CN211778727U - Shock attenuation splicer - Google Patents

Abstract

The utility model discloses a shock attenuation splicer belongs to the technical field of splicer. In order to reduce the impact of the device to the outside, and further to arrange a damping component in the splicer, after the device receives the impact, the first telescopic rod is firstly shortened, so that the damping spring is deformed, and the elastic force of the damping spring can counteract part of the external impact force, thereby ensuring the safety of the device, meanwhile, the upper supporting plate which is displaced downwards can also deflect the driving part, so that the moving driving part starts to rotate on the rotating shaft, and further the rotating driving part drives the connecting rod to start working, and further the moving connecting rod can drive the connecting piece to displace up and down, thereby causing the damping spring on the socket connecting piece to deform, further the elastic force generated by the deformed damping spring can counteract the pressure of the outside on the splicer, thereby ensuring the safety of the internal parts of the device, and meanwhile, the provided encryption sponge layer can play the effects of buffering and damping, the service life of the device is prolonged.

Description

Shock attenuation splicer

Technical Field

The utility model belongs to the technical field of the splicer, specifically a shock attenuation splicer.

Background

The splicer is called as a splice controller, can divide a complete image signal into a plurality of blocks and then display the image signal on a plurality of display screens, further realizes that a plurality of video units are leveled into a large-screen display screen, can support the simultaneous insertion of equipment such as a satellite receiver and a set top box, and has the advantages of quick start and less maintenance times.

But present splicer still has great problem in handling, and the splicer is inside mostly to be sensitive part, and then at the in-process of transport, and external impact to the splicer can lead to splicer internals to take place the displacement, can lead to the part to damage when serious to increase the maintenance number of times of splicer, shortened the life of splicer.

In order to achieve the purpose of protecting the splicer, some enterprises can fill foam between the splicer and the splicer in the carrying process, so that the collision between the devices can be reduced, and the damage of the devices is reduced.

Therefore, how to reduce the damage of splicers in transportation is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a shock attenuation splicer to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a shock absorbing splice, comprising:

the box body, the shock absorption assembly fixedly connected with the inner wall of the box body and the shock absorption plate arranged on the shock absorption assembly;

damping component, including setting up box shock pad all around, with shock pad fixed connection's bottom suspension fagging distributes bottom suspension fagging four first telescopic links all around cup joint damping spring on the first telescopic link, with first telescopic link other end fixed connection's last backup pad, the symmetry sets up a set of buffering subassembly on the last backup pad, and set up shock attenuation room on the buffering subassembly.

In a further embodiment, the buffering subassembly include with surge chamber fixed connection's bottom plate, with fixed surface's buffer spring on the bottom plate, the symmetry sets up a set of pillar of bottom plate both sides is installed the axis of rotation of the pillar other end, and be located in the axis of rotation, and with the driving medium that the axis of rotation is connected, the driving medium is fixed in the backup pad, through the buffer spring who sets up, and then when the device received the extrusion, buffer spring can take place deformation, and then can offset partial extrusion force, reaches absorbing effect, and then guarantees the safety of device.

In a further embodiment, the buffering subassembly is still including being located on the driving medium, and with the driving medium rotates the connecting rod of being connected, sets up the connecting piece of the connecting rod other end, damping spring installs on the connecting piece, through the connecting rod that sets up, and then can drive damping spring and make it take place deformation, and then reach absorbing effect, the inside part of protection splicer is not damaged.

In a further embodiment, the shock absorption plate is provided with a plurality of heat dissipation holes, so that the workload of the carrying personnel during carrying can be reduced, and the carrying personnel can carry the shock absorption plate.

In a further embodiment, the shock absorption chamber inner wall is provided with the damping plate, sets up encryption sponge layer on the damping plate is installed the rubber block of encryption sponge layer below, and set up backup pad on the rubber block can increase the shock attenuation of splicer itself and the ability of buffering through the rubber block that sets up.

In a further embodiment, a set of second telescopic links are symmetrically arranged on the upper supporting plate, the other ends of the second telescopic links are fixed on the damping chamber, and the impact on the device is reduced through the arranged second telescopic links, so that the safety of the device is ensured.

Has the advantages that: the utility model discloses a shock-absorbing splicer, in order to reduce the impact of the device to the outside, and a shock-absorbing component is arranged in the splicer, when the device receives the impact, the first telescopic rod is firstly shortened, so that the shock-absorbing spring is deformed, and the elastic force of the shock-absorbing spring can counteract part of the external impact force, thereby ensuring the safety of the device, simultaneously, the upper support plate which is displaced downwards can also deflect the driving part, and further the moving driving part starts to rotate on the rotating shaft, and further the rotating driving part drives the connecting rod to start working, and further the moving connecting rod can drive the connecting piece to displace up and down, thereby causing the buffer spring on the socket connecting piece to be deformed, and further the elastic force generated by the deformed buffer spring can counteract the pressure of the outside on the splicer, thereby ensuring the safety of the internal parts of the device, and simultaneously, the provided encryption sponge layer can play the effects of buffering, the service life of the device is prolonged.

