CN111409957A - Digital product storage box capable of preventing high-temperature damage through self-monitoring - Google Patents

Abstract

The invention discloses a self-monitoring high-temperature damage prevention digital product storage box, which comprises a storage box, a storage bin, a heat absorption mechanism, a point contact temperature control mechanism and a critical value monitoring mechanism, wherein the storage bin is arranged in the middle of an inner cavity of the storage box, the heat absorption mechanism is arranged in the inner cavity of the storage box, the point contact temperature control mechanism is arranged in the inner cavity of the storage bin, the critical value monitoring mechanism is arranged at the bottom of the inner cavity of the storage box, the self-monitoring high-temperature damage prevention digital product storage box can utilize and consume the heat generated by digital electronic products in the storage box on the basis of reducing the radiation of the digital electronic products as much as possible, so that the heat generated by the digital electronic products cannot be accumulated in the inner cavity of the storage box, a floating ball in an energy storage bent pipe can vibrate when the temperature of the storage box reaches the limit, and the cold and hot alternation between heat absorption liquids is accelerated, the fixed point impact surface is enlarged, and the heat absorption efficiency of the electronic product is improved.

Description

Digital product storage box capable of preventing high-temperature damage through self-monitoring

Technical Field

The invention relates to the technical field of electronic product storage, in particular to a digital product storage box capable of self-monitoring and preventing high-temperature damage.

Background

At present, with the continuous progress and development of scientific technology and production and manufacturing industry, various products are made, wherein electronic products are the most remarkable, and with the gradual development of the network information era, the electronic products are not only greatly increased in use quantity, but also frequently updated, and almost every quarter can generate dangerous products.

When the digital electronic product is used in daily life, no matter the electronic product is used or not in use, the electronic product is required to be ensured to have certain electric quantity, although some digital electronic products are replaced and upgraded, the digital electronic products are generally not discarded under the condition of being used, so that various digital electronic products are required to be sorted and stored, but the electronic products cannot be used for a long time, and are not used for a long time when the electric quantity is exhausted, so that the electronic products are broken down and damaged, meanwhile, the digital electronic products have certain radiation, and are more obvious for products which are not used for a long time and are in a low electric quantity state, in order to reduce the influence caused by the radiation of the digital electronic products, the digital electronic products are required to be sorted and summarized, but under the condition that the electronic products store a large amount of electric energy, the inside components and parts also can be in operating condition, not only to the consumption of electric energy, still can produce more heat depositing the in-process, each kind of electronic product can bear the heat all has certain limit, be in also damage to digital electronics under the high temperature state for a long time, but the user can not regularly inspect it, especially some products after replacing, how to guarantee to accomodate the safety of digital product especially detect and control the regional heat of storage space in the storage, is the important problem that remains to be solved.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a digital product storage box capable of self-monitoring and preventing high-temperature damage, and solves the problem that digital electronic products are easily damaged due to untimely temperature monitoring and control in the storage of the digital electronic products.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a prevent digital product receiver of high temperature damage from monitoring, includes storing box, collecting bin, heat absorption mechanism, point touch temperature control mechanism and critical value monitoring mechanism, collecting bin sets up the middle part at storing box inner chamber, heat absorption mechanism sets up the inner chamber at the storing box, the inner chamber at collecting bin is installed to point touch temperature control mechanism, critical value monitoring mechanism sets up the bottom at the storing box inner chamber.

Preferably, the heat absorption mechanism comprises a liquid storage pipe, heat exchange liquid, a floating oil layer, a sealing plug, copper strips, a diffusion plate and a heat absorption copper sheet, the front surface of the liquid storage pipe is fixedly bonded with the inner wall of the storage box through glue, the heat exchange liquid is stored in the inner cavity of the liquid storage pipe, the floating oil layer is suspended at the top of the heat exchange liquid, the sealing plug is movably clamped and connected at the opening of the liquid storage pipe, the copper strips are installed in the inner cavity of the sealing plug in a penetrating manner, the top of the diffusion plate and one end of the copper strips, which are located in the liquid storage pipe, are fixedly welded, the heat absorption copper sheet and one end of the copper strips, which is far away from the sealing plug, are fixedly welded, the heat absorption copper sheet is divided into an inner layer and an outer layer, the outer layer is mainly used for cooling the inner cavity of the liquid storage pipe at night or when the, the floating oil layer mainly has the main function of isolating heat exchange liquid from air, and simultaneously, the floating oil layer is easier to absorb and dissipate heat, and drives the heat absorption liquid to change more obviously.

Preferably, critical value monitoring mechanism includes critical straight tube, fast piece, screw thread hollow shaft, throttle blade and vibrates the ball, critical straight tube is pegged graft in the intermediate position of liquid storage pipe, fast piece of accuse is installed at the top and the bottom of critical straight tube inner chamber, the central point that the fast piece of accuse was installed to the screw thread hollow shaft run-through type puts, the throttle blade is installed on the outer lane of screw thread hollow shaft, vibrate the ball through suspension rope fixed mounting at the top of screw thread hollow shaft, vibrate the ball and suspend the inner chamber at the liquid storage pipe, through the pulling force of suspension rope and vibrate the inertial use of mutually supporting when the ball rises, vibrate the ball just can drive heat transfer liquid together under extreme condition, quick cold and heat exchange.

Preferably, the point touches temperature control mechanism including receiving flow tube, tributary pipe, point and touches ring, closure piece, adherence arc, point touch shell fragment, resilience catch basin and compensating pipe, the open end that connects the flow tube and the one end fixed connection of liquid storage pipe, the top of tributary pipe and the bottom fixed connection who connects the flow tube and both are linked together, the top at tributary pipe inner chamber is touched to point ring activity joint, the bottom of closure piece and the top fixed weld of point touch ring, the top of adherence arc and the bottom fixed weld of point touch ring, the back of point touch shell fragment and the positive fixed weld of adherence arc, the catch basin equidistance is seted up at the top of point touch shell fragment, the front of compensating pipe and the bottom fixed weld of tributary pipe and both are linked together, point touch the resilience piece mainly relies on the rivers that impact and produce deformation and rebound in the twinkling of an eye, the catch basin is then through self accumulation, more cooling liquid is contacted with the heat dissipation part during each rebound.

Preferably, vibrate the ball and be the clean shot, vibrate the ball inner chamber and fill and have light gas, vibrate the whole inner chamber that is in floating at heat transfer liquid of ball, vibrate the ball inner chamber and have placed and assault solid ball, the main action that assaults solid ball lies in along with vibrating the ball come-up in the twinkling of an eye and stop the action immediately and produce reverse acting force, lets vibrate the ball and take place to assault in heat transfer liquid and vibrate, lets cold and hot liquid take place comparatively strong collision, more abundant carry out the heat exchange.

(III) advantageous effects

The invention provides a digital product storage box capable of automatically monitoring and preventing high-temperature damage. The method has the following beneficial effects:

(1) this prevent digital product receiver of high temperature damage from monitoring, accomplish to reduce digital electronic product radiation as far as possible on the basis, carry out energy utilization and consumption with the heