CN210864463U - Integrated computer - Google Patents

Abstract

The utility model discloses an integral type computer, including power and external interface subassembly, bracket component, mainboard subassembly and display subassembly, the bracket component is connected by the single rotational degree of freedom that main support and crank constitute and the single rotational degree of freedom that crank and crooked support constitute is connected the combination and is formed, and power supply module and mainboard owner see respectively fixed mounting at support head and the tail both ends and walk the line through the inside metallic channel of support, and display subassembly passes through the slide rail with the mainboard subassembly and constitutes single translation degree of freedom and be connected. The utility model discloses an aspect uses the mainboard, the overall arrangement that power and display mutually independent installed, makes the utility model discloses possess better heat dispersion and more pleasing to the eye walk the line mode, on the other hand lets the display possess the multi-motion degree of freedom through more nimble support design, makes the all-in-one more nimble convenience in daily use.

Description

Integrated computer

Technical Field

The utility model relates to a computer structure technical field especially relates to an integral type computer.

Background

With the progress of computer technology, computers in the market are developing towards diversity: the desktop computer and the notebook computer are light, thin, attractive and portable, and the traditional desktop computer is large in size, complex in layout, poor in performance and high in price, so that a novel integrated computer product different from the desktop computer and the notebook computer appears.

However, as the use of the integrated computer becomes more and more extensive, more attention is paid to the comfort level and the practicability of the integrated computer. In the all-in-one machine in the market at present, a highly integrated computer mainboard is integrated on the rear side of a computer screen and is supported by a support, but the structure is fixed and the heat dissipation is influenced by a screen-mainboard integrated assembly.

The patent of application No. CN201820713202.4 proposes an integrated computer structure, which includes a functional case, a display connected to the functional case, and a supporting device for supporting the functional case; the computer circuit board is integrated in the functional case, one side cover plate of the computer circuit board is connected with the screen through the sliding groove and the connecting column, and the other side cover plate is rotatably connected with the supporting device at the connecting part of the supporting frame. Compared with the traditional integrated machine, on one hand, the utility model enables the display to have a certain degree of freedom of movement through the optimization of the supporting device; on the other hand, the computer mainboard is separated from the screen, so that the heat dissipation process of the computer mainboard and the screen is separated, and the heat dissipation efficiency and the computer performance are improved. But still has the defects of limited degree of freedom, restricted heat dissipation capability, complex wiring of self wiring and external equipment and the like.

Therefore, a new computer with a single computer is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an integral type computer makes integral type computer heat-sinking capability better and more pleasing to the eye through rational structure overall arrangement on the one hand, and on the other hand is through new support design for the all-in-one degree of freedom is higher, and it is more convenient to use.

The utility model discloses a realize through following technical scheme: an integrated computer comprises a display component and a support component for supporting the display component, and is characterized in that the bottom and the top of the support component are respectively and fixedly connected with a power supply, an external interface component and a mainboard component, and the mainboard component is arranged on the rear side of the display component and is fixedly connected with the display component; the bracket component comprises a main bracket arranged at the bottom, the upper side of the main bracket is rotationally connected with a crank through a pin shaft, and the upper side of the crank is connected with a bending bracket through a rotating connection component.

Further, the main support comprises a horizontal bottom plate and a support plate extending upwards from the bottom plate, heat dissipation cavities are distributed on the bottom plate and the support plate, two first ear plates with square cavities in the middle are symmetrically distributed at the top of the support plate, and a step through hole is formed in the middle of each first ear plate; the crank includes second otic placode, crank installation face and connects the first flexion of the two, the second otic placode is provided with the column cavity that diameter and step through-hole internal diameter equal, the round pin axle passes in proper order step through-hole, column cavity realize first otic placode and second otic placode interference fit.

Furthermore, an end cover is embedded in the large-diameter hole of the step through hole close to the outer side, a first wire groove is formed in the middle of the inner surface of the supporting plate, and the first wire groove is matched with a first wire blocking plate used for blocking wires.

Furthermore, the crank is provided with a second wire guide groove which penetrates through the center of the inner surface of the crank, and the second wire blocking plate is embedded into the second wire guide groove.

