CN111853351A

CN111853351A - Rigid anti-seismic support system for air pipe

Info

Publication number: CN111853351A
Application number: CN202010674901.4A
Authority: CN
Inventors: 江迎春; 王德银
Original assignee: Hefei Yuankang Environment Science & Technology Co ltd
Current assignee: Hefei Yuankang Environment Science & Technology Co ltd
Priority date: 2020-07-14
Filing date: 2020-07-14
Publication date: 2020-10-30
Anticipated expiration: 2040-07-14
Also published as: CN111853351B

Abstract

The invention provides a rigid anti-seismic support system for an air duct, which comprises shells, a support frame, bottom rods, ejector rods, fixed seats, semicircular guide rails, arc-shaped connecting frames, connecting rods, telescopic rod assemblies and transmission rods, wherein the two shells are hinged together, the four bottom rods are respectively arranged in the shells, the ejector rods are movably arranged in the bottom rods, the fixed seats are rotatably arranged at the end parts of the ejector rods, the semicircular guide rails are arranged at the end parts of the shells, the arc-shaped connecting frames are movably arranged in the semicircular guide rails, and the arc-shaped connecting frames are respectively and rotatably connected with the ejector rods through the connecting. Through the combination of two shells and realize under the effect of support frame with the rigid contact of tuber pipe, guaranteed the antidetonation effect, and drive the ejector pin through rotating the arcuation link and along the bottom bar motion, realize the clamp tight to the tuber pipe, and be connected with the ejector pin rotation at the fixed seat end, can adjust its contact angle so when contacting with the tuber pipe, consequently all can press from both sides tightly when the square or circular tuber pipe of face.

Description

Rigid anti-seismic support system for air pipe

Technical Field

The invention relates to the technical field of anti-seismic connecting pieces, in particular to a rigid anti-seismic support system for an air pipe.

Background

Publication number is CN206904368U provides a rectangle tuber pipe bilateral direction antidetonation strutting arrangement, and the channel-section steel that draws through one side is stretched straightly to metal crate, and then has guaranteed the antidetonation effect of rigidity to above-mentioned prior art only supports the rectangle tuber pipe, and the tuber pipe divide into square and circular, and consequently above-mentioned prior art's adaptability is relatively poor, only carries out the antidetonation installation to the rectangle tuber pipe.

Disclosure of Invention

The invention aims to provide a rigid anti-seismic support system for an air pipe, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an tuber pipe rigidity antidetonation mounting system, includes shell, support frame, sill bar, ejector pin, fixing base, semi-circular guide rail, arcuation link, connecting rod, telescopic link subassembly and transfer line, the side of going up of shell is equipped with the support frame, wherein:

the two shells are hinged together through pin shafts, four bottom rods are obliquely arranged in the shells, wherein four bottom rods inside the shell are respectively arranged at two ends of the shell in pairs, a top rod is movably arranged in each bottom rod, the end part of the ejector rod is rotatably provided with a fixed seat, the two semicircular guide rails are respectively arranged at the end parts of the two shells, an arc-shaped connecting frame is movably arranged in the semicircular guide rail, the arc-shaped connecting frame is respectively and rotatably connected with the ejector rod through a connecting rod, the arc-shaped connecting frame positioned at the end part of the shell at the upper side is connected with the ejector rod positioned in the shell at the upper side, the arc-shaped connecting frame positioned at the end part of the shell at the lower side is connected with the ejector rod positioned in the shell at the lower side, two ejector rods positioned on the same end surface in the shell are connected through the telescopic rod assembly, and two ejector rods positioned on the same side surface in the shell are connected through the transmission rod.

Preferably, the fixing base passes through the bracing piece and rotates the tip of installing at the ejector pin, and the cover is equipped with the torsional spring on the bracing piece, and wherein the one end of torsional spring extends to in the bracing piece, the other end extends to in the fixing base.

Preferably, the bottom rod is arranged at an angle greater than zero and less than ninety degrees with respect to the bottom surface of the housing.

Preferably, the threaded hole on the side surface of the arc-shaped connecting frame is provided with a fastening bolt, and the end surface of the fastening bolt is in contact with the semicircular guide rail.

Preferably, the end part of the transmission rod is fixedly connected with the ejector rod.

Preferably, the telescopic rod assembly comprises a sleeve and telescopic rods, the two ends of the sleeve are respectively and movably provided with the telescopic rods, and the telescopic rods are fixedly connected with the ejector rods.

Preferably, the side of the housing located at the lower side is provided with a support block, wherein the housing located at the upper side has a support effect when turned ninety degrees.