Drawings

Fig. 1 is a perspective view of the present invention.

Figure 2 is a schematic view of the shock absorbing assembly of the present invention.

Fig. 3 is a schematic view of a cushion assembly of the present invention.

Fig. 4 is a schematic structural view of the damping chamber of the present invention.

The reference signs are: the damping device comprises a box body 1, a damping plate 2, a damping assembly 3, a damping pad 301, a lower support plate 302, a first telescopic rod 303, a damping spring 304, an upper support plate 305, a second telescopic rod 306, a damping chamber 307, a damping plate 30701, an encryption sponge layer 30702, a rubber block 30703, a support plate 30704, a heat dissipation hole 4, a damping assembly 5, a bottom plate 501, a damping spring 502, a support column 503, a connecting rod 504, a rotating shaft 505, a transmission piece 506 and a connecting piece 507.

Detailed Description

Through research and analysis of the applicant, the problem (the inside of the splicer is mostly sensitive parts, and further in the carrying process, the external impact on the splicer can cause the displacement of the parts inside the splicer, and can cause the damage of the parts seriously, thereby increasing the maintenance frequency of the splicer and shortening the service life of the splicer) is caused because the damping device is not arranged inside the existing splicer, so that the device can be damaged in the carrying process, in order to reduce the impact of the device on the outside, the shock absorption component is arranged in the splicer, after the device receives the impact, the first telescopic rod is firstly shortened, thereby causing the deformation of the shock absorption spring, further the elastic force of the shock absorption spring can offset partial external impact force, the safety of the device is ensured, and simultaneously, the upper supporting plate which displaces the transmission part, and then the driving medium of motion begins to rotate in the axis of rotation, and then pivoted driving medium drives the connecting rod and begins work, and then the motion connecting rod can drive the connecting piece displacement from top to bottom, and then make the buffer spring on the socket connecting piece take place deformation, and then the produced elasticity of the buffer spring of deformation can offset the pressure of outside to the splicer, and then the safety of device internals has been guaranteed, the encryption sponge layer that is equipped with simultaneously can play buffering and absorbing effect, the life of extension fixture.

A shock absorbing splice, comprising: the damping device comprises a box body 1, a damping plate 2, a damping assembly 3, a damping pad 301, a lower support plate 302, a first telescopic rod 303, a damping spring 304, an upper support plate 305, a second telescopic rod 306, a damping chamber 307, a damping plate 30701, an encryption sponge layer 30702, a rubber block 30703, a support plate 30704, a heat dissipation hole 4, a damping assembly 5, a bottom plate 501, a damping spring 502, a support column 503, a connecting rod 504, a rotating shaft 505, a transmission piece 506 and a connecting piece 507.

The damping component 3 comprises a group of damping components 5 arranged on the damping chamber 307, an upper supporting plate 305 fixedly connected with the damping components 5, an upper supporting plate 305 fixedly arranged at the other end of the first telescopic rod 303, a damping spring 304 sleeved on the first telescopic rod 303, four first damping cushions 301 uniformly distributed around the lower supporting plate 302, the damping cushions 301 fixedly arranged on the lower supporting plate 302 and the damping cushions 301 arranged around the box body 1; the damping plate 2 is fixedly arranged on the damping component 3, and the damping component 3 is fixedly arranged on the inner wall of the box body 1; receive the striking back at first can make first telescopic link 303 shorten when the device to make damping spring 304 take place deformation, and then damping spring 304's elasticity can offset the external impact force of part, guaranteed the safety of device, the last backup pad 305 of while downward displacement makes buffering subassembly 5 begin the displacement, and then makes buffering subassembly 5 begin work.

The buffer assembly 5 includes a bottom plate 501 fixedly connected to the damping chamber 307, a buffer spring 502 fixedly connected to the upper surface of the bottom plate 501, a set of pillars 503 symmetrically disposed on both sides of the bottom plate 501, a rotation shaft 505 installed at the other end of the pillars 503, and a transmission member 506 located on the rotation shaft 505 and rotatably connected to the rotation shaft 505, wherein the transmission member 506 is fixed to the upper support plate 305, and when the lower support plate 302 starts to move downward, the transmission member 506 is driven to rotate on the rotation shaft 505, the transmission member 506 is driven to drive the connecting rod 504 to work, the connecting rod 504 is driven to move up and down, the buffer spring 502 disposed on the connecting member 507 is deformed, and the elastic force generated by the deformed buffer spring 502 can counteract the pressure of the outside on the splicer, thereby ensuring the safety of the internal parts of the device.

