CN210986742U - Intelligent device - Google Patents

Abstract

The utility model discloses an intelligent device, which comprises a shell, a bracket arranged in the shell, a circuit board arranged at one end of the bracket, a mobile function module telescopically arranged in the other end of the bracket, a fixed function module arranged in the bracket, a first wire harness and a second wire harness; the first wiring and the second wiring are fixed on the surface of the bracket opposite to the shell, one end of the first wiring is fixed on the circuit board, the other end of the first wiring is connected with the mobile function module, and the other end of the second wiring is connected with the fixed function module; the support is provided with more than 1 locating part, the both ends of locating part are fixed in on the support to form spacing space with the support, first distribution passes spacing space, fixes on the support with buckling, and first distribution can be in spacing space internalization. The utility model provides an intelligent device can satisfy the line demand of walking of removing functional module, guarantees that first distribution can follow and removes functional module and remove but can not receive the interference of second distribution or other functional modules.

Description

Intelligent device

Technical Field

The application belongs to the technical field of intelligent equipment, and particularly relates to intelligent equipment.

Background

The intelligent devices such as mobile phones, intelligent wearable devices and Internet of things household appliances comprehensively serve human life and production with the application of the information technology, and the life of people is greatly enriched. The design requirements of the existing intelligent equipment are miniaturization, lightness and high integration level as far as possible, so that the design of the shell is smaller, and the internal space is narrow.

The intelligent equipment needs to be equipped with more functional modules to realize intellectualization, and more wires are arranged in the intelligent equipment, such as a power supply wire, a main board power supply wire, a storage device power supply wire, a data wire and the like, and the wires are scattered in an equipment shell and are easy to intertwine, so that messy wires are easy to be clamped during assembly.

When the functional module located at the far end in the intelligent device is connected with the circuit board, the corresponding wiring needs to penetrate through the middle functional module, and the wiring of the wiring is interfered by the middle functional module. In addition, partial function modules of the intelligent device move when in use, wires connected with the movable function modules move along with the movement, and the wires are interfered by other function modules or other wires when moving.

The above problems all lead to the wiring design difficulty of the intelligent device to be greatly increased.

Disclosure of Invention

In order to solve the technical problem, the utility model provides an intelligent device can satisfy the line demand of walking of removing functional module, guarantees that first distribution can follow and removes functional module and remove but can not receive the interference of second distribution or other functional modules to walk the regular difficult winding of line.

The technical scheme adopted for realizing the purpose of the utility model is that the intelligent device comprises a shell, a bracket arranged in the shell, a circuit board arranged at one end of the bracket, a mobile function module telescopically arranged in the other end of the bracket, a fixed function module arranged in the bracket, a first wire and a second wire;

the first wiring and the second wiring are arranged on the surface of the bracket opposite to the shell, one end of the first wiring is fixed on the circuit board, the other end of the first wiring is connected with the mobile function module, and the other end of the second wiring is connected with the fixed function module;

the support is provided with more than 1 limiting part, two ends of the limiting parts are fixed on the support so as to form a limiting space with the support, the first wiring penetrates through the limiting space and is arranged on the support in a bending mode, and the first wiring can move in the limiting space.

Preferably, the number of the limiting members is more than 2, the limiting members are distributed on the bracket at intervals, and at least one of the limiting members in the more than 2 limiting members is disposed at a bent portion of the first wiring.

Preferably, an included angle between a connecting line of two ends of the limiting member disposed at the first wiring bending portion and the extending direction of the mobile function module is 30 ° to 60 °.

Preferably, the other end of the bracket is provided with a wire passing hole, and the first wiring penetrates through the wire passing hole and then is connected with the mobile functional module.

Preferably, the bracket includes a top support plate, a bottom support plate, and an intermediate support connecting the top support plate and the bottom support plate, and the first wiring and the second wiring are located on different surfaces of the intermediate support.

Preferably, the circuit board is mounted on the bottom support plate; the mobile function module is telescopically arranged on the top supporting plate; each limiting piece is arranged on the surface of the middle support opposite to the shell.

Preferably, the intermediate support is provided with heat dissipation holes, and the surface of the intermediate support opposite to the shell is provided with a heat dissipation device opposite to the heat dissipation holes.

Preferably, the first wiring and the heat sink are located on the same surface of the intermediate support.