Compared with the prior art, the invention has the beneficial effects that:

the invention ensures the anti-seismic effect by combining the two shells and realizing rigid contact with the air pipes under the action of the support frame, the arc-shaped connecting frame is rotated to drive the ejector rod to move along the bottom rod, so as to realize the clamping of the air pipes, and the fixed seat end is rotatably connected with the ejector rod, so that the contact angle of the air pipes can be adjusted when the air pipes are contacted, and the air pipes can be clamped when facing square or round air pipes, thereby the device can realize the anti-seismic fixation of the air pipes with different shapes.

Drawings

FIG. 1 is a three-dimensional schematic view of the front side of the overall structure of the present invention;

FIG. 2 is a three-dimensional schematic view of the rear side of the overall structure of the present invention;

FIG. 3 is a cross-sectional view of the overall structure of the present invention;

fig. 4 is a three-dimensional schematic view of the two housings of the present invention in an open state.

In the figure: the device comprises a shell 1, a support frame 2, a bottom rod 3, a top rod 4, a fixing seat 5, a semicircular guide rail 6, an arc-shaped connecting frame 7, a connecting rod 8, a telescopic rod component 9, a transmission rod 10, a support block 11, a support rod 51, a torsion spring 52, a fastening bolt 71, a sleeve 91 and a telescopic rod 92.

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.

Example (b):

referring to fig. 1 to 4, the present invention provides a technical solution:

the utility model provides an tuber pipe rigidity antidetonation mounting system, includes shell 1, support frame 2, sill bar 3, ejector pin 4, fixing base 5, semicircular guide rail 6, arcuation link span 7, connecting rod 8, telescopic link subassembly 9 and transfer line 10, wherein:

The two shells 1 are hinged together through a pin shaft, so that the two shells 1 can be opened and closed to fix the air pipe conveniently, the upper side surface of each shell 1 is provided with a support frame 2, the support frame 2 is used for being connected with a wall surface or other fixed positions, the side surface of each shell 1 positioned on the lower side is provided with a support block 11, the support blocks 11 play a supporting role when the shell 1 positioned on the upper side is turned to ninety degrees, four bottom rods 3 are obliquely arranged inside the shell 1, the included angle between each bottom rod 3 and the bottom surface of the shell 1 is greater than zero degrees and less than ninety degrees, every two four bottom rods 3 inside the shell 1 are respectively positioned at two ends of the shell 1, the bottom rods 3 are oppositely arranged, ejector rods 4 are movably arranged in the bottom rods 3, the fixing seats 5 are rotatably arranged at the end parts of the ejector rods 4 through support rods 51, and the support, the fixing base 5 is rotatably mounted on the supporting rod 51, so that the angle of the fixing base 5 can be adjusted in a self-adaptive manner when the air duct is fixed, and the fixing base 5 can be in contact with the outer side surface of the air duct to achieve a fixing effect, the supporting rod 51 is sleeved with a torsion spring 52, wherein one end of the torsion spring 52 extends into the supporting rod 51, and the other end extends into the fixing base 5, so that the torsion spring 52 can be elastically deformed after the fixing base 5 rotates, and further the torsion spring 52 can drive the fixing base 5 to restore to an original position when the air duct is separated from the fixing base 5, the two semicircular guide rails 6 are respectively arranged at the end parts of the two shells 1, the arc-shaped connecting frame 7 is movably mounted in the semicircular guide rails 6, the threaded holes in the side surface of the arc-shaped connecting frame 7 are provided with fastening bolts 71, the end surfaces of the fastening bolts, the arc connecting frames 7 are respectively connected with the top rods 4 in a rotating way through connecting rods 8, wherein one end of each connecting rod 8 is connected with the arc connecting frame 7 through a pin shaft, the other end of each connecting rod 8 is connected with a supporting rod 51 arranged at the end part of the top rod 4 in a rotating way, when the arc connecting frames 7 are rotated, the top rods 4 can drive the top rods 4 to extend or contract along the bottom rods 3, the arc connecting frames 7 arranged at the end parts of the upper shells 1 are connected with the top rods 4 arranged in the upper shells 1, the arc connecting frames 7 arranged at the end parts of the lower shells 1 are connected with the top rods 4 arranged in the lower shells 1, therefore, the parts in the two shells 1 are in a mutually independent state, the mutual interference of the internal components can not occur when the two shells 1 are overturned, the two top rods 4 arranged at the same end surface in the shells 1 are connected through telescopic rod assemblies 9, the both ends of sleeve 91 have telescopic link 92 respectively movable mounting, and telescopic link 92 and ejector pin 4 fixed connection, can drive when ejector pin 4 that is connected with connecting rod 8 moves rather than another ejector pin 4 motion that is in same terminal surface, and lie in two ejector pins 4 of same side in the shell 1 and pass through transfer line 10 and connect, the tip and the ejector pin 4 fixed connection of transfer line 10, can drive when ejector pin 4 that is connected with connecting rod 8 moves rather than another ejector pin 4 motion that is in same side, consequently, be in the inside ejector pin 4 of same shell 1 and realize interconnect, can drive its and three ejector pin 4 synchronous motion so when one of them ejector pin 4 moves, and then reach the tight fixed effect of clamp to the tuber pipe.

