for the limiting type part connecting mechanism of the rod body installation size is provided with spherical groove structures (44) for the limiting type part connecting mechanism of the rod body installation size, the hemispherical hollow shell (43) for the limiting type part connecting mechanism of the rod body installation size is located in the spherical groove structures (44) for the limiting type part connecting mechanism of the rod body installation size The body (45), the center at the spacing formula of body of rod installation dimension spherical body (45) top for part coupling mechanism is provided with the spacing formula of body of rod installation dimension planar structure (47) for part coupling mechanism, the bottom of the spacing formula of body of rod installation dimension planar structure (47) for part coupling mechanism is provided with body of rod installation dimension mounting hole (46) for the spacing formula of part coupling mechanism.

3. The angle and longitudinal height adjusting device for pipeline butt joint according to claim 2, wherein: the volume formed by the inner surface of the spherical groove structure (44) for the rod body installation size limiting type component connecting mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body (45) for the rod body installation size limiting type component connecting mechanism.

4. The angle and longitudinal height adjusting device for pipeline butt joint according to claim 2, wherein: the bottom end of the bolt hole (42) for the rod body installation size limiting type component connecting mechanism is arranged on the upper surface of the bottom mounting base plate (1) and the lower surface of the top mounting base plate (2), and one end of the liquid telescopic component butt-joint mechanism (5) is inserted into the installation hole (46) for the rod body installation size limiting type component connecting mechanism.

5. The angle and longitudinal height adjusting device for pipeline butt joint according to claim 1, wherein: the liquid telescopic part docking mechanism (5) comprises a hollow rod body (51) for the liquid telescopic part docking mechanism, a central hole (52) for the liquid telescopic part docking mechanism, a liquid through hole (53) for the liquid telescopic part docking mechanism, a part mounting port (54) for the liquid telescopic part docking mechanism, a part moving space (55) for the liquid telescopic part docking mechanism, a piston plate (56) for the liquid telescopic part docking mechanism, a spiral spring (57) for the liquid telescopic part docking mechanism and a telescopic rod (58) for the liquid telescopic part docking mechanism; the center of the inner part of the hollow rod body (51) for the liquid telescopic part docking mechanism is provided with a center hole (52) for the liquid telescopic part docking mechanism, the longitudinal center of the center hole (52) for the liquid telescopic part docking mechanism is provided with a liquid through hole (53) for the liquid telescopic part docking mechanism, the end part of the liquid through hole (53) for the liquid telescopic part docking mechanism is provided with a part mounting port (54) for the liquid telescopic part docking mechanism, two ends of the center hole (52) for the liquid telescopic part docking mechanism are respectively provided with a part moving space (55) for the liquid telescopic part docking mechanism, one end of the part moving space (55) for the liquid telescopic part docking mechanism, facing the inner side, is provided with a piston plate (56) for the liquid telescopic part docking mechanism, and the center of one end, facing the outer side, of the piston plate (56) for the liquid telescopic part docking mechanism is provided with a liquid The telescopic rod (58) for the telescopic component docking mechanism is characterized in that the rod body of the telescopic rod (58) for the telescopic liquid component docking mechanism is sleeved with a compressed spiral spring (57) for the telescopic liquid component docking mechanism, and the end rod body of the telescopic rod (58) for the telescopic liquid component docking mechanism penetrates through the two ends of the hollow rod body (51) for the telescopic liquid component docking mechanism.

6. The device for adjusting the angle and the longitudinal height of the butt joint of the pipeline according to claim 5, wherein: one end of a high-pressure pipeline (7) is arranged in the component mounting port (54) for the liquid telescopic component docking mechanism.

7. The device for adjusting the angle and the longitudinal height of the butt joint of the pipeline according to claim 5, wherein: two ends of a telescopic rod (58) for the liquid telescopic part butting mechanism are respectively arranged in the mounting holes (46) for the two-rod body installation size limiting type part connecting mechanism.