Preferably, the mobile function module comprises an external device interface module;

the fixed function module comprises a memory module, and the memory module is arranged in the middle support.

Preferably, the smart device further includes an antenna module, and the antenna module is mounted on an inner side surface of the top cover of the housing.

According to the above technical scheme, the utility model provides an intelligent device, except conventional fixed function module, still be provided with the telescopic and remove function module, the first distribution of being connected with removing function module passes through 1 above locating part restriction on the support, first distribution passes the spacing space that is formed by locating part and support, fixes on the support with buckling to first distribution can be at spacing space internalization. The movable space of the first wiring is limited by the limiting part, so that the moving position and the moving space of the first wiring are determined, the first wiring cannot be interfered with other wirings, or other wirings are touched, and the wiring in the equipment is regular and not easy to wind. The bending routing mode of the first wiring provides allowance for the following movement of the first wiring. Through the above, it is ensured that the first wiring can move along with the mobile function module but is not interfered by the second wiring or other function modules, and the problem that the wiring in the intelligent device is easy to wind and the moved wiring is easy to be interfered in the movement in the prior art is solved.

The wire passing holes are formed in the support, wires pass through the wire passing holes, unnecessary bending of the wires is reduced, the wire passing holes play a guiding and limiting role in the wires, and winding and mutual interference caused by too close distance of the wires are avoided.

The wiring direction of the first wiring can be accurately limited through the wire passing hole and the limiting parts, and the first wiring forms a plurality of bends under the limitation of the wire passing hole and the limiting parts. Among the bends, the bend close to the mobile function module is formed by being limited by the wire passage hole, and the next bend and the remaining bend are formed by being limited by the limiting members. The 2 bends close to the moving functional module provide a margin for the following movement of the first wire. The limiting part close to the mobile function module needs to be installed in an inclined mode, namely an included angle is formed between a connecting line at two ends of the limiting part and the telescopic direction of the mobile function module, and the limiting part is guaranteed to play an accurate limiting role in the first wiring. The other limiting parts are used for fixing the position of the rest part of the first wiring, so that the first wiring is stably connected with the circuit board.

In order to ensure the heat dissipation effect of the fixed function module, a plurality of heat dissipation holes are formed in the support, so that the working heat of the fixed function module can be dissipated conveniently, the working heat of the internal function module of the equipment is led out by the heat dissipation device, and the working heat is dissipated in a heat exchange mode in a gap between the shell and the support, so that the working heat of the internal function module of the equipment is dissipated.

Drawings

Fig. 1 is a schematic view of an overall structure of an intelligent device in an embodiment of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the intelligent device shown in FIG. 1 with the housing removed;

FIG. 3 is a schematic structural view of the spacing space in FIG. 2;

FIG. 4 is a schematic structural diagram of the limiting element in FIG. 2;

FIG. 5 is a schematic view of a trace structure of the first wire under a non-operating state;

FIG. 6 is a schematic view of a trace structure of the first wire under operating condition;

description of reference numerals: 1-a first wiring; 2-bracket, 21-top supporting plate, 22-bottom supporting plate, 23-middle supporting and 24-radiating hole; 3-limit piece, 3 a-second limit piece, 3 b-third limit piece, 30-limit space, 31-screw; 4-wire protecting guide sleeve; 5-a wire through hole; 6-moving function module; 7-a heat sink; 8-a support column; 9-a circuit board; 10-shell, 10 a-shell body, 10 b-top cover; 11-a second wiring; 12-fixed function module, 13-antenna module.

Detailed Description

In order to make the present application more clearly understood by those skilled in the art to which the present application pertains, the following detailed description of the present application is made with reference to the accompanying drawings by way of specific embodiments.

The utility model discloses an one or more embodiments provide an intelligent equipment, mainly solve the problem that the line degree of difficulty is big among the present intelligent equipment.

Referring to fig. 1 and 2, in the embodiment of the present invention, an intelligent device includes a housing 10, a support 2 disposed in the housing 10, a circuit board 9 disposed at one end of the support 2, a mobile function module 6 telescopically disposed in the other end of the support 2, a fixed function module 12 disposed in the support 2, a first wire 1, and a second wire 11. The first wiring 1 and the second wiring 11 are fixed on the surface of the bracket 2 opposite to the shell 10, one end of the first wiring is fixed on the circuit board 9, the other end of the first wiring 1 is connected with the mobile function module 6, the first wiring 1 needs to move when the equipment works, the other end of the second wiring 11 is connected with the fixed function module 12, and the second wiring 11 is still after the equipment is assembled.

