Disclosure of Invention
The invention aims to solve the problems and provides equipment which has the advantages of accommodating and installing more electronic circuit boards, facilitating personnel to debug and maintain communication equipment and the like.
The invention is realized by the following technical scheme: the 5G signal tower electrical distribution box comprises a box body, wherein a penetrating inner cavity is formed in the box body, a plurality of cushion blocks are fixedly arranged on the lower end face of the box body and abut against the ground, rotating seats which are symmetrical up and down are arranged on the front end face of the box body, a rotating door is rotatably arranged between the rotating seats, batch installation devices which are alternately arranged left and right are arranged in the inner cavity, sliding matching devices which are positioned in the inner cavity are arranged on the outer sides of the batch installation devices, and a turning plate device which dissipates heat and is convenient to clean is arranged on the rear side of the box body, so that the batch installation devices and the sliding matching devices are utilized to realize the function of conveniently installing communication equipment by personnel, and the installation number of electronic circuit boards can be increased.
Further technical scheme, installation device includes a plurality of installation boxes in batches, installation box terminal surface is provided with the installation component that is used for installing electronic circuit board in the communications facilities, the terminal surface is provided with the cooperation subassembly of longitudinal symmetry about the installation box, cooperation subassembly be used for with the cooperation of sliding fit device is connected, through set up in between the installation box coupling assembling cooperation in the installation box is connected to utilize above-mentioned subassembly to make equipment can carry out the installation of more electronic circuit board.
According to the technical scheme, the mounting assembly comprises a mounting plate, an open plate inner cavity is formed in the mounting plate, a plurality of through matching holes are formed in the plate inner cavity in a communicating mode, and therefore the electronic circuit board in the communication equipment is convenient to fix through the matching holes.
Further technical scheme, the cooperation subassembly including set up in the internal and upper and lower symmetry's of installation box cooperation inner chamber, the cooperation inner chamber runs through the setting, the gliding slide plate that is provided with of cooperation inner chamber, the size of slide plate with cooperation inner chamber upper end wall size is the same, slide plate with elasticity is provided with coupling spring between the cooperation inner chamber end wall, keeps away from coupling spring slide plate terminal surface be provided with the sliding structure that the cooperation of sliding device is connected to utilize sliding structure to make in batches installation device with the cooperation of sliding cooperation device is connected.
Further technical scheme, sliding construction include with the fixed cylinder of slide block, the gliding running through of cylinder installation box, the cylinder surface has set firmly the fixed disk, fixed disk surface dress card is provided with the annular casing of symmetry, connect through bolt and nut fixed fit between the annular casing, keep away from the slide block the cylinder terminal surface has set firmly conical surface arch, the terminal surface has set firmly a plurality of fixed plates under the annular casing, is close to the conical surface is bellied the fixed plate terminal surface has set firmly the side flat board, the side flat board up end has set firmly the circular arch, the circular arch with the conical surface is protruding to offset, the terminal surface has set firmly the disc under the fixed plate, the terminal surface sets firmly the cylinder mounting panel of symmetry under the disc, the pivoted is provided with the roller between the cylinder mounting panel to utilize above-mentioned structure with it realizes that the cooperation subassembly pulls out so that personnel advance the electronic circuit board from the equipment to slide the cooperation device and connect And (5) installing and maintaining.
Further technical scheme, coupling assembling including set up in the installation box and open-ended adversion chamber, adversion chamber symmetry sets up, round shaft has set firmly between the upper and lower end wall in the adversion chamber, and is adjacent be provided with the connecting plate in the installation box, the connecting plate respectively with the front and back side round shaft normal running fit connects, thereby utilizes the cooperation of round shaft and connecting plate is connected, makes the installation box cooperation is connected and is formed wholly so that personnel's pulling.
