CN213638588U - 5G BBU energy-saving cabinet capable of being assembled quickly - Google Patents

Abstract

The utility model discloses an energy-conserving rack of 5G BBU that can assemble fast, including the base, still include the energy saving and carry out radiating energy-conserving heat radiation structure, the block structure of the space distribution in the switch board of being convenient for and make things convenient for transfer device's mosaic structure, the curb plate is all installed to the inside both sides of base, and the top of curb plate all extends to the top of base, the fixed block is all installed at the upper and lower both ends of curb plate one side, and all welds between the one end of fixed block has the guide bar. The utility model discloses a run through the joint groove with the joint post and insert the spacing groove in, can tentatively install, insert curb plate, first riser and second riser afterwards in the base, spacing post can pass the hole entering spacing groove on the joint post, installs the top cap at the top with the same mode at last, just so the curb plate just can't break away from with first riser and second riser, can stably install, and is very convenient quick, has realized the concatenation function of device.

Description

5G BBU energy-saving cabinet capable of being assembled quickly

Technical Field

The utility model relates to an information communication technology field specifically is an energy-conserving rack of 5G BBU that can assemble fast.

Background

With the development of society, the 5G technology develops rapidly, provides convenience for our life, and in order to protect the BBU equipment required by the BBU equipment, the BBU equipment needs to be installed and placed by using a cabinet, so that the BBU equipment can normally and stably run, and further serves our life.

The conventional BBU cabinet has the following disadvantages:

(1) the assembly cannot be carried out, the volume is too large, and the transportation is very troublesome and inconvenient;

(2) the internal heat is too large, so that equipment aging is easily caused, and the normal use of the equipment is influenced;

(3) the mounting panel position of inside is fixed, is difficult to rationally arrange to the equipment of different volumes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving rack of 5G BBU that can assemble fast to what put forward in solving above-mentioned background art can not assemble, and is bulky, transports very troublesome convenient problem inadequately.

In order to achieve the above object, the utility model provides a following technical scheme: A5G BBU energy-saving cabinet capable of being rapidly assembled comprises a base, an energy-saving heat dissipation structure capable of saving energy and dissipating heat, a clamping structure facilitating space distribution in a control cabinet and a splicing structure facilitating transfer devices;

the clamping structure comprises a base, side plates, a guide rod, two moving blocks and a clamping structure, wherein the side plates are mounted on two sides of the inner portion of the base, the top ends of the side plates extend to the upper portion of the base, fixed blocks are mounted at the upper end and the lower end of one side of each side plate, the guide rod is welded between one ends of the fixed blocks, the two moving blocks are sleeved on the outer sides of the guide rods, and the clamping structure is arranged;

the energy-saving heat dissipation structure comprises a movable block, a side plate, a first vertical plate, a plurality of wire arranging holes, air outlets and an energy-saving heat dissipation structure, wherein an installation plate is installed on one side of the movable block, a sliding groove is formed in one side of the movable block, sliding blocks are arranged on two sides of the installation plate, the installation plate is in sliding connection with the movable block through sliding fit between the sliding blocks and the sliding groove, the first vertical plate is arranged at one end of the side plate, the bottom of one end of the first vertical plate is provided with the plurality of wire arranging holes, the;

the one end that first riser was kept away from to the curb plate is provided with the second riser, and the guard gate is installed through the articulated elements to the one end of second riser, the top cover that the top cover of curb plate, first riser and second riser overlaps is equipped with, mosaic structure sets up in the inside of top cover and base.

Preferably, mosaic structure includes the spacing groove, the both sides at both ends about first riser and the second riser are all seted up to the spacing groove, and the joint groove has all been run through to the one end of spacing groove, the joint post all welds in the upper and lower both ends at both ends around the curb plate, and the one end of joint post all runs through in the inside in joint groove, the one end of joint post all extends to the inside of spacing groove, spacing post all welds in four corners of top cap and the inside one end of base, and the one end of spacing post all runs through to the one end of joint post.

Preferably, the cross-sectional shapes of the clamping column and the clamping groove are both circular, and the diameters of the clamping column and the clamping groove are equal.

