CN115031101B

CN115031101B - Low-radiation cloud desktop terminal

Info

Publication number: CN115031101B
Application number: CN202210595110.1A
Authority: CN
Inventors: 张光柏; 何怀庭
Original assignee: Nanning Maiyue Software Co ltd
Current assignee: Nanning Maiyue Software Co ltd
Priority date: 2022-05-28
Filing date: 2022-05-28
Publication date: 2024-02-20
Anticipated expiration: 2042-05-28
Also published as: CN115031101A

Abstract

The invention relates to the technical field of cloud terminals and discloses a low-radiation cloud desktop terminal, wherein a horizontal placement component is arranged at the middle position of the bottom end of a terminal shell, a low-radiation display screen is arranged at the front side port position of the terminal shell, mounting supports are symmetrically arranged at the output ends of module mounting components, and the module mounting components are fixedly connected with a display module, a sensing module and a main control module respectively through the mounting supports. The horizontal support of the horizontal placement component with adjustable height has a certain amount of height adjustment performance, can adjust the installation height of the cloud desktop terminal by a certain amount, is convenient to operate, has stable support performance, and has a double elastic shock absorption function under the elastic support of the module installation component with elastic support performance through the elastic combination of the compression spring and the installation plate in the horizontal placement component, so that the components in the cloud desktop terminal can be subjected to double protection.

Description

Low-radiation cloud desktop terminal

Technical Field

The invention relates to the technical field of cloud terminals, in particular to a low-radiation cloud desktop terminal.

Background

The cloud terminal is generally referred to as a terminal device of a cloud desktop technology, and connects to a cloud desktop of a system through a specific communication protocol (generally referred to as a cloud desktop technology communication protocol such as VDI, RDS, SPICE) and displays the cloud desktop to the front end, and redirects output and input data of the cloud terminal to a cloud server.

Through retrieval, the Chinese patent network discloses a cloud computing desktop terminal (public announcement number CN 107707867A), and the camera module comprises a camera body connected with a USB interface and a camera support for installing the camera body, wherein the camera support is cylindrical, and external threads are arranged on the periphery of the camera support; the terminal shell comprises a shell body part and a shell frame part which is detachably connected to the front end of the shell body part, a mounting hole which extends forwards and backwards is formed in the middle of the upper end of the shell body part, a connecting sleeve is fixed in the mounting hole through epoxy glue, internal threads are formed in the inner periphery of the connecting sleeve, and a camera support is in threaded connection with the connecting sleeve; the middle part of the upper end of the frame part of the shell is provided with a through hole for exposing the camera body, and the cloud computing desktop terminal of the device realizes video input through the camera module, so that a user can conveniently utilize the cloud computing desktop terminal to carry out video chat. However, in the use process of the device, most of the device is in an unadjustable form, the placement display of the desktop terminal is required to be adjusted in a high-low mode by means of an external mode, and in the assembly and use process of the device, the device has poor impact resistance to the external environment and is extremely easy to cause structural damage due to external impact. Accordingly, a person skilled in the art provides a low-emissivity cloud desktop terminal to solve the above-mentioned problems in the background art.

Disclosure of Invention

The invention aims to provide a low-radiation cloud desktop terminal so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a low radiation cloud desktop terminal, includes the terminal casing, the bottom of terminal casing is located middle part position department and is provided with the level and lays the subassembly, and the front side port position department of terminal casing is provided with low radiation display screen, the inboard of terminal casing is located both ends position department symmetry and is provided with module installation component, module installation component's output symmetry is provided with the erection support, and module installation component pass through the erection support respectively with display module, sensing module, main control module fixed connection.

As still further aspects of the invention: the horizontal placement component comprises a supporting bottom plate, a first guide clamping seat is arranged at the middle position above the supporting bottom plate, a second guide clamping seat is arranged above the first guide clamping seat, the first guide clamping seat is connected with the second guide clamping seat through a guide clamping buckle, a lifting clamping seat is clamped between the first guide clamping seat and the second guide clamping seat, a supporting column is arranged at the middle position of the front end of the inner side of the first guide clamping seat and the middle position of the second guide clamping seat, an adjusting screw is penetrated and clamped at the middle of the supporting column, an output handle is arranged at the output end of the adjusting screw, an installation clamping seat is arranged at the middle position above the second guide clamping seat, compression springs are symmetrically arranged at the inner side of the installation clamping seat, and mounting plates are arranged at the top ends of the compression springs.

