CN215210763U - Anticollision communication computer lab - Google Patents

Abstract

The utility model relates to an anticollision communication computer lab belongs to the construction field, comprising a base plate, the bottom plate is connected with the wall body, the wall body is kept away from bottom plate one end and is connected with the roof, the wall body outside is provided with the buffer layer of being made by non-Newtonian fluid, the buffer layer is kept away from wall body one side and is provided with a plurality of pivots, a plurality of rigidity cylinders of the equal fixedly connected with of pivot, the pivot both ends all are provided with the slider, the slider corresponds pivot tip position department and all is provided with the tangential buffering subassembly that is used for buffering along wall body length direction's impact, bottom plate and roof correspond the slider position department and all are provided with the spout body along wall body length direction, the equal sliding connection of slider in spout body, the spout body corresponds slider both ends position department and all wears to be equipped with positioning bolt, positioning bolt corresponds spout body lateral wall position department and has all seted up the prefracture groove, the spout body is close to wall body one side and all is provided with a plurality of radial buffering subassembly that are used for buffering the impact of perpendicular wall body surface. The communication machine room is improved and the condition that the communication machine room is easily damaged by accidental impact is improved.

Description

Anticollision communication computer lab

Technical Field

The application relates to the field of building construction, in particular to an anti-collision communication machine room.

Background

The convergence machine room plays a role in starting and stopping in the network, is responsible for connecting the local service nodes to the backbone nodes, and converges and leads the services to the corresponding service accommodating nodes through the physical and logical networks. The network provider sets the service coverage range of the communication machine room according to the density of users, and a certain number of convergence machine rooms are installed in cities and suburbs as the communication machine rooms.

Among the related art, the utility model discloses a communication computer lab is disclosed in chinese utility model patent document of publication No. CN205976634U, comprising a base plate, the bottom plate top is provided with the room body, room body top is provided with the roof, the roof top is provided with the top cap, room body the place ahead one side is provided with the door, door one side middle part is provided with the handle, the top cap surface is provided with solar cell panel, roof one side below is provided with the camera, room body one side upper end is provided with the shutter, room body one side upper portion is provided with wireless receiving control ware, the inside battery that is provided with of roof, the internal portion in room is provided with the air conditioner, the bottom plate is provided with the fork seat of fork truck all around. Has the advantages that: the utility model is not only compact in structure reasonable, pass through moreover the camera with wireless receiving controller cooperation can realize wireless remote monitoring, solar cell panel can become solar energy transformation electric energy and store in the battery, have energy-concerving and environment-protective advantage.

In view of the above-mentioned related technologies, the inventor thinks that when the communication equipment room is installed beside a city road or in a suburb, the communication equipment room is easily damaged by the impact of vehicles and other accidents, and the communication equipment in the communication equipment room is easily off-line to influence the access of nearby users.

SUMMERY OF THE UTILITY MODEL

In order to improve the condition that the communication computer lab easily receives accidental striking damage, this application provides an anticollision communication computer lab.

The application provides a crashproof communication computer lab adopts following technical scheme:

an anti-collision communication machine room comprises a bottom plate, wherein a wall body is fixedly connected to the upper side of the bottom plate, a roof is fixedly connected to one end, away from the bottom plate, of the wall body, a buffer layer made of non-Newtonian fluid is arranged on the outer side of the wall body, a plurality of rotating shafts are arranged on one side, away from the wall body, of the buffer layer, the rotating shafts are fixedly connected with a plurality of rigid rollers which are coaxially arranged with the rotating shafts, sliders are arranged at two ends of the rotating shafts, tangential buffer assemblies used for buffering impact force along the length direction of the wall body are arranged at positions, corresponding to the sliders, of the bottom plate and the roof, slide groove bodies are arranged along the length direction of the wall body, the sliders are slidably connected to the slide groove bodies, slide along the length direction of the slide groove bodies, positioning bolts penetrate through positions, corresponding to two ends of the sliders, and are provided with pre-split grooves at positions, corresponding to the side walls of the slide groove bodies, one side of the sliding chute body, which is close to the wall body, is provided with a plurality of radial buffer assemblies for buffering the impact force vertical to the surface of the wall body.