8. The angle and longitudinal height adjusting device for pipeline butt joint according to claim 1, wherein: the annular array conflict buffer type rotation strength control mechanism (15) comprises a main hollow shell (151) for the annular array conflict buffer type rotation strength control mechanism, a main hollow section (152) for the annular array conflict buffer type rotation strength control mechanism, a rotating column (153) for the annular array conflict buffer type rotation strength control mechanism, and a semicircular groove structure (154) for the annular array conflict buffer type rotation strength control mechanism, a secondary hollow section (155) for the annular array collision buffer type rotary strength control mechanism, a movable plate (156) for the annular array collision buffer type rotary strength control mechanism, a spiral spring (157) for the annular array collision buffer type rotary strength control mechanism, a push rod (158) for the annular array collision buffer type rotary strength control mechanism, and a mounting hole (159) for the annular array collision buffer type rotary strength control mechanism; circular array conflict buffer formula rotary strength control mechanism does with the inside center of main cavity casing (151) circular array conflict buffer formula rotary strength control mechanism with main cavity interval (152), circular array conflict buffer formula rotary strength control mechanism is lieing in with main cavity casing (151) circular array conflict buffer formula rotary strength control mechanism cup joints a circular array conflict buffer formula rotary strength control mechanism with roating column (153) for inside of main cavity interval (152), circular array conflict buffer formula rotary strength control mechanism conflicts with the inside of main cavity casing (151) for circular array conflict buffer formula rotary strength control mechanism with vice cavity interval (155), circular array conflict buffer formula rotary strength control mechanism conflicts with inside of vice cavity interval (155) and is lieing in circular array conflict buffer formula rotary strength control mechanism places a circular array conflict buffer formula rotary strength with a terminal surface of main cavity interval (152) and revolves Turning strength is fly leaf (156) for control mechanism, annular array conflict buffering formula rotary strength for control mechanism vice hollow interval (155) is located between the one end that is located annular array conflict buffering formula rotary strength for control mechanism fly leaf (156) spiral spring (157) for control mechanism of fixed annular array conflict buffering formula rotary strength, one terminal surface of the fly leaf (156) for control mechanism of annular array conflict buffering formula rotary strength is provided with annular array conflict buffering formula rotary strength for control mechanism push rod (158) rather than integral type structure, and the annular array conflict buffering formula rotary strength for control mechanism push rod (158) runs through the main hollow shell (151) for control mechanism of annular array conflict buffering formula rotary strength, and is located the inside of the main hollow interval (152) for control mechanism of annular array conflict buffering formula rotary strength, the push rod (158) for the annular array collision buffer type rotation intensity control mechanism is in a semicircular structure at one end of the main hollow section (152) for the annular array collision buffer type rotation intensity control mechanism, the side surface of the rotating column (153) for the annular array conflict buffer type rotating strength control mechanism is provided with a semicircular groove structure (154) for the annular array conflict buffer type rotating strength control mechanism, which is used for placing the end part of the push rod (158) for the annular array conflict buffer type rotating strength control mechanism, the center of the rotating column (153) for the annular array conflict buffer type rotating strength control mechanism is provided with a mounting hole (159) for the annular array conflict buffer type rotating strength control mechanism, the annular array is contradicted buffering formula rotary strength control mechanism and is installed the outer loop of screw sleeve (8) with mounting hole (159) internally mounted.

9. The device for adjusting the angle and the longitudinal height of the butt joint of the pipeline according to claim 8, wherein: the structural shape of the end part of the push rod (158) for the annular array collision buffer type rotary strength control mechanism is consistent with the structural shape of the semicircular groove structure (154) for the annular array collision buffer type rotary strength control mechanism.

10. The device for adjusting the angle and the longitudinal height of the butt joint of the pipeline according to claim 8, wherein: the initial length of the spiral spring (157) for the buffer type rotation strength control mechanism abutted by the annular array is larger than the length of the auxiliary hollow section (155) for the buffer type rotation strength control mechanism abutted by the annular array.