Further technical scheme, the cooperation device that slides including set up in downside and bilateral symmetry's guide rail about the inner chamber, be provided with the open-ended guide slot in the guide rail, roll a section of thick bamboo with the guide slot roll fit connection, terminal surface sets firmly bilateral symmetry's curb plate about the guide rail, keeps away from roll a section of thick bamboo the curb plate terminal surface has set firmly the supporting legs, the supporting legs with the inner chamber end wall is fixed, curb plate one side is provided with and is convenient for installation communication equipment electronic circuit board's that the installation device slides in by equipment makes personnel guide rail assembly more convenient in batches to utilize guide rail assembly to make installation device roll-off is convenient in batches.
According to the technical scheme, the guide rail assembly comprises a power motor fixedly arranged on the end wall of the inner cavity, a power shaft is arranged in the power motor in a power connection mode, the power shaft is connected with the guide rail in a rotating fit mode, the power motor is located at the position where the guide grooves are opposite, and an arc-shaped track structure used for guiding the batch installation device is arranged on the outer surface of the power shaft, so that the arc-shaped track structure is utilized to enable the batch installation device to be unfolded towards two sides.
According to the technical scheme, the arc-shaped track structure comprises a rotating guide block fixed with the power shaft, an open slot is formed in the rotating guide block, the rotating guide block on the left side and the right side is arranged in a mirror symmetry mode, and a cushion block is fixedly arranged on the lower end wall of the open slot, so that the batch installation device can slide out towards two sides by utilizing the open slot.
According to the technical scheme, the turnover device comprises a plurality of rotating wheels which are rotatably arranged on the right end face of the box body, the outer surfaces of the rotating wheels are provided with matching grooves which are open and symmetrical, the outer surfaces of the rotating wheels on the upper side and the lower side are wound with meshing belts, the upper sides and the lower sides of the meshing belts are in power connection with the rotating wheels, the left end face of the box body is fixedly provided with a driving motor, a plurality of turnover plates which are opposite to the rotating wheels are arranged in the inner cavity, the turnover plates are in coaxial power connection with the rotating wheels, the driving motor is in power connection with the turnover plates on the uppermost side, and therefore the driving motor is used for indirectly controlling the rotation of the turnover plates to enable the inner cavity to be closed and.
The invention has the beneficial effects that: the equipment adopts the design of a batch installation device, a sliding matching device and a plate turnover device, so that the equipment can efficiently install 5G communication equipment, and is convenient for personnel to maintain, thereby greatly improving the use efficiency and reliability of the equipment.
The advantages are embodied in that the design of the driving motor, the turnover plate, the matching groove, the rotating wheel and the meshing belt is utilized to enable the turnover plate to be turned over simultaneously, so that the linkage of the equipment is realized, when heat dissipation is needed, the turnover plate is inclined at a certain angle, so that the communication equipment in the inner cavity is sufficiently radiated, the temperature of the communication equipment in the inner cavity is reduced, the working stability of the communication equipment is improved, the outer surface of the laminated turnover plate cannot be better cleared by the existing equipment, the turnover plate can be indirectly driven to turn over after the driving motor works so that the turnover plate is in a vertical state, so that personnel can conveniently clean the outer surface of the turnover plate, and the design of the power motor, the power shaft and the rotating guide block can be hidden from the inner cavity and can also be unfolded, the batch installation device in the guide groove can move more conveniently, and can be distributed on the left side and the right side of the box body along the open slot, so that the convenience for personnel to install and maintain communication equipment is greatly improved, the cushion block is designed to facilitate the rolling cylinder to drive the batch installation device to enter the open slot more conveniently from the guide slot, the design of the batch installation device enables personnel to install the communication equipment through the matching hole, the plate inner cavity and the installation plate, and the batch installation device is designed in a left-right alternative mode in the using process, so that the using space for actually installing the communication equipment in the equipment is increased, the containing effect of the equipment is improved, the installation box body on the front side and the rear side of the connection plate can be stably moved, and the problem of structural stability during personnel maintenance and installation is prevented, and is convenient for personnel to pull the batch installation device, the connecting spring has the effect that the distance between the guide grooves of the upper side and the lower side is different from the distance between the open grooves of the upper side and the lower side when the personnel pulls the batch installation device out, at the moment, the connecting spring plays a role of indirectly pushing the rolling cylinder tightly in the guide grooves and the open grooves, so that the batch installation device is stably moved, and the structure of the annular shell, the fixed disc, the conical surface bulges, the fixed plate, the circular bulges, the side flat plates, the rolling cylinder installation plate and the disc is utilized, so that the structural stability of the batch installation device is improved, wherein the design of the circular bulges and the conical surface bulges reduces the friction force and the loss of parts, the design of the annular shell and the fixed disk is convenient for personnel to disassemble and assemble, the design of the matching hole, the inner cavity of the plate and the mounting plate enables the personnel to mount the communication equipment more conveniently.