By adopting the scheme, when the communication machine room is impacted by an automobile or other external impacts, the rigid roller can guide the impact force to decompose the force vertical to the wall body and the force parallel to the wall body by utilizing the shape of the rigid roller, the tangential buffer assembly buffers the impact force along the length direction of the wall body, and the radial buffer assembly buffers the impact force vertical to the surface of the wall body. When the impact force is small, the buffer layer made of the non-Newtonian fluid is in a flexible state, and the buffer layer absorbs the impact of the impact force on the wall body; when the impact force is too large, the buffer layer made of the non-Newtonian fluid is in a hard state, after the front radial buffer assembly cannot effectively buffer, the buffer layer bears impact in advance on the wall body, the too large impact force drives the sliding block to cut off the positioning bolt along the pre-splitting groove, the sliding block slides along the sliding groove body, the impacted object is guided to deflect, and the damage of the impact on the communication machine room is reduced.

Preferably, rigid cylinder all overlaps and is equipped with elastic buffering sleeve, and buffering sleeve covers the rigid cylinder setting.

By adopting the scheme, the elastic buffer sleeve buffers the damage of impact on the rigid roller, reduces the probability that the rigid roller cannot guide and deflect an impact object due to bending deformation, simultaneously slows down the collision of the rigid roller on the buffer layer, and reduces the probability that non-Newtonian fluid leaks before taking effect.

Preferably, the surface of the buffer sleeve is provided with a plurality of abdicating ring grooves.

Through adopting above-mentioned scheme, when foreign object striking buffering sleeve, receive extruded buffering sleeve and absorb buffering partial impact force through deformation, let the annular give the bigger deformation space of buffering sleeve, improve buffering sleeve's buffering effect.

Preferably, the pivot middle part is rotated and is connected with the sleeve pipe, and the sleeve pipe is close to and holds shell position fixedly connected with butt board, and the butt board is close to wall body one side butt in the buffer layer.

By adopting the scheme, the sleeve and the butt plate are matched to conduct the impact force of the middle part of the rotating shaft to the buffer layer, so that the probability of severe bending of the rotating shaft caused by the impact force is reduced, and the working effect of the rotating shaft and the rigid roller is improved.

Preferably, the tangential buffer subassembly is including rotating the telescopic link of connecting in the bearing at pivot both ends, two air springs of equal fixedly connected with in the bearing outside, the setting is kept away from each other to the cylinder body of two air springs, the air spring sets up along wall body length direction, the common fixed connection in the slider of one end is kept away from each other to the cylinder body of two air springs, two air springs all overlap and are equipped with tangential buffer spring, tangential buffer spring one end butt in the bearing, tangential buffer spring keeps away from the equal butt in the slider of bearing one end, the bearing is located the middle part of slider under the tangential buffer spring natural state.

By adopting the scheme, for the component force of the impact force along the length direction of the wall body, the air spring and the tangential buffer spring absorb and buffer the component force along the length direction of the wall body through deformation at the same time, and the direct damage of the impact force to the rotating shaft and the sliding block is reduced.

Preferably, radial buffer assembly is including connecting in the pyrocondensation pipe of wall body, and the vertical wall body surface of the pipe that contracts of ulcerate sets up, and the pipe that contracts of ulcerate runs through the buffer layer setting, and the pipe that contracts of ulcerate is kept away from wall body one end and is connected with radial buffer spring, and radial buffer spring keeps away from wall body one end fixed connection in the spout body, and radial buffer spring gives the power that the wall body was kept away from to the spout body.

By adopting the scheme, the radial buffer spring and the crumple pipe consume and relieve the direct impact of the impact force on the wall body through deformation to the component force of the impact force along the vertical wall body, and the impact resistance of the communication machine room is improved.