The utility model discloses an in the concrete scene of using, this smart machine is family's brain equipment, and the family's brain is with the wisdom family safety solution that family's brain product is the core. Externally, through intelligent protection, traditional security equipment (a camera and infrared equipment) is connected for security monitoring; and internally, establishing an IOT product series intelligent home network to form an intelligent home control center. Specifically, the mobile function module 6 in the home brain device is an external device interface module, such as a USB interface, an HDMI interface, a network cable interface, and the like, and the fixed function module 12 is a storage module, such as a hard disk, a USB disk, and the like. In addition, the home brain equipment also includes an antenna module 13 and a heat sink 7 (such as a fan, a heat sink, etc.). Therefore, in the home brain equipment, the total number of the wires 1 and 11 connected to the circuit board is large, and is about 10 to 30.

In other embodiments, the smart device may be other various internet of things terminal products, such as a sweeping robot, and the like, and the application is not limited herein. Based on different application scenarios of the intelligent device, the structure and function of the circuit board 3 and the connected functional modules are different, and the application is not limited herein.

The structure of the smart device is described in detail below:

referring to fig. 1, the housing 10 is a cylindrical structure, the support 2 is entirely located in the inner cavity of the housing 10, a gap for heat dissipation is formed between the housing 10 and the outer surface of the support 2, and the wires 1 and 11 are distributed in the gap, so that a wiring space does not need to be separately arranged inside the device.

Specifically, in this embodiment, the housing 10 includes a housing body 10a and a top cover 10b located at the top of the housing body, the housing body 10a of the housing 10 is made of metal, the metal can have a good heat dissipation effect, and forms an electrostatic shielding "protection" effect on the functional module inside the housing body. The top cover 10b is an insulating top cover, and specifically, the top cover is plastic in this embodiment, and can be made into any shape according to product needs, and in other embodiments, the top cover can be made of insulating materials such as ceramics, and this application is not limited to specific materials. The antenna module 13 is fixed on the inner side of the top cover 10b to avoid being affected by the electrostatic shielding effect of the housing. In order to assist in heat dissipation, the bracket 2 is made of metal material, such as metal, e.g., aluminum, copper, etc., and the specific material is not limited in this application.

The housing 10 is sleeved on the support 2, specifically, the housing body 10a of the housing 10 in this embodiment is a cylinder with a regular shape, such as a cylindrical hexagonal prism, and the specific shape is not limited in this application. The shell body 10a and the bracket 2 are connected through screws at the bottom of the shell, so that the shell is convenient to disassemble and assemble. The middle part of the top cover 10b is provided with a through hole for the mobile function module 6 to extend and retract.

Referring to fig. 2, the bracket 2 is used for mounting the first wiring 1, the second wiring 11, the circuit board 9, and the functional module, and in the present embodiment, the bracket 2 includes a top support plate 21, a bottom support plate 22, and an intermediate support 23 connecting the top support plate and the bottom support plate. The movable functional module 6 is telescopically arranged on the top supporting plate 21; the circuit board 9 is mounted on the bottom support plate 22; the fixed function module 12 is packaged in the middle support 23, and in order to ensure the heat dissipation effect of the fixed function module 12, a plurality of heat dissipation holes 24 are formed in the cavity wall of the middle support 23, so that the work heat of the fixed function module 12 can be conveniently led out; the heat sink 7 is mounted on the outer surface of the intermediate support 23. The first wiring 1 and the second wiring 11 are located on different surfaces of the intermediate support 23, and the first wiring 1 and the heat sink 7 are located on the same surface of the intermediate support 23. Preferably, the first wiring 1 and the second wiring 11 are attached to the outer surface of the intermediate support 23, minimizing the space occupied by the wirings.

Referring to fig. 2, the top support plate 21 is provided with a plurality of wire holes 5 for the wires 1 and 11 to pass through, and in this embodiment, the top support plate 21 is provided with a plurality of wire holes 5 for the first wire 1 connected to the mobile functional module 6 and the second wire 11 connected to the antenna module to pass through. The wire holes 5 not only allow the wires to pass through to reduce unnecessary bending of the wires, but also guide the wires in a certain direction to be positioned on different surfaces of the middle support 23, so as to avoid winding and signal interference caused by too close distance of the wires.