Drawings
FIG. 1 is a schematic diagram of the apparatus of the present invention;
FIG. 2 is an enlarged view of the case of FIG. 1 in the direction A;
FIG. 3 is a schematic rear side view of the apparatus of FIG. 1 in accordance with the present invention;
FIG. 4 is an enlarged schematic view of the batch mount and slide fit arrangement of FIG. 1 of the present invention;
FIG. 5 is a schematic view of the deployment of the slide-fit device of FIG. 1 according to the present invention;
FIG. 6 is a schematic view of the batch installation of FIG. 4 according to the present invention;
FIG. 7 is a schematic view of the rolling cartridge of FIG. 6 and its associated structure in accordance with the present invention;
FIG. 8 is a schematic bottom view of the rolling cartridge of FIG. 6 and its associated structure in accordance with the present invention;
in the figure, a cushion block 101, an inner cavity 102, a side plate 103, a rotating door 104, a rotating seat 105, a driving motor 106, a box body 107, a matching groove 201, a rotating wheel 202, a meshing belt, a 203 turning plate 302, a power motor 403, a supporting foot 404, a guide groove 405, a guide rail 406, a mounting box body 407, a power shaft 408, a connecting plate 501, a sliding plate 502, a connecting spring 503, a matching inner cavity 504, an inner rotating cavity 505, a circular shaft 506, a matching hole 507, a plate inner cavity 508, a mounting plate 509, a cylinder 601, a fixed plate 602, an annular shell 603, a fixed plate 604, a circular protrusion 605, a side flat plate 606, a rolling cylinder 607, a rolling mounting plate 608, a circular disk 609, a conical surface protrusion 610, an open groove 701, a rotating guide block 702, a cushion block, a batch mounting device 950, a sliding.
Detailed Description
As shown in fig. 1 to 8, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the up-down, left-right and front-back direction is consistent with the up-down, left-right and front-back direction of the projection relation of the self-body in the figure 1, the 5G signal tower electric distribution box comprises a box body 107, the length of the box body 107 is at least 1.5m, a through inner cavity 102 is arranged in the box body 107, a plurality of cushion blocks 101 are fixedly arranged on the lower end surface of the box body 107, the cushion blocks 101 are abutted against the ground, a rotating seat 105 which is symmetrical up and down is arranged on the front end surface of the box body 107, a rotating door 104 is rotatably arranged between the rotating seats 105, the width of the rotating door 104 is the same as that of the box body 107, so that the inner cavity 102 is sealed by the rotating door 104, batch installation devices 950 which are alternately arranged left and right are arranged in the inner cavity 102, sliding matching devices 951 which are arranged outside the batch installation devices 950 are arranged in the inner cavity 102, a turning plate device 952 which is used for heat dissipation and, and the number of electronic circuit boards to be mounted can be increased.
Advantageously, the batch installation device 950 includes a plurality of installation boxes 407, the height of the installation boxes 407 is less than that of the inner cavity 102, the end faces of the installation boxes 407 are provided with installation components for installing electronic circuit boards in the communication equipment, the upper and lower end faces of the installation boxes 407 are provided with vertically symmetrical matching components for matching and connecting with the sliding matching device 951, and the installation boxes 407 are matched and connected through connection components arranged in the installation boxes 407, so that the above components can be used for installing more electronic circuit boards.