The installation principle of the invention is as follows: the housings 1 are then turned over so that the two housings 1 are in an open position, as shown in particular in figure 4, then the opened shell 1 is moved to the side of the air pipe, at the moment, the two shells 1 are closed and the shells 1 are fixed by bolts, the supporting frame 2 is connected with a connecting component on the wall surface or other installation areas, and then the installation of the shells 1 is completed, then the arc-shaped connecting frame 7 is rotated to drive the connecting rod 8 to move, at the moment, the connecting rod 8 drives the mandril 4 connected with the connecting rod to extend out, the top rods 4 are connected through the telescopic rod component 9 and the transmission rod 10, so that when one top rod 4 extends out, the top rod 4 and the three top rods 4 synchronously move along with the top rod, the extending top rod 4 is close to the air pipe, the air pipe is fixed by the fixing seat 5 at the end part of the ejector rod 4, and finally the fastening bolt 71 is locked to limit the position of the arc-shaped connecting frame 7, so that the air pipe is rigidly clamped and connected to achieve the rigid anti-seismic effect;

when the square air pipe faces, the fixed seat 5 can rotate around the support rod 51, so that the end surface of the fixed seat 5 is parallel to the upper side surface and the lower side surface of the square air pipe, and the effect of fixing the square air pipe is achieved;

and the angle of fixing base 5 can the small-angle adjustment when facing circular tuber pipe, and then makes fixing base 5 can contact with the outer disc of circular tuber pipe, and then reaches the effect fixed to circular tuber pipe.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an tuber pipe rigidity antidetonation mounting system, includes shell (1), support frame (2), sill bar (3), ejector pin (4), fixing base (5), semi-circular guide rail (6), arcuation link (7), connecting rod (8), telescopic link subassembly (9) and transfer line (10), the side of going up of shell (1) is equipped with support frame (2), its characterized in that:

the two shells (1) are hinged together through a pin shaft, four bottom rods (3) are obliquely arranged in the shells (1), wherein every two of the four bottom rods (3) in the shells (1) are respectively positioned at two ends of the shells (1), ejector rods (4) are movably arranged in the bottom rods (3), a fixed seat (5) is rotatably arranged at the end parts of the ejector rods (4), two semicircular guide rails (6) are respectively arranged at the end parts of the two shells (1), arc-shaped connecting frames (7) are movably arranged in the semicircular guide rails (6), the arc-shaped connecting frames (7) are respectively rotatably connected with the ejector rods (4) through connecting rods (8), the arc-shaped connecting frames (7) at the end parts of the shells (1) at the upper side are connected with the ejector rods (4) in the shells (1) at the upper side, the arc-shaped connecting frames (7) at the end parts of the shells (1) at the lower side are connected with the ejector rods (4) in the shells (1) at the, two ejector rods (4) positioned on the same end face in the shell (1) are connected through a telescopic rod assembly (9), and two ejector rods (4) positioned on the same side face in the shell (1) are connected through a transmission rod (10).

2. A rigid anti-seismic support system for an air duct according to claim 1, wherein: the fixing seat (5) is rotatably installed at the end part of the ejector rod (4) through the supporting rod (51), the supporting rod (51) is sleeved with a torsion spring (52), one end of the torsion spring (52) extends into the supporting rod (51), and the other end of the torsion spring extends into the fixing seat (5).

3. A rigid anti-seismic support system for an air duct according to claim 1, wherein: the included angle between the bottom rod (3) and the bottom surface of the shell (1) is larger than zero and smaller than ninety degrees.

4. A rigid anti-seismic support system for an air duct according to claim 1, wherein: the threaded holes in the side faces of the arc-shaped connecting frames (7) are provided with fastening bolts (71), and the end faces of the fastening bolts (71) are in contact with the semicircular guide rails (6).

5. A rigid anti-seismic support system for an air duct according to claim 1, wherein: the end part of the transmission rod (10) is fixedly connected with the ejector rod (4).

6. A rigid anti-seismic support system for an air duct according to claim 1, wherein: the telescopic rod assembly (9) comprises a sleeve (91) and a telescopic rod (92), the two ends of the sleeve (91) are respectively and movably provided with the telescopic rod (92), and the telescopic rod (92) is fixedly connected with the ejector rod (4).

7. A rigid anti-seismic support system for an air duct according to claim 1, wherein: the lateral surface of the shell (1) positioned at the lower side is provided with a supporting block (11), wherein the supporting block (11) plays a supporting role when the shell (1) positioned at the upper side is turned for ninety degrees.