Further, the rotary connecting member comprises a flange disc type rotary connecting piece and a threaded short shaft, the flange disc type rotary connecting piece is fixedly mounted on the upper end face of the crank mounting face, and a first fastening jackscrew is additionally arranged to lock the rotating angle of the flange disc type rotary connecting piece; the threaded short shaft is fixedly arranged in a threaded shaft connecting hole of the flange type rotary connecting piece, and a threaded shaft mounting hole is formed in the upper end face of the threaded short shaft.

Further, power and external interface subassembly include that power, optical drive, audio amplifier and external equipment socket are integrated and first shell spare, the rear side of first shell spare, top are provided with wiring hole and wire hole respectively, the top and the lateral wall of first shell spare distribute and have a plurality of louvres.

Further, the mainboard subassembly includes that the mainboard is integrated, second casing spare and distributes in the mainboard louvre around the second casing spare, the mainboard is integrated set up in the second casing spare, the back shroud of second casing spare have the mainboard entrance hole and with crooked support fixed connection, its front shroud has the mainboard wire hole, and the guide rail subassembly is installed to camera and outside at the top.

Further, the bent bracket comprises a first mounting surface, a second mounting surface and a second bent portion for connecting the first mounting surface and the second mounting surface, the first mounting surface is fixedly connected to the threaded short shaft through the threaded shaft mounting hole, and the second mounting surface is fixedly connected with the rear cover plate of the second housing member.

Further, the guide rail assembly comprises at least one guide rail component, wherein the sliding block of one guide rail component is a lockable sliding block and can be moved by locking the sliding block through a second fastening jackscrew.

Further, the display assembly comprises a display and a display mounting frame fixedly mounted on the back of the display, and the display mounting frame is fixedly connected with the sliding block of the main board assembly.

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

1) the utility model discloses a mainboard subassembly, display subassembly and power and external interface subassembly's separation overall arrangement for the radiating process mutual independence that generates heat of three promotes the radiating efficiency.

2) The utility model discloses a bracket component that has latched position function and two rotational degrees of freedom single translation degrees of freedom for the all-in-one has broken through the low degree of freedom of traditional all-in-one structure when daily use, and it is more convenient to use.

3) The utility model discloses a power and outer joint subassembly independently install and the overall arrangement of support bottom, make the external connection of all-in-one insert all lie in bottom power and outer joint subassembly alone, walk the line more succinctly convenient, the all-in-one is more pleasing to the eye.

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, and it is obvious that the drawings in the following description are 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 an exploded view of the assembly of the present invention;

FIG. 2 is a schematic diagram of the power supply and external interface assembly;

FIG. 3 is an exploded view of the bracket assembly structure;

FIG. 4 is an exploded view, partially in section, of the display assembly and the motherboard assembly;

FIG. 5 is a view showing the structure of the main stand and the crank;

FIG. 6 is an exploded view of the rotating connector, threaded stub shaft and curved bracket.

In the figure: 1. a power supply and external interface assembly; 11. a first housing member; 12. a first threaded hole; 13. a backplane wiring hole; 14. a wire outlet hole; 15. heat dissipation holes; 2. a bracket assembly; 21. a main support; 211. a heat dissipation cavity; 212. a second threaded hole; 213. a first ear plate; 214. a stepped through hole; 215. a square cavity; 216. a first wire groove; 22. a pin shaft; 23. a crank; 231. a second ear panel; 232. a third threaded hole; 233. a crank mounting surface; 234. a columnar cavity; 235. a first curved portion; 236. a second wire groove; 24. a flange-disk-type rotary connector; 241. a first fastening jackscrew; 242. a threaded shaft connection hole; 25. a threaded minor axis; 251. a threaded shaft mounting hole; 26. bending the bracket; 261. a first mounting surface; 262. a second threaded hole; 263. a second curved portion; 264. a second mounting surface; 265. a fifth threaded hole; 266. a support wire outlet hole; 27. an end shield; 28. a first thread-blocking plate; 29. a second thread retaining plate; 3. a motherboard assembly; 31. a second housing member; 311. a back cover plate; 312. a back threaded hole; 313. a front cover plate; 314. a front threaded hole; 32. radiating holes of the main board; 33. a main board wire inlet hole; 34. a mainboard wire outlet hole; 35. a guide rail; 351. a slide rail; 352. a slider; 353. the sliding block can be locked; 354. a second fastening jackscrew; 355. a threaded hole of the sliding block; 4. a display assembly; 41. a display; 42. a display mounting bracket; 421. and a third mounting surface.