Advantageously, the mounting assembly includes a mounting plate 509, an open plate cavity 508 is disposed in the mounting plate 509, a plurality of matching holes 507 are disposed in the plate cavity 508, the diameter of the matching hole 507 is only 2cm, and the number of the matching holes 507 is at least fifty, so that the electronic circuit board in the communication device can be conveniently fixed by using the matching holes 507.
Beneficially, the matching assembly includes a matching inner cavity 504 which is arranged in the mounting box 407 and is vertically symmetrical, the matching inner cavity 504 is arranged in a penetrating manner, a sliding plate 502 is arranged in the matching inner cavity 504 in a sliding manner, the size of the sliding plate 502 is the same as that of the upper end wall of the matching inner cavity 504, a connecting spring 503 is elastically arranged between the sliding plate 502 and the end wall of the matching inner cavity 504, a sliding structure which is in matching connection with the sliding matching device 951 is arranged on the end face of the sliding plate 502 far away from the connecting spring 503, and therefore the batch mounting device 950 is in matching connection with the sliding matching device 951 through the sliding structure.
Beneficially, the sliding structure includes a cylinder 601 fixed to the sliding plate 502, the cylinder 601 slidably penetrates through the installation box 407, a fixed plate 602 is fixedly arranged on the outer surface of the cylinder 601, the diameter of the fixed plate 602 is larger than that of the cylinder 601, symmetrical annular shells 603 are arranged on the outer surface of the fixed plate 602 in a clamping manner, the annular shells 603 are fixedly matched and connected through bolts and nuts, a conical surface protrusion 610 is fixedly arranged on the end surface of the cylinder 601 far away from the sliding plate 502, the inclined angle of the conical surface protrusion 610 is 45 degrees, a plurality of fixed plates 604 are fixedly arranged on the lower end surface of the annular shell 603, a side plate 606 is fixedly arranged on the end surface of the fixed plate 604 close to the conical surface protrusion 610, a circular protrusion 605 is fixedly arranged on the upper end surface of the side plate 606, the circular protrusion 605 abuts against the conical surface protrusion 610, a circular disc 609 is fixedly arranged on the lower end surface of the fixed plate, the diameter of the rolling cylinder 607 is at least 5cm, so that the matching component can be pulled out from the equipment by the matching connection of the structure and the sliding matching device 951, so that the electronic circuit board can be conveniently installed and maintained by personnel.
Advantageously, the connecting assembly comprises an inner rotating cavity 505 which is arranged in the mounting box 407 and is open, the inner rotating cavity 505 is symmetrically arranged, a circular shaft 506 is fixedly arranged between the upper end wall and the lower end wall of the inner rotating cavity 505, a connecting plate 501 is arranged in the adjacent mounting box 407, the length of the connecting plate 501 is at least 20cm, and the connecting plates 501 are respectively connected with the circular shafts 506 on the front side and the rear side in a rotating fit mode, so that the mounting box 407 is integrally connected in a fit mode through the matching connection of the circular shafts 506 and the connecting plates 501 to facilitate pulling of a person.
Beneficially, the sliding fitting device 951 comprises guide rails 406 which are arranged on the upper side and the lower side in the inner cavity 102 and are bilaterally symmetrical, an open guide groove 405 is arranged in the guide rail 406, the rolling cylinder 607 is connected with the guide groove 405 in a rolling fitting manner, the width of the guide groove 405 is the same as the length of the rolling cylinder 607, bilateral symmetrical side plates 103 are fixedly arranged on the left end face and the right end face of the guide rail 406, supporting legs 404 are fixedly arranged on the end face of the side plate 103 far away from the rolling cylinder 607, the supporting legs 404 are fixed on the end wall of the inner cavity 102, and a guide rail assembly which facilitates the batch installation device 950 to slide from the inside of the equipment so as to enable a person to conveniently install.