Technical Field

The invention relates to the technical field of pipeline butt joint, in particular to an angle and longitudinal height adjusting device for pipeline butt joint.

Background

At present, the pipeline butt joint device is convenient to carry at a long distance, the pipeline cannot be used, but the existing pipeline butt joint device has great defects when the pipeline is installed, and the installation efficiency and the effect are poor.

Disclosure of Invention

The present invention is directed to a device for adjusting the angle and the longitudinal height for butt joint of pipelines, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an angle and longitudinal height adjusting device for pipeline butt joint comprises a bottom mounting substrate and a threaded sleeve, wherein a plurality of insertion rods are mounted at the bottom of the bottom mounting substrate, rod body mounting dimension limiting type part connecting mechanisms arranged in three annular arrays are mounted at the edge of the upper surface of the bottom mounting substrate, a liquid telescopic part butt joint mechanism is mounted at the top of each rod body mounting dimension limiting type part connecting mechanism, a high-pressure pipeline is mounted at a liquid inlet hole part of each liquid telescopic part butt joint mechanism, a liquid pipeline butt joint port is mounted at the liquid inlet end part of each high-pressure pipeline, the top of each liquid telescopic part butt joint mechanism is mounted at a top mounting substrate through the liquid telescopic part butt joint mechanism, and a threaded interval communicated with two end faces of the threaded sleeve is arranged at the center inside the threaded sleeve, the threaded sleeve is being located the interval inner wall of screw thread is provided with helicitic texture, the interval bottom of screw thread and top are connected with bottom threaded rod and top threaded rod through helicitic texture respectively, bottom threaded rod and top threaded rod all are provided with spacing hole, two in opposition end inside a gag lever post is inserted to the inside in spacing hole, top mounting substrate and top connecting substrate are installed respectively to the other both ends of bottom threaded rod and top threaded rod, top connecting substrate's inside is provided with a plurality of main bolt holes, the mid-mounting in the threaded sleeve outside is in an annular array conflict buffering formula rotary strength control mechanism's inner ring, an annular array conflict buffering formula rotary strength control mechanism's outside middle part cup joints a rotary rod).

Further, the rod body installation size limiting type part connecting mechanism comprises a connecting plate for a rod body installation size limiting type part connecting mechanism, a bolt hole for the rod body installation size limiting type part connecting mechanism, a hemispherical hollow shell for the rod body installation size limiting type part connecting mechanism, a spherical groove structure for the rod body installation size limiting type part connecting mechanism, a spherical body for the rod body installation size limiting type part connecting mechanism, an installation hole for the rod body installation size limiting type part connecting mechanism and a plane structure for the rod body installation size limiting type part connecting mechanism; the connecting plate for the rod body installation size limiting type part connecting mechanism is internally provided with a bolt hole for the rod body installation size limiting type part connecting mechanism, the center of the upper surface of the connecting plate for the rod body installation size limiting type part connecting mechanism is provided with a plurality of hemispherical hollow shells for the rod body installation size limiting type part connecting mechanism which are integrated with the connecting plate for the rod body installation size limiting type part connecting mechanism, the inner center of the hemispherical hollow shell for the rod body installation size limiting type part connecting mechanism is provided with a spherical groove structure for the rod body installation size limiting type part connecting mechanism, the hemispherical hollow shell for the rod body installation size limiting type part connecting mechanism is internally provided with a spherical body for the rod body installation size limiting type part connecting mechanism positioned in the spherical groove structure for the rod body installation size limiting type part connecting mechanism, the center at the top of the spherical body for the rod body installation size limiting type component connecting mechanism is provided with a plane structure for the rod body installation size limiting type component connecting mechanism, and the bottom of the plane structure for the rod body installation size limiting type component connecting mechanism is provided with an installation hole for the rod body installation size limiting type component connecting mechanism.

Furthermore, the volume formed by the inner surface of the spherical groove structure for the rod body installation size limiting type component connecting mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body for the rod body installation size limiting type component connecting mechanism.

