CN112506315A

CN112506315A - Computer host preheating system

Info

Publication number: CN112506315A
Application number: CN202011281205.3A
Authority: CN
Inventors: 周泉火
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-03-16

Abstract

The invention discloses a preheating system of a computer host, which comprises a heat absorbing plate, wherein a preheating sleeve is fixed at the upper end of the heat absorbing plate, a cooling box is fixed at the upper end of the preheating sleeve, a partition plate is fixed on the inner wall of the preheating sleeve, a water falling hole and an air return groove are formed in the side wall of the partition plate in a penetrating mode, a breathable film is fixed inside the air return groove, an electromagnetic valve is arranged inside the water falling hole, a temperature control current limiting mechanism is arranged inside the preheating sleeve, a pumping mechanism is arranged inside the cooling box, and a temperature control cooling mechanism is arranged at the upper end of the heat absorbing plate. Has the advantages that: through setting up the preheating water in baffle upper end, and set up the sodium hydroxide granule on absorber plate upper portion for when the host computer was operated, the hole circular telegram of falling into water was opened, and the preheating water drips on the sodium hydroxide granule, makes the sodium hydroxide release a large amount of heats, and this part heat will directly transmit for the absorber plate, and then transmits parts such as CPU, thereby makes the host computer start smoothly and do not receive microthermal influence on every side.

Description

Computer host preheating system

Technical Field

The invention relates to the technical field of computers, in particular to a preheating system of a computer host.

Background

The computer is commonly called as a computer, is a modern electronic computing machine for high-speed computation, can perform numerical computation and logic computation, and also has a memory function; the intelligent electronic device is a modern intelligent electronic device which can operate according to a program and automatically process mass data at a high speed;

the existing computer is used for a long time, the capacitor and the battery of the existing computer are aged, the host is caused to be at a lower temperature, the starting is difficult, the user is required to heat the host in the initial stage or be located in a warm environment to start the host normally, or the problem is solved by replacing parts, but the replacement can cause economic damage, a large number of users select artificial heating, so that the use is inconvenient, the heat generated during the working of the host is not utilized, the energy waste is caused, and therefore a computer host system capable of effectively preheating is needed.

Disclosure of Invention

The invention aims to solve the problem of inconvenient host startup in the prior art, and provides a computer host preheating system.

In order to achieve the purpose, the invention adopts the following technical scheme: the preheating system for the computer host comprises a heat absorbing plate, wherein a preheating sleeve is fixed at the upper end of the heat absorbing plate, a cooling box is fixed at the upper end of the preheating sleeve, a partition plate is fixed on the inner wall of the preheating sleeve, a water falling hole and an air return groove are formed in the side wall of the partition plate in a penetrating mode, a breathable film is fixed inside the air return groove, a solenoid valve is arranged inside the water falling hole, a temperature control current limiting mechanism is arranged inside the preheating sleeve, a pumping mechanism is arranged inside the cooling box, and a temperature control cooling mechanism is arranged at the upper end of the heat absorbing plate.

In foretell computer preheating system, pumping mechanism is including being fixed in two magnetic paths of both ends outer wall about the cooler bin, the inner wall of cooler bin is fixed with drainage ring and water ring, the sealed sliding connection of inner wall of cooler bin has the slide, the lateral wall of slide runs through and is fixed with the shaking rod, the lateral wall of slide runs through and has seted up the pump water hole, drainage ring, water ring and the downthehole check valve that all is equipped with of pump water.

In the preheating system of the computer host, the temperature control and cooling mechanism comprises two temperature control strips fixed at the upper end of the heat absorbing plate, driving plates are fixed at the upper ends of the two temperature control strips, annular circulating pipes are jointly fixed at the lower ends of the two driving plates, and two conveying pipes communicated with the interior of the cooling box are inserted at the upper ends of the circulating pipes.

In the preheating system of the computer host, the temperature control and current limiting mechanism comprises a limiting strip fixed on the inner wall of the preheating sleeve, a limiting plate is fixed on the side wall of the limiting strip, a sealing strip is fixed at the bottom of the magnetic block at the lower end of the limiting strip, a sealing plate is fixed at the bottom of the sealing strip, and the limiting strip and the sealing strip are made of memory metal.

Compared with the prior art, the invention has the advantages that:

1. according to the invention, the preheating water is arranged at the upper end of the partition plate, and the sodium hydroxide particles are arranged at the upper part of the heat absorbing plate, so that when the host machine runs, the water falling hole is electrified and opened, the preheating water drops on the sodium hydroxide particles, the sodium hydroxide emits a large amount of heat, and the part of heat can be directly transferred to the heat absorbing plate and further transferred to components such as a CPU (central processing unit), so that the temperature of the working environment of components in the host machine is increased, and the host machine can be smoothly started without being influenced by low ambient temperature;