Preferably, the pipe that contracts bursts is close to the equal fixedly connected with first buffer board of wall body one end, and first buffer board bolted connection is in the wall body, and radial buffer spring is close to wall body one end fixedly connected with second buffer board, and wall body one side is kept away from in the buffer layer to second buffer board butt, and second buffer board is close to wall body one side fixed connection in the pipe that contracts.

Through adopting above-mentioned scheme, first buffer board and second buffer board increase respectively and fall the draw and radial buffer spring and the area of contact of next contact surface, reduce the striking in the twinkling of an eye fall the draw and give the pressure that wall body and radial buffer spring give the buffer layer, reduce the probability that buffer layer and wall body were stabbed.

Preferably, the bottom plate and the roof correspond the spout body position department and have all seted up a plurality of dovetails, and the dovetail sets up along perpendicular spout body length direction, and the spout body corresponds the equal fixedly connected with forked tail of forked tail slot position department, and forked tail sliding connection is in the dovetail, and the forked tail slides along dovetail length direction.

By adopting the scheme, the dovetail joint and the dovetail groove are matched to limit the movement direction of the sliding groove body in the impact process, the stability of the sliding groove body is enhanced, and the buffering effect of the radial buffering assembly and the tangential buffering assembly is improved.

In summary, the present application has the following beneficial effects:

1. the rigid roller can guide the impact force to decompose the force vertical to the wall body and the force parallel to the wall body by utilizing the shape of the rigid roller, the tangential buffer component buffers the impact force along the length direction of the wall body, and the radial buffer component buffers the impact force vertical to the surface of the wall body;

2. when the impact force is small, the buffer layer made of the non-Newtonian fluid is in a flexible state, and the buffer layer absorbs the impact of the impact force on the wall body; when the impact force is too large, the buffer layer made of the non-Newtonian fluid is in a hard state, and the buffer layer bears impact before the wall body after the front radial buffer assembly cannot buffer effectively;

3. the excessive impact force drives the sliding block to cut off the positioning bolt along the pre-splitting groove, the sliding block slides along the sliding groove body, the impacted object is guided to deflect, and the damage of the impact to a communication machine room is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an anti-collision communication machine room according to an embodiment of the present application;

fig. 2 is a sectional view of a wall body of an anti-collision communication machine room according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a housing of a collision avoidance communication room according to an embodiment of the present application;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is an enlarged view of portion B of FIG. 3;

fig. 6 is a structural schematic diagram of a radial buffer assembly embodied in a collision avoidance communication room according to an embodiment of the present application.

Description of reference numerals: 1. a base plate; 11. a wall body; 12. a roof; 13. a housing case; 131. a buffer layer; 14. a protective shell; 2. a rigid drum; 21. a buffer sleeve; 211. a abdicating ring groove; 22. a rotating shaft; 221. a sleeve; 222. a butt joint plate; 3. a tangential cushioning component; 31. a bearing; 32. a gas spring; 33. a tangential buffer spring; 34. a slider; 4. a chute body; 41. positioning the bolt; 411. pre-cracking the groove; 42. dovetail joints; 421. a dovetail groove; 5. a radial cushioning component; 51. a first buffer plate; 511. collapsing the pipe; 52. a second buffer plate; 521. a radial buffer spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses anticollision communication computer lab. Referring to fig. 1 and 2, the solar energy storage device comprises a bottom plate 1, wherein a wall 11 is fixedly connected to the upper side of the bottom plate 1, and a roof 12 is fixedly connected to one end, far away from the bottom plate 1, of the wall 11. An accommodating shell 13 is fixedly connected to the outer side of the wall body 11, the accommodating shell 13 is arranged to cover the wall body 11, and a buffer layer 131 made of non-Newtonian fluid is filled in the accommodating shell 13. When the impact force is small, the buffer layer 131 made of the non-newtonian fluid is in a flexible state, and the buffer layer 131 absorbs the impact of the impact force on the wall body 11; when the impact force is too large, the cushioning layer 131 made of the non-newtonian fluid is in a hard state, and the cushioning layer 131 receives the impact before the wall body 11. Hold shell 13 and keep away from 11 one side of wall body and be provided with the pivot 22 of a plurality of vertical settings, a plurality of rigidity cylinders 2 of the equal fixedly connected with of pivot 22, rigidity cylinder 2 sets up with pivot 22 coaxial line, and rigidity cylinder 2 all overlaps and is equipped with and has elastic buffer sleeve 21, and buffer sleeve 21 covers the setting of rigidity cylinder 2, and buffer sleeve 21 has seted up a plurality of annular 211 of stepping down on the surface. When the foreign object collides with the buffer sleeve 21, the buffer sleeve 21 which is extruded absorbs the impact force of the buffer part through deformation, the yielding ring groove 211 gives a larger deformation space to the buffer sleeve 21, and the buffer effect of the buffer sleeve 21 is improved.

