LU502125B1 - CABINET FOR IoT DEVICES - Google Patents

Abstract

The present invention comprises a cabinet body, a cabinet door and a partition plate, wherein the cabinet door is rotatably connected to the cabinet body, the partition plate is positioned inside the cabinet body, connecting bars are arranged on two sides of the partition plate and provided with connecting holes, a plurality of rows of threaded holes are arranged in an inner wall of the cabinet body, and screws penetrate through the connecting holes and threadedly connect to the threaded holes so as to fix the partition plate; the cabinet body is provided with a fan-mounting hole, a heat-dissipation fan is mounted in the fan-mounting hole, an inserting slot is arranged on an outer wall of the cabinet body, and a mesh plate is inserted in the inserting slot; the mesh plate is positioned on an outer side of the heat-dissipation fan and provided with a handle.

Description

DESCRIPTION 7502125 CABINET FOR IoT DEVICES

TECHNICAL FIELD The present invention belongs to the technical field of power distribution cabinets, and in particular relates to a cabinet for IoT devices.

BACKGROUND IoT, namely "the Internet to which everyday objects are connected", is an extended and expanded network on the basis of the Internet. Various information sensing devices are connected to the Internet to form a huge network so that interconnections between people, machines and things are achieved at any time and any place. Terminals of IoT devices are generally required to be placed in cabinets. There are some deficiencies in the existing cabinets. Partition plates are generally set in cabinets so that more IoT devices can be received. However, the rooms formed by partitioning are fixed in size and thus are not applicable to IoT devices of different sizes. Besides, as there is no heat- dissipation device provided in conventional power distribution cabinets, a large amount of heat produced by the devices constantly running in the cabinets may cause burning of the devices, resulting in irreparable losses.

SUMMARY The technical problem to be solved by the present invention is to provide a cabinet for [oT devices, in which the position of the partition plate is adjusted according to the size of an IoT device so that IoT devices of different sizes can be received and heat dissipation can be performed for the IoT devices to ensure their service lives. In order to solve the above technical problem, the present invention adopts the following technical scheme: a cabinet for IoT devices, comprising a cabinet body, a cabinet door and a partition plate, wherein the cabinet door 1s rotatably connected to the cabinet body, the partition plate 1s positioned inside the cabinet body, connecting bars are arranged on two sides of the partition plate and provided with connecting holes, a plurality of rows of threaded holes are arranged in an inner wall of the cabinet body, and screws penetrate through the connecting holes and threadedly connect to the threaded holes so as to fix the partition plate; the position of the

_ . . . . . . . LU502125 partition plate is adjusted according to the size of an IoT device so that IoT devices of different sizes can be received; a wire-clamping block is mounted on an inner wall of the cabinet body and provided with a plurality of threading slots and with connecting arms on two sides, the two connecting arms are fixed to the wire-clamping block, and a bolt is threadedly connected to threaded holes of the two connecting arms; connecting wires in the cabinet body are neatly arranged, favoring repair in the future; the cabinet body is provided with a fan-mounting hole, a heat-dissipation fan is mounted in the fan-mounting hole, an inserting slot is arranged on an outer wall of the cabinet body, and a mesh plate is inserted in the inserting slot; the mesh plate is positioned on an outer side of the heat- dissipation fan and provided with a handle, favoring blocking of foreign matter such as dust and also regular detachment of the filter mesh for washing.

Further, a plurality of heat-dissipation grooves are formed in an upper surface of the partition plate by downward depression, heat-dissipation holes are formed in the bottoms of the heat- dissipation grooves, the heat-dissipation holes and heat-dissipation grooves communicate, and lower openings of the heat-dissipation grooves are formed in a lower surface of the partition plate, favoring heat dissipation for the IoT devices to ensure their service lives.

Further, bumps are formed between adjacent threading slots, and each of the bumps is provided with a receiving slot that matches the bolt.

Further, the wire-clamping block is mounted on the cabinet body with a screw.

Further, the cabinet body is provided with a threading hole.

Further, the plurality of rows of threaded holes are uniformly distributed in a height direction of the cabinet body.

The present invention has at least the following beneficial effects: connecting bars are arranged on two sides of the partition plate of the present invention and provided with connecting holes, a plurality of rows of threaded holes are arranged in an inner wall of the cabinet body, and screws penetrate through the connecting holes and threadedly

_ _ . . LU502125 connect to the threaded holes, so that the position of the partition plate can be adjusted according to the size of an IoT device and thus IoT devices of different sizes can be received; the cabinet body of the present invention is provided with a fan-mounting hole, and a heat- dissipation fan is mounted in the fan-mounting hole so as to perform heat-dissipation for the cabinet body; notably, an inserting slot is arranged on an outer wall of the cabinet body, and a mesh plate is inserted in the inserting slot, favoring blocking of foreign matter such as dust and also regular detachment of the filter mesh for washing; a wire-clamping block is mounted on an inner wall of the cabinet body of the present invention and provided with a plurality of threading slots, connecting wires are passed through the threading slots, and a bolt is threadedly connected to the threaded holes of the two connecting arms so as to prevent the connecting wires from coming out of the threading slots; the connecting wires in the cabinet body are neatly arranged, favoring repair in the future; a plurality of heat-dissipation grooves are formed in an upper surface of the partition plate of the present invention by downward depression, heat-dissipation holes are formed in the bottoms of the heat-dissipation grooves, and the heat-dissipation holes and heat-dissipation grooves communicate, favoring heat dissipation for the IoT devices to ensure their service lives.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 1s a schematic structural diagram of the present invention; FIG. 2 is a schematic structural diagram of a partition plate of the present invention; FIG. 3 is a schematic structural diagram of a cabinet body and a mesh plate of the present invention; and FIG. 4 is a schematic structural diagram of a wire-clamping block of the present invention. The reference numerals of the components in the drawings are as follows:

1. cabinet body; 11. threaded hole; 12. fan-mounting hole; 13. inserting slot, 14. threading hole;

2. cabinet door; 3. partition plate; 31. connecting bar; 311. connecting hole; 32. heat-dissipation groove; 33. heat-dissipation hole; 4. screw; 5. wire-clamping block; 51. threading slot; 52. connecting arm; 53. bolt; 54. bump; 55. receiving slot; 6. mesh plate.