Preferably, energy-conserving heat radiation structure includes mounting box, temperature sensor, filter screen, pneumatic telescopic handle, guard plate, movable rod and fan, the mounting box runs through in the inside of first riser, and the inner wall of mounting box installs the filter screen, the one end of filter screen is provided with the fan, pneumatic telescopic handle installs in the mounting box top of first riser one end, and pneumatic telescopic handle's output installs the movable rod, the bottom of movable rod extends to the inside of mounting box, and a plurality of guard plates are all installed through the articulated elements to the inside movable rod both sides of mounting box, the both sides of guard plate all are connected with the inner wall of mounting box through the articulated elements, temperature sensor all installs in the top intermediate position department of first riser one end.

Preferably, the guard plate is provided with ten altogether, and the guard plate all is equidistant distribution on the outer wall of movable rod.

Preferably, the block structure includes fixture block, draw-in groove, sliding tray, sliding block, pull rod and extrusion spring, the draw-in groove is all evenly seted up in both ends around the guide bar, the inside at both ends around the movable block is all seted up to the sliding tray, and two extrusion springs are all installed to the inside one end of sliding tray, the sliding block is all installed to the one end of extrusion spring, and the one end of sliding block all welds the fixture block, the one end of fixture block all extends to the inside of draw-in groove, the pull rod has all been welded to the one end intermediate position department of sliding block, and the one end of pull rod all extends to the one end of movable block.

Preferably, the maximum moving distance of the sliding block is smaller than the length of the sliding groove, and the maximum moving distance of the sliding groove is larger than the length of the clamping groove.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the clamping column penetrates through the clamping groove and is inserted into the limiting groove through the clamping groove, so that initial installation can be realized, then the side plate, the first vertical plate and the second vertical plate are inserted into the base, the limiting column can penetrate through a hole in the clamping column to enter the limiting groove, and finally the top cover is installed at the top in the same mode, so that the side plate cannot be separated from the first vertical plate and the second vertical plate, stable installation can be realized, the convenience and the rapidness are realized, and the splicing function of the device is realized;

(2) by arranging the mounting box, the temperature sensor, the filter screen, the pneumatic telescopic rod, the protection plates, the movable rod and the fan, when the temperature is too high, the temperature sensor sends a signal, the pneumatic telescopic rod pulls the movable rod upwards to drive the protection plates to rotate at the same angle at the same time, so that the protection plates are not shielded and protected inside the mounting box any more, meanwhile, the fan is started to send air into the device after the air passes through the filter screen for dust prevention, the air takes away heat inside the device through an air outlet to finish heat dissipation, and when the temperature is not high, the fan is closed to save energy, so that waste is avoided, and the energy-saving and heat-dissipating;

(3) the clamping block, the clamping groove, the sliding block, the pull rod and the extrusion spring are arranged, the pull rod is pulled, the pull rod drives the sliding block to move, the clamping block is made to exit from the clamping groove, the moving block can move along the outer wall of the guide rod, then the pull rod is loosened, the extrusion spring is used for pushing the sliding block to move along the sliding groove, the clamping block is made to be clamped into the clamping groove in the proper position, the moving block is limited to move, the position of the mounting plate is controlled, distribution of the inner space of the device is adjusted, the device is suitable for devices with different sizes, and the adjusting.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic front view of the structure of the present invention;

FIG. 3 is a schematic view of the partial side view cross-sectional structure of the present invention;

fig. 4 is a schematic side view of the sectional structure of the mounting box of the present invention;

fig. 5 is a schematic view of the cross-sectional structure of the moving block and the guide rod in a combined top view.

In the figure: 1. an energy-saving heat dissipation structure; 101. mounting a box; 102. a temperature sensor; 103. filtering with a screen; 104. a pneumatic telescopic rod; 105. a protection plate; 106. a movable rod; 107. a fan; 2. a snap-fit structure; 201. a clamping block; 202. a card slot; 203. a sliding groove; 204. a slider; 205. a pull rod; 206. a compression spring; 3. a top cover; 4. a side plate; 5. a moving block; 6. a guide bar; 7. a base; 8. a wire arranging hole; 9. mounting a plate; 10. a fixed block; 11. a limiting column; 12. a first vertical plate; 13. an air outlet; 14. a protective door; 15. a second vertical plate; 16. a limiting groove; 17. a clamping column; 18. a clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-5, a 5G BBU energy-saving cabinet capable of being quickly assembled includes a base 7, an energy-saving heat dissipation structure 1 capable of saving energy and dissipating heat, a clamping structure 2 convenient for space distribution in a control cabinet, and a splicing structure convenient for a transfer device;