As still further aspects of the invention: the first guide clamping grooves are symmetrically formed in the two sides of the first guide clamping seat, the second guide clamping grooves are symmetrically formed in the two sides of the second guide clamping seat, and the first guide clamping grooves and the second guide clamping grooves are connected with the guide clamping buckles in a clamping mode.

As still further aspects of the invention: the first guide clamping seat, the lifting clamping seat and the second guide clamping seat form a square structure, the upper end face of the first guide clamping seat is of an inclined surface structure, the lifting clamping seat is of a conical structure, the bottom end face of the second guide clamping seat is of an inclined surface structure, and the inclined surface angles of the first guide clamping seat and the second guide clamping seat are the same as the conical surface angle of the lifting clamping seat.

As still further aspects of the invention: the display module, the sensing module and the main control module are sequentially and symmetrically provided with a first connecting support, a second connecting support and a third connecting support at the positions of two ends, the number of the mounting supports is three, and the first connecting support, the second connecting support and the third connecting support are respectively in one-to-one correspondence with the mounting supports.

As still further aspects of the invention: the module installation component is including the symmetry setting up the support of laying in terminal casing inboard both ends position department, the front side terminal surface of laying the support is located middle part position department and has offered the direction fluting, and the inboard of laying the support is located middle part position department and is provided with the lift guide arm, the outside symmetry cover of lift guide arm is equipped with the lift sliding sleeve, the front side terminal surface of lift sliding sleeve runs through the direction fluting and is fixed with the erection support, and the both sides of lift sliding sleeve are from last to having set gradually first drive gear, synchronizing gear, second drive gear down symmetrically, the lift sliding sleeve is connected with first drive gear and second drive gear meshing respectively through the drive rack, the output cover of first drive gear is equipped with first tightening torsion spring, the output cover of second drive gear is equipped with the second and tightens up the torsional spring.

As still further aspects of the invention: the first transmission gear, the synchronous gear and the second transmission gear are all the same in size, teeth of the first transmission gear and teeth of the second transmission gear are meshed with teeth of the synchronous gear, and the first transmission gear and the second transmission gear are synchronously meshed and rotated through the synchronous gear.

As still further aspects of the invention: and the rear wall of the terminal shell is symmetrically provided with heat dissipation wind windows at the upper end and the lower end.

Compared with the prior art, the invention has the beneficial effects that:

the horizontal support of the horizontal placement component with adjustable height has a certain amount of height adjustment performance, can perform a certain amount of adjustment work on the installation height of the cloud desktop terminal, replaces the traditional mode of adjusting by means of external force, is convenient to operate, has stable support performance, and has double elastic damping function under the elastic support of the module installation component with elastic support performance through the elastic combination of the compression spring and the mounting plate in the horizontal placement component in the use process of the cloud desktop terminal, so that the components in the cloud desktop terminal can be subjected to double protection work, and the safe usability of the cloud desktop terminal is improved.

Drawings

Fig. 1 is a schematic structural diagram of a low-emissivity cloud desktop terminal;

FIG. 2 is an expanded schematic view of a low-emissivity cloud desktop terminal;

FIG. 3 is a schematic diagram of a module mounting assembly in a low-emissivity cloud desktop terminal;

FIG. 4 is an enlarged schematic view of a low-emissivity cloud desktop terminal at A in FIG. 3;

FIG. 5 is a schematic view of a horizontal placement module in a low-emissivity cloud desktop terminal;

fig. 6 is an expanded schematic view of a horizontal placement module in a low-emissivity cloud desktop terminal.

In the figure: 1. a terminal housing; 2. a low-emissivity display screen; 3. a support base plate; 4. placing a bracket; 5. a mounting support; 6. a heat dissipation air window; 7. a display module; 8. a sensing module; 9. a main control module; 10. a first connection support; 11. a second connection support; 12. a third connection support; 13. lifting guide rods; 14. lifting sliding sleeve; 15. guiding and grooving; 16. a drive rack; 17. a first transmission gear; 18. a synchronizing gear; 19. a second transmission gear; 20. a first tightening torsion spring; 21. a second tightening torsion spring; 22. the first guide clamping seat; 23. a guide buckle; 24. lifting the clamping seat; 25. the second guide clamping seat; 26. installing a clamping seat; 27. a mounting plate; 28. the first guide clamping groove; 29. the second guide clamping groove; 30. a compression spring; 31. a support column; 32. adjusting a screw rod; 33. and an output handle.