Detailed Description

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

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

As shown in fig. 2, an all-in-one computer includes a display module 4 and a support module 2 for supporting the display module 4, wherein the bottom and the top of the support module 2 are respectively and fixedly connected with a power supply and external interface module 1 and a motherboard module 3, and the motherboard module 3 is disposed at the rear side of the display module 4 and fixedly connected with the display module 4; the bracket assembly 2 comprises a main bracket 21 arranged at the bottom, the upper side of the main bracket 21 is rotatably connected with a crank 23 through a pin 22, and the upper side of the crank 23 is connected with a bent bracket 26 through a rotating connecting component. Wherein, bracket component 2 possesses two rotational degrees of freedom, and mainboard subassembly 3 adopts single degree of freedom to move to be connected with display module 4.

In this embodiment, the bracket assembly 2 shown in the figure comprises a main bracket 21, a pin 22, a crank 23, a flange-type rotary connector 24, a threaded connecting shaft 25, a bending bracket 26, an end cover 27, a first thread stop 28 and a second thread stop 29.

As shown in the figure, a wire outlet hole 14 is arranged at the top plate of a first shell part 11 of the power supply and external interface assembly 1, heat dissipation holes 15 are uniformly distributed around the shell, and a first threaded hole 12 and a back plate wiring hole 13 are arranged at the back plate; the main support 21 is an L-shaped symmetrical structure formed by the bottom plate and the support plate, and the bottom plate and the support plate are uniformly distributed with heat dissipation cavities 211, so that on one hand, the weight of the main all-in-one machine is reduced, the main all-in-one machine is lighter and more attractive, and on the other hand, the heat dissipation cavities 211 are matched with the power supply and the external interface assembly 1, and the heat dissipation of the machine body is facilitated; second threaded holes 212 are uniformly distributed on the left side and the right side of the supporting plate and are fixedly connected with the first threaded holes 12; two first lug plates 213 with a square cavity 215 spaced in the middle are symmetrically distributed on the top of the support plate, a step through hole 214 is arranged in the middle of each first lug plate 213, the pin shaft 22 made of elastic material penetrates through and is connected with the small-diameter end of the step through hole 214 and the cylindrical cavity 234 of the second lug plate 231 at the lower end of the crank 23 to form interference fit connection, so that elastic pressure is generated between the surfaces of parts, and accordingly, fastened connection is obtained, the crank 23 can be fixed at any adjusted position, the end cover 27 is tightly embedded into the large-diameter end of the outer side of the step through hole 214 in a matching mode, dust is prevented from entering the hole where the pin shaft 22 is located, noise is generated in movement, and the appearance of the; the middle part of the inner surface of the supporting plate of the main bracket 21 is provided with a first wire groove 216, the inlet end of the first wire groove corresponds to the wire outlet 14, the first wire baffle 28 is embedded in a tight fit manner, the middle part of the inner surface of the crank 23 is provided with a second wire groove 236 corresponding to the outlet end of the first wire groove 216, and the second wire baffle 29 is embedded in a tight fit manner, on one hand, the wiring of the all-in-one machine is accommodated by a groove-shaped wire structure, the wiring is more organized and more attractive, on the other hand, compared with a traditional tubular accommodating structure, the wiring is more convenient to arrange or take out, the integration of the all-in-one machine is improved by the first wire baffle 28 and.

Meanwhile, the crank 23, in addition to the second lug 231 connected with the main support in a single rotational degree of freedom, further includes a crank mounting surface 233 and a first bending portion 235 connecting the crank mounting surface 233 and the second lug 231, wherein third threaded holes 232 are distributed on the surface of the crank mounting surface 233 to fixedly connect the flange disc type rotational connector 24, so as to form a single Z-axis rotational degree of freedom connection, so that the all-in-one machine assembly connected behind the flange disc type rotational connector 24 can rotate around the Z-axis compared with the main support 21 and the crank 23; the flange disc type rotary connecting piece 24 is provided with a first fastening jackscrew 241, and the display can be stably locked when the flange disc type rotary connecting piece is rotated to a required angle; the top end of the flange disc type rotary connecting piece 24 is provided with a threaded shaft connecting hole 242 which is fixedly connected with the threaded short shaft 25.