Further, the bottom ends of the bolt holes for the rod body installation size limiting type component connecting mechanism are installed on the upper surface of the bottom installation base plate and the lower surface of the top installation base plate, and one end of the liquid telescopic component butt joint mechanism is inserted into the installation hole for the rod body installation size limiting type component connecting mechanism.

Further, the liquid telescopic member docking mechanism comprises a hollow rod body for the liquid telescopic member docking mechanism, a central hole for the liquid telescopic member docking mechanism, a liquid through hole for the liquid telescopic member docking mechanism, a member mounting port for the liquid telescopic member docking mechanism, a member moving space for the liquid telescopic member docking mechanism, a piston plate for the liquid telescopic member docking mechanism, a coil spring for the liquid telescopic member docking mechanism, and a telescopic rod for the liquid telescopic member docking mechanism; the center of the inner part of the hollow rod body for the liquid telescopic part docking mechanism is provided with a center hole for the liquid telescopic part docking mechanism, the longitudinal center of the center hole for the liquid telescopic part docking mechanism is provided with a liquid through hole for the liquid telescopic part docking mechanism, the end part of the liquid through hole for the liquid telescopic part docking mechanism is provided with a part mounting port for the liquid telescopic part docking mechanism, two ends of the center hole for the liquid telescopic part docking mechanism are respectively provided with a part moving space for the liquid telescopic part docking mechanism, one end of the part moving space for the two liquid telescopic part docking mechanisms facing to the inner side is respectively provided with a piston plate for the liquid telescopic part docking mechanism, the centers of the piston plates for the two liquid telescopic part docking mechanisms facing to the outer side are respectively provided with a telescopic rod for the liquid telescopic part docking mechanism, and the rod bodies of the telescopic rods for the liquid telescopic part docking mechanisms are sleeved with a compressed spiral spring for the liquid telescopic part docking mechanism, and the end rod bodies of the telescopic rods for the liquid telescopic part docking mechanisms penetrate through the two ends of the hollow rod body for the liquid telescopic part docking mechanism.

Furthermore, one end of a high-pressure pipeline is arranged in the component mounting port for the liquid telescopic component docking mechanism.

Furthermore, both ends of the telescopic rod for the liquid telescopic part docking mechanism are respectively installed in the installation holes for the two-rod installation size limiting type part connecting mechanism.

Further, the circular array conflict buffer type rotation strength control mechanism comprises a main hollow shell for the circular array conflict buffer type rotation strength control mechanism, a main hollow section for the circular array conflict buffer type rotation strength control mechanism, a rotary column for the circular array conflict buffer type rotation strength control mechanism, a semicircular groove structure for the circular array conflict buffer type rotation strength control mechanism, an auxiliary hollow section for the circular array conflict buffer type rotation strength control mechanism, a movable plate for the circular array conflict buffer type rotation strength control mechanism, a spiral spring for the circular array conflict buffer type rotation strength control mechanism, a push rod for the circular array conflict buffer type rotation strength control mechanism and a mounting hole for the circular array conflict buffer type rotation strength control mechanism; the center inside the main hollow shell for the circular array conflict buffering type rotary strength control mechanism is a main hollow interval for the circular array conflict buffering type rotary strength control mechanism, the main hollow shell for the circular array conflict buffering type rotary strength control mechanism is sleeved with a rotary column for the circular array conflict buffering type rotary strength control mechanism inside the main hollow interval for the circular array conflict buffering type rotary strength control mechanism, the inside of the main hollow shell for the circular array conflict buffering type rotary strength control mechanism is an auxiliary hollow interval for the circular array conflict buffering type rotary strength control mechanism, the inside of the auxiliary hollow interval for the circular array conflict buffering type rotary strength control mechanism is provided with a movable plate for the circular array conflict buffering type rotary strength control mechanism at one end surface of the main hollow interval for the circular array conflict buffering type rotary strength control mechanism, the annular array conflict buffer type rotary strength control mechanism is characterized in that a spiral spring for the annular array conflict buffer type rotary strength control mechanism is fixed between one ends of the movable plates for the annular array conflict buffer type rotary strength control mechanism in an auxiliary hollow interval, a push rod for the annular array conflict buffer type rotary strength control mechanism is arranged on one end face of the movable plate for the annular array conflict buffer type rotary strength control mechanism and is integrated with the movable plate, the push rod for the annular array conflict buffer type rotary strength control mechanism penetrates through the main hollow shell for the annular array conflict buffer type rotary strength control mechanism and is positioned in the main hollow interval for the annular array conflict buffer type rotary strength control mechanism, one end of the push rod for the annular array conflict buffer type rotary strength control mechanism, which is positioned in the main hollow interval for the annular array conflict buffer type rotary strength control mechanism, is of a semicircular structure, the side of the revolving column for the buffer type rotary strength control mechanism is provided with a semicircular groove structure for the buffer type rotary strength control mechanism is contradicted by the circular array of the end part of the push rod for the buffer type rotary strength control mechanism is contradicted by the circular array, the center of the revolving column for the buffer type rotary strength control mechanism is provided with a mounting hole for the buffer type rotary strength control mechanism is contradicted by the circular array, and the outer ring of the threaded sleeve is internally installed in the mounting hole for the buffer type rotary strength control mechanism is contradicted by the circular array.