Detailed Description

Referring to fig. 1 to 6, in the embodiment of the invention, a low-radiation cloud desktop terminal includes a terminal housing 1, and heat dissipation wind windows 6 are symmetrically arranged at positions of upper and lower ends of a rear wall of the terminal housing 1, and in a process of installing and using the cloud desktop terminal, mechanical heat generated by internal components of the cloud desktop terminal can be dissipated by arranging the heat dissipation wind windows 6 at the rear side of the terminal housing 1.

The bottom of terminal casing 1 is located middle part position department and is provided with the level and lays the subassembly, and the front side port position department of terminal casing 1 is provided with low-spoke display screen 2, the level is laid the subassembly and is included supporting baseplate 3, the top that supporting baseplate 3 is located middle part position department is provided with first guide cassette 22, the top of first guide cassette 22 is provided with second guide cassette 25, and first guide cassette 22 and second guide cassette 25 pass through guide buckle 23 buckle and are connected, the block has lift cassette 24 between first guide cassette 22 and the second guide cassette 25, first guide draw-in groove 28 has been seted up to the bilateral symmetry of first guide cassette 22, second guide draw-in groove 29 has all been seted up with the guide buckle 23 block to the bilateral symmetry of second guide cassette 25, in placing the use to the cloud terminal, the staff places the cloud terminal in the assigned position, after laying the back, when need carry out the fine setting to the demonstration height at the cloud terminal, can carry out the fine setting to first guide cassette 28 and second guide cassette 25, can carry out the fine setting to the second guide cassette 25 with the second guide cassette 25, the second guide cassette 25 is connected to the first guide cassette 25, the fine setting position is adjusted to the second guide cassette 25, and the second guide cassette 25 has been adjusted to the second guide cassette.

The inside of first direction cassette 22 and second direction cassette 25 is located front end middle part position department and is provided with support column 31, the middle part of support column 31 runs through the block and has accommodate the lead screw 32, accommodate the lead screw 32 runs through lift cassette 24, and accommodate the output of lead screw 32 and be provided with output handle 33, the top of second direction cassette 25 is located middle part position department and is provided with installation cassette 26, install the inboard symmetry of cassette 26 and be provided with compression spring 30, the top of compression spring 30 is provided with mounting panel 27, first direction cassette 22, lift cassette 24, second direction cassette 25 constitutes square structure, and the upper portion terminal surface of first direction cassette 22 is inclined plane structure, lift cassette 24 is the toper structure, the bottom terminal surface of second direction cassette 25 is inclined plane structure, the inclined plane angle of first direction cassette 22 and second direction cassette 25 is the same with the conical surface angle of lift cassette 24, in the high low display screen 2's of display process, support wrench tool in output handle 33, rotate wrench tool, drive accommodate the lead screw 32 rotate, adjust the lead screw 32 and rotate, drive the high support 24 in the second direction back support 24 in the front of the second direction cassette 25, the high support 25, the high side of the display screen 2 of the back support of the second direction cassette, the high in the process of the second direction cassette is moved, the second support 25 is adjusted in the front of the position of the front of the second direction cassette 25.

