CN111853439A

CN111853439A - Steel wire rope anti-seismic support system for suspension equipment

Info

Publication number: CN111853439A
Application number: CN202010652725.4A
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: 2020-07-08
Filing date: 2020-07-08
Publication date: 2020-10-30
Anticipated expiration: 2040-07-08
Also published as: CN111853439B

Abstract

The invention discloses a steel wire rope anti-seismic support system of suspension equipment, which comprises a main support, a suspension rod, suspension equipment, a steel wire rope connecting column and a steel wire rope I, wherein a damping device is movably arranged below the suspension equipment and comprises an inner box body and an outer box body, a plurality of damping springs I are connected between the inner box body and the outer box body, a through groove is formed in the lower part of the outer box body, transverse damping rods are fixedly connected to two sides of each longitudinal damping rod, a fixed base is arranged below the outer box body, a steel wire rope II is fixedly connected to the steel wire rope I, and a plurality of fixing devices are arranged between the steel wire rope II and the steel wire rope I. Is convenient to use and is very worthy of popularization.

Description

Steel wire rope anti-seismic support system for suspension equipment

Technical Field

The invention relates to the technical field of suspension equipment earthquake resistance, in particular to a steel wire rope earthquake-resistant support system for suspension equipment.

Background

In many places where it is necessary to use a suspension device such as an electromechanical device, etc., in order to provide sufficient support to the suspension device, it is common to attach a bracket to the suspension device, and the existing brackets can be classified into two types according to the rigidity and flexibility of the support member: rigid support and flexible support, two kinds of advantage and disadvantage respectively. The rigid support has better support performance, but has poorer shock resistance; flexible stents can provide good shock resistance but do not provide sufficient support and often require a large number of steel cables to provide the support.

In the prior art, an air duct equipment flexible anti-seismic support system with application number "201710464652.4", including upper bracket pole and lower bracket pole, support rope, pressure rope and the locking post that the interval set up, realize the flexible support and the clamp tight to air duct equipment through the cooperation of support rope and pressure rope, alleviateed damage and the influence to support and air duct equipment.

However, the above-mentioned technologies still have more problems, if adopt the stay cord and compress tightly the rope and come to press from both sides tightly the tuber pipe equipment, stay cord and compress tightly the rope must tightly detain on the tuber pipe equipment, when compressing tightly rope and tuber pipe and having certain gap, very easily cause the slope of tuber pipe and drop even, have great risk, when the tuber pipe receives horizontal vibrations, the antidetonation support can't provide good antidetonation effect, and simultaneously, stay cord and compress tightly the work constantly, cause wire rope's fracture easily, there is very big potential safety hazard.

Disclosure of Invention

The invention aims to provide a steel wire rope anti-seismic support system for suspension equipment, which aims to solve the problems in the background technology.

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

a steel wire rope anti-seismic support system for suspension equipment comprises a main support, a suspension rod, suspension equipment, a steel wire rope connecting column and a steel wire rope I, wherein the suspension rod is fixedly connected below the main support, the steel wire rope connecting columns are respectively and fixedly connected to two sides of the main support, the suspension equipment is fixedly connected below the suspension rod, two ends of one steel wire rope are respectively and fixedly connected to the steel wire rope connecting columns, and a damping device is movably arranged below the suspension equipment;

the damping device comprises an inner box body and an outer box body, suspension equipment is movably connected with the inner box body, the inner box body is movably connected inside the outer box body, a plurality of damping springs I are connected between the inner box body and the outer box body, supporting wheels I are fixedly connected to two sides of the outer box body, a first steel wire rope passing groove is formed in the outer box body, and the first steel wire rope movably passes through the supporting wheels I and the first steel wire rope passing groove;

a through groove is formed in the lower portion of the outer box body, a second damping spring is fixedly connected to the upper wall in the through groove, one end, far away from the upper wall in the through groove, of the second damping spring is fixedly connected with a longitudinal damping rod, two sides of the longitudinal damping rod are fixedly connected with transverse damping rods respectively, the transverse damping rods penetrate through the through groove, the transverse damping rods extend into transverse damping cylinders, a third damping spring is fixedly connected between the transverse damping rods and the transverse damping cylinders, one end, far away from the outer box body, of each transverse damping cylinder is fixedly connected with a first connecting rod, and one end, far away from the transverse damping cylinders, of each connecting rod is fixedly connected with a movable ring;