The wire passing hole 5 is internally provided with a wire protecting guide sleeve 4, the wire protecting guide sleeve 4 is made of elastic materials (such as wiring insulating rubber, silica gel and the like), the wiring can be bent when passing through the wire passing hole 5, and the outer skin of the wiring can be protected from being worn through the wire protecting guide sleeve 4.

Support 2 sets up in this smart machine's shell 10, and is concrete, in this embodiment, is provided with more than 2 support columns 8 on bottom support plate 22, and support column 8 supports whole support 2, provides installation and heat dissipation space for circuit board 9 simultaneously, and support column 8 has the internal thread, is connected support 2 and shell 10's bottom through the screw.

Whole support 2 is middle narrow, the wide structure in both ends, and the top backup pad 21 of support 2 and the size of bottom plate 22 all are greater than middle support 23 promptly, and the external dimensions of top backup pad 21 and bottom plate 22 are less than the shell for the shell can be the suit on support 2. The top support plate 21 and the bottom support plate 22 are irregular polygonal plate structures, such as a hexagon with a corner cut, and the specific shape is not limited in this application, and the irregular plate structures allow a plurality of gaps between the outer surface of the housing 10 and the outer surface of the middle support 23, and at least one gap is large, and can accommodate the heat sink 7 and the first wiring 1. The heat sink 7 conducts the working heat of the electrical components inside the device out, and the working heat is dissipated in the gap between the bracket 2 and the casing 10 in a heat exchange manner, so that the working heat of the electrical components inside the device is dissipated.

Referring to fig. 2, the bracket 2 is provided with more than 1 limiting member 3, and specifically, the limiting members 3 are mounted on a surface of the middle support 23 opposite to the housing 10 for limiting the wiring. In this embodiment, the first wire 1 connects the mobile functional module 6 and the circuit board 9, and the wire needs to be moved and has a large span, so the first wire 1 needs to be limited by the limiting member 3 (the wire connecting the antenna module 13 and the circuit board 9 can share one limiting member 3a or 3b with the first wire 1 because of the large span). The second wire harness 11 is stationary and therefore does not require the use of a stopper.

Referring to fig. 3, both ends of the limiting member 3 are fixed to the middle support 23 by screws 31 or welding, gluing, etc. to form a limiting space 30 with the middle support 23. The first wire harness 1 passes through the limiting space 30 and is fixed on the bracket 2 in a bending way, and the first wire harness 1 can move in the limiting space 30.

Referring to fig. 4, in this embodiment, the limiting member 3 is a wire clip, which is formed by directly stamping a metal sheet, and is shaped like П (frame), and the wire clip is mounted on the outer surface of the middle support 23 through a screw 31, an elastic wire protection pad (e.g., an insulating rubber sheet, a silica gel, etc. of the wire) is attached to the inner side surface of the concave portion of the wire clip, and protects the outer skin of the wire from being worn away.

Referring to fig. 5 and 6, the stoppers 3 are spaced apart from each other on the outer surface of the middle support 23, and the stoppers 3 can limit the routing direction of the first wiring 1 and avoid the functional module mounted on the outer surface of the middle support 23, specifically, in this embodiment, 3 stoppers 3, 3a, and 3b are mounted on the outer surface of the middle support 23, the first wiring 1 forms 3 right-angled bends under the limitation of the wire passing hole 5 and the stoppers, wherein the 1 st right-angled bend is formed by being limited by the wire passing hole 5, the 2 nd and 3 rd right-angled bends are formed by being limited by the stoppers 3 and 3a, the 1 st and 2 nd right-angled bends provide allowance for the following movement of the first wiring 1, the size of the stopper 3 is large to provide sufficient movement space for the first wiring 1, and it is ensured that the first wiring 1 is movable, the stoppers 3 need to be installed obliquely, that is, an included angle α between the connecting line at the two ends of the stopper 3 and the extending direction of the movable functional module 6 (the arrow in fig. 5, the direction in this embodiment, the vertical direction) is an acute angle, and preferably 30-degree 8960-30-.