DETAILED DESCRIPTION LU502125 À preferred embodiment of the present invention will be described in detail below with reference to the drawings, so that the advantages and features of the present invention can be easily understood by those skilled in the art, and thus the protection scope of the present invention is more clearly and explicitly defined.

Embodiment: a cabinet for IoT devices as shown in FIG. 1 comprises a cabinet body 1, a cabinet door 2 and a partition plate 3, wherein the cabinet door 2 is rotatably connected to the cabinet body 1, the partition plate 3 is positioned inside the cabinet body 1, connecting bars 31 are arranged on two sides of the partition plate 3 and provided with connecting holes 311, a plurality of rows of threaded holes 11 are arranged in an inner wall of the cabinet body 1, and screws 4 penetrate through the connecting holes 311 and threadedly connect to the threaded holes 11 so as to fix the partition plate 3; as shown in FIG. 4, a wire-clamping block 5 is mounted on an inner wall of the cabinet body 1 and provided with a plurality of threading slots 51 and with connecting arms 52 on two sides, the two connecting arms 52 are fixed to the wire-clamping block 5, and a bolt 53 is threadedly connected to threaded holes of the two connecting arms 52; the cabinet body 1 is provided with a fan-mounting hole 12, a heat-dissipation fan is mounted in the fan-mounting hole 12, as shown in FIG. 3, an inserting slot 13 is arranged on an outer wall of the cabinet body 1, and a mesh plate 6 is inserted in the inserting slot 13; the mesh plate 6 is positioned on an outer side of the heat-dissipation fan and provided with a handle.

As shown in FIG. 2, a plurality of heat-dissipation grooves 32 are formed in an upper surface of the partition plate 3 by downward depression, heat-dissipation holes 33 are formed in the bottoms of the heat-dissipation grooves 32, the heat-dissipation holes 33 and heat-dissipation grooves 32 communicate, and lower openings of the heat-dissipation grooves 32 are formed in a lower surface of the partition plate 3. Bumps 54 are formed between adjacent threading slots 51, and each of the bumps 54 is provided with a receiving slot 55 that matches the bolt 53. The wire-clamping block 5 is mounted on the cabinet body 1 with a screw.

The cabinet body 1 is provided with a threading hole 14. LUs02125 The plurality of rows of threaded holes 11 are uniformly distributed in a height direction of the cabinet body 1. The present invention works on the principle as follows: according to the size of an IoT device, the position of the partition plate 1s adjusted by allowing the screws to penetrate through the connecting holes of the partition plate and to threadedly connect to the threaded holes so that [oT devices of different sizes can be received; heat produced by the IoT devices is dissipated out by means of the heat-dissipation grooves, the heat-dissipation holes and the heat-dissipation fan, thereby ensuring the service lives of the devices in the cabinet body.

The above description is only the embodiment of the present invention, and is not intended to limit the patent scope of the present invention.

Equivalent structural alterations that utilize the content of the specification and the attached drawings of the present invention, or the cases where the content of the specification and the attached drawings is directly or indirectly applied in other related relevant technical fields, shall all fall within the patent protection scope of the present invention.

Claims (6)

CLAIMS LU502125

1. À cabinet for IoT devices, comprising a cabinet body (1), a cabinet door (2) and a partition plate (3), wherein the cabinet door is rotatably connected to the cabinet body, the partition plate is positioned inside the cabinet body, connecting bars (31) are arranged on two sides of the partition plate and provided with connecting holes (311), a plurality of rows of threaded holes (11) are arranged in an inner wall of the cabinet body, and screws (4) penetrate through the connecting holes and threadedly connect to the threaded holes so as to fix the partition plate; a wire-clamping block (5) is mounted on an inner wall of the cabinet body and provided with a plurality of threading slots (51) and with connecting arms (52) on two sides, the two connecting arms are fixed to the wire-clamping block, and a bolt (53) is threadedly connected to threaded holes of the two connecting arms; the cabinet body is provided with a fan-mounting hole (12), a heat-dissipation fan is mounted in the fan-mounting hole, an inserting slot (13) is arranged on an outer wall of the cabinet body, and a mesh plate (6) is inserted in the inserting slot; the mesh plate is positioned on an outer side of the heat-dissipation fan and provided with a handle.

2. The cabinet for IoT devices according to claim 1, wherein: a plurality of heat-dissipation grooves (32) are formed in an upper surface of the partition plate by downward depression, heat- dissipation holes (33) are formed in the bottoms of the heat-dissipation grooves, the heat- dissipation holes and heat-dissipation grooves communicate, and lower openings of the heat- dissipation grooves are formed in a lower surface of the partition plate.

3. The cabinet for IoT devices according to claim 1, wherein: bumps (54) are formed between adjacent threading slots, and each of the bumps is provided with a receiving slot (55) that matches the bolt.

4. The cabinet for IoT devices according to claim 1, wherein: the wire-clamping block is mounted on the cabinet body with a screw.

5. The cabinet for IoT devices according to claim 1, wherein: the cabinet body is provided with a threading hole (14).

6. The cabinet for IoT devices according to claim 1, wherein: the plurality of rows of threaded holes are uniformly distributed in a height direction of the cabinet body.