the clamping structure comprises a base 7, side plates 4, a guide rod 6, two moving blocks 5 and a clamping structure 2, wherein the side plates 4 are mounted on two sides inside the base 7, the top ends of the side plates 4 extend to the upper side of the base 7, the fixed blocks 10 are mounted at the upper end and the lower end of one side of each side plate 4, the guide rod 6 is welded between one ends of the fixed blocks 10, the two moving blocks 5 are sleeved on the outer sides of the guide rods 6, and the;

the energy-saving heat dissipation structure comprises a moving block 5, a mounting plate 9, a sliding groove, a first vertical plate 12, a plurality of wire arranging holes 8, air outlets 13 and an energy-saving heat dissipation structure 1, wherein the mounting plate 9 is mounted on one side of the moving block 5, the sliding groove is formed in one side of the moving block 5, the sliding blocks are arranged on two sides of the mounting plate 9, the mounting plate 9 is in sliding connection with the moving block 5 through sliding fit between the sliding blocks and the sliding groove, the first vertical plate 12 is arranged at one end of a side plate 4, the bottom of one end of the first vertical plate 12;

a second vertical plate 15 is arranged at one end of the side plate 4, which is far away from the first vertical plate 12, a protective door 14 is arranged at one end of the second vertical plate 15 through a hinge piece, a top cover 3 is sleeved at the top ends of the side plate 4, the first vertical plate 12 and the second vertical plate 15, and a splicing structure is arranged inside the top cover 3 and the base 7;

referring to fig. 1-5, a 5G BBU energy-saving cabinet capable of being assembled quickly further includes a splicing structure, the splicing structure includes a limiting groove 16, the limiting groove 16 is opened on both sides of the upper and lower ends of the first vertical plate 12 and the second vertical plate 15, and one end of the limiting groove 16 is penetrated with a clamping groove 18, clamping posts 17 are welded on the upper and lower ends of the front and rear ends of the side plate 4, and one end of the clamping post 17 is penetrated inside the clamping groove 18, one end of the clamping post 17 is extended inside the limiting groove 16, the limiting posts 11 are welded on four corners of one end inside the top cover 3 and the base 7, and one end of the limiting post 11 is penetrated to one end of the clamping post 17;

the cross sections of the clamping column 17 and the clamping groove 18 are both circular, and the diameters of the clamping column 17 and the clamping groove 18 are equal;

specifically, as shown in fig. 1 and 3, run through joint groove 18 with joint post 17 and insert the spacing groove 16, can preliminary installation, insert curb plate 4, first riser 12 and second riser 15 in base 7 afterwards, spacing post 11 can pass the hole entering spacing groove 16 on the joint post 17, install top cap 3 at the top with the same mode at last, just so curb plate 4 just can't break away from with first riser 12 and second riser 15, can stably install, very convenient quick.

Example 2: the energy-saving heat dissipation structure 1 comprises a mounting box 101, a temperature sensor 102, a filter screen 103, a pneumatic telescopic rod 104, protection plates 105, a movable rod 106 and a fan 107, wherein the mounting box 101 penetrates through the inside of a first vertical plate 12, the filter screen 103 is mounted on the inner wall of the mounting box 101, the fan 107 is arranged at one end of the filter screen 103, the pneumatic telescopic rod 104 is mounted at the top end of the mounting box 101 at one end of the first vertical plate 12, the movable rod 106 is mounted at the output end of the pneumatic telescopic rod 104, the bottom end of the movable rod 106 extends into the mounting box 101, a plurality of protection plates 105 are mounted on two sides of the movable rod 106 inside the mounting box 101 through hinge parts, two sides of each protection plate 105 are connected with the inner wall of the mounting box 101 through hinge parts, the temperature sensor 102 is mounted at the middle position of the top of one end of the first vertical;

ten protection plates 105 are arranged, and the protection plates 105 are distributed on the outer wall of the movable rod 106 at equal intervals;

specifically, as shown in fig. 1 and 4, when the temperature is too high, temperature sensor 102 signals, pneumatic telescopic rod 104 pull-up movable rod 106, make it drive a plurality of guard plates 105 simultaneously with angular rotation, thereby make it no longer shelter from inside the protection mounting box 101, fan 107 starts to pass through the filter screen 103 with the air simultaneously and send into the device after dustproof inside, the air takes away the device inside heat through air outlet 13, accomplish the heat dissipation, and when the temperature is not high, then close fan 107 energy-conservation, avoid extravagant.

