CN213938663U - Wind direction regulator and use its 5G heat dissipation rack - Google Patents

Abstract

The utility model relates to a wind direction regulator, it includes box body, first choke plate and second choke plate. The box body is formed by connecting a bottom plate, a top plate, a left side plate, a right side plate, a front side plate and a rear side plate. The left side plate, the right side plate, the front side plate and the rear side plate are respectively provided with a left vent, a right vent, a front vent and a rear vent. Two of the left vent, the right vent, the front vent and the rear vent are selected optionally, and are respectively blocked by the first choke plate and the second choke plate, and cold air enters and is discharged from the rest two of the left vent, the right vent, the front vent and the rear vent. Therefore, convenient switching between different ventilation modes such as 'left-in right-out', 'right-in left-out', 'forward right-out' and the like can be conveniently and quickly realized. Additionally, the utility model discloses still related to an use 5G heat dissipation rack of above-mentioned wind direction regulator.

Description

Wind direction regulator and use its 5G heat dissipation rack

Technical Field

The utility model belongs to the technical field of 5G heat dissipation rack manufacturing technology and specifically relates to a wind direction regulator and use its 5G heat dissipation rack.

Background

At present, the communication field of the domestic data base station is developed rapidly, and the requirements for the heat dissipation cabinet are more and more diversified. Compared with the prior 4G heat dissipation cabinet, the 5G heat dissipation cabinet is more precise, the unit power is greatly improved, the pooling arrangement of the 5G equipment is more intensive, more equipment needs to be arranged in a unit space, and higher requirements are put on the cabinet.

In prior art, 5G heat dissipation rack generally adopts back formula of airing exhaust project organization, and its air intake of wind direction regulator and air outlet of inserting in locating 5G heat dissipation rack set up with the orientation completely in addition, can not carry out the wind direction and adjust, synthesizes the factor in the above aspect to make the inside ventilation of 5G heat dissipation rack smooth and easy inadequately, make its cooling effect not enough good, and then influence the normal operating of 5G heat dissipation rack. Thus, a skilled person is urgently needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the above-mentioned problems and drawbacks, the present invention provides a wind direction regulator and a 5G heat dissipation cabinet using the same, which is designed to collect relevant data, evaluate and consider in many ways, and continuously perform experiments and modifications by technical personnel engaged in research and development for many years in the industry.

In order to solve the technical problem, the utility model relates to a wind direction regulator is box-shaped structure on the whole, and it includes box body, first choke plate and second choke plate. Wherein, the box body is formed by connecting a bottom plate, a top plate, a left side plate, a right side plate, a front side plate and a rear side plate. And a left vent, a right vent, a front vent and a rear vent are respectively arranged on the left side plate, the right side plate, the front side plate and the rear side plate. Two of the left vent, the right vent, the front vent and the rear vent are selected optionally, and are respectively blocked by the first choke plate and the second choke plate, and cold air enters and is discharged from the rest two of the left vent, the right vent, the front vent and the rear vent.

As the utility model discloses technical scheme's further improvement, the overall dimension homogeneous phase of left side vent, the vent of putting on the right side, leading vent, rearmounted vent is unanimous, and also is unanimous with the overall dimension of the first choke plate of the vent of putting on the left side, the vent of putting on the right side, leading vent, rearmounted vent looks adaptation, second choke.

As the utility model discloses technical scheme's further improvement, first choke plate, second choke plate all borrow the hookup dismantled of first screw realization and left side board, right side board, preceding curb plate or posterior lateral plate. The first choke plate and the second choke plate are respectively provided with a connecting through hole matched with the first screw, and the left side plate, the right side plate, the front side plate and the rear side plate are respectively provided with a threaded blind hole for screwing in the first screw.

As the utility model discloses technical scheme's further improvement, the roof is put on one's own level, is leaned on left side board, right side board, and borrows by the hookup dismantled of second screw realization and left side board, right side board.

As a further improvement, the front vent is formed by a plurality of rectangular front heat dissipation windows arranged on the front side plate. The rear ventilation opening is composed of a plurality of rectangular rear heat dissipation windows arranged on the rear side plate.