Referring to fig. 3 and 4, the two ends of the rotating shaft 22 are provided with tangential buffer assemblies 3, the tangential buffer assemblies 3 are connected to the bearings 31 at the two ends of the rotating shaft 22 through rotation, telescopic rods of two air springs 32 are fixedly connected to the outer sides of the bearings 31, cylinder bodies of the two air springs 32 are far away from each other, the air springs 32 are arranged along the length direction of the wall body 11, the cylinder bodies of the two air springs 32 are far away from each other, one end of each air spring 32 is fixedly connected with a sliding block 34, the two air springs 32 are both sleeved with a tangential buffer spring 33, one end of each tangential buffer spring 33 abuts against the corresponding bearing 31, one end of each tangential buffer spring 33, which is far away from the corresponding bearing 31, is abutted against the corresponding sliding block 34, and the bearings 31 are located in the middle of the sliding blocks 34 in the natural state of the tangential buffer springs 33. For the component of the impact force along the length direction of the wall body 11, the gas spring 32 and the tangential buffer spring 33 absorb and buffer the component of the impact force along the length direction of the wall body 11 through deformation at the same time, and the direct damage of the impact force to the rotating shaft 22 and the sliding block 34 is reduced.

Referring to fig. 3 and 4, the bottom plate 1 and the roof 12 are provided with a chute body 4 corresponding to the position of the sliding block 34, the chute body 4 is arranged along the length direction of the wall 11, the sliding block 34 is connected to the chute body 4 in a sliding manner, the sliding block 34 slides along the length direction of the chute body 4, the positioning bolts 41 are arranged at the positions of the two ends of the sliding block 34 corresponding to the chute body 4 in a penetrating manner, and the pre-splitting grooves 411 are arranged at the positions of the side walls of the chute body 4 corresponding to the positioning bolts 41. The excessive impact force drives the sliding block 34 to cut off the positioning bolt 41 along the pre-splitting slot 411, the sliding block 34 slides along the sliding slot body 4, the impacted object is guided to deflect, and the damage of the impact to the communication machine room is reduced.

Referring to fig. 2 and 5, a sleeve 221 is rotatably connected to the middle of the rotating shaft 22, an abutting plate 222 is fixedly connected to a position, close to the accommodating shell 13, of the sleeve 221, the abutting plate 222 abuts against the accommodating shell 13 on a side, close to the accommodating shell 13, of the abutting plate 222, a protective shell 14 is sleeved on the outer side of the wall 11, and the protective shell 14 surrounds the wall 11 and the rigid roller 2. The sleeve 221 and the abutting plate 222 are matched to conduct the impact force of the middle part of the rotating shaft 22 to the buffer layer 131, so that the probability that the rotating shaft 22 is bent violently by the impact force is reduced, and the working effect of the rotating shaft 22 and the rigid roller 2 is improved.