Example 3: the clamping structure 2 comprises clamping blocks 201, clamping grooves 202, sliding grooves 203, sliding blocks 204, pull rods 205 and extrusion springs 206, the clamping grooves 202 are uniformly formed in the front end and the rear end of the guide rod 6, the sliding grooves 203 are formed in the front end and the rear end of the moving block 5, the two extrusion springs 206 are mounted at one ends of the sliding grooves 203, the sliding blocks 204 are mounted at one ends of the extrusion springs 206, the clamping blocks 201 are welded at one ends of the sliding blocks 204, one ends of the clamping blocks 201 extend into the clamping grooves 202, the pull rods 205 are welded at the middle positions of one ends of the sliding blocks 204, and one ends of the pull rods 205 extend to one end of the moving block 5;

the maximum moving distance of the sliding block 204 is smaller than the length of the sliding groove 203, and the maximum moving distance of the sliding groove 203 is larger than the length of the card slot 202;

specifically, as shown in fig. 1 and 5, the pull rod 205 is pulled to make the pull rod 205 drive the sliding block 204 to move, so that the fixture block 201 exits from the fixture groove 202, so that the moving block 5 can move along the outer wall of the guide rod 6, then the pull rod 205 is released, the sliding block 204 is pushed by the extrusion spring 206 to move along the sliding groove 203, so that the fixture block 201 is clamped into the fixture groove 202 at a proper position, and further the movement of the moving block 5 is limited, so that the position of the mounting plate 9 is controlled, and the distribution of the inner space of the device is adjusted to adapt to devices with different volumes.

The working principle is as follows: when the device is used, firstly, the pull rod 205 is pulled, so that the pull rod 205 drives the sliding block 204 to move, the fixture block 201 exits from the clamping groove 202, the moving block 5 can move along the outer wall of the guide rod 6, then the pull rod 205 is loosened, the sliding block 204 is pushed by the extrusion spring 206 to move along the sliding groove 203, the fixture block 201 is clamped into the clamping groove 202 in a proper position, the moving of the moving block 5 is further limited, and the distribution of the inner space of the device is adjusted to adapt to devices with different volumes.

Then, be close to curb plate 4 with first riser 12 and second riser 15 for joint post 17 runs through joint groove 18 and inserts in the spacing groove 16, insert curb plate 4, first riser 12 and second riser 15 in the base 7 afterwards, and spacing post 11 can pass the hole entering spacing groove 16 on the joint post 17, installs top cap 3 at the top with the same mode at last, and curb plate 4 just can't break away from with first riser 12 and second riser 15 like this, can stably install, and is very convenient quick.

Finally, open guard gate 14, the equipment has been installed on mounting panel 9, insert mounting panel 9 in the slide on the movable block 5, it can to utilize winding displacement hole 8 to carry out the winding displacement distribution, when the device temperature was too high when using, temperature sensor 102 signals, pneumatic telescopic link 104 pull-up movable rod 106, it drives a plurality of guard plates 105 simultaneously with angular rotation, thereby make it no longer shelter from inside the protection mounting box 101, fan 107 starts to pass through the filter screen 103 with the air and send into inside the device after dustproof, the air takes away the inside heat of device through air outlet 13, accomplish the heat dissipation, and when the temperature is not high, then close energy-conservation with fan 107, avoid extravagant.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a can assemble energy-conserving rack of 5G BBU fast, includes base (7), its characterized in that: the energy-saving heat dissipation device also comprises an energy-saving heat dissipation structure (1) capable of saving energy and dissipating heat, a clamping structure (2) convenient for space distribution in the control cabinet and a splicing structure convenient for the transfer device;

the clamping structure comprises a base (7), side plates (4) are mounted on two sides of the interior of the base (7), the top ends of the side plates (4) extend to the upper portion of the base (7), fixed blocks (10) are mounted at the upper end and the lower end of one side of each side plate (4), guide rods (6) are welded between one ends of the fixed blocks (10), two moving blocks (5) are sleeved on the outer sides of the guide rods (6), and the clamping structure (2) is arranged inside the moving blocks (5);