The second stopper 3a is used to fix the position of the first wire 1, so that the first wire 1 is retracted from the heat sink 7 also mounted on the intermediate support 23 (if no functional component is mounted on the intermediate support 23 or the movement of the first wire 1 is not affected by the mounted functional component, the second stopper 3a may be omitted). The third limiting member 3b is used to fix the position of the lower half of the first wiring 1, so that the first wiring 1 is stably connected to the circuit board 9. Since the first wire 1 and the second and third stoppers 3a and 3b do not move relatively, the sizes of the second and third stoppers 3a and 3b are small.

Referring to fig. 5, when the device is not in operation, the mobile function module 6 is hidden in the bracket 2, and the first wiring 1 is partially drawn into the bracket 2, so that the exposed part of the first wiring 1 is reduced in length, and the bending degree of the 1 st and 2 nd right-angle bends is reduced.

Referring to fig. 6, when the device needs to use the mobile function module 6 in a working state, the mobile function module 6 is lifted, the first wiring 1 is entirely located outside the bracket 2, and the 1 st and 2 nd right-angled bends are formed under the limiting action of the wire through hole 5 and the limiting member 3 due to the increase of the length of the exposed first wiring 1.

Through the embodiment, the utility model has the following beneficial effect or advantage:

1) the multifunctional mobile terminal comprises a support, a first wiring, a second wiring and a third wiring, wherein the first wiring is connected with the mobile functional module, the second wiring is limited on the support through more than 1 limiting piece, penetrates through a limiting space formed by the limiting pieces and the support and is fixed on the support in a bending mode, and the first wiring can move in the limiting space. The movable space of the first wiring is limited by the limiting part, so that the moving position and the moving space of the first wiring are determined, the first wiring cannot be interfered with other wirings, or other wirings are touched, and the wiring in the equipment is regular and not easy to wind. The bending routing mode of the first wiring provides allowance for the following movement of the first wiring. Through the above, it is ensured that the first wiring can move along with the mobile function module but is not interfered by the second wiring or other function modules, and the problem that the wiring in the intelligent device is easy to wind and the moved wiring is easy to be interfered in the movement in the prior art is solved.

2) The utility model provides an intelligent device has seted up the line hole on the support, and the distribution passes the line hole, and it is crooked to reduce the distribution unnecessary to cross the line hole and play direction, spacing effect to the distribution, avoid each distribution distance too near and take place winding and mutual interference. The wiring direction of the first wiring can be accurately limited through the wire passing hole and the limiting parts, and the first wiring forms a plurality of bends under the limitation of the wire passing hole and the limiting parts. Among the bends, the bend close to the mobile function module is formed by being limited by the wire passage hole, and the next bend and the remaining bend are formed by being limited by the limiting members. The 2 bends close to the moving functional module provide a margin for the following movement of the first wire. The limiting part close to the mobile function module needs to be installed in an inclined mode, namely an included angle is formed between a connecting line at two ends of the limiting part and the telescopic direction of the mobile function module, and the limiting part is guaranteed to play an accurate limiting role in the first wiring. The other limiting parts are used for fixing the position of the rest part of the first wiring, so that the first wiring is stably connected with the circuit board.

3) The utility model provides an intelligent equipment is provided with a plurality of louvres on the support, makes things convenient for the work heat of fixed function module to spill, derives the work heat of equipment internal function module by heat abstractor, and the work heat is scattered with the form of heat exchange in the clearance of shell and support to this dispels the work heat of equipment internal function module

4) The utility model provides an intelligent equipment, first distribution pass through the locating part to be fixed on the surface of support, and second distribution sets up along the support surface, and furthest reduces the shared space of distribution, can not influence the radiating effect of complete machine.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

The application discloses: a1, an intelligent device, characterized by: the intelligent equipment comprises a shell, a support arranged in the shell, a circuit board arranged at one end of the support, a mobile function module telescopically arranged in the other end of the support, a fixed function module arranged in the support, a first wiring and a second wiring;

the first wiring and the second wiring are arranged on the surface of the bracket opposite to the shell, one end of the first wiring is fixed on the circuit board, the other end of the first wiring is connected with the mobile function module, and the other end of the second wiring is connected with the fixed function module;

the support is provided with more than 1 limiting part, two ends of the limiting parts are fixed on the support so as to form a limiting space with the support, the first wiring penetrates through the limiting space and is arranged on the support in a bending mode, and the first wiring can move in the limiting space.