Referring to fig. 4 and 6, a plurality of dovetail grooves 421 are respectively formed at positions of the bottom plate 1 and the roof 12 corresponding to the chute body 4, the dovetail grooves 421 are arranged along a length direction perpendicular to the chute body 4, dovetail tongues 42 are respectively fixedly connected at positions of the chute body 4 corresponding to the dovetail grooves 421, the dovetail tongues 42 are slidably connected to the dovetail grooves 421, and the dovetail tongues 42 slide along the length direction of the dovetail grooves 421. Slide 4 is close to wall body 11 one side and all is provided with a plurality of radial buffer unit 5, radial buffer unit 5 includes bolted connection in wall body 11 and is close to the first buffer board 51 of slide 4 one side, first buffer board 51 keeps away from the equal fixedly connected with pyrocondensation pipe 511 in wall body 11 one side, the perpendicular wall body 11 surface setting of the pyrocondensation pipe 511 that contracts, pyrocondensation pipe 511 runs through and holds the setting of shell 13, the equal fixedly connected with second buffer board 52 of wall body 11 one end is kept away from to the pyrocondensation pipe 511, the butt of second buffer board 52 is in holding shell 13 and keeping away from wall body 11 one side, the equal fixedly connected with radial buffer spring 521 of second buffer board 52, radial buffer spring 521 keeps away from 11 one end fixed connection in slide 4 of wall body, radial buffer spring 521 gives slide 4 the power of keeping away from wall body 11. For the component force of the impact force along the vertical wall 11, the radial buffer spring 521 and the collapsing tube 511 consume and relieve the direct impact of the impact force on the wall 11 through deformation, so that the impact resistance of the communication machine room is improved. The first buffer plate 51 and the second buffer plate 52 respectively increase the contact area of the collapsing pipe 511 and the radial buffer spring 521 with the next contact surface, reduce the pressure applied to the wall body 11 by the collapsing pipe 511 and the buffer layer 131 by the radial buffer spring 521 at the moment of impact, and reduce the probability that the buffer layer 131 and the wall body 11 are punctured.

The implementation principle of an anticollision communication computer lab of the embodiment of this application does: when the communication machine room is impacted by an automobile or other external impacts, the rigid roller 2 can guide the impact force to separate the force vertical to the wall body 11 and the force parallel to the wall body 11 by utilizing the shape of the rigid roller, the tangential buffer component 3 buffers the impact force along the length direction of the wall body 11, and the radial buffer component 5 buffers the impact force vertical to the surface of the wall body 11. When the impact force is small, the buffer layer 131 made of the non-newtonian fluid is in a flexible state, and the buffer layer 131 absorbs the impact of the impact force on the wall body 11; when the impact force is too large, the buffer layer 131 made of the non-newtonian fluid is in a hard state, after the front radial buffer assembly 5 cannot effectively buffer, the buffer layer 131 bears impact before the wall body 11, the too large impact force drives the sliding block 34 to cut off the positioning bolt 41 along the pre-splitting groove 411, and the sliding block 34 slides along the sliding groove body 4 to guide and deflect the impacted object, so that the damage of the impact on the communication machine room is reduced.