Further, the structural shape of the end part of the push rod for the annular array collision buffer type rotary strength control mechanism is consistent with the structural shape of the semicircular groove structure for the annular array collision buffer type rotary strength control mechanism.

Further, the initial length of the spiral spring for the buffer type rotation strength control mechanism abutted by the annular array is larger than the length of the auxiliary hollow section for the buffer type rotation strength control mechanism abutted by the annular array.

Compared with the prior art, the invention has the beneficial effects that: the invention is used in cooperation with a liquid compression device for pipeline butt joint, can perform angle adjustment on a supporting part, and when the angle is adjusted, the three telescopic mechanisms generate positions with different heights by utilizing the three-point telescopic positioning principle and quantitative injection of the liquid compression device, thereby generating controllable and stable angle positioning effect, and the device can realize the adjustment effect of longitudinal height by utilizing the reverse thread rotation principle, thereby realizing necessary angle and height adjustment effect, has a rod body installation size limit type component connecting mechanism, can realize the connecting effect between components, and simultaneously can not influence the angle rotation effect between the two components, and has a liquid telescopic component butt joint mechanism, thereby realizing extension under the effect of liquid, and in addition, has an annular array collision type rotation strength control mechanism, the maximum rotating force can be controlled, and the phenomenon that the thread structure is damaged due to overlarge rotating resistance is prevented.

Drawings

FIG. 1 is a schematic view of a full-section structure of an angle and longitudinal height adjusting device for pipeline butt joint according to the present invention;

FIG. 2 is a schematic structural view of a rod installation dimension limiting type part connecting mechanism in the angle and longitudinal height adjusting device for pipeline butt joint according to the present invention;

FIG. 3 is a schematic structural diagram of a liquid telescopic member docking mechanism in an angle and longitudinal height adjusting device for docking a pipeline according to the present invention;

FIG. 4 is a schematic structural diagram of a ring array collision buffer type rotation strength control mechanism in the angle and longitudinal height adjusting device for pipeline butt joint according to the present invention;

