CN216520484U - Outer wall LED display screen vibration damping stress reducing mounting mechanism and mounting rack - Google Patents

Abstract

The utility model provides a vibration-damping stress-reducing mounting mechanism for an LED display screen of an outer wall, which comprises: the device comprises a first mounting component, a second mounting component and a tensile connecting piece; the first mounting assembly is used for being rigidly connected with a first steel beam of an outer wall in a first direction; the second mounting assembly is used for being elastically connected with a second steel beam of the outer wall in a first direction; the tensile connector is rigidly connected to the first mounting assembly and the second mounting assembly, respectively, in a first direction. So set up, can obtain an elastic outer wall LED display screen damping stress-reducing installation mechanism, long-term use is indefatigable, and reduction LED screen that can be fine, conformal screen, brightening lamp strip etc. cause the amplitude of swing or vibration because of the air flow, reduce stress. Meanwhile, the kinetic energy of swinging or vibration can be converted into internal energy through the second mounting assembly and dissipated, and a certain damping effect is achieved. The service life and the safety of outdoor LED screen, conformal screen, bright lamp strip and the like are improved.

Description

Outer wall LED display screen vibration damping stress reducing mounting mechanism and mounting rack

Technical Field

The application relates to the technical field of LED display screen installation, in particular to an outer wall LED display screen vibration and stress reduction installation mechanism and an installation frame.

Background

Outdoor big breadth LED screen, conformal screen, brightening lamp strip etc. because outdoor special operational environment receives the influence of air flow such as strong wind very easily and produces swing or vibration by a relatively large margin, leads to self production destructive stress such as LED screen, conformal screen, brightening lamp strip, and then destroys the structural stability of LED screen, not only very easily causes economic loss, still drops easily, short circuit etc. causes life potential safety hazard. If the self structural strength of the LED screen, the conformal screen, the lighting lamp strip and the like is strengthened, the production and research and development cost of the product is increased.

SUMMERY OF THE UTILITY MODEL

Based on the problem, the installation mechanism and the installation frame capable of reducing vibration and stress of the LED display screen are provided. The amplitude of swing or vibration caused by air flow can be well reduced, self destructive stress is further reduced, the structure and the strength of the LED screen, the conformal screen, the lighting lamp strip and the like are not required to be changed, the cost is saved, and the potential safety hazard after the traditional outdoor LED lamp is installed is reduced.

A vibration-damping stress-reducing mounting mechanism for an external wall LED display screen comprises: the device comprises a first mounting component, a second mounting component and a tensile connecting piece; the first mounting assembly is used for being rigidly connected with a first steel beam of an outer wall in a first direction; the second mounting assembly is used for being elastically connected with a second steel beam of the outer wall in a first direction; the tensile connector is rigidly connected to the first mounting assembly and the second mounting assembly, respectively, in a first direction. In this embodiment, the "first direction" means that the pulling force exists in a specific straight line, and is not a specific direction. The "first direction" exists on the tensile link when the tensile link is rigidly connected to the first mounting element and the second mounting element, respectively, in the first direction. For example, when the first installation element, the tensile link, and the second installation element are vertically installed in this order, the "first direction" refers to a direction in which a tensile force falls on the tensile link. At the moment, the first mounting assembly is rigidly connected with the first steel beam of the outer wall in the vertical downward direction, and the second mounting assembly is elastically connected with the second steel beam of the outer wall in the vertical upward direction. So set up, can obtain an elastic outer wall LED display screen damping stress-reducing installation mechanism, long-term use is indefatigable, and reduction LED screen that can be fine, conformal screen, brightening lamp strip etc. cause the amplitude of swing or vibration because of the air flow, reduce stress. Meanwhile, the kinetic energy of swinging or vibration of the LED screen, the conformal screen, the lighting lamp strip and the like can be converted into internal energy consumption through the second mounting assembly to be dissipated, and a certain damping effect is achieved. The service life and the safety of outdoor LED screen, conformal screen, bright lamp strip and the like are improved.

In one embodiment, the first steel beam and the second steel beam are located in the same plane.