As another modified design of the technical scheme, the wind direction regulator further comprises a front protective net and a rear protective net. The front protective net and the rear protective net are respectively attached to the inner side walls of the front side plate and the rear side plate and completely cover the front vent and the rear vent in a one-to-one correspondence manner.

Compare in the wind direction regulator of traditional project organization the utility model discloses an among the technical scheme, the vent has all been seted up on its four curb plates. In the practical application process, two air vents are blocked by means of two choke plates according to the requirement of a preset wind direction, and cold wind flows in and out through the remaining two air vents, so that convenient switching among different ventilation modes (namely the specific circulation path of the cold wind) such as left-in right-out mode, right-in left-out mode, forward right-out mode and the like can be realized.

Additionally, the utility model relates to a 5G heat dissipation rack, it includes the rack body and as above wind direction regulator. The wind direction regulator is horizontally arranged and inserted in the inner cavity of the cabinet body. The number of the wind direction regulators is at least 2, and the shapes of the ventilation paths formed in the wind direction regulators are different.

As the further improvement of the technical proposal of the utility model, the wind direction regulator comprises a left ear plate and a right ear plate. The left ear plate is L-shaped and fixed on the left side plate and is flush with the front side plate. The left lug plate is connected with the cabinet body by means of the first bolt, and correspondingly, a left connecting through hole for the first bolt to penetrate through is formed in the left lug plate. The right ear plate is L-shaped and fixed on the right side plate and is also flush with the front side plate. The right lug plate is connected with the cabinet body by means of a second bolt, and correspondingly, a right connecting through hole for the second bolt to penetrate through is formed in the right lug plate.

As the utility model discloses technical scheme's further improvement, put the hookup through-hole on a left side, put the hookup through-hole on the right side and be rectangular waist shape hole, and all extend along left right direction.

Through adopting above technical scheme to set up, can switch each wind direction regulator's ventilation mode fast (being the concrete circulation route of cold wind promptly), and then can be effectively with the leading-in required region in 5G heat dissipation rack of cold air to avoid the formation of the interior hot spot of rack, ensure that 5G heat dissipation rack still can keep in good running state under high-power, long-time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a medium-5G heat dissipation cabinet and a schematic view of a cold air flow path thereof.

Fig. 2 is a perspective view of a first embodiment of the medium wind direction regulator according to the present invention.

Fig. 3 is a perspective view of another view angle of the first embodiment of the wind direction regulator of the present invention.

Fig. 4 is an exploded view of a view angle of the first embodiment of the wind direction regulator of the present invention.

Fig. 5 is a perspective view of a box body in the first embodiment of the wind direction regulator of the present invention.

Fig. 6 is a perspective view of another view angle of the box body in the first embodiment of the wind direction regulator of the present invention.

Fig. 7 is a schematic view of a cool air flow path according to a first embodiment of the medium air direction regulator of the present invention.

Fig. 8 is a schematic view of a cool air flow path according to a second embodiment of the medium air direction regulator of the present invention.

Fig. 9 is a schematic view of a cool air flow path according to a third embodiment of the air direction regulator of the present invention.

Fig. 10 is a schematic view of a cool air flow path in a fourth embodiment of the air direction regulator according to the present invention.

1-a cabinet body; 2-a wind direction regulator; 21-a cartridge body; 211-a base plate; 212-a top plate; 213-left side plate; 2131-left vent; 214-right side panel; 2141-right vent; 215-front side panel; 2151-front vent; 21511-front heat dissipation window; 216-rear side panel; 2161-rear vent; 21611-rear heat dissipation window; 22-a first choke plate; 23-a second choke plate; 24-a first screw; 25-a second screw; 26-left ear plate; 261-left disposed coupling through hole; 27-right ear plate; 271-right disposed coupling through hole.

Detailed Description

In the description of the present invention, it is to be understood that the terms "left", "right", "front", "back", "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The following describes the contents of the present invention in further detail with reference to specific embodiments, and fig. 1 shows a schematic perspective view of a 5G heat dissipation cabinet of the present invention, which mainly comprises a cabinet body 1 and an air direction regulator 2. Wherein, the wind direction regulator 2 is horizontally arranged and inserted in the inner cavity of the cabinet body 1. The air direction regulator 2 is used for conveying cold air to a designated area for cooling treatment, and then the long-time normal operation state of the 5G heat dissipation cabinet is maintained.