The embodiment of the application improves the condition that the communication machine room is easily damaged by accidental impact.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an anticollision communication computer lab, includes bottom plate (1), bottom plate (1) upside fixedly connected with wall body (11), and bottom plate (1) one end fixedly connected with roof (12), its characterized in that are kept away from in wall body (11): the outer side of the wall body (11) is provided with a buffer layer (131) made of non-Newtonian fluid, one side of the buffer layer (131) far away from the wall body (11) is provided with a plurality of rotating shafts (22), the rotating shafts (22) are fixedly connected with a plurality of rigid rollers (2), the rigid rollers (2) and the rotating shafts (22) are coaxially arranged, two ends of each rotating shaft (22) are respectively provided with a sliding block (34), the end parts of the sliding blocks (34) corresponding to the rotating shafts (22) are respectively provided with a tangential buffer component (3) used for buffering the impact force along the length direction of the wall body (11), the positions of the bottom plate (1) and the roof (12) corresponding to the sliding blocks (34) are respectively provided with a sliding groove body (4), the sliding groove bodies (4) are arranged along the length direction of the wall body (11), the sliding blocks (34) are respectively connected to the sliding groove bodies (4) in a sliding mode, the sliding blocks (34) slide along the length direction of the sliding groove bodies (4), positioning bolts (41) are respectively penetrated through the positions of the sliding groove bodies (4) corresponding to the two ends of the sliding blocks (34), the positioning bolt (41) is provided with pre-splitting grooves (411) corresponding to the side wall of the chute body (4), and one side of the chute body (4) close to the wall body (11) is provided with a plurality of radial buffer assemblies (5) used for buffering the impact force vertical to the surface of the wall body (11).

2. The anti-collision communication machine room according to claim 1, characterized in that: rigid cylinder (2) all are equipped with and have elastic buffer sleeve (21), and buffer sleeve (21) covers rigid cylinder (2) and sets up.

3. The anti-collision communication machine room according to claim 2, characterized in that: the surface of the buffer sleeve (21) is provided with a plurality of yielding ring grooves (211).

4. The anti-collision communication machine room according to claim 1, characterized in that: the middle of the rotating shaft (22) is rotatably connected with a sleeve (221), the position, close to the accommodating shell (13), of the sleeve (221) is fixedly connected with a butt joint plate (222), and one side, close to the wall body (11), of the butt joint plate (222) is in butt joint with the buffer layer (131).

5. The anti-collision communication machine room according to claim 1, characterized in that: tangential buffer subassembly (3) is including rotating bearing (31) of connecting in pivot (22) both ends, the telescopic link of two air springs (32) of the equal fixedly connected with in bearing (31) outside, the cylinder body of two air springs (32) is kept away from the setting each other, air spring (32) set up along wall body (11) length direction, the common fixed connection in slider (34) of one end is kept away from each other to the cylinder body of two air springs (32), two air springs (32) all overlap and are equipped with tangential buffer spring (33), tangential buffer spring (33) one end butt in bearing (31), tangential buffer spring (33) are kept away from bearing (31) one end and are all butt in slider (34), bearing (31) are located the middle part of slider (34) under tangential buffer spring (33) the natural state.

6. The anti-collision communication machine room according to claim 1, characterized in that: radial buffer unit (5) including connect in the pipe (511) that contracts of wall body (11), the perpendicular wall body (11) surface setting of pyrocondensation pipe (511), pyrocondensation pipe (511) run through buffer layer (131) and set up, pyrocondensation pipe (511) are kept away from wall body (11) one end and are connected with radial buffer spring (521), wall body (11) one end fixed connection in spout body (4) are kept away from in radial buffer spring (521), radial buffer spring (521) give spout body (4) the power of keeping away from wall body (11).

7. The anti-collision communication machine room according to claim 6, characterized in that: the wall body (11) one end of the collapse pipe (511) is close to and is fixedly connected with the first buffer plate (51), the first buffer plate (51) is connected to the wall body (11) through bolts, the radial buffer spring (521) is close to and is fixedly connected with the second buffer plate (52) at one end of the wall body (11), the second buffer plate (52) is abutted to the side, far away from the wall body (11), of the buffer layer (131), and the second buffer plate (52) is close to and is fixedly connected to the collapse pipe (511) at one side of the wall body (11).

8. The anti-collision communication machine room according to claim 1, characterized in that: a plurality of dovetail grooves (421) have all been seted up to bottom plate (1) and roof (12) corresponding chute body (4) position department, and dovetail groove (421) set up along perpendicular chute body (4) length direction, and all fixedly connected with dovetail (42) are located to chute body (4) corresponding dovetail (421), dovetail (42) sliding connection in dovetail (421), and dovetail (42) slide along dovetail (421) length direction.

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