A2, the smart device of a1, wherein: the number of the limiting parts is more than 2, the limiting parts are distributed on the bracket at intervals, and at least one of the limiting parts in the limiting parts is arranged at the bent part of the first wiring line, wherein the number of the limiting parts is more than 2.

A3, the smart device of a2, wherein: the connecting line of the two ends of the limiting piece arranged at the first wiring bending part and the extension direction of the mobile function module form an included angle of 30-60 degrees.

A4, the smart device of any one of A1-A3, wherein: the other end of the support is provided with a wire passing hole, and the first wiring penetrates through the wire passing hole and then is connected with the mobile functional module.

A5, the smart device of any one of A1-A3, wherein: the support includes top backup pad, bottom suspension fagging and connects the top backup pad with the mid-support of bottom suspension fagging, first wiring with the second wiring is located on the different surfaces of mid-support.

A6, the smart device of a5, wherein: the circuit board is arranged on the bottom support plate; the mobile function module is telescopically arranged on the top supporting plate; each limiting piece is arranged on the surface of the middle support opposite to the shell.

A7, the smart device of a5, wherein: the middle support is provided with heat dissipation holes, and the surface of the middle support opposite to the shell is provided with a heat dissipation device opposite to the heat dissipation holes.

A8, the smart device of a7, wherein: the first wiring and the heat dissipation device are located on the same surface of the intermediate support.

A9, the smart device of a5, wherein: the mobile function module comprises an external equipment interface module;

the fixed function module comprises a memory module, and the memory module is arranged in the middle support.

A10, the smart device of a9, wherein: the intelligent device further comprises an antenna module, and the antenna module is installed on the inner side face of the top cover of the shell.

Claims (10)

1. A smart device, characterized by: the intelligent equipment comprises a shell, a support arranged in the shell, a circuit board arranged at one end of the support, a mobile function module telescopically arranged in the other end of the support, a fixed function module arranged in the support, a first wiring and a second wiring;

the first wiring and the second wiring are arranged on the surface of the bracket opposite to the shell, one end of the first wiring is fixed on the circuit board, the other end of the first wiring is connected with the mobile function module, and the other end of the second wiring is connected with the fixed function module;

the support is provided with more than 1 limiting part, two ends of the limiting parts are fixed on the support so as to form a limiting space with the support, the first wiring penetrates through the limiting space and is arranged on the support in a bending mode, and the first wiring can move in the limiting space.

2. The smart device of claim 1, wherein: the number of the limiting parts is more than 2, the limiting parts are distributed on the bracket at intervals, and at least one of the limiting parts in the limiting parts is arranged at the bent part of the first wiring line, wherein the number of the limiting parts is more than 2.

3. The smart device of claim 2, wherein: the connecting line of the two ends of the limiting piece arranged at the first wiring bending part and the extension direction of the mobile function module form an included angle of 30-60 degrees.

4. The smart device of any of claims 1 to 3, wherein: the other end of the support is provided with a wire passing hole, and the first wiring penetrates through the wire passing hole and then is connected with the mobile functional module.

5. The smart device of any of claims 1 to 3, wherein: the support includes top backup pad, bottom suspension fagging and connects the top backup pad with the mid-support of bottom suspension fagging, first wiring with the second wiring is located on the different surfaces of mid-support.

6. The smart device of claim 5, wherein: the circuit board is arranged on the bottom support plate; the mobile function module is telescopically arranged on the top supporting plate; each limiting piece is arranged on the surface of the middle support opposite to the shell.

7. The smart device of claim 5, wherein: the middle support is provided with heat dissipation holes, and the surface of the middle support opposite to the shell is provided with a heat dissipation device opposite to the heat dissipation holes.

8. The smart device of claim 7, wherein: the first wiring and the heat dissipation device are located on the same surface of the intermediate support.

9. The smart device of claim 5, wherein: the mobile function module comprises an external equipment interface module;

the fixed function module comprises a memory module, and the memory module is arranged in the middle support.

10. The smart device of claim 9, wherein: the intelligent device further comprises an antenna module, and the antenna module is installed on the inner side face of the top cover of the shell.

Images