in the figure: 1, a bottom mounting substrate, 2, an insertion rod, 3, a top mounting substrate, 4, a rod body mounting dimension limiting type part connecting mechanism, 5, a liquid telescopic type part butt-joint mechanism, 6, a liquid pipeline butt-joint port, 7, a high-pressure pipeline, 8, a threaded sleeve, 9, a threaded section, 10, a threaded structure, 11, a bottom threaded rod, 12, a top threaded rod, 13, a limiting hole, 14, a limiting rod, 15, a ring array collision buffer type rotary strength control mechanism, 151, a main hollow shell for the ring array collision buffer type rotary strength control mechanism, 152, a main hollow section for the ring array collision buffer type rotary strength control mechanism, 153, a rotary column for the ring array collision buffer type rotary strength control mechanism, 154, a semicircular groove structure for the ring array collision buffer type rotary strength control mechanism, 155, an auxiliary hollow section for the ring array collision buffer type rotary strength control mechanism, 156, movable plate for annular array collision buffer type rotation strength control mechanism 157, spiral spring for annular array collision buffer type rotation strength control mechanism 158, push rod for annular array collision buffer type rotation strength control mechanism 159, mounting hole for annular array collision buffer type rotation strength control mechanism 16, rotation rod 17, top connection base plate 18, main bolt hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a bottom mounting substrate 1 and a threaded sleeve 8, wherein a plurality of insertion rods 2 are mounted at the bottom of the bottom mounting substrate 1, rod body mounting dimension limiting type part connecting mechanisms 4 arranged in three annular arrays are mounted at the edge of the upper surface of the bottom mounting substrate 1, a liquid telescopic part butt-joint mechanism 5 is mounted at the top of each rod body mounting dimension limiting type part connecting mechanism 4, a high-pressure pipeline 7 is mounted at a liquid inlet hole part of each liquid telescopic part butt-joint mechanism 5, a liquid pipeline butt-joint port 6 is mounted at the liquid inlet end part of each high-pressure pipeline 7, the top of each liquid telescopic part butt-joint mechanism 5 is mounted on a top mounting substrate 3 through the liquid telescopic part butt-joint mechanism 5, and a threaded interval 9 communicated with two end faces of the threaded sleeve 8 is arranged at the center inside the threaded sleeve 8, threaded sleeve 8 is being located the inner wall of the interval of screw thread 9 is provided with helicitic texture 10, the bottom and the top of the interval of screw thread 8 are connected with bottom threaded rod 11 and top threaded rod 12 through helicitic texture 10 respectively, bottom threaded rod 11 and top threaded rod 12 are opposed the inside spacing hole 13 that all is provided with of end, two a gag lever post 14 is inserted to the inside of spacing hole 13, top mounting substrate 3 and top connecting substrate 17 are installed respectively to the other both ends of bottom threaded rod 11 and top threaded rod 12, top connecting substrate 17's inside is provided with a plurality of main bolt holes 18, the mid-mounting in the threaded sleeve 8 outside is in the inner ring of an annular array conflict buffering formula rotary strength control mechanism 15, annular array conflict buffering formula rotary strength control mechanism 15's outside middle part cup joints a rotary rod 16.

Referring to fig. 2, the rod body installation size limiting type part connecting mechanism 4 includes a connecting plate 41 for a rod body installation size limiting type part connecting mechanism, a bolt hole 42 for a rod body installation size limiting type part connecting mechanism, a hemispherical hollow shell 43 for a rod body installation size limiting type part connecting mechanism, a spherical groove structure 44 for a rod body installation size limiting type part connecting mechanism, a spherical body 45 for a rod body installation size limiting type part connecting mechanism, an installation hole 46 for a rod body installation size limiting type part connecting mechanism, and a plane structure 47 for a rod body installation size limiting type part connecting mechanism; the connecting plate 41 for the rod body installation size limiting type part connecting mechanism is internally provided with a bolt hole 42 for the rod body installation size limiting type part connecting mechanism, the center of the upper surface of the connecting plate 41 for the rod body installation size limiting type part connecting mechanism is provided with a plurality of hemispherical hollow shells 43 for the rod body installation size limiting type part connecting mechanism which are integrated with the connecting plate 41 for the rod body installation size limiting type part connecting mechanism, the inner center of the hemispherical hollow shell 43 for the rod body installation size limiting type part connecting mechanism is provided with a spherical groove structure 44 for the rod body installation size limiting type part connecting mechanism, the hemispherical hollow shell 43 for the rod body installation size limiting type part connecting mechanism is internally provided with a spherical body 45 for the rod body installation size limiting type part connecting mechanism at the position of the spherical groove structure 44 for the rod body installation size limiting type part connecting mechanism, a planar structure 47 for the rod body installation size limiting type component connecting mechanism is arranged at the center of the top of the spherical body 45 for the rod body installation size limiting type component connecting mechanism, and an installation hole 46 for the rod body installation size limiting type component connecting mechanism is arranged at the bottom of the planar structure 47 for the rod body installation size limiting type component connecting mechanism; the volume formed by the inner surface of the spherical groove structure 44 for the rod body installation size limiting type component connecting mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body 45 for the rod body installation size limiting type component connecting mechanism; the bottom ends of the bolt holes 42 for the rod body installation size limiting type component connecting mechanism are installed on the upper surface of the bottom installation base plate 1 and the lower surface of the top installation base plate 2, and one end of the liquid telescopic component butt-joint mechanism 5 is inserted into the installation hole 46 for the rod body installation size limiting type component connecting mechanism.

