CN217880192U - Thing networking machine case with heat radiation structure - Google Patents

Abstract

The utility model relates to an internet of things case with a heat dissipation structure, which comprises a case body; a conical frame is arranged above the inner part of the box body, the conical frame, the outer wall and the side wall of the box body form a first cavity, and the first cavity is communicated with the outer part of the box body through a communicating hole arranged on the side wall; a second cavity for placing the Internet of things host is arranged below the conical frame; a third cavity is arranged below the second cavity, the second cavity and the third cavity are separated by a support plate, and a first cooling fan for sucking air into the third cavity is arranged on the support plate; a slot for communicating the second cavity with the first cavity is formed in the side edge of the conical frame; the third cavity is connected with the first cavity through a pipeline; the top of the box body is provided with a second cooling fan; the left side wall and the right side wall of the box body are provided with third cooling fans, and the upper ends of the third cooling fans are deviated to the inside of the box body relative to the lower ends of the third cooling fans. The utility model discloses a can concentrate the heat dissipation better to guarantee the heat dispersion of quick-witted case better.

Description

Thing networking machine case with heat radiation structure

Technical Field

The utility model relates to a thing networking machine case technical field, concretely relates to thing networking machine case with heat radiation structure.

Background

The internet of things is an information bearing body based on the internet, a traditional telecommunication network and the like, and enables all common physical objects which can be independently addressed to form an interconnected and intercommunicated network.

The case of the Internet of things is one of basic hardware of the Internet of things system, and because a host in the case can emit certain heat during normal work, the operation of the Internet of things can be interfered to a certain degree when the heat cannot be discharged, so that the normal operation of equipment is influenced; the fan is usually singly arranged in the prior art, the heat dissipation performance is relatively general, and meanwhile, effective dust prevention cannot be carried out.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a thing networking machine case with heat radiation structure to solve the current not good problem of thing networking machine case heat dispersion.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an internet of things case with a heat dissipation structure comprises a case body;

a conical frame is arranged above the inner part of the box body, the conical frame, the outer wall and the side wall of the box body form a first cavity, and the first cavity is communicated with the outer part of the box body through a communicating hole arranged on the side wall;

a second cavity for placing the Internet of things host is arranged below the conical frame; a third cavity is arranged below the second cavity, the second cavity and the third cavity are separated by a support plate, and a first cooling fan for sucking air into the third cavity is arranged on the support plate;

a slot for communicating the second cavity with the first cavity is formed in the side edge of the conical frame; the third cavity is connected with the first cavity through a pipeline;

the top of the box body is provided with a second cooling fan;

and third cooling fans are arranged on the left side wall and the right side wall of the box body, and the upper ends of the third cooling fans are deviated from the inner part of the box body relative to the lower ends of the third cooling fans.

Further, the conical frame is in a quadrangular pyramid shape; the slots are arranged on the four side faces of the rectangular pyramid.

Further, four edges of the supporting plate are obliquely arranged upwards.

Further, the lower end of the pipeline is communicated with a third cavity through four edges of the supporting plate; the upper end of the pipeline is communicated with the first cavity through the side edge surface of the conical frame.

Furthermore, the number of the first cooling fans is three on the support plate at intervals in the circumferential direction.

Furthermore, a dustproof net is arranged in the third cavity and is parallel to the supporting plate.

Furthermore, two third cooling fans are arranged on the left side wall and the right side wall.

Furthermore, a fourth cavity for placing a drying agent is arranged on the left side wall of the box body, the fourth cavity is opened outside the left side wall, and a cover plate is hinged to the opening.

Furthermore, a box door is hinged to the front side of the box body.

The utility model has the advantages that:

in the utility model, the conical frame can better guide the heat in the second cavity to circulate to the first cavity, and simultaneously can prevent dust from directly entering the box body; the first heat dissipation fan is arranged on the supporting plate, so that heat at the bottom of the main machine can be better and directly sucked into the first cavity, the heat dissipated from the bottom of the main machine is prevented from being dispersed in the second cavity, and the influence of the heat on the environment where the main machine is located is reduced; the heat in the third cavity can enter the first cavity through the pipeline, so that the number of heat dissipation sources of the whole box body is reduced as much as possible, and centralized heat dissipation is guaranteed.

Drawings

Fig. 1 is a schematic view of the overall structure of the utility model.

Names corresponding to the marks in the figure:

1. the structure comprises a first cavity, 10, a communication hole, 11, a conical frame, 12, a slot, 2, a second cavity, 20, a support plate, 3, a third cavity, 30, a dust screen, 4, a fourth cavity, 40 and a cover plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 those skilled in the art all belong to the protection scope of the present invention.

The embodiment of the utility model provides a:

as shown in fig. 1 (for the convenience of structural display inside the case, a right side wall and a front side door of the case are not shown), an internet of things case with a heat dissipation structure includes a case.

The box body is the outline of the whole case and is formed by surrounding a front side wall, a rear side wall, a left side wall, a right side wall, an upper bottom surface and a lower bottom surface; the front side of the box body is hinged with a box door for maintaining the internal structure of the host or the box body.