A fixed base is arranged below the outer box body, a moving groove is formed in the upper portion of the fixed base, the transverse shock absorption rod extends into the moving groove, a steel wire rope passing groove II is formed in the lower portion of the fixed base, and two sides of the fixed base are fixedly connected with supporting wheels II;

the first steel wire rope is fixedly connected with a second steel wire rope, two ends of the second steel wire rope are fixedly connected to symmetrical positions of two sides of the first steel wire rope, the second steel wire rope movably penetrates through the movable ring, the second supporting wheel and the second steel wire rope passing groove, and a plurality of fixing devices are arranged between the second steel wire rope and the first steel wire rope.

Preferably, fixing device is including solid fixed ring one, and solid fixed ring one fixed connection is on wire rope two, gu fixed ring one is close to one side fixedly connected with connecting rod two of wire rope one, gu fixed ring one's one end fixedly connected with solid fixed cylinder is kept away from to connecting rod two, and gu fixed cylinder internal connection has the internal thread, gu the inside activity of fixed cylinder passes threaded lead screw, fixedly connected with rotary rod on the threaded lead screw, and threaded lead screw keeps away from the one end fixedly connected with carousel of solid fixed cylinder, threaded lead screw keeps away from the one end activity of solid fixed cylinder and stretches into the connecting plate, and the connecting plate is inside to be seted up with carousel complex carousel groove, one side fixedly connected with connecting rod three that solid fixed cylinder was kept away from to the connecting plate, the one end fixedly connected with solid fixed ring two that the connecting plate.

Preferably, a damping spring four is fixedly connected between the main bracket and the suspension rod.

Preferably, an elastic gasket is fixedly connected between the outer box body and the fixed base, and the longitudinal damping rod penetrates through the elastic gasket.

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

1. the device uses the suspension rod to suspend the suspension equipment, reduces the supporting pressure of the first steel wire rope, improves the service life and the safety of the whole device, and simultaneously adopts the supporting wheels to provide supporting points for the steel wire rope, so that the steel wire rope is stressed uniformly;

2. the second steel wire rope of the device serves as a transverse anti-seismic support of the first steel wire rope, and the relative positions of the first steel wire rope and the second steel wire rope are fixed by the fixing device, so that the second steel wire rope serves as the transverse anti-seismic support and has flexibility and rigidity;

3. the horizontal shock absorber pole fixed connection of this device is on vertical shock absorber pole, "fills can" to damping spring three in vertical absorbing for damping device wholly has higher cooperation, improves the antidetonation effect of integrated device.

The invention provides a steel wire rope anti-seismic support system for suspension equipment, which can provide good transverse anti-seismic and longitudinal anti-seismic effects for the suspension equipment, reduce the supporting pressure of the steel wire rope, improve the service life and the safety of the whole device, is convenient to use and is very worthy of popularization.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the area A in FIG. 1;

fig. 3 is an enlarged schematic view of region B in fig. 1.

In the figure: the device comprises a main bracket 1, a suspension rod 2, a suspension device 3, a steel wire rope connecting column 4, a steel wire rope I5, a damping device 6, an inner box body 61, an outer box body 62, a steel wire rope 621 penetrating through a groove I, a groove 622, a damping spring II 623, a damping spring longitudinal rod 624, a transverse damping rod 625, a transverse damping cylinder 626, a damping spring III 627, a connecting rod I628, a movable ring 629, a damping spring I63, a supporting wheel I64, a fixed base 7, a moving groove 71, a steel wire rope 72, a supporting wheel II 73, a steel wire rope II 8, a fixing device 9, a fixing ring I91, a connecting rod II 92, a fixing cylinder 93, a threaded screw rod 94, a rotating rod 941, a turntable 942, a 95 connecting plate, a connecting rod III 96, a fixing ring II 97, a damping spring IV.