2. when the preheating temperature is gradually increased, the limiting strips deform and extend to drive the limiting plates to move, so that the flow of the water falling hole is limited, the heat production efficiency of sodium hydroxide particles is reduced, overheating caused by excessive preheating is avoided, when a host normally operates, a CPU (central processing unit) and other components generate more heat, preheating supplement is not needed, at the moment, the sealing strips rotate to drive the sealing plates to rotate, the water falling hole is effectively sealed, and unnecessary damage caused by overheating is avoided;

3. in the invention, when the host machine normally operates to generate heat, the moisture in the sodium hydroxide particles absorbs the heat and evaporates, so that the strong sodium oxide particles are dried and recycled, and the water vapor passes through the breathable film and returns to the upper end of the clapboard, and is recovered after condensation, so that the whole device can be recycled, does not consume energy, basically has no damage, has lower cost and is convenient and effective to use;

4. according to the invention, when the temperature inside the host is obviously higher, the temperature control strip is contracted, so that the circulating pipe is close to the heat absorbing plate, the cooling liquid inside the circulating pipe is further cooled by absorbing heat, the temperature control effect is achieved, the overheating damage is avoided, and the electrified shaking rod can shake in the stable magnetic field formed by the magnetic block, so that the sliding semi-reciprocating transverse movement is driven, the effective water pumping action is realized, the cold zone liquid is circulated, and the integral heat dissipation effect is improved.

Drawings

FIG. 1 is a schematic diagram of a preheating system for a computer host according to the present invention;

FIG. 2 is a schematic structural diagram of another state of a computer host preheating system according to the present invention.

In the figure: the device comprises a heat absorption plate 1, a preheating sleeve 2, a cooling box 3, a partition plate 4, a water falling hole 5, an air return groove 6, a breathable film 7, a limiting strip 8, a limiting plate 9, a sealing strip 10, a sealing plate 11, a temperature control strip 12, a driving plate 13, a circulating pipe 14, a conveying pipe 15, a water discharging ring 16, a water inlet ring 17, a shaking rod 18, a sliding plate 19, a water pumping hole 20 and a magnet 21.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Examples

Referring to fig. 1-2, a computer preheating system, including absorber plate 1, the upper end of absorber plate 1 is fixed with preheating sleeve 2, preheating sleeve 2's upper end is fixed with cooler bin 3, preheating sleeve 2's inner wall is fixed with baffle 4, baffle 4's lateral wall runs through and has been seted up hole 5 and air return tank 6 of falling into water, air return tank 6 is inside to be fixed with ventilated membrane 7, its position ventilative water barrier, guarantee vapor reflux and rivers can not directly drip, the hole 5 inside that falls into water is equipped with the solenoid valve, baffle 4 upper portion is stored with preheating water, and preheating sleeve 2 bottom has placed the sodium hydroxide granule, when preheating water instils into the sodium hydroxide granule, will produce a large amount of heat, preheating sleeve 2's inside is equipped with control by temperature change current-limiting mechanism, cooler bin 3 inside is equipped with pumping mechanism, absorber plate 1's upper end is equipped with control.

Pumping mechanism is including being fixed in two magnet 21 of cooler bin 3 upper and lower both ends outer wall, the inner wall of cooler bin 3 is fixed with drainage ring 16 and water ring 17, the sealed sliding connection of inner wall of cooler bin 3 has slide 19, slide 19's lateral wall runs through and is fixed with shaking rod 18, slide 19's lateral wall runs through and has seted up pump water hole 20, drainage ring 16, the inside check valve that all is equipped with of water ring 17 and pump water hole 20, drainage ring 16 and water ring 17 separate into the three-section with cooler bin 3, slide 19 is located therebetween, the conversion of space size is realized in the continuous motion of listening slide 19, and then accomplish the pumping of rivers.

The temperature control cooling mechanism comprises two temperature control strips 12 fixed at the upper end of the heat absorbing plate 1, driving plates 13 are fixed at the upper ends of the two temperature control strips 12, annular circulating pipes 14 are jointly fixed at the lower ends of the two driving plates 13, two conveying pipes 15 communicated with the interior of the cooling box 3 are inserted into the upper ends of the circulating pipes 14, the temperature control strips 12 are made of folded memory metal, the circulating pipes 14 are driven to be close to the heat absorbing plate 1 when the internal temperature is too high, and effective heat absorption is achieved.

The temperature control and flow limiting mechanism comprises a limiting strip 8 fixed on the inner wall of the preheating sleeve 2, a limiting plate 9 is fixed on the side wall of the limiting strip 8, a sealing strip 10 is fixed at the bottom of a magnetic block 21 at the lower end, a sealing plate 11 is fixed at the bottom of the sealing strip 10, the limiting strip 8 and the sealing strip 10 are both made of memory metal, the limiting strip 8 is folded, the sealing strip 10 is spiral, the abnormal temperature of the limiting strip 8 is relatively low, the limiting strip 8 and the sealing plate 11 are driven to move through deformation, and the flow of the water falling hole 5 is limited.