As shown in the figure, the curved bracket 26 includes a first mounting surface 261, a second mounting surface 264 and a second curved portion 263 for connecting the first mounting surface 261 and the second mounting surface 264, a fourth threaded hole 262 is distributed on the first mounting surface 261 and fixedly connected to a threaded shaft mounting hole 251 at the top end of the threaded short shaft 25, and a fifth threaded hole 265 is distributed on the second mounting surface 263.

As shown, the main board assembly 3 has a back screw hole 312 and a main board wire inlet hole 33 at a back cover plate 311 of the second housing member 31, and a front screw hole 314 and a main board wire inlet hole 34 at a front cover plate 313; the back threaded hole 312 is fixedly connected with the fifth threaded hole, and the main board wire inlet hole corresponds to the tail end of a second wire guide groove on the crank 23; the front threaded hole 314 is fixedly provided with the guide rail 35; the guide rail 35 is installed in parallel at least 2, and includes a slide rail 351, a slide block 352 and a lockable slide block 353 provided with a second fastening top thread 354, the display component 4 is fixedly installed in a slide block threaded hole 355 on the slide block, and can slide back and forth along the slide rail 351 through the matching of the slide block and the slide rail 351, and the lockable slide block 353 is locked through the second fastening top thread 354, so that the display component 4 is fixed at a specific position.

As shown, the display assembly 4 includes a display 41 and a display mounting bracket 42, the display mounting bracket 42 is a wing-shaped structure, and the third mounting surface 421 of the display mounting bracket is fixedly connected with the slider through a slider threaded hole 355 on the slider.

When specifically using, the power, the optical drive, integrated being located inside power and the first chassis spare 11 of external interface subassembly 1 of audio amplifier and external equipment socket, external equipment interface is like power socket, the backplate wiring hole 13 that USB interface etc. were located the first chassis spare 11 backplate, and inside walking the line stretches out from wire hole 14, above non-mainboard spare keeps apart installing support department alone, make the external connection unified of all-in-one in the bottom on the one hand, it is more convenient pleasing to the eye, on the other hand keeps apart the influence that installation reduces high heat-generating parts such as power to electronic components in the mainboard, more be favorable to the heat dissipation and the performance of complete machine.

The internal routing in the all-in-one machine extends out from the wire outlet hole 14 and then enters the first wire guide groove 216 of the main support 21, the first lug plate 213 at the top end of the main support 21 forms interference fit with the second lug plate 231 at the lower end of the crank 23 through the pin shaft 22, so that the crank 23 can rotate around the pin shaft 22 in a single degree of freedom, and the interference fit generates elastic pressure between the surfaces of parts, thereby obtaining fastening connection, so that the crank 23 can be fixed at any adjusted position, meanwhile, the all-in-one machine routing extends to the second wire guide groove 236 of the crank 23 from the first wire guide groove 216, and when the crank 23 rotates, the all-in-one machine routing can extend or contract in the wire guide.

The top end crank mounting surface 233 of the crank 23 is fixedly connected with the flange disc type rotary connecting piece 24, and forms a single-degree-of-freedom rotary connection through a threaded short shaft 25 fixedly connected with the top of the flange disc type rotary connecting piece 24, and the rotating angle can be locked through a first fastening jackscrew 241; the second housing part 31 of the main plate assembly 3, the curved bracket 26 and the threaded stub shaft 25 are fixedly connected to complete the transmission of rotation so that the main plate assembly 3 can rotate around the axis of the threaded stub shaft 25.

The mainboard assembly 3 is independent of the display, the power supply and external components, and the shell is uniformly distributed with mainboard radiating holes 32, so that the radiating capacity of electronic components of the mainboard is greatly improved; the one-piece traces extend from the end of the second wire groove 236, through the bracket wire exit 266, into the motherboard wire entry hole 33, and extend from the motherboard wire exit hole 34 to connect to the display 41, and can extend or shorten internally when the motherboard assembly 3 is rotated; at least 2 parallel guide rails are fixedly arranged on the front cover plate 313 of the main plate component 3, and a slide block of one guide rail is changed into a lockable slide block 353 through a second fastening jackscrew 354 so as to lock the moving position of the slide block; display 41 passes through wing display mounting bracket 42 and slide rail fixed connection to obtain along the free mobility of slide rail direction, and wing display mounting bracket 42 further keeps apart mainboard subassembly 3 and display module 4 on the one hand, lets the heat dissipation mutually independent of generating heat of the two, promotes the radiating efficiency, and the mounting bracket 42 of on the other hand fixed dimension appearance can make this all-in-one can adapt unidimensional screen more easily.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; these modifications and substitutions do not depart from the essence of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. An integrated computer comprises a display component (4) and a support component (2) for supporting the display component (4), and is characterized in that the bottom and the top of the support component (2) are respectively and fixedly connected with a power supply and external interface component (1) and a mainboard component (3), and the mainboard component (3) is arranged at the rear side of the display component (4) and is fixedly connected with the display component (4); the bracket component (2) comprises a main bracket (21) arranged at the bottom, the upper side of the main bracket (21) is rotatably connected with a crank (23) through a pin shaft (22), and the upper side of the crank (23) is connected with a bent bracket (26) through a rotating connecting component.

