Office computer with double displays on one host
Technical Field
The invention relates to a computer, in particular to an office computer with a host provided with double displays.
Background
In the current computer office environment, the desks of the employees are often arranged face to face, and the computers on the desks are also arranged oppositely. The desktop type integrated computer in the prior art is more and more widely applied, and has the advantages of portability and small occupied area, thereby being suitable for the current office places. However, all internal components of the desktop all-in-one machine are integrated on a main board, so that internal heat dissipation is poor, and the performance of the computer is greatly influenced when the internal main board generates heat and cannot dissipate heat in time. If a host computer and a display separated computer are adopted, the heat dissipation effect is better, the performance of the computer is better, but the host computer is usually arranged on the floor or placed on one side of an office desktop, and the space is occupied.
Therefore, there is a need for a computer suitable for use in an office environment, which can ensure the performance of the computer, is easy to carry and can improve the heat dissipation efficiency, and can prevent the computer from occupying too large office space.
Disclosure of Invention
The invention aims to provide an office computer with a host provided with double displays, wherein two computer integrated main boards are arranged in the computer integrated main boards and are respectively used for computer displays on two sides for two face-to-face employees to use in office, so that the manufactured thin-wall host case has smaller volume and lighter weight, is convenient to disassemble, assemble and carry, has small volume and can save office space; inside water-cooling heat dissipation mechanism can be convenient carry out effectual heat dissipation for two integrated mainboards of computer, compares desk-top integrative computer, has improved the radiating efficiency greatly, improves the performance of computer.
In order to achieve the purpose, the invention is realized by the following technical scheme:
a computer for official working of two displays is taken to host computer, including thin-walled host computer machine case, left branch strut, right branch strut, left display and right display, thin-walled host computer machine case sets up between left branch strut, right branch strut, left side display, right display set up respectively on left branch strut, right branch strut, thin-walled host computer machine case lateral wall is equipped with USB interface, earphone interface, net twine interface, power source interface, data serial interface and heat dissipation net gape, thin-walled host computer machine incasement portion is equipped with water cooling piece, cold water admission pipe, hot water outlet pipe, water pump, water tank, heat exchanger and radiator fan, the inside a plurality of water courses that are equipped with of water cooling piece, water cooling piece both sides are equipped with left side machine integration mainboard and right machine integration mainboard respectively, be connected with respective USB interface, earphone interface through the data line respectively on left side machine integration mainboard, the right machine integration mainboard, The cooling system comprises a network cable interface, a power supply interface, a data serial port interface and a cooling network port, wherein two ends of a plurality of water channels are respectively communicated with a cold water inlet pipe and a hot water outflow pipe, the other end of the cold water inlet pipe is connected with a water pump, the water pump is connected with a water tank, the water tank is connected with a heat exchanger, the heat exchanger is connected with the hot water outflow pipe, and a cooling fan is arranged on one side of the heat exchanger and corresponds to the position of the cooling network port.
And a heat dissipation ice pad is arranged between the water cooling block and the left machine integrated main board and between the water cooling block and the right machine integrated main board.
The heat dissipation ice mat and the left machine integrated mainboard and the right machine integrated mainboard are provided with heat preservation cotton layers, and a metal net layer is arranged between the heat dissipation ice mat and the water cooling block.
The left support frame and the right support frame are respectively provided with an upper adjusting mechanism and a lower adjusting mechanism, the upper adjusting mechanism and the lower adjusting mechanism comprise support rods connected with the left display and the right display and a position fixing device, cavities are respectively arranged in the left support frame and the right support frame, the cavity wall of each cavity is provided with a first strip-shaped sliding hole connected with the support rod in a sliding manner and a second strip-shaped sliding hole connected with the position fixing device in a sliding manner, the inner side of the cavity wall opposite to the second strip-shaped sliding hole is provided with a plurality of adjusting slots, the position fixing device comprises an upper inserting plate, a lower inserting plate, a fixed vertical plate and a handle, one end of each support rod is inserted into the corresponding cavity and is arranged between the upper inserting plate and the lower inserting plate, the upper inserting plate and the lower inserting plate are inserted into the adjusting slots, the fixed vertical plate is arranged outside the cavity, all be equipped with on left branch strut, the outside lateral wall of right branch strut and adjust the jack, pass through the bolt connection between spacing hole and the regulation jack.
All be equipped with globular connector on left side display, the right display, the bracing piece end is equipped with spherical groove, globular connector sets up in spherical groove, globular connector is connected with the universal rotation of spherical groove.