In one embodiment, the first steel beam and the second steel beam are arranged in parallel.

In one embodiment, the first mounting assembly comprises a first hanging ring and a movable buckle; the first lifting ring is used for being fixedly connected with the first steel beam; the movable buckle is used for detachably connecting the tensile connecting piece and the first hanging ring.

In one embodiment, the second mounting assembly comprises a first link and a spring; the first end of the first connecting rod is connected with the tensile connecting piece, and the second end of the first connecting rod is elastically connected with the second steel beam through the spring.

In one embodiment, the second mounting assembly further comprises a stop seat and a retaining nut; the first connecting rod is provided with a thread which is used for being meshed with the retaining nut, and the retaining seat is rigidly connected with the second steel beam in a first direction; the stopping nut with first connecting rod threaded connection, the spring suit is in on the first connecting rod, and is located the stopping nut with keep off between the seat, so that first connecting rod is relative when keeping off the seat and removing, the spring can the adaptability stretch out and draw back.

In one embodiment, the second mounting assembly further comprises a stop auxiliary mounting member and a bolt assembly; keep off a seat auxiliary fixtures and be used for through bolt assembly will keep off a seat fixed mounting on the second girder steel.

In one embodiment, the second mounting assembly comprises a first connecting rod, a second connecting rod, a baffle seat and a spring; the first end part of the first connecting rod is connected with the tensile connecting piece, and the second end part of the second connecting rod is connected with the second steel beam; the second end of the first connecting rod and/or the second end of the second connecting rod are/is elastically connected with the baffle seat through the spring.

In one embodiment, the second mounting assembly further comprises a backstop nut for limiting movement of one end of the spring; the first connecting rod and/or the second connecting rod are/is provided with threads meshed with the retaining nut, and the retaining nut is in threaded connection with the first connecting rod and/or the second connecting rod, so that the compression amount of the spring can be adjusted according to the threaded meshing amount.

In one embodiment, the spring is sleeved on the first connecting rod and is located between the retaining nut and the retaining seat, so that when the first connecting rod moves relative to the retaining seat, the spring can stretch and retract adaptively.

In one embodiment, the spring is sleeved on the second connecting rod and is located between the retaining nut and the retaining seat, so that when the second connecting rod moves relative to the retaining seat, the spring can stretch and retract adaptively.

In one embodiment, one end of the first connecting rod is provided with a first hook for connecting the steel wire rope outwards.

In one embodiment, the second mounting assembly further comprises a second eye; the second hoisting ring is used for fixedly connecting the second steel beam; and a second hook is arranged at the second end part of the second connecting rod and is detachably connected with the second hanging ring.

In one embodiment, the tensile connector is a steel cord.

In one embodiment, the second mounting assembly is a self-tightening spline assembly.

In one embodiment, the stopper seat is provided with a first sliding hole, and the first end of the first connecting rod passes through the first sliding hole and is connected with the first sliding hole in a sliding manner.

In one embodiment, the stopper seat is provided with a second sliding hole, and the first end of the second connecting rod passes through the second sliding hole and is connected with the second sliding hole in a sliding manner.

In one embodiment, the second mounting assembly comprises a first link and a spring; the first end part of the first connecting rod is connected with the tensile connecting piece, and the second end part of the first connecting rod is provided with a spring retaining piece; the spring suit is in on the first connecting rod, and be located spring stopping spare with between the second girder steel, so that when the first connecting rod is relative the second girder steel removes, the spring can be compressed or stretch.

In one embodiment, the first steel beam and the second steel beam are located in the same plane.