The contents of the background art are handed over, and the existing 5G heat dissipation cabinet has poor actual ventilation performance and is not beneficial to cooling of the equipment in the cabinet. In order to solve this problem, the position of the ventilation opening of each wind direction regulator needs to be adjusted. However, in the prior art, the ventilation opening of the wind direction regulator is relatively fixed and cannot or is inconvenient to adjust. In view of this, the utility model discloses a wind direction regulator 2, it is box-shaped structure on the whole. The wind direction adjuster 2 mainly includes a box body 21, a first choke plate 22, and a second choke plate 23. The cartridge body 21 is formed by connecting a bottom plate 211, a top plate 212, a left side plate 213, a right side plate 214, a front side plate 215, and a rear side plate 216. The left side plate 213, the right side plate 214, the front side plate 215, and the rear side plate 216 are respectively provided with a left vent 2131, a right vent 2141, a front vent 2151, and a rear vent 2161. Two of the left vent 2131, the right vent 2141, the front vent 2151 and the rear vent 2161 are selected and blocked by the first choke plate 22 and the second choke plate 23, respectively, and cool air enters and exits through the remaining two of the left vent 2131, the right vent 2141, the front vent 2151 and the rear vent 2161 (as shown in fig. 5 and 6). In the practical application process, two air vents are blocked by means of two air baffles (namely, the first air baffle 22 and the second air baffle 23) according to the requirement of a preset wind direction, and cold wind flows in and out through the remaining two air vents, so that convenient switching between different ventilation modes (namely, specific cold wind flowing paths) such as left-in right-out mode, right-in left-out mode, forward right-out mode and the like can be realized.

Fig. 2 and fig. 3 respectively show schematic perspective views of two different viewing angles of the first embodiment of the medium wind direction regulator of the present invention, and it can be seen that the first choke plate 22 and the second choke plate 23 respectively abut against the left side plate 213 and the rear side plate 216 to completely block the left vent 2131 and the rear vent 2161. In this way, the cool air enters the inner cavity of the box body 21 through the front vent 2151, and is finally discharged through the right vent 2141. Fig. 7 is a schematic view showing a cool air flow path according to a first embodiment of the medium air direction regulator of the present invention.

Fig. 8 is a schematic view showing a flow path of a cool air in a second embodiment of the present invention, in this case, the first choke plate 22 and the second choke plate 23 respectively abut against the right side plate 214 and the rear side plate 216 to completely block the right vent 2141 and the rear vent 2161. In this way, the cool air enters the inner cavity of the cartridge body 21 through the front vent 2151, and is finally discharged through the left vent 2131.

Fig. 9 is a schematic view showing a flow path of the cool air in the third embodiment of the present invention, in this case, the first choke plate 22 and the second choke plate 23 respectively abut against the front side plate 215 and the rear side plate 216 to completely block the front vent 2151 and the rear vent 2161. In this way, the cool air enters the inner cavity of the box body 21 through the left vent 2131 and is finally exhausted through the right vent 2141.

Fig. 10 is a schematic view showing a flow path of the cool air in the fourth embodiment of the wind direction regulator of the present invention, in this case, the first choke plate 22 and the second choke plate 23 respectively abut against the front side plate 215 and the rear side plate 216 to completely block the front vent 2151 and the rear vent 2161. Thus, the cool air enters the inner cavity of the box body 21 through the right vent 2141, and is finally discharged through the left vent 2131.

As a further optimization of the structure of the wind direction regulator, the external dimensions of the left vent 2131, the right vent 2141, the front vent 2151, and the rear vent 2161 are the same, and the external dimensions of the first choke plate 22 and the second choke plate 23 that are matched with the left vent 2131, the right vent 2141, the front vent 2151, and the rear vent 2161 are the same (as shown in fig. 2, 3, and 4). Through adopting the technical scheme to set up to the part commonality of first choke plate 22 and second choke plate 23 has been ensured, and then has improved follow-up dismantlement, the convenience of changing the operation.