2. The all-in-one computer as claimed in claim 1, wherein the main support (21) comprises a horizontal bottom plate and a support plate extending upwards from the bottom plate, the bottom plate and the support plate are distributed with heat dissipation cavities (211), the top of the support plate is symmetrically distributed with two first ear plates (213) with a square cavity (215) in between, and the first ear plates (213) are provided with step through holes (214) in the middle; crank (23) include second otic placode (231), crank installation face (233) and connect first flexion (235) of the two, second otic placode (231) are provided with column cavity (234) that diameter and step through-hole (214) internal diameter equal, round pin axle (22) pass in proper order step through-hole (214), column cavity (234) are realized first otic placode (213) and second otic placode (231) interference fit.

3. The all-in-one computer is characterized in that an end cover (27) is embedded in the large-diameter hole, close to the outer side, of the stepped through hole (214), a first wire groove (216) is formed in the middle of the inner surface of the supporting plate, and the first wire groove (216) is matched with a first wire blocking plate (28) used for blocking wires.

4. An all-in-one computer as claimed in claim 1, wherein the crank (23) is provided with a second wire guide (236) formed through the center of the inner surface thereof, and the second wire retaining plate (29) is fitted into the second wire guide (236).

5. An all-in-one computer as claimed in claim 2, wherein the rotary connecting member comprises a flange-disk type rotary connecting piece (24) and a threaded short shaft (25), the flange-disk type rotary connecting piece (24) is fixedly arranged on the upper end face of the crank mounting face (233), and a first fastening jackscrew (241) locks the rotation angle of the flange-disk type rotary connecting piece; the threaded short shaft (25) is fixedly arranged in a threaded shaft connecting hole (242) of the flange plate type rotary connecting piece (24), and the upper end surface of the threaded short shaft is provided with a threaded shaft mounting hole (251).

6. The all-in-one computer of claim 1, wherein the power and external interface assembly (1) comprises a power supply, a CD-ROM drive, a sound box, an external device socket assembly and a first casing member (11), the rear side and the top of the first casing member (11) are respectively provided with a wiring hole (13) and an outlet hole (14), and a plurality of heat dissipation holes (15) are distributed on the top and the side wall of the first casing member (11).

7. The integrated computer of claim 1, wherein the main board assembly (3) comprises a main board assembly, a second housing member (31) and main board heat dissipation holes (32) distributed around the second housing member (31), the main board assembly is arranged in the second housing member (31), a rear cover plate (311) of the second housing member (31) is provided with a main board wire inlet hole (33) and is fixedly connected with the bending bracket (26), a front cover plate (313) of the second housing member is provided with a main board wire outlet hole (34), the top of the second housing member is provided with a camera, and the outer side of the front cover plate is provided with a guide rail assembly (35).

8. An all-in-one computer as claimed in any one of claims 1 to 7 wherein the curved bracket (26) includes a first mounting surface (261), a second mounting surface (264) and a second curved portion (263) connecting the first and second mounting surfaces, the first mounting surface (261) being fixedly attached to the threaded stub shaft (25) via the threaded shaft mounting hole (251), the second mounting surface (264) being fixedly attached to the rear cover plate (311) of the second housing member (31).

9. An all-in-one computer as claimed in claim 7 wherein the rail assembly (35) comprises at least 2 rail members, one of which is a lockable slide (353) and locked in position by a second tightening screw (354).

10. The all-in-one computer of claim 1, wherein the display assembly (4) comprises a display (41) and a display mounting bracket (42) fixedly mounted on the back of the display assembly, and the display mounting bracket (42) is fixedly connected with the sliding block of the main board assembly (3).

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