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. 1-3, the present invention provides a technical solution:

a steel wire rope anti-seismic support system for suspension equipment comprises a main support 1, a suspension rod 2, suspension equipment 3, a steel wire rope connecting column 4 and a steel wire rope I5, wherein the suspension rod 2 is fixedly connected below the main support 1, the main support 1 plays a supporting role for the whole device, the steel wire rope connecting columns 4 are respectively and fixedly connected to two sides of the main support 1, the steel wire rope I5 is fixed by the steel wire rope connecting columns 4, the suspension equipment 3 is fixedly connected below the suspension rod 2, the suspension rod 2 suspends the suspension equipment 3 to reduce the stress of the steel wire rope I5, two ends of the steel wire rope I5 are respectively and fixedly connected to the steel wire rope connecting columns 4, and a damping device 6 is movably arranged below;

the damping device 6 comprises an inner box body 61 and an outer box body 62, the suspension device 3 is movably connected with the inner box body 62, the suspension device 3 is placed in the inner box body 61, the inner box body 61 is movably connected inside the outer box body 62, a plurality of damping springs I63 are connected between the inner box body 61 and the outer box body 62, when the suspension device 3 is subjected to horizontal force, the suspension device 3 extrudes the inner box body 61, the inner box body 61 extrudes or lengthens the damping springs I63, the damping springs I63 perform a damping and buffering effect on the inner box body 61 through deformation, and further perform a damping and buffering effect on the suspension device 3, two sides of the outer box body 62 are fixedly connected with supporting wheels I64, the supporting wheels I64 provide supporting points for the steel wire ropes I5, so that the steel wire ropes I5 are uniformly stressed, the outer box body 62 is provided with the steel wire ropes I621 through the grooves I, and the steel wire;

A through groove 622 is formed in the lower portion of the outer box body 2, a second damping spring 623 is fixedly connected to the inner upper wall of the through groove 622, one end, far away from the inner upper wall of the through groove 622, of the second damping spring 623 is fixedly connected with a longitudinal damping rod 624, when the suspension device 3 is subjected to downward force, the suspension device 3 extrudes the inner box body 61 to move downwards, the inner box body 61 extrudes the outer box body 62 to move downwards, the longitudinal damping rod 624 extrudes the moving groove 71 downwards, the fixed base 7 is fixed, when the longitudinal damping rod 624 is contacted with the bottom wall of the moving groove 71, the outer box body 62 continues to move downwards, the second damping spring 623 is extruded by the inner wall of the through groove 622, the second damping spring 623 plays a damping and buffering role through deformation, transverse damping rods 625 are fixedly connected to two sides of the longitudinal damping rod 624 respectively, the transverse damping rods 625 penetrate through the through groove 622, a transverse damping cylinder 626 extends into the transverse damping rod 625, and a third, when the suspension device 3 is subjected to horizontal force, the suspension device 3 enables the outer box body 62 to horizontally move by extruding the inner box body 61, the outer box body 62 drives the transverse shock absorption rod 625 to horizontally move inside the transverse shock absorption cylinder 626, a shock absorption spring tri 627 between the transverse shock absorption rod 625 and the transverse shock absorption cylinder 626 is compressed or elongated, and the shock absorption spring tri 627 plays a shock absorption and buffering role through deformation;

A fixed base 7 is arranged below the outer box body 62, a moving groove 71 is formed in the upper portion of the fixed base 7, a transverse shock absorption rod 624 extends into the moving groove 71, the transverse shock absorption rod 624 is movably connected with the moving groove 71, a steel wire rope passing groove II 72 is formed in the lower portion of the fixed base 7, two supporting wheels 73 are fixedly connected to two sides of the fixed base 7, and the supporting wheels 73 provide supporting points for the steel wire rope II 8, so that the steel wire rope II 8 is stressed uniformly;

the steel wire rope II 8 is fixedly connected to the first steel wire rope 5, two ends of the steel wire rope II 8 are fixedly connected to two symmetrical positions of two sides of the first steel wire rope 5, the second steel wire rope 8 movably penetrates through the movable ring 629, the supporting wheels II 73 and the steel wire rope passing groove II 72, a plurality of fixing devices 9 are arranged between the second steel wire rope 8 and the first steel wire rope 5, the fixing devices 9 limit the distance between the first steel wire rope 5 and the second steel wire rope 8, the position of the fixing base 7 is fixed, and the second steel wire rope 8 provides a transverse shock-resistant support for the first steel wire rope 5.

Specifically, the fixing device 9 includes a first fixing ring 91, the first fixing ring 91 is fixedly connected to a second steel wire rope 8, one side of the first fixing ring 91, which is close to the first steel wire rope 5, is fixedly connected with a second connecting rod 92, one end of the second connecting rod 92, which is far away from the first fixing ring 91, is fixedly connected with a first fixing cylinder 93, an internal thread is connected inside the first fixing cylinder 93, a threaded lead screw 94 movably penetrates through the inside of the first fixing cylinder 93, the threaded lead screw 94 is in fit connection with the internal thread inside the first fixing cylinder 93, the threaded lead screw 94 rotates into the inside of the first fixing cylinder 93, so that the distance between the first steel wire rope 5 and the steel wire rope 8 is adjusted and then fixed, a rotating rod 941 is fixedly connected to the threaded lead screw 94, the rotating rod 941 is rotated into the first fixing cylinder 93, a turntable 942 is fixedly connected to one end of, and a turntable groove matched with the turntable 942 is formed in the connecting plate 95, the turntable 942 rotates in the turntable groove in the connecting plate 95, so that the connecting plate 95 is not driven to rotate together when the threaded screw 94 rotates, one side of the connecting plate 95 far away from the fixed cylinder 93 is fixedly connected with a third connecting rod 96, one end of the third connecting rod 96 far away from the connecting plate 95 is fixedly connected with a second fixing ring 97, and the second fixing ring 97 is fixedly connected to the first steel wire rope 5.

Specifically, a damping spring four 10 is fixedly connected between the main bracket 1 and the suspension rod 2, and the damping spring four 10 improves the longitudinal shock resistance of the suspension device 3.

Specifically, an elastic pad 11 is fixedly connected between the outer box 62 and the fixing base 7, and the longitudinal damping rod 624 penetrates through the elastic pad 11, when the outer box 62 moves downward, the outer box 62 extrudes the elastic pad 11, and the elastic pad 11 plays a role in damping and buffering through deformation.

The working principle is as follows: when the suspension device 3 is subjected to an upward force, the suspension device 3 presses the suspension rod 2 upward, the suspension rod 2 presses the damper spring four 10 upward, and the damper spring four 10 is subjected to force compression;

when the suspension device 3 is subjected to downward force, the suspension device 3 pulls the suspension rod 2 downwards, the suspension rod 2 stretches the damper spring IV 10 downwards, the damper spring IV 10 is stressed and stretched, the suspension device 3 extrudes the inner box body 61 to move downwards, the inner box body 61 extrudes the outer box body 62 to move downwards, the outer box body 62 extrudes the elastic gasket 11, the elastic gasket 11 is stressed and compressed, the longitudinal damper rod 624 extrudes the moving groove 71 downwards, the fixed base 7 is fixed, when the longitudinal damper rod 624 is contacted with the moving groove 71, the inner wall of the through groove 622 extrudes the damper spring II 623, and the damper spring II 623 is stressed and compressed;

When the suspension device 3 is subjected to horizontal force, the suspension device 3 presses the inner box body 61, the inner box body 61 presses or lengthens the first damping spring 63, the outer box body 62 drives the transverse damping rod 625 to horizontally move in the transverse damping cylinder 626, and the third damping spring 627 between the transverse damping rod 625 and the transverse damping cylinder 626 compresses or lengthens;

when the suspension device 3 is subjected to downward and transverse forces simultaneously, during the downward movement of the suspension device 3, the longitudinal shock-absorbing rod 624 drives the transverse shock-absorbing rod 625 to move downward, the transverse shock-absorbing rod 625 extrudes the transverse shock-absorbing cylinder 626 to move downward, the distance between the movable ring 629 and the transverse shock-absorbing rod 625 is shortened along with the downward movement of the transverse shock-absorbing rod 625, so that the distance between the transverse shock-absorbing rod 625 and the transverse shock-absorbing cylinder 626 is shortened, the shock-absorbing spring tri 627 is compressed, the elastic potential energy in the shock-absorbing spring tri 627 is increased, and the shock-absorbing spring tri 627 can resist larger transverse shock.