The above-mentioned outer wall LED display screen damping stress-reducing installation mechanism that provides is through setting up first installation component, second installation component and tensile connecting piece, just first installation component be used for with the first girder steel of outer wall on the first direction rigid connection, the second installation component be used for with the second girder steel of outer wall on the first direction elastic connection, the tensile connecting piece respectively with first installation component with second installation component is on the first direction rigid connection. The elastic outer wall LED display screen vibration-damping stress-reducing mounting mechanism can be obtained, is not easy to fatigue after long-term use, and can well reduce the amplitude of swinging or vibration caused by air flow of an LED screen, a conformal screen, a lighting lamp strip and the like, so that the stress is reduced. Meanwhile, the kinetic energy of swinging or vibration of the LED screen, the conformal screen, the lighting lamp strip and the like can be converted into internal energy consumption through the second mounting assembly to be dissipated, and a certain damping effect is achieved. The service life and the safety of outdoor LED screen, conformal screen, bright lamp strip and the like are improved.

In addition, this application still provides an outer wall LED display screen damping stress-relief installation mechanism according to the above-mentioned content, includes: the first connecting rod, the stop seat, the retaining nut and the spring; the blocking seat is used for being fixedly connected with the steel beam; the first connecting rod penetrates through the blocking seat and is elastically connected with the blocking seat through the spring; the first connecting rod is provided with a thread which is used for being meshed with the retaining nut; the stopping nut with first connecting rod threaded connection, the spring suit is in on the first connecting rod, and is located the stopping nut with keep off between the seat, so that first connecting rod is relative when keeping off the seat and removing, the spring can the adaptability stretch out and draw back.

In one embodiment, the first steel beam and the second steel beam are located in the same plane.

In one embodiment, the first steel beam and the second steel beam are arranged in parallel.

In one embodiment, the second mounting assembly further comprises a stop auxiliary mounting member and a bolt assembly; keep off a seat auxiliary assembly spare and be used for through bolt assembly will keep off a seat fixed mounting on the girder steel.

In one embodiment, the device further comprises a second connecting rod;

the second connecting rod is provided with a thread which is used for being in threaded connection with the stop seat, and the rotating direction of the thread is opposite to that of the thread on the first connecting rod;

the first end of the second connecting rod is used for being connected with the steel beam, and the second end is in threaded connection with the blocking seat.

In one embodiment, one end of the first connecting rod is provided with a first hook for connecting the steel wire rope outwards.

In one embodiment, the device further comprises a second hanging ring; the second hoisting ring is used for being fixedly connected with the steel beam; and a second hook is arranged at the second end part of the second connecting rod and is detachably connected with the second hanging ring.

In one embodiment, the device further comprises a second connecting rod; the second connecting rod penetrates through the blocking seat and is elastically connected with the blocking seat through the spring; the second connecting rod is provided with a thread which is used for being meshed with the retaining nut, and the rotating direction of the thread is opposite to that of the thread on the first connecting rod; the stopping nut with second connecting rod threaded connection, the spring suit is in on the second connecting rod, and is located the stopping nut with keep off between the seat, so that the second connecting rod is relative when keeping off the seat and removing, the spring can the adaptability stretch out and draw back.

In addition, according to the above, the present application further provides a vibration-damping and stress-reducing mounting bracket for an external wall LED display screen, which includes a first steel beam and a second steel beam, and the vibration-damping and stress-reducing mounting mechanism for an external wall LED display screen in any one of the above embodiments.

In one embodiment, the first steel beam and the second steel beam are located in the same plane.

In one embodiment, the first steel beam and the second steel beam are arranged in parallel.

Above-mentioned an outer wall LED display screen damping stress-reducing mounting bracket that provides can obtain an elastic outer wall LED display screen damping stress-reducing installation mechanism, long-term use is indefatigable, and reduction LED screen that can be fine, conformal screen, bright lamp strip etc. cause the amplitude of swing or vibration because of the air flow, reduce stress. Meanwhile, the kinetic energy of swinging or vibration of the LED screen, the conformal screen, the lighting lamp strip and the like can be converted into internal energy consumption through the second mounting assembly to be dissipated, and a certain damping effect is achieved. The service life and the safety of outdoor LED screen, conformal screen, bright lamp strip and the like are improved.