The inner side of the terminal shell 1 is symmetrically provided with module installation components at two end positions, the module installation components comprise placing brackets 4 symmetrically arranged at two end positions of the inner side of the terminal shell 1, a guide slot 15 is formed in the position of the front end surface of each placing bracket 4 at the middle position, a lifting guide rod 13 is arranged in the position of the inner side of each placing bracket 4 at the middle position, a lifting sliding sleeve 14 is symmetrically sleeved on the outer side of each lifting guide rod 13, the front end surface of each lifting sliding sleeve 14 penetrates through the guide slot 15 to be fixed with the corresponding installation support 5, a first transmission gear 17, a synchronous gear 18 and a second transmission gear 19 are sequentially and symmetrically arranged on the two sides of each lifting sliding sleeve 14 from top to bottom, each lifting sliding sleeve 14 is respectively connected with the corresponding first transmission gear 17 and the corresponding second transmission gear 19 in a meshed manner through a transmission rack 16, a first tightening torsion spring 20 is sleeved on the output end of each first transmission gear 17, the output end of the second transmission gear 19 is sleeved with a second tightening torsion spring 21, the first transmission gear 17, the synchronous gear 18 and the second transmission gear 19 are all in the same size, teeth of the first transmission gear 17 and teeth of the second transmission gear 19 are meshed with teeth of the synchronous gear 18, the first transmission gear 17 and the second transmission gear 19 are synchronously meshed and rotated through the synchronous gear 18, when the cloud desktop terminal is subjected to external vibration impact in the installation and use process, the vibration impact generated on the display module 7, the sensing module 8 and the main control module 9 is transmitted to the lifting sliding sleeve 14 through three groups of connecting supports, the lifting sliding sleeve 14 is pushed to lift and slide on the lifting guide rod 13, the lifting sliding sleeve 14 drives the transmission rack 16 to be meshed and driven on the first transmission gear 17 and the second transmission gear 19 in the lifting sliding process, the lifting pushing force is converted into a rotating torque force, and further, the first transmission gear 17 and the second transmission gear 19 are in synchronous meshing transmission with the synchronous gear 18, and under the elastic hoops of the first tightening torsion spring 20 and the second tightening torsion spring 21, the first transmission gear 17 and the second transmission gear 19 keep synchronous elastic rotation, so that impact influence on components caused by vibration impact is reduced.

The output of module installation component symmetry is provided with erection support 5, and module installation component passes through erection support 5 respectively with display module 7, sensing module 8, main control module 9 fixed connection, display module 7, sensing module 8, main control module 9's rear side is located both ends position department symmetry in proper order and is provided with first connection support 10, second connection support 11, third connection support 12, the quantity of erection support 5 is three sets of, first connection support 10, second connection support 11, third connection support 12 respectively with erection support 5 mutual one-to-one, in the installation of cloud desktop terminal use, through the one-to-one of erection support 5 in the module installation component and first connection support 10, second connection support 11, third connection support 12, can carry out elasticity articulates the installation work to display module 7 in proper order, sensing module 8, main control module 9, reduce the influence that factors such as external vibration impact caused components and parts.

The working principle of the invention is as follows: in the process of placing and using the cloud desktop terminal, a worker places the cloud desktop terminal at a designated position, after placing, when the display height of the cloud desktop terminal is required to be finely adjusted, the worker can adjust the clamping position of the lifting clamping seat 24 in the first guiding clamping seat 22 and the second guiding clamping seat 25 through guiding clamping of the guiding clamping buckle 23 to the first guiding clamping groove 28 and the second guiding clamping groove 29, adjust the interval distance between the first guiding clamping seat 22 and the second guiding clamping seat 25, finely adjust the height position of the synchronous low-spoke display screen 2, in the adjusting process, support a spanner tool into the output handle 33, rotate the spanner tool, drive the adjusting screw 32 to rotate, drive the lifting clamping seat 24 to move back and forth in the first guiding clamping seat 22 and the second guiding clamping seat 25 in the rotating process, and drive the lifting clamping seat 24 to push back and forth in the lifting clamping seat 24, the second guide clamping seat 25 is propped up to adjust the display height position of the low-amplitude display screen 2, further when the cloud desktop terminal is subjected to external vibration impact in the installation and use process of the cloud desktop terminal, the vibration impact generated on the display module 7, the sensing module 8 and the main control module 9 is transmitted to the lifting sliding sleeve 14 through three groups of connecting supports to push the lifting sliding sleeve 14 to lift and slide on the lifting guide rod 13, the lifting sliding sleeve 14 drives the transmission rack 16 to mesh and transmit on the first transmission gear 17 and the second transmission gear 19 in the lifting sliding process, the lifting thrust is converted into a rotation torque force, and further the synchronous meshing and transmission of the first transmission gear 17 and the second transmission gear 19 and the synchronous gear 18 are realized, under the elastic hoops of the first torsion spring 20 and the second tightening torsion spring 21, the first transmission gear 17 and the second transmission gear 19 are kept to synchronously elastically rotate, the impact influence on components caused by vibration impact is reduced, and the integral structure of the cloud desktop terminal can be damped and buffered again through the elastic combination of the compression springs 30 and the mounting plates 27 synchronously.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The low-radiation cloud desktop terminal comprises a terminal shell (1), and is characterized in that a horizontal placement component is arranged at the middle position of the bottom end of the terminal shell (1), a low-radiation display screen (2) is arranged at the front side port position of the terminal shell (1), module installation components are symmetrically arranged at the two end positions of the inner side of the terminal shell (1), installation supports (5) are symmetrically arranged at the output ends of the module installation components, and the module installation components are fixedly connected with a display module (7), a sensing module (8) and a main control module (9) through the installation supports (5) respectively; the horizontal placement assembly comprises a supporting bottom plate (3), a first guide clamping seat (22) is arranged at the middle position above the supporting bottom plate (3), a second guide clamping seat (25) is arranged above the first guide clamping seat (22), the first guide clamping seat (22) is connected with the second guide clamping seat (25) through a guide buckle (23) in a buckling manner, a lifting clamping seat (24) is clamped between the first guide clamping seat (22) and the second guide clamping seat (25), a supporting column (31) is arranged at the middle position of the inner side of the front end of the first guide clamping seat (22) and the middle position of the inner side of the second guide clamping seat (25), an adjusting screw (32) penetrates through the middle of the supporting column (31), an output handle (33) is arranged at the output end of the adjusting screw (32), a mounting clamping seat (26) is arranged at the middle position above the second guide clamping seat (25), a symmetrical spring (30) is arranged at the inner side of the mounting clamping seat (26), and a compression spring (30) is arranged at the top end of the compression spring (30);

the two sides of the first guide clamping seat (22) are symmetrically provided with first guide clamping grooves (28), the two sides of the second guide clamping seat (25) are symmetrically provided with second guide clamping grooves (29), and the first guide clamping grooves (28) and the second guide clamping grooves (29) are in clamping connection with the guide clamping buckles (23);

the first guide clamping seat (22), the lifting clamping seat (24) and the second guide clamping seat (25) form a square structure, the upper end face of the first guide clamping seat (22) is of an inclined surface structure, the lifting clamping seat (24) is of a conical structure, the bottom end face of the second guide clamping seat (25) is of an inclined surface structure, and the inclined surface angles of the first guide clamping seat (22) and the second guide clamping seat (25) are the same as the conical surface angle of the lifting clamping seat (24);

the module installation assembly comprises placing brackets (4) symmetrically arranged at two end positions of the inner side of a terminal shell (1), a guide slot (15) is formed in the position, located in the middle, of the front end face of each placing bracket (4), a lifting guide rod (13) is arranged in the position, located in the middle, of the inner side of each placing bracket (4), a lifting sliding sleeve (14) is symmetrically sleeved on the outer side of each lifting guide rod (13), the front end face of each lifting sliding sleeve (14) penetrates through the guide slot (15) to be fixed with an installation support (5), a first transmission gear (17), a synchronous gear (18) and a second transmission gear (19) are sequentially and symmetrically arranged on two sides of each lifting sliding sleeve (14) from top to bottom, each lifting sliding sleeve (14) is respectively connected with the corresponding first transmission gear (17) and the corresponding second transmission gear (19) in a meshed mode through a transmission rack (16), a first torsion spring (20) is sleeved on the output end of each first transmission gear (17), and a second torsion spring (21) is sleeved on the output end of each second transmission gear (19);

the first transmission gear (17), the synchronous gear (18) and the second transmission gear (19) are all the same in size, teeth of the first transmission gear (17) and teeth of the second transmission gear (19) are meshed with teeth of the synchronous gear (18), and the first transmission gear (17) and the second transmission gear (19) are synchronously meshed and rotated through the synchronous gear (18).

2. The low-radiation cloud desktop terminal according to claim 1, wherein the rear sides of the display module (7), the sensing module (8) and the main control module (9) are sequentially and symmetrically provided with a first connecting support (10), a second connecting support (11) and a third connecting support (12), the number of the mounting supports (5) is three, and the first connecting support (10), the second connecting support (11) and the third connecting support (12) are respectively in one-to-one correspondence with the mounting supports (5).

3. The low-emissivity cloud desktop terminal according to claim 1, wherein the rear wall of the terminal housing (1) is symmetrically provided with heat dissipation louvers (6) at the upper and lower end positions.