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 a suspension device wire rope antidetonation support system, includes main support (1), suspension rod (2), suspends equipment (3) in midair, wire rope spliced pole (4) and wire rope (5), main support (1) below fixedly connected with hangs jib (2), and each fixedly connected with wire rope spliced pole (4) in main support (1) both sides, suspension rod (2) below fixedly connected with suspends equipment (3) in midair, wire rope (5) both ends difference fixed connection is on wire rope spliced pole (4), its characterized in that: a damping device (6) is movably arranged below the suspension equipment (3);

the damping device (6) comprises an inner box body (61) and an outer box body (62), the suspension equipment (3) is movably connected with the inner box body (62), the inner box body (61) is movably connected inside the outer box body (62), a plurality of damping springs I (63) are connected between the inner box body (61) and the outer box body (62), two sides of the outer box body (62) are fixedly connected with supporting wheels I (64), a steel wire rope passes through a groove I (621) in the outer box body (62), and the steel wire rope I (5) movably passes through the supporting wheels I (64) and the steel wire rope passes through the groove I (621);

a through groove (622) is formed in the lower portion of the outer box body (2), a second damping spring (623) is fixedly connected to the inner upper wall of the through groove (622), one end, far away from the inner upper wall of the through groove (622), of the second damping spring (623) is fixedly connected with a longitudinal damping rod (624), two sides of the longitudinal damping rod (624) are respectively and fixedly connected with a transverse damping rod (625), the transverse damping rod (625) penetrates through the through groove (622), a transverse damping cylinder (626) extends into the transverse damping rod (625), a third damping spring (627) is fixedly connected between the transverse damping rod (625) and the transverse damping cylinder (626), one end, far away from the outer box body (62), of the transverse damping cylinder (626) is fixedly connected with a first connecting rod (628), and one end, far away from the transverse damping cylinder (626), of the first connecting rod (628) is fixedly connected with a movable ring (629;

A fixed base (7) is arranged below the outer box body (62), a moving groove (71) is formed in the upper portion of the fixed base (7), a transverse shock absorption rod (624) extends into the moving groove (71), a steel wire rope passing groove II (72) is formed in the lower portion of the fixed base (7), and two sides of the fixed base (7) are fixedly connected with supporting wheels II (73);

the steel wire rope I (5) is fixedly connected with a steel wire rope II (8), two ends of the steel wire rope II (8) are fixedly connected to symmetrical positions of two sides of the steel wire rope I (5), the steel wire rope II (8) movably penetrates through the movable ring (629), the supporting wheel II (73) and the steel wire rope passing groove II (72), and a plurality of fixing devices (9) are arranged between the steel wire rope II (8) and the steel wire rope I (5).

2. A suspension device wire rope seismic brace system as claimed in claim 1, wherein: fixing device (9) including solid fixed ring one (91), and solid fixed ring one (91) fixed connection on wire rope two (8), solid fixed ring one (91) is close to one side fixedly connected with connecting rod two (92) of wire rope one (5), the one end fixedly connected with solid fixed cylinder (93) of solid fixed ring one (91) is kept away from to connecting rod two (92), and solid fixed cylinder (93) internal connection has the internal thread, gu fixed cylinder (93) inside activity is passed threaded lead screw (94), fixedly connected with rotary rod (941) on threaded lead screw (94), and threaded lead screw (94) keep away from the one end fixedly connected with carousel (942) of solid fixed cylinder (93), the one end activity that solid fixed cylinder (93) was kept away from to threaded lead screw (94) is stretched into connecting plate (95), and connecting plate (95) inside set up with carousel groove that carousel (942) complex, one side fixedly connected with connecting rod three (96) of solid fixed cylinder (93) are kept away from to connecting plate (95), one end fixedly connected with of connecting rod three (96) far away from connecting plate (95) is fixed ring two (97), and fixed ring two (97) fixed connection is on wire rope (5).

3. A suspension device wire rope seismic brace system as claimed in claim 1, wherein: and a damping spring IV (10) is fixedly connected between the main bracket (1) and the suspension rod (2).

4. A suspension device wire rope seismic brace system as claimed in claim 1, wherein: an elastic gasket (11) is fixedly connected between the outer box body (62) and the fixed base (7), and the longitudinal shock absorption rod (624) penetrates through the elastic gasket (11).