Buffering subassembly 5 still including being located on the driving medium 506, and with driving medium 506 rotates connecting rod 504 of being connected, sets up the connecting piece 507 of the connecting rod 504 other end, damping spring 304 is installed on connecting piece 507, and through the connecting rod 504 that sets up, as upper support plate 305 begins the displacement, and then the driving medium 506 of displacement can be rapid drive connecting rod 504 begin to rotate, and then connecting rod 504 can drive connecting piece 507 and begin to move, thereby make damping spring 502 begin to deform, and then reach absorbing effect, the inside part of protection splicer is not damaged.

Be equipped with a plurality of louvres 4 on the shock attenuation board 2, through the hole that sets up, not only can reduce the inside temperature of device, but also can reduce the weight of device self, and then the work load when can alleviateing the transport personnel and carry the work, help the transport personnel to carry.

Damping chamber 307 inner wall is provided with damping plate 30701, sets up encryption sponge layer 30702 on the damping plate 30701 is installed rubber block 30703 of encryption sponge layer 30702 below, and the setting is in backup pad 30704 on the rubber block 30703, the ability of shock attenuation and buffering that can increase splicer itself through the rubber block 30703 that sets up, sets up the intensity that damping plate 30701 can increase the splicer simultaneously, and then guarantees that the device can have certain resistance when suffering the striking.

The symmetry sets up a set of second telescopic link 306 on going up backup pad 305, the other end of second telescopic link 306 is fixed on shock attenuation room 307, through the second telescopic link 306 that sets up, and then when the device receives the striking, can play certain buffering effect, and then can reduce the impact of ambient pressure to the splicer, reduce the impact that the device received, and then guaranteed the safety of device.

Description of the working principle: when the device is impacted, the first telescopic rod 303 is firstly shortened, so that the damping spring 304 is deformed, and the elastic force of the damper spring 304 can offset a portion of the external impact force, thereby ensuring the safety of the device, while the upper support plate 305, which is displaced downward, causes the buffer assembly 5 to be displaced, thereby, the buffer assembly 5 starts to work, and the lower supporting plate 302 starts to displace downward, and the transmission member 506 is driven to start to displace downward, the moving transmission member 506 starts to rotate on the rotation shaft 505, and the rotating transmission member 506 drives the link 504 to operate, the moving rod 504 drives the connecting member 507 to move up and down, so that the buffer spring 502 on the socket connecting member 507 deforms, and then the produced elasticity of the buffer spring 502 of deformation can offset the external pressure to the splicer, and then has guaranteed the safety of device internals.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a shock attenuation splicer, characterized by includes:

the box body, the shock absorption assembly fixedly connected with the inner wall of the box body and the shock absorption plate arranged on the shock absorption assembly;

damping component, including setting up box shock pad all around, with shock pad fixed connection's bottom suspension fagging distributes bottom suspension fagging four first telescopic links all around cup joint damping spring on the first telescopic link, with first telescopic link other end fixed connection's last backup pad, the symmetry sets up a set of buffering subassembly on the last backup pad, and set up shock attenuation room on the buffering subassembly.

2. The shock absorbing splice device of claim 1 wherein: the buffering subassembly include with surge chamber fixed connection's bottom plate, with fixed surface's buffer spring on the bottom plate, the symmetry sets up a set of pillar of bottom plate both sides is installed the axis of rotation of the pillar other end, and be located in the axis of rotation, and with the driving medium that the axis of rotation rotated the connection, the driving medium is fixed in the backup pad.

3. The shock absorbing splice device of claim 2 wherein: the buffer assembly further comprises a connecting rod and a connecting piece, the connecting rod is located on the transmission piece and is rotatably connected with the transmission piece, the connecting piece is arranged at the other end of the connecting rod, and the damping spring is installed on the connecting piece.

4. A shock absorbing splice as claimed in claim 3 wherein: a plurality of heat dissipation holes are formed in the damping plate.

5. The shock absorbing splice device of claim 1 wherein: the damping chamber inner wall is provided with the damping plate, sets up encryption sponge layer on the damping plate installs the rubber block of encryption sponge layer below, and set up and be in backup pad on the rubber block.

6. The shock absorbing splice device of claim 1 wherein: the symmetry sets up a set of second telescopic link on the last backup pad, the other end of second telescopic link is fixed on the shock attenuation room.

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