As a further optimization of the above technical solution, the first choke plate 22 and the second choke plate 23 are preferably detachably coupled to the left side plate 213, the right side plate 214, the front side plate 215 or the rear side plate 216 by the first screws 24. The first choke plate 22 and the second choke plate 23 are respectively provided with a coupling through hole adapted to the first screw 24, and correspondingly, the left side plate 213, the right side plate 214, the front side plate 215, and the rear side plate 216 are respectively provided with a threaded blind hole (as shown in fig. 2 and 4) for the first screw 24 to screw in. Therefore, on the premise of ensuring good fixing reliability of the first choke plate 22 and the second choke plate 23, the efficiency and convenience of transposition operation are effectively ensured. When the ventilation mode of the wind direction regulator 2 needs to be changed, the first screw 24 is removed, the relative installation position of the first choke plate 22 or/and the second choke plate 23 on the first screw is adjusted, finally, an operator correspondingly screws in the first screw 24, and the first choke plate 22 or/and the second choke plate 23 are fixed again.

In addition, in view of ensuring convenience in subsequent maintenance and replacement operations of parts or elements built into the wind direction regulator 2, the top plate 212 is laid on, bears against the left and right side plates 213, 214, and is detachably coupled to the left and right side plates 213, 214 by means of the second screws 25 (as shown in fig. 2).

As is known, after the wind direction regulator 2 is inserted into the cabinet body, the front vent 2151 and the rear vent 2161 correspond to the external environment. As shown in fig. 5 and 6, as a further improvement of the structure of the above-described airflow direction adjuster 2, the upper front vent 2151 is preferably formed of a plurality of front heat dissipating windows 21511 that are opened in the front side plate 215 and arrayed in a rectangular shape. The rear vent 2161 is preferably formed of a plurality of rear louvers 21611 arranged in a rectangular array in the rear side plate 216. In this way, the arrangement of the front heat dissipating window 21511 and the rear heat dissipating window 21611 not only effectively prevents the entry of foreign matters in the environment and ensures that the foreign matters are kept in a good working state for a long time, but also can enhance the air flow circulation to some extent.

As is known, the front windows 21511 and the rear windows 21611 have a high density, require a high degree of alignment regularity, and require a high smoothness of the cut edges. At present, therefore, the wind direction regulator 2 must be formed by means of laser processing equipment, which results in high manufacturing costs. In view of this, as another modified design of the above technical solution, the wind direction regulator 2 may further be provided with a front protective net and a rear protective net according to actual situations. The front protective net and the rear protective net are respectively attached to the inner side walls of the front side plate 215 and the rear side plate 216, and completely cover the front vent 2151 and the rear vent 2161 (not shown in the figure) one by one. Compared with the design structure, the design structure cancels the arrangement of the front radiating window and the rear radiating window, thereby greatly reducing the manufacturing cost and effectively improving the manufacturing time of the single wind direction regulator 2, but the ventilation performance of the design structure is slightly worse than that of the design structure due to the influence of factors such as the airflow blocking effect of the front protective net and the rear protective net, the limitation of the self heat absorption capacity and the like.

In addition, as can be seen from fig. 1, when the wind direction regulators 2 not less than 2 in number are applied to the cabinet body 1. The ventilation modes (namely the specific circulation paths of the cold air) of the air direction regulators 2 are switched rapidly, so that the shapes of the ventilation paths formed in the inner cavity of the cabinet body 1 are different, the cold air can be effectively guided into the required area in the 5G heat dissipation cabinet, the formation of hot spots in the cabinet body is avoided, and the 5G heat dissipation cabinet can be kept in a good operation state under high power and long time.