Drawings

Fig. 1 is a schematic structural view of a use state of a vibration-damping and stress-reducing mounting rack for an exterior wall LED display screen according to an embodiment;

FIG. 2 is a schematic view of the vibration-damping and stress-reducing mounting mechanism for an LED display screen of an exterior wall according to an embodiment;

FIG. 3 is a schematic view of the structure and composition of one end of a vibration-damping and stress-reducing mounting mechanism for an LED display screen of an exterior wall according to an embodiment;

FIG. 4 is a schematic view of the vibration-damping and stress-reducing mounting mechanism for an LED display screen of an exterior wall according to an embodiment;

fig. 5 is a schematic view of the components and structure of one end of the vibration-reducing and stress-reducing mounting mechanism for the LED display screen of the exterior wall according to an embodiment.

Description of reference numerals: 100. a first mounting assembly; 110. a first hanging ring; 120. a movable buckle; 200. a second mounting assembly; 210. a blocking seat; 220. a first link; 221. a non-return nut; 222. a first hook; 230. a spring; 240. a stopper seat auxiliary mounting member; 250. a bolt assembly; 260. a second hoisting ring; 270. a second link; 271. a second hook; 300. a wire rope; 10. a first steel beam; 20. a second steel beam; and 30. an LED display screen.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and that modifications may be made by one skilled in the art without departing from the spirit and scope of the application and it is therefore not intended to be limited to the specific embodiments disclosed below.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

A vibration-damping and stress-reducing mounting mechanism for an LED display screen of an outer wall is shown in figure 1 or figure 2 and comprises: a first mounting element 100, a second mounting element 200, and a tensile connector. The first mounting assembly 100 is adapted to be rigidly connected to a first steel beam 10 of an exterior wall in a first direction. The second mounting assembly 200 is adapted to be elastically coupled to the second steel beam 20 of the outer wall in the first direction. The tensile links are rigidly connected to the first and second mounting assemblies 100 and 200, respectively, in a first direction. In this embodiment, the "first direction" means that the pulling force exists in a specific straight line, and is not a specific direction. The "first direction" exists on the tensile linkage when the tensile linkage is rigidly connected to the first and second mounting assemblies 100 and 200, respectively, in the first direction. For example, when the first installation element 100, the tensile link, and the second installation element 200 are vertically installed in sequence, the "first direction" refers to a direction in which a tensile force falls on the tensile link. At this time, the first mounting assembly 100 is rigidly connected to the first steel beam 10 of the outer wall in a vertically downward direction, and the second mounting assembly 200 is elastically connected to the second steel beam 20 of the outer wall in a vertically upward direction. So set up, can obtain an elastic outer wall LED display screen 30 damping stress-reducing installation mechanism, long-term use is indefatigable, and reduction LED screen that can be fine, conformal screen, brightening lamp strip etc. cause the amplitude of swing or vibration because of the air flow, reduce stress. Meanwhile, the kinetic energy of swinging or vibration of the LED screen, the conformal screen, the lighting lamp strip and the like can be converted into internal energy through the second mounting assembly 200 to be dissipated, and a certain damping effect is achieved. The service life and the safety of an outdoor LED screen, a conformal screen, a lighting lamp strip and the like are improved.

In one embodiment, as shown in fig. 1 and 2, the first steel beam 10 and the second steel beam 20 are located in the same plane.

In one embodiment, as shown in fig. 1 and 2, the first steel beam 10 and the second steel beam 20 are disposed in parallel.

In one embodiment, as shown in fig. 1, 2 or 4, the first mounting assembly 100 includes a first hanging ring 110 and a movable buckle 120. The first hanging ring 110 is used for being fixedly connected with the first steel beam 10. The movable buckle 120 is used for detachably connecting the tensile connector and the first hanging ring 110.

In one embodiment, as shown in fig. 1 or 2, the second mounting assembly 200 includes a first link 220 and a spring 230. The first end of the first link 220 is connected to the tensile connector, and the second end is elastically connected to the second steel beam 20 by a spring 230.