The two sides of the water channel are respectively provided with a diversion cavity and a confluence cavity, the diversion cavity is communicated with a cold water inlet pipe, and the confluence cavity is communicated with a hot water outlet pipe.
Compared with the prior art, the invention has the beneficial effects that:
1. the device is characterized in that two computer integrated mainboards, namely a left computer integrated mainboard and a right computer integrated mainboard, are arranged in a thin-wall host case, are manufactured by adopting the standard of a desktop integrated computer, and are respectively used for a left display and a right display at two sides and used for two workers facing each other to work, so that the manufactured thin-wall host case has smaller volume, lighter weight, convenient disassembly, assembly and carrying, small volume and office space saving; and thin wall host computer incasement is equipped with the water-cooling heat dissipation mechanism that the radiating effect is better, and a water-cooling heat dissipation mechanism can be convenient carry out effectual heat dissipation for left side machine integration mainboard and right side machine integration mainboard, compares desk-top integrated computer, has improved the radiating efficiency greatly, improves the performance of computer.
2. The heat dissipation ice pad is arranged between the water cooling block and the left machine integration main board and the right machine integration main board, is a novel environment-friendly heat dissipation tool of a high-tech phase change memory polymer compound, can be kept below 25 ℃ at normal temperature, and can automatically crystallize and store a large amount of cold energy in the polymer cold storage substance inside and absorb the heat energy of the computer integration main board placed on the heat dissipation ice pad; the computer integrated mainboard is kept from being scalded, the service life of the computer integrated mainboard is prolonged, and the use performance of the computer is improved.
3. The heat-insulating cotton cloth layers are arranged on the heat-radiating ice pad, the left machine integrated mainboard and the right machine integrated mainboard, so that the cold energy on the heat-radiating ice pad can be prevented from being dissipated, and the heat-radiating ice pad can be more fully used for radiating heat of the left machine integrated mainboard and the right machine integrated mainboard; a metal net layer is arranged between the heat dissipation ice pad and the water cooling block, so that the heat dissipation ice pad and the water cooling block can be isolated, and the heat dissipation ice pad is convenient to place.
4. The height of the left display and the height of the right display can be conveniently adjusted according to needs by the aid of the vertical adjusting mechanism.
5. The universal rotation of globular connector and spherical groove is connected the inclination that can be as required convenient adjustment left display, right display.
6. Cold water flowing into the cold water inlet pipe can be divided into the water channels through the flow dividing cavities, and hot water flowing out of the water channels after heat exchange can be converged to the hot water outflow pipe through the flow converging cavities.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
FIG. 2 is an enlarged view of portion I of FIG. 1 according to the present invention.
Fig. 3 is a schematic diagram of the internal structure of the thin-walled host case of the present invention.
Fig. 4 is a cross-sectional view of the present invention taken along line a-a of fig. 3.
FIG. 5 is a schematic view of the structure of the vertical adjustment mechanism of the present invention.
Reference numerals shown in the drawings:
1. a thin-walled host chassis; 2. a left support frame; 3. a right support frame; 4. a left display; 5. a right display; 6. a USB interface; 7. an earphone interface; 8. a network cable interface; 9. a power interface; 10. a data serial port interface; 11. a heat dissipation net port; 12. a water-cooling block; 13. a cold water inlet pipe; 14. a hot water outflow pipe; 15. a water pump; 16. a water tank; 17. a heat exchanger; 18. a heat radiation fan; 19. a water channel; 20. a left machine integration mainboard; 21. a right machine integration mainboard; 22. a heat dissipation ice pad; 23. a heat-insulating cotton cloth layer; 24. a metal mesh layer; 25. a support bar; 26. a cavity; 27. a second strip-shaped sliding hole; 28. adjusting the slot; 29. an upper plug board; 30. a lower plug board; 31. fixing a vertical plate; 32. a handle; 33. a limiting plate; 34. a limiting hole; 35. adjusting the jack; 36. a spherical connector; 37. a spherical groove; 38. a shunting cavity; 39. a manifold chamber.
Detailed Description
The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.