Referring to fig. 3, the liquid telescopic member docking mechanism 5 includes a hollow rod 51 for the liquid telescopic member docking mechanism, a center hole 52 for the liquid telescopic member docking mechanism, a liquid through hole 53 for the liquid telescopic member docking mechanism, a member mounting port 54 for the liquid telescopic member docking mechanism, a member moving space 55 for the liquid telescopic member docking mechanism, a piston plate 56 for the liquid telescopic member docking mechanism, a coil spring 57 for the liquid telescopic member docking mechanism, and a telescopic rod 58 for the liquid telescopic member docking mechanism; a center hole 52 for a liquid telescopic member docking mechanism is provided in the center inside the hollow rod body 51 for a liquid telescopic member docking mechanism, a liquid through hole 53 for a liquid telescopic member docking mechanism is provided in the center of the center hole 52 for a liquid telescopic member docking mechanism in the longitudinal direction, a member mounting port 54 for a liquid telescopic member docking mechanism is provided at the end of the liquid through hole 53 for a liquid telescopic member docking mechanism, a member moving space 55 for a liquid telescopic member docking mechanism is provided at each of both ends of the center hole 52 for a liquid telescopic member docking mechanism, a piston plate 56 for a liquid telescopic member docking mechanism is mounted on each of both the member moving spaces 55 for a liquid telescopic member docking mechanism at the end facing the inner side, and a telescopic rod 58 for a liquid telescopic member docking mechanism is mounted on each of the centers of both the piston plates 56 for a liquid telescopic member docking mechanism at the end facing the outer side, the rod bodies of the telescopic rods 58 for the two liquid telescopic part docking mechanisms are both sleeved with a compressed spiral spring 57 for the liquid telescopic part docking mechanism, and the end rod bodies of the telescopic rods 58 for the two liquid telescopic part docking mechanisms penetrate through the two ends of the hollow rod body 51 for the liquid telescopic part docking mechanism; one end of the high-pressure pipe 7 is installed inside the component installation port 54 for the liquid telescopic component docking mechanism; both ends of the telescopic rod 58 for the liquid telescopic member docking mechanism are respectively installed inside the mounting holes 46 for the two-rod installation dimension limiting type member coupling mechanism.