Advantageously, the guide rail assembly comprises a power motor 403 fixedly arranged on the end wall of the inner cavity 102, a power shaft 408 is arranged in the power motor 403 in a power connection mode, the power shaft 408 is connected with the guide rail 406 in a rotating fit mode, the power motor 403 is located at the position opposite to the guide groove 405, and an arc-shaped track structure used for guiding the batch installation device 950 is arranged on the outer surface of the power shaft 408, so that the batch installation device 950 is unfolded towards two sides through the arc-shaped track structure.
Advantageously, the arc-shaped track structure comprises a rotating guide block 702 fixed to the power shaft 408, the diameter of the rotating guide block 702 is at least 0.5m, an open slot 701 is formed in the rotating guide block 702, the width of the open slot 701 is the same as that of the guide slot 405, the rotating guide blocks 702 on the left side and the right side are arranged in a mirror symmetry manner, and a spacer block 703 is fixedly arranged on the lower end wall of the open slot 701, so that the batch installation device 950 can slide out towards two sides by using the open slot 701.
Beneficially, the turning plate device 952 includes a plurality of rotating wheels 202 rotatably disposed on the right end surface of the box 107, the outer surfaces of the rotating wheels 202 are provided with open and symmetrical fitting grooves 201, the outer surfaces of the rotating wheels 202 on the upper side and the lower side are wound with engaging belts 203, the engaging belts 203 connect the rotating wheels 202 on the upper side and the lower side by power, the diameter of the rotating wheels 202 is at least 5cm, the left end surface of the box 107 is fixedly provided with the driving motor 106, the inner cavity 102 is rotatably provided with a plurality of turning plates 302 opposite to the rotating wheels 202, the turning plates 302 are coaxially and power connected with the rotating wheels 202, and the driving motor 106 is power connected with the turning plate 302 on the uppermost side, so that the driving motor 106 indirectly controls the rotation of the turning plates 302 to close and open.
In the initial state, the devices, assemblies and structures are in a deactivated state, and personnel are required to mount the electronics boards of the communication device within the interior 102 before the device can operate.
Communication equipment is prior art, and in 5G communication field, 5G communication's realization needs utilize 5G signal transmission tower to launch the signal, and communication equipment here refers to the equipment that can be used for constituteing 5G communication system, needs to have special electronic box to install when in actual use.
When a person uses the device, the person rotates the revolving door 104 to make the revolving door 104 separate from the box body 107, the power motor 403 starts to work and then drives the power shaft 408 to rotate, the power shaft 408 rotates and then drives the rotary guide block 702 to rotate, the rotary guide block 702 rotates and then expands and is positioned at the left side and the right side outside the box body 107, at this time, the cushion block 703 is positioned at the front side of the guide groove 405, then the person pulls the installation box body 407 to make the rolling cylinder 607 roll in the guide groove 405 and the open groove 701, so that the cylinder 601, the fixed disc 602, the annular housing 603, the fixed plate 604, the circular protrusion 605, the side flat plate 606, the rolling cylinder 607, the rolling cylinder mounting plate 608, the circular disc 609 and the conical protrusion 610 form a structure which drives the installation box body 407, the matching hole 507, the plate inner cavity 508 and the mounting plate 509 to slide into the open groove 701 and be in an expanded state, and the structure can stably slide out and is convenient for the person to pull out and place into the, at this moment, a person is at the mounting plate 509, the electronic circuit board in the communication equipment is mounted in the plate inner cavity 508 and the matching hole 507, the structure is reset after the mounting is finished, in the daily use process, because the communication equipment can generate heat during working, the inner cavity 102 needs to be cooled at the moment, the driving motor 106 works and then is under the effects of the matching groove 201, the rotating wheel 202, the meshing belt 203 and the turnover plate 302, the turnover plate 302 is turned over, the inner cavity 102 is in an open state, when the turnover plate 302 is cleaned, the turnover plate 302 is not convenient to clean due to the fact that the turnover plate 302 is inclined at a certain angle, the driving motor 106 indirectly drives the turnover plate 302 to turn over vertically downwards after working, and at the moment, the person can clean the turnover plate 302.