A conical frame 11 is arranged above the interior of the box body, the conical frame 11, the outer wall and the side wall of the box body form a first cavity 1, and the first cavity 1 is communicated with the exterior of the box body through a communicating hole 10 formed in the side wall; a second cavity 2 for placing a host of the internet of things is arranged below the conical frame 11; a third cavity 3 is arranged below the second cavity 2, the second cavity 2 and the third cavity 3 are separated by a support plate 20, and a first cooling fan for sucking air into the third cavity 3 is arranged on the support plate 20; when the host is placed on the support plate 20, the first heat dissipation fan works to send the heat dissipated from the bottom of the host to the third cavity 3, so that more heat is prevented from being accumulated at the bottom of the host; a slot 12 for communicating the second cavity 2 with the first cavity 1 is arranged on the side edge of the conical frame 11; the third cavity 3 and the first cavity 1 are connected with each other through a pipeline; other heat in the second cavity 2 will enter the first cavity 1 from the slot 12 on the conical frame 11, and the heat entering the first cavity 1 will flow to the outside of the box body from the communication hole 10 arranged on the side wall; the top of the box body is provided with a second cooling fan; the second heat dissipation fan is communicated with the top of the second cavity 2, namely the top of the conical frame 11, and heat in the second cavity 2 can be exhausted by the second heat dissipation fan; the left side wall and the right side wall of the box body are provided with third cooling fans, the upper ends of the third cooling fans are deviated from the lower ends of the third cooling fans to the inside of the box body, and heat inside the second cavity 2 can be discharged from the third cooling fans.

The conical frame 11 in this embodiment is in a quadrangular pyramid shape, wherein four side edges are respectively arranged on four side walls of the box body, the slot 12 is arranged on the four side edges of the quadrangular pyramid, the upper space of the second cavity 2 is in a conical shape, heat generated by the host computer can enter the first cavity 1 from the slot 12 more easily in the rising process, and finally the heat gathered at the uppermost end of the second cavity 2 can be directly discharged by the second cooling fan.

The lower end of the pipeline is communicated with the third cavity 3 through four edges of the supporting plate 20; the upper end of the pipeline is communicated with the first cavity 1 through the side edge surface of the conical frame 11; the pipelines are arranged on the left side, the right side and the rear side, and heat pumped to the third cavity 3 by the first heat dissipation fan enters the first cavity 1 through the pipelines, so that the heat dissipation source of the whole box body is concentrated, and the multi-angle heat dissipation of the installation environment of the box body is reduced; the four edges of the support plate 20 are inclined upwards to ensure that the heat in the third chamber 3 is guided by the edges of the support plate 20 when entering the duct.

Three first heat dissipation fans are circumferentially arranged on the support plate 20 at intervals.

A dust screen 30 is arranged in the third cavity 3, and the dust screen 30 is parallel to the support plate 20; the dust screen 30 prevents the dust accumulated in the bottom of the box body due to long-time work from being lifted again when the first cooling fan works, and simultaneously ensures that the heat in the third cavity 3 does not carry dust or other impurities when entering the pipeline.

Two third cooling fans are arranged on the left side wall and the right side wall; the third cooling fan arranged obliquely can follow the trend of the heat rising in the second cavity 2 to better suck and discharge the heat.

A fourth cavity 4 for placing a drying agent is arranged on the left side wall of the box body, the fourth cavity 4 is provided with an opening on the outer part of the left side wall, and a cover plate 40 is hinged on the opening; the fourth cavity 4 and the second cavity 2 are separated by a filter screen; the drying agent is used for guaranteeing the drying environment in the box body.

The front side of the box body is hinged with a box door.

Claims (9)

1. The utility model provides a thing networking machine case with heat radiation structure which characterized in that: comprises a box body;

a conical frame is arranged above the interior of the box body, the conical frame, the upper wall and the side wall of the box body form a first cavity, and the first cavity is communicated with the exterior of the box body through a communicating hole arranged on the side wall;

a second cavity for placing the Internet of things host is arranged below the conical frame; a third cavity is arranged below the second cavity, the second cavity and the third cavity are separated by a support plate, and a first cooling fan for sucking air into the third cavity is arranged on the support plate;

a slot for communicating the second cavity with the first cavity is formed in the side edge of the conical frame; the third cavity is connected with the first cavity through a pipeline;

the top of the box body is provided with a second cooling fan;

and third cooling fans are arranged on the left side wall and the right side wall of the box body, and the upper ends of the third cooling fans are deviated to the inside of the box body relative to the lower ends of the third cooling fans.

2. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: the conical frame is in a quadrangular pyramid shape; the slots are arranged on the four side faces of the rectangular pyramid.

3. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: the four edges of the supporting plate are obliquely arranged upwards.

4. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: the lower end of the pipeline is communicated with the third cavity through four edges of the supporting plate; the upper end of the pipeline is communicated with the first cavity through the side edge surface of the conical frame.

5. The internet of things chassis with a heat dissipation structure of claim 1, wherein: the first cooling fans are arranged on the supporting plate at intervals in the circumferential direction.

6. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: and a dustproof net is arranged in the third cavity and is parallel to the supporting plate.

7. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: and the left side wall and the right side wall are both provided with two third cooling fans.

8. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: the drying box is characterized in that a fourth cavity for placing a drying agent is arranged on the left side wall of the box body, the fourth cavity is provided with an opening outside the left side wall, and a cover plate is hinged to the opening.

9. The internet of things case with the heat dissipation structure as recited in claim 1, wherein: the front side of the box body is hinged with a box door.

Images