In one embodiment, as shown in fig. 1, 2 or 3, the second mounting assembly 200 further includes a stop seat 210 and a retaining nut 221. The first connecting rod 220 is provided with a threaded stop 210 for engaging with the retaining nut 221, and is rigidly connected to the second steel beam 20 in the first direction. The retaining nut 221 is in threaded connection with the first connecting rod 220, and the spring 230 is sleeved on the first connecting rod 220 and located between the retaining nut 221 and the stopper seat 210, so that when the first connecting rod 220 moves relative to the stopper seat 210, the spring 230 can stretch and retract adaptively.

In one embodiment, as shown in fig. 2 and 3, second mounting assembly 200 further includes a retainer sub-mount 240 and a bolt assembly 250. The chock assist mount 240 is used to fixedly mount the chock 210 to the second steel beam 20 by means of bolt assemblies 250.

In one embodiment, as shown in fig. 4 and 5, the second mounting assembly 200 includes a first link 220, a second link 270, a stop 210, and a spring 230. A first end of the first link 220 is connected to the tensile connector and a second end of the second link 270 is connected to the second steel beam 20. The second end of the first link 220 and/or the second end of the second link 270 are elastically coupled to the stopper 210 by a spring 230.

In one embodiment, as shown in fig. 4 and 5, the second mounting assembly 200 further includes a back stop nut 221 for limiting movement of one end of the spring 230. The first link 220 and/or the second link 270 are provided with a threaded anti-backup nut 221 for engaging with the anti-backup nut 221, and are threadedly coupled with the first link 220 and/or the second link 270, so that the compression amount of the spring 230 is adjusted by how much the threads are engaged.

In one embodiment, as shown in fig. 4 and 5, the spring 230 is disposed around the first connecting rod 220 and between the retaining nut 221 and the retainer 210, so that the spring 230 can expand and contract when the first connecting rod 220 moves relative to the retainer 210.

In one embodiment, as shown in fig. 4 and 5, the spring 230 is disposed around the second connecting rod 270 and between the retaining nut 221 and the retainer 210, so that the spring 230 can expand and contract when the second connecting rod 270 moves relative to the retainer 210.

In one embodiment, as shown in fig. 4, one end of the first link 220 is provided with a first hook 222 for externally connecting the wire rope 300.

In one embodiment, as shown in fig. 4 and 5, the second mounting assembly 200 further includes a second eye 260. The second hanging ring 260 is used for fixedly connecting the second steel beam 20. The second end of the second link 270 is provided with a second hook 271 for detachable connection with the second hanging ring 260.

In one embodiment, the tensile connector is a steel cord 300.

In one embodiment, the second mounting assembly 200 is a self-tightening spline assembly 250.

In one embodiment, as shown in fig. 3 or 5, the stopper base 210 is provided with a first sliding hole, and the first end of the first connecting rod 220 passes through the first sliding hole and is slidably connected with the first sliding hole.

In one embodiment, the stopper base 210 is provided with a second sliding hole, and the first end of the second link 270 passes through the second sliding hole and is slidably connected with the second sliding hole.

In one embodiment, as shown in fig. 3 or 5, the second mounting assembly 200 includes a first link 220 and a spring 230. The first end of the first link 220 is connected with the tensile connector, and the second end is provided with a spring retaining member. The spring 230 is sleeved on the first connecting rod 220 and located between the spring 230 retaining member and the second steel beam 20, so that the spring 230 can be compressed or expanded when the first connecting rod 220 moves relative to the second steel beam 20.

In one embodiment, as shown in fig. 1 and 2, the first steel beam 10 and the second steel beam 20 are located in the same plane.

In one embodiment, as shown in fig. 2 or 3, the first link 220 is a threaded rod having at least one end provided with threads.

In one embodiment, as shown in fig. 4 or 5, the second link 270 is a threaded rod having at least one end provided with a thread.