In the invention, after the host is started, the electromagnetic valve in the water falling hole 5 is opened, water flow on the upper part of the partition plate 4 drops on sodium hydroxide particles on the lower part through the water falling hole 5, so that the sodium hydroxide particles are dissolved to release a large amount of heat, then the heat is transferred to the heat absorbing plate 1 with lower temperature, and then the heat absorbing plate 1 is transferred to the mainboard, and basic preheating treatment is carried out on components on the mainboard, so that the host can run smoothly without being excessively influenced by low-temperature environment, and the adaptability of the host is improved;

along with the operation of the host, the CPU and other components on the host also generate heat when operating, so that the temperature in the case rises, excessive heat does not need to be additionally provided, at the moment, the limiting strip 8 reaches the abnormal temperature first, and then deforms and extends to push the limiting plate 9 to move to the position of the water falling hole 5, so that the water falling hole 5 is partially shielded, the dropping flow of water flow is reduced, the heat production speed is reduced, the temperature in the case is kept stable, and the internal environment is assisted to start and protected;

along with the increase of the operation time, the internal temperature of the case is obviously increased and is not influenced by the low-temperature environment of the surrounding ring any more, and at the moment, the sealing strip 10 and the temperature control strip 12 both reach the abnormal temperature and deform, so that the sealing plate 11 is driven by the sealing strip 10 to rotate so as to completely seal the water falling hole 5, and thus, the internal excessive heat generation is avoided;

meanwhile, the temperature control strip 12 contracts to drive the driving plate 13 and the circulating pipe 14 to move downwards, so that the circulating pipe 14 is tightly attached to the heat absorbing plate 1, redundant heat on the heat absorbing plate 1 can be transferred to cooling liquid in the circulating pipe 14, overheating damage of a CPU (Central processing Unit) on a main board and the like is avoided, after the power-on starting, the shaking rod 18 is in a power-on state, is similar to a power-on conducting wire and is in a stable magnetic field formed by the magnetic block 21, the shaking rod 18 continuously reciprocates under the action of magnetic field force, the sliding plate 19 is driven to reciprocate and transversely move, spaces on two sides of the sliding plate 19 are continuously changed, water on one side of the sliding plate 19 is continuously pumped to the other side through the pump water hole 20, water in the cooling box 3 continuously transfers and flows, a loop is formed by the two conveying pipes 15 and the circulating pipe 14, cold area can circularly flow, and, the obvious cooling effect is realized;

at the hole 5 closure that falls into water, when the absorber plate 1 absorbed the heat that CPU gived off, the moisture in the sodium hydroxide granule also will absorb heat energy in a large number to make self gasification evaporation, make the sodium hydroxide granule obtain drying process, and steam rises and sees through ventilated membrane 7 and get back to baffle 4 upper portion, condensation after contacting with microthermal magnetic path 21, then the drippage has realized the cyclic utilization of preheating rivers.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a computer preheating system, includes absorber plate (1), its characterized in that, the upper end of absorber plate (1) is fixed with preheating sleeve (2), the upper end of preheating sleeve (2) is fixed with cooler bin (3), the inner wall of preheating sleeve (2) is fixed with baffle (4), the lateral wall of baffle (4) runs through and has seted up hole (5) and return air tank (6) of falling into water, return air tank (6) inside is fixed with ventilated membrane (7), the hole (5) inside of falling into water is equipped with the solenoid valve, the inside of preheating sleeve (2) is equipped with control by temperature change current-limiting mechanism, the inside pumping mechanism that is equipped with of cooler bin (3), the upper end of absorber plate (1) is equipped with control by temperature change cooling mechanism.

2. The preheating system of claim 1, wherein the pumping mechanism comprises two magnetic blocks (21) fixed on outer walls of upper and lower ends of the cooling box (3), the inner wall of the cooling box (3) is fixed with a drainage ring (16) and a water inlet ring (17), the inner wall of the cooling box (3) is connected with a sliding plate (19) in a sealing and sliding manner, a shaking rod (18) penetrates through and is fixed on the side wall of the sliding plate (19), a pump water hole (20) penetrates through and is formed in the side wall of the sliding plate (19), and one-way valves are arranged inside the drainage ring (16), the water inlet ring (17) and the pump water hole (20).

3. The preheating system for computer mainframe according to claim 1, wherein the temperature control cooling mechanism comprises two temperature control strips (12) fixed on the upper end of the heat absorbing plate (1), the upper ends of the two temperature control strips (12) are both fixed with a driving plate (13), the lower ends of the two driving plates (13) are jointly fixed with an annular circulating pipe (14), and the upper end of the circulating pipe (14) is inserted with two conveying pipes (15) communicated with the inside of the cooling box (3).

4. The preheating system of claim 1, wherein the temperature control and current limiting mechanism comprises a limiting strip (8) fixed on the inner wall of the preheating sleeve (2), a limiting plate (9) is fixed on the side wall of the limiting strip (8), a sealing strip (10) is fixed at the bottom of the magnetic block (21) at the lower end, a sealing plate (11) is fixed at the bottom of the sealing strip (10), and the limiting strip (8) and the sealing strip (10) are both made of memory metal.