As shown in fig. 2, 3 and 4, as a further optimization aspect of the 5G heat dissipation cabinet structure, a left ear plate 26 and a right ear plate 27 are additionally provided on the front side of the wind direction regulator 2. The left ear plate 26 is L-shaped, and is fixed on the left side plate 213 and flush with the front side plate 215. The left ear plate 26 is connected to the cabinet body 1 by a first bolt, and correspondingly, a left connecting through hole 261 for the first bolt to pass through is formed in the left ear plate 26. The right ear plate 27 is generally L-shaped and is secured to the right side plate 214 and is also flush with the front side plate 215. The right ear plate 27 is connected to the cabinet body 1 by means of a second bolt, and correspondingly, a right connecting through hole 271 for the second bolt to pass through is formed in the right ear plate 27. Therefore, when the wind direction regulator 2 is inserted in place relative to the cabinet body 1, the wind direction regulator can be reliably locked on the cabinet body 1 by the first bolt and the second bolt in time, so that the phenomenon of position shifting or falling caused by the action of the exciting force or the external force on the wind direction regulator 2 in the follow-up process is effectively avoided.

Finally, it should be noted that, in order to relax the requirement on the accuracy of the inserting position of the wind direction regulator 2, and to achieve the fixed connection with the cabinet body 1 more quickly and efficiently, the left-located coupling through hole 261 and the right-located coupling through hole 271 are all long-strip waist-shaped holes and extend along the left-right direction (as shown in fig. 2, 3, and 4).

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A wind direction regulator is of a box-shaped structure on the whole and is characterized by comprising a box body, a first choke plate and a second choke plate; the box body is formed by connecting a bottom plate, a top plate, a left side plate, a right side plate, a front side plate and a rear side plate; a left vent, a right vent, a front vent and a rear vent are respectively arranged on the left side plate, the right side plate, the front side plate and the rear side plate; two of the left vent, the right vent, the front vent and the rear vent are selected optionally, and are respectively blocked by the first choke plate and the second choke plate, and cold air enters and is discharged from the left vent, the right vent, the front vent and the rear vent through the rest two of the left vent, the right vent, the front vent and the rear vent.

2. The wind direction regulator according to claim 1, wherein the left vent, the right vent, the front vent, and the rear vent have the same dimensions, and the first choke plate and the second choke plate adapted to the left vent, the right vent, the front vent, and the rear vent have the same dimensions.

3. The wind direction regulator of claim 1, wherein the first choke plate and the second choke plate are detachably coupled to the left side plate, the right side plate, the front side plate or the rear side plate by first screws; the first choke plate and the second choke plate are respectively provided with a connecting through hole matched with the first screw, and the left side plate, the right side plate, the front side plate and the rear side plate are respectively provided with a threaded blind hole for screwing in the first screw.

4. The wind direction regulator according to claim 1, wherein the top plate is placed on the left and right side plates, and detachably coupled to the left and right side plates by a second screw.

5. The wind direction regulator according to any one of claims 1 to 4, wherein the front vent is formed by a plurality of front louvers which are opened in the front side plate and arrayed in a rectangular shape; the rear ventilation opening is formed by a plurality of rear heat dissipation windows which are arranged on the rear side plate and are arrayed in a rectangular shape.

6. The wind direction regulator according to any one of claims 1 to 4, further comprising a front protective net, a rear protective net; the front protective net and the rear protective net are respectively attached to the inner side walls of the front side plate and the rear side plate and completely cover the front ventilation openings and the rear ventilation openings in a one-to-one correspondence mode.

7. A5G heat dissipation cabinet, characterized by comprising a cabinet body and the wind direction regulator as claimed in any one of claims 1-6; the wind direction regulator is horizontally arranged and inserted in the inner cavity of the cabinet body; the number of the wind direction regulators is at least 2, and the shapes of ventilation paths formed in the wind direction regulators are different.

8. The 5G heat dissipation cabinet of claim 7, wherein the wind direction regulator further comprises a left ear plate and a right ear plate; the left ear placing plate is integrally L-shaped, is fixed on the left side plate and is flush with the front side plate; the left lug plate is connected with the cabinet body by means of a first bolt, and correspondingly, a left connecting through hole for the first bolt to pass through is formed in the left lug plate; the right ear plate is integrally L-shaped, is fixed on the right side plate and is also flush with the front side plate; the right lug plate is connected with the cabinet body by means of a second bolt, and correspondingly, a right connecting through hole for the second bolt to penetrate through is formed in the right lug plate.

9. The 5G heat sink cabinet as recited in claim 8, wherein the left connecting through hole and the right connecting through hole are elongated slots and extend in the left-right direction.

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