According to the outer wall LED display screen vibration reduction and stress reduction mounting mechanism, the first mounting assembly 100, the second mounting assembly 200 and the tensile connecting piece are arranged, the first mounting assembly 100 is used for being rigidly connected with the first steel beam 10 of the outer wall in the first direction, the second mounting assembly 200 is used for being elastically connected with the second steel beam 20 of the outer wall in the first direction, and the tensile connecting piece is respectively and rigidly connected with the first mounting assembly 100 and the second mounting assembly 200 in the first direction. The elastic vibration-reducing stress-reducing mounting mechanism for the outer wall LED display screen 30 can be obtained, the mounting mechanism is not easy to fatigue after long-term use, the amplitude of swinging or vibration caused by air flowing of an LED screen, a conformal screen, a lighting lamp strip and the like can be well reduced, and stress is reduced. Meanwhile, the kinetic energy of swinging or vibration of the LED screen, the conformal screen, the lighting lamp strip and the like can be converted into internal energy through the second mounting assembly 200 to be dissipated, and a certain damping effect is achieved. The service life and the safety of outdoor LED screen, conformal screen, bright lamp strip and the like are improved.

In addition, this application still provides an outer wall LED display screen damping stress-relief installation mechanism according to the above-mentioned content.

A vibration-damping stress-reducing mounting mechanism for an LED display screen of an outer wall is shown in figure 3 or figure 5, and comprises: a first link 220, a stopper 210, a retaining nut 221 and a spring 230. The block 210 is used to be fixedly connected with the steel beam. The first link 220 passes through the stopper 210 and is elastically connected to the stopper 210 by a spring 230. The first link 220 is provided with a thread for engaging with the retaining nut 221. The retaining nut 221 is in threaded connection with the first connecting rod 220, and the spring 230 is sleeved on the first connecting rod 220 and located between the retaining nut 221 and the stopper seat 210, so that when the first connecting rod 220 moves relative to the stopper seat 210, the spring 230 can stretch and retract adaptively.

In one embodiment, as shown in fig. 3 or 5, the second mounting assembly 200 further includes a retainer sub-mount 240 and a bolt assembly 250. The chock assist mount 240 is used to fixedly mount the chock 210 to a steel beam by means of a bolt assembly 250.

In one embodiment, as shown in FIG. 5, a second link 270 is further included. The second link 270 is provided with a screw thread for screw-coupling with the stopper 210, and the screw thread rotates in a direction opposite to that of the first link 220. The second connecting rod 270 has a first end portion for connecting with the steel beam and a second end portion for connecting with the stopper 210 by screw.

In one embodiment, as shown in fig. 3 or 5, a first hook 222 is provided at one end of the first link 220 for externally connecting the wire rope 300.

In one embodiment, as shown in FIG. 5, a second hanging ring 260 is also included. The second lifting ring 260 is used for being fixedly connected with the steel beam. The second end of the second link 270 is provided with a second hook 271 for detachable connection with the second hanging ring 260.

In one embodiment, as shown in FIG. 5, a second link 270 is further included. The second link 270 passes through the stopper 210 and is elastically connected to the stopper 210 by a spring 230. The second link 270 is provided with a screw thread for engaging with the retaining nut 221, and the rotation direction of the screw thread is opposite to that of the screw thread of the first link 220. The retaining nut 221 is in threaded connection with the second connecting rod 270, and the spring 230 is sleeved on the second connecting rod 270 and located between the retaining nut 221 and the retaining base 210, so that when the second connecting rod 270 moves relative to the retaining base 210, the spring 230 can stretch and retract adaptively.

In addition, the application also provides a vibration-damping stress-reducing mounting frame for the outer wall LED display screen 30 according to the content.

A vibration-damping stress-reducing mounting frame for an external wall LED display screen 30 is shown in figure 1 and comprises a first steel beam 10, a second steel beam 20 and the vibration-damping stress-reducing mounting mechanism for the external wall LED display screen in any one embodiment.

In one embodiment, as shown in fig. 1 and 2, the first steel beam 10 and the second steel beam 20 are located in the same plane.

In one embodiment, as shown in fig. 1 and 2, the first steel beam 10 and the second steel beam 20 are disposed in parallel.