Referring to fig. 4, the circular array collision buffer type rotation strength control mechanism 15 includes a main hollow housing 151 for the circular array collision buffer type rotation strength control mechanism, a main hollow section 152 for the circular array collision buffer type rotation strength control mechanism, a rotation column 153 for the circular array collision buffer type rotation strength control mechanism, a semicircular groove structure 154 for the circular array collision buffer type rotation strength control mechanism, an auxiliary hollow section 155 for the circular array collision buffer type rotation strength control mechanism, a movable plate 156 for the circular array collision buffer type rotation strength control mechanism, a coil spring 157 for the circular array collision buffer type rotation strength control mechanism, a push rod 158 for the circular array collision buffer type rotation strength control mechanism, and a mounting hole 159 for the circular array collision buffer type rotation strength control mechanism; the center of the main hollow shell 151 inside the main hollow shell for the circular array conflict buffer type rotary strength control mechanism is the main hollow section 152 for the circular array conflict buffer type rotary strength control mechanism, the main hollow shell 151 for the circular array conflict buffer type rotary strength control mechanism is positioned inside the main hollow section 152 for the circular array conflict buffer type rotary strength control mechanism, a rotary column 153 for the circular array conflict buffer type rotary strength control mechanism is sleeved inside the main hollow section 152 for the circular array conflict buffer type rotary strength control mechanism, the inside of the main hollow shell 151 for the circular array conflict buffer type rotary strength control mechanism is an auxiliary hollow section 155 for the circular array conflict buffer type rotary strength control mechanism, the inside of the auxiliary hollow section 155 for the circular array conflict buffer type rotary strength control mechanism is positioned at one end face of the main hollow section 152 for the circular array conflict buffer type rotary strength control mechanism, a movable plate 156 for the circular array conflict buffer type rotary strength control mechanism is placed on one end face of the main hollow section 152, annular array conflicts buffer formula rotary strength control mechanism with vice cavity interval 155 lieing in annular array conflicts buffer formula rotary strength control mechanism with fixed annular array conflict buffer formula rotary strength control mechanism with coil spring 157 between the one end of fly leaf 156, an end face of fly leaf 156 for annular array conflict buffer formula rotary strength control mechanism is provided with the annular array conflict buffer formula rotary strength control mechanism with its integral type structure and uses push rod 158, just the annular array conflicts buffer formula rotary strength control mechanism with push rod 158 running through the annular array conflict buffer formula rotary strength control mechanism with main cavity housing 151, and lies in the annular array conflicts buffer formula rotary strength control mechanism with the inside of main cavity interval 152, the annular array conflicts buffer formula rotary strength control mechanism with push rod 158 lieing in the annular array conflicts buffer formula rotary strength control mechanism with the one end of main cavity interval 152 for the annular array conflict buffer formula rotary strength control mechanism is half The circular structure, the side of the circular array collision buffer type rotation intensity control mechanism used rotary column 153 is provided with a semicircular groove structure 154 for placing the end part of the push rod 158 for the circular array collision buffer type rotation intensity control mechanism used rotary column 153, the center of the circular array collision buffer type rotation intensity control mechanism used rotary column 153 is provided with a mounting hole 159 for the circular array collision buffer type rotation intensity control mechanism, and the inside of the mounting hole 159 for the circular array collision buffer type rotation intensity control mechanism is provided with an outer ring of the threaded sleeve 8; the structural shape of the end of the push rod 158 for the annular array collision buffer type rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure 154 for the annular array collision buffer type rotation strength control mechanism; the initial length of the helical spring 157 for the buffer type rotary strength control mechanism of the annular array is greater than the length of the auxiliary hollow section 155 for the buffer type rotary strength control mechanism of the annular array, and the elasticity of the helical spring 157 for the buffer type rotary strength control mechanism of the annular array is smaller than the maximum rotary strength of the damaged thread structure.

The specific use mode is as follows: during the operation of the invention, three inserting rod bodies 2 are inserted into the positions right below the positions to be installed, then three liquid pipeline butt joint ports 6 are respectively communicated with main liquid discharge holes in three liquid compression devices for pipeline butt joint, firstly, the three liquid compression devices for pipeline butt joint use a three-point telescopic principle to carry out telescopic treatment on three liquid telescopic component butt joint mechanisms 5 so that the inclination angle of a top installation base plate 17 is consistent with the angle of the positions to be butted, then the top installation base plate 17 is fixedly connected with a bottom connecting plate in a water level adjusting device for pipeline butt joint through bolts, and a rotating rod 16 is rotated, so that the longitudinal height adjustment can be realized under the linkage effect of the components and the action of a reverse thread structure.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.