the energy-saving heat dissipation structure comprises a movable block (5), mounting plates (9) are mounted on one sides of the movable block (5), sliding grooves are formed in one sides of the movable block (5), sliding blocks are arranged on two sides of the mounting plates (9), the mounting plates (9) are in sliding connection with the movable block (5) through sliding fit between the sliding blocks and the sliding grooves, a first vertical plate (12) is arranged at one end of each side plate (4), a plurality of line arranging holes (8) are formed in the bottom of one end of each first vertical plate (12), air outlets (13) are mounted on two sides of the top of one end of each first vertical plate (12), and the energy-saving heat dissipation structure (1) is arranged inside the first vertical plates;

one end of the side plate (4) far away from the first vertical plate (12) is provided with a second vertical plate (15), one end of the second vertical plate (15) is provided with a protective door (14) through a hinge, the top ends of the side plate (4), the first vertical plate (12) and the second vertical plate (15) are sleeved with a top cover (3), and the splicing structure is arranged inside the top cover (3) and the base (7).

2. The rapidly assembled 5G BBU energy-saving cabinet of claim 1, wherein: mosaic structure includes spacing groove (16), the both sides at both ends about first riser (12) and second riser (15) are all seted up in spacing groove (16), and the one end of spacing groove (16) has all been run through joint groove (18), joint post (17) all welds in the upper and lower both ends at both ends around curb plate (4), and the one end of joint post (17) all runs through in the inside of joint groove (18), the one end of joint post (17) all extends to the inside of spacing groove (16), spacing post (11) all welds in four corners of top cap (3) and base (7) inside one end, and the one end of spacing post (11) all runs through to the one end of joint post (17).

3. The rapidly assembled 5G BBU energy-saving cabinet of claim 2, wherein: the cross-sectional shapes of the clamping column (17) and the clamping groove (18) are circular, and the diameters of the clamping column (17) and the clamping groove (18) are equal.

4. The rapidly assembled 5G BBU energy-saving cabinet of claim 1, wherein: the energy-saving heat dissipation structure (1) comprises a mounting box (101), a temperature sensor (102), a filter screen (103), a pneumatic telescopic rod (104), a protection plate (105), a movable rod (106) and a fan (107), wherein the mounting box (101) penetrates through the inside of a first vertical plate (12), the filter screen (103) is installed on the inner wall of the mounting box (101), the fan (107) is arranged at one end of the filter screen (103), the pneumatic telescopic rod (104) is installed at the top end of the mounting box (101) at one end of the first vertical plate (12), the movable rod (106) is installed at the output end of the pneumatic telescopic rod (104), the bottom end of the movable rod (106) extends to the inside of the mounting box (101), the protection plates (105) are installed on two sides of the movable rod (106) inside the mounting box (101) through hinge pieces, the two sides of the protection plates (105) are connected with the inner wall of the mounting box (101, the temperature sensors (102) are all arranged at the middle position of the top of one end of the first vertical plate (12).

5. The rapidly assembled 5G BBU energy-saving cabinet of claim 4, wherein: the protective plates (105) are ten in number, and the protective plates (105) are distributed on the outer wall of the movable rod (106) at equal intervals.

6. The rapidly assembled 5G BBU energy-saving cabinet of claim 1, wherein: the clamping structure (2) comprises clamping blocks (201), clamping grooves (202), sliding grooves (203), sliding blocks (204), pull rods (205) and extrusion springs (206), the clamping grooves (202) are evenly formed in the front end and the rear end of the guide rod (6), the sliding grooves (203) are formed in the front end and the rear end of the moving block (5), the two extrusion springs (206) are mounted at one ends of the inner portions of the sliding grooves (203), the sliding blocks (204) are mounted at one ends of the extrusion springs (206), the clamping blocks (201) are welded at one ends of the sliding blocks (204), one ends of the clamping blocks (201) extend to the inner portions of the clamping grooves (202), the pull rods (205) are welded at the middle positions of the one ends of the sliding blocks (204), and one ends of the pull rods (205) extend to one ends of the moving block (5).

7. The rapidly assembled 5G BBU energy-saving cabinet of claim 6, wherein: the maximum moving distance of the sliding block (204) is smaller than the length of the sliding groove (203), and the maximum moving distance of the sliding groove (203) is larger than the length of the clamping groove (202).

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