The invention relates to an office computer with a host provided with double displays, which comprises a thin-wall host case 1, a left support frame 2, a right support frame 3, a left display 4 and a right display 5, wherein the thin-wall host case 1 is arranged between the left support frame 2 and the right support frame 3, the left display 4 and the right display 5 are respectively arranged on the left support frame 2 and the right support frame 3, the side wall of the thin-wall host case 1 is provided with a USB interface 6, an earphone interface 7, a network cable interface 8, a power interface 9, a data serial interface 10 and a heat dissipation network port 11, a water cooling block 12, a cold water inlet pipe 13, a hot water outlet pipe 14, a water pump 15, a water tank 16, a heat exchanger 17 and a heat dissipation fan 18 are arranged in the thin-wall host case 1, a plurality of water channels 19 are arranged in the water cooling block 12, a left integrated mainboard 20 and a right integrated mainboard 21 are respectively arranged at two sides of the water cooling block, the left machine integrated mainboard 20 and the right machine integrated mainboard 21 are respectively connected with respective USB interfaces 6, earphone interfaces 7, network cable interfaces 8, power interfaces 9, data serial interfaces 10 and heat dissipation network ports 11 through data lines, a plurality of the two ends of the water channel 19 are respectively communicated with the cold water inlet pipe 13 and the hot water outlet pipe 14, the other end of the cold water inlet pipe 13 is connected with the water pump 15, the water pump 15 is connected with the water tank 16, the water tank 16 is connected with the heat exchanger 17, the heat exchanger 17 is connected with the hot water outlet pipe 14, the heat dissipation fan 18 is arranged on one side of the heat exchanger 17 and corresponds to the position of the heat dissipation network ports 11. The device is characterized in that two computer integrated mainboards, namely a left computer integrated mainboard 20 and a right computer integrated mainboard 21 are arranged in a thin-wall host case 1, the two computer integrated mainboards are manufactured by adopting the standard of a desktop integrated computer, and are respectively used for a left display 4 and a right display 5 at two sides for two face-to-face employees to work, so that the manufactured thin-wall host case 1 has smaller volume and lighter weight, is convenient to disassemble, assemble and carry, and has small volume and can save working space; and the thin-walled host computer machine case 1 is equipped with the better water-cooling heat dissipation mechanism of radiating effect, and a water-cooling heat dissipation mechanism can be convenient carry out effectual heat dissipation for left quick-witted integrated mainboard 20 and right quick-witted integrated mainboard 21, compares desk-top integrative computer, has improved the radiating efficiency greatly, improves the performance of computer.
And a heat dissipation ice pad 22 is arranged between the water cooling block 12 and the left machine integrated main board 20 and between the water cooling block and the right machine integrated main board 21. The heat dissipation ice pad 22 is arranged between the water cooling block 12 and the left machine integration main board 20 and the right machine integration main board 21, the heat dissipation ice pad 22 is a novel environment-friendly heat dissipation tool of a high-tech phase change memory polymer compound, and the polymer cooling storage material in the heat dissipation ice pad can be automatically crystallized and store a large amount of cold energy at the normal temperature of below 25 ℃, so that the heat energy of the computer integration main board placed on the heat dissipation ice pad can be absorbed; the computer integrated mainboard is kept from being scalded, the service life of the computer integrated mainboard is prolonged, and the use performance of the computer is improved.
The heat dissipation ice mat 22, the left machine integrated main board 20 and the right machine integrated main board 21 are provided with heat preservation cotton cloth layers 23, and a metal mesh layer 24 is arranged between the heat dissipation ice mat 22 and the water cooling block 12. The heat-insulating cotton cloth layers 23 are arranged on the heat-radiating ice pad 22, the left machine integrated main board 20 and the right machine integrated main board 21, so that the cold energy on the heat-radiating ice pad 22 can be prevented from being dissipated, and the heat-radiating ice pad is more fully used for radiating heat of the left machine integrated main board 20 and the right machine integrated main board 21; a metal mesh layer 24 is arranged between the heat dissipation ice pad 22 and the water cooling block 12, so that the heat dissipation ice pad 22 and the water cooling block 12 can be isolated, and the heat dissipation ice pad 22 can be conveniently placed.