Above-mentioned an outer wall LED display screen damping stress-reducing mounting bracket that provides can obtain an elastic outer wall LED display screen 30 damping stress-reducing installation mechanism, long-term use is indefatigable, and reduction LED screen that can be fine, conformal screen, the amplitude of vibration that leads to the fact because of the air flow such as bright lamp strip, reduce stress. Meanwhile, the kinetic energy of swinging or vibration of the LED screen, the conformal screen, the lighting lamp strip and the like can be converted into internal energy through the second mounting assembly 200 to be dissipated, and a certain damping effect is achieved. The service life and the safety of outdoor LED screen, conformal screen, bright lamp strip and the like are improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an outer wall LED display screen damping reduces stress installation mechanism which characterized in that includes: the device comprises a first mounting component, a second mounting component and a tensile connecting piece;

the first mounting assembly is used for being rigidly connected with a first steel beam of an outer wall in a first direction;

the second mounting assembly is used for being elastically connected with a second steel beam of the outer wall in a first direction;

the tensile connector is rigidly connected to the first mounting assembly and the second mounting assembly, respectively, in a first direction.

2. The mounting mechanism of claim 1,

the first mounting assembly comprises a first lifting ring and a movable buckle;

the first lifting ring is used for being fixedly connected with the first steel beam;

the movable buckle is used for detachably connecting the tensile connecting piece and the first hanging ring.

3. The mounting mechanism of claim 1,

the second mounting assembly comprises a first connecting rod and a spring;

the first end of the first connecting rod is connected with the tensile connecting piece, and the second end of the first connecting rod is elastically connected with the second steel beam through the spring.

4. The mounting mechanism of claim 3,

the second mounting assembly further comprises a stop seat and a retaining nut;

the first connecting rod is provided with a thread engaged with the retaining nut

The baffle seat is rigidly connected with the second steel beam in a first direction;

the stopping nut with first connecting rod threaded connection, the spring suit is in on the first connecting rod, and is located the stopping nut with keep off between the seat, so that first connecting rod is relative when keeping off the seat and removing, the spring can the adaptability stretch out and draw back.

5. The mounting mechanism of claim 4,

the second mounting assembly further comprises a stop seat auxiliary mounting piece and a bolt assembly;

keep off a seat auxiliary fixtures and be used for through bolt assembly will keep off a seat fixed mounting on the second girder steel.

6. The mounting mechanism of claim 1,

the second mounting assembly comprises a first connecting rod, a second connecting rod, a stop seat and a spring;

the first end part of the first connecting rod is connected with the tensile connecting piece, and the second end part of the second connecting rod is connected with the second steel beam;

the second end of the first connecting rod and/or the second end of the second connecting rod are/is elastically connected with the baffle seat through the spring.

7. The mounting mechanism of claim 6,

the second mounting assembly further comprises a backstop nut for limiting the movement of one end of the spring;

the first connecting rod and/or the second connecting rod are/is provided with threads meshed with the retaining nut

The retaining nut is threadedly coupled to the first link and/or the second link so as to adjust the amount of compression of the spring by how much the threads are engaged.

8. The mounting mechanism of claim 7,

the second mounting assembly further comprises a second lifting ring;

the second hoisting ring is used for fixedly connecting the second steel beam;

and a second hook is arranged at the second end part of the second connecting rod and is detachably connected with the second hanging ring.

9. The utility model provides an outer wall LED display screen damping reduces stress installation mechanism which characterized in that includes: the first connecting rod, the stop seat, the retaining nut and the spring;

the blocking seat is used for being fixedly connected with the steel beam;

the first connecting rod penetrates through the blocking seat and is elastically connected with the blocking seat through the spring;

the first connecting rod is provided with a thread which is used for being meshed with the retaining nut;

the stopping nut with first connecting rod threaded connection, the spring suit is in on the first connecting rod, and is located the stopping nut with keep off between the seat, so that first connecting rod is relative when keeping off the seat and removing, the spring can the adaptability stretch out and draw back.

10. An outer wall LED display screen vibration reduction stress reduction mounting frame comprises a first steel beam and a second steel beam, and is characterized by comprising the outer wall LED display screen vibration reduction stress reduction mounting mechanism of any one of claims 1 to 9.

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