The invention has the beneficial effects that: this equipment has adopted the design of batch installation device 950, sliding fit device 951 and plate turnover 952, makes 5G communication equipment of installation that equipment can the efficient, and the personnel of being convenient for maintain, very big improvement the availability factor and the reliability of equipment.
The advantages are embodied in that the design of the driving motor 106, the turnover plate 302, the matching groove 201, the rotating wheel 202 and the meshing belt 203 is utilized to enable the turnover plate 302 to turn over simultaneously, the linkage of the equipment is improved, when heat dissipation is needed, the turnover plate 302 inclines at a certain angle, the communication equipment in the inner cavity 102 is fully dissipated, the temperature of the communication equipment in the inner cavity 102 is reduced, the working stability of the communication equipment is improved, the outer surface of the laminated turnover plate 302 cannot be better cleaned by the existing equipment, the turnover plate 302 can be indirectly driven to turn over after the driving motor 106 works so that the turnover plate 302 is in a vertical state, personnel can conveniently clean the outer surface of the turnover plate 302, the design of the power motor 403, the power shaft 408 and the rotating guide block 702 is utilized to enable the rotating guide block 702 to be hidden in the inner cavity 102 or to be unfolded, and the batch installation device 950 in the guide groove 405 is more conveniently moved, and make the batch installation device 950 distribute in the left and right sides of the container body 107 along the open slot 701, the very big convenience that has improved personnel's installation and maintenance communications facilities, the design of cushion 703 lies in and is convenient for the cylinder 607 that rolls drives the batch installation device 950 and enter into the open slot 701 by the guide slot 405 is more convenient, the design of the batch installation device 950 makes personnel can install communications facilities through the mating holes 507, the board inner chamber 508 and mounting panel 509 and the batch installation device 950 is designed around the alternative in the use, the usable space of actually installing communications facilities in the equipment has been increased, make the equipment contain the effect and rise, utilize the installation box 407 of the front and back sides of connecting plate 501 to carry out stable removal, structural stability problem appears when preventing personnel from maintaining and installing, and be convenient for personnel will batch installation device 950 pulling, the effect of connecting spring 503 lies in that the distance between the guide slot 405 of upper and lower side and the distance of upper and lower side when personnel will pull out the 701, the connecting spring 503 plays a role to indirectly push the rolling cylinder 607 tightly against the guide groove 405 and the open groove 701, so that the batch installation device 950 moves stably, and the structure stability of the batch installation device 950 is improved by using the structures of the annular shell 603, the fixed disk 602, the conical surface protrusions 610, the fixed plate 604, the circular protrusions 605, the side flat plates 606, the rolling cylinder 607, the roller installation plate 608 and the circular disk 609, wherein the design of the circular protrusions 605 and the conical surface protrusions 610 reduces friction force and loss of parts, the design of the annular shell 603 and the fixed disk 602 is convenient for people to disassemble and assemble, and the design of the matching hole 507, the plate inner cavity 508 and the installation plate 509 makes the installation of the communication equipment more convenient for people.
The embodiments described herein are merely illustrative of the spirit of the invention and various modifications, additions and substitutions may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.
Although the terms of the cushion block 101, the inner cavity 102, the side plate 103, the swing door 104, the swing seat 105, the driving motor 106, the box 107, the matching groove 201, the swing wheel 202, the engaging belt 203, the turning plate 302, the power motor 403, the supporting leg 404, the guide groove 405, the guide rail 406, the mounting box 407, the power shaft 408, the connecting plate 501, the sliding plate 502, the connecting spring 503, the matching inner cavity 504, the inner turning cavity 505, the circular shaft 506, the matching hole 507, the plate inner cavity 508, the mounting plate 509, the cylinder 601, the fixed plate 602, the annular housing 603, the fixed plate 604, the circular protrusion 605, the side plate 606, the rolling cylinder 607, the rolling mounting plate 608, the disk 609, the tapered protrusion 610, the open groove 701, the rotating guide block 702, the cushion block 703, the batch mounting device 950, the sliding matching device 951, the flap device 952, and the like are used more frequently. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.