In order to adjust the height of left display 4, right display 5 as required conveniently, adjustment mechanism about all being equipped with on left branch strut 2, the right branch strut 3, adjustment mechanism includes the bracing piece 25 of being connected with left display 4, right display 5 from top to bottom, and position fixing device, left branch strut 2, the inside cavity 26 that all is equipped with of right branch strut 3, all be equipped with on the 26 chamber walls of cavity with bracing piece 25 sliding connection's first strip slide opening, with position fixing device sliding connection's second strip slide opening 27, be equipped with a plurality of regulation slots 28 on the 26 chamber walls inboard of cavity relative with second strip slide opening 27, position fixing device includes picture peg 29, lower picture peg 30, fixed riser 31 and handle 32, bracing piece 25 one end is inserted and is set up in cavity 26 and is gone up picture peg 29, lower picture peg 30 between, go up picture peg 29, Lower picture peg 30 is pegged graft with adjusting slot 28, fixed riser 31 sets up in the cavity 26 outside, the left and right sides is equipped with limiting plate 33 on the fixed riser 31, be equipped with spacing hole 34 on the limiting plate 33, all be equipped with on the outside lateral wall of left branch strut 2, the right branch strut 3 and adjust jack 35, pass through the bolt connection between spacing hole 34 and the regulation jack 35.
In order to adjust the inclination angle of the left display 4 and the right display 5 conveniently as required, the left display 4 and the right display 5 are both provided with a spherical connector 36, the end of the support rod 25 is provided with a spherical groove 37, the spherical connector 36 is arranged in the spherical groove 37, and the spherical connector 36 is connected with the spherical groove 37 in a universal rotating manner.
A diversion cavity 38 and a confluence cavity 39 are respectively arranged at two sides of the water channel 19, the diversion cavity 38 is communicated with the cold water inlet pipe 13, and the confluence cavity 39 is communicated with the hot water outlet pipe 14. The cold water flowing in from the cold water inlet pipe 13 can be divided into the water channels 19 through the dividing cavity 38, and the hot water flowing out from the water channels 19 after heat exchange can be converged to the hot water outlet pipe 14 through the converging cavity 39.
Principle of water-cooling heat dissipation mechanism:
the water cooling block 12 is a metal block with a water channel 19 formed therein, is made of copper or aluminum, and contacts with the left machine integration main board 20 and the right machine integration main board 21 to absorb heat generated thereby. Circulating liquid flows in the water channel 19, and the circulating liquid flows in a circulating pipeline under the action of the water pump 15. The liquid absorbing the heat of the left machine integrated main board 20 and the right machine integrated main board 21 will flow away from the water channel 19 of the water cooling block 12, and the low temperature circulating liquid newly flowing in will continue to absorb the heat of the left machine integrated main board 20 and the right machine integrated main board 21. The circulating liquid circularly flows in a closed channel without leakage, so that the water-cooling heat dissipation system can normally work. The water tank 16 is used to store a circulating liquid, the heat exchanger 17 is a fin-like device, the circulating liquid transfers heat to a fin having a large surface area, and the heat radiating fan 18 removes heat from the inflow air. The water-cooling heat dissipation system utilizes circulating liquid to transport heat generated by the left machine integrated main board 20 and the right machine integrated main board 21 from the water-cooling block 12 to the heat exchanger 17 and then dissipate the heat. The maximum characteristics of the water-cooling heat dissipation system are two: the heat dissipation and low-noise operation of the left machine integrated main board 20 and the right machine integrated main board 21 are equalized. Because the specific heat capacity of water is super large, consequently can absorb a large amount of heats and keep the not obvious change of temperature, the temperature of the integrated mainboard 20 of left side machine and the integrated mainboard 21 of right side machine can obtain good control in the water cooling system, because the surface area of heat exchanger 17 is very big, so only need the radiator fan 18 of low rotational speed to dispel the heat and just can play good effect to it, therefore the lower fan of rotational speed is collocated mostly to water-cooling, power consumptive still less.
Principle of up-down adjusting mechanism:
when the left display 4 or the right display 5 needs to be adjusted up and down, the plug pin between the limiting hole 34 and the adjusting insertion hole 35 is firstly pulled out, and then the handle 32 is held by hand to pull the upper insertion plate 29 and the lower insertion plate 30 on the position fixing device out of the adjusting insertion groove 28. The support rod 25 is then slidably positioned along the first slide slot and the position fixing device is adapted to slidably position along the second slide slot 27. After the position is adjusted to a proper position, the upper inserting plate 29 and the lower inserting plate 30 are inserted into the corresponding adjusting slots 28, then the inserting pins are inserted into the corresponding limiting holes 34 and the corresponding adjusting inserting holes 35, the position of the position fixing device is fixed, the position fixing device fixes the supporting rods 25 connected with the left display 4 and the right display 5, and therefore the whole up-and-down adjusting process of the left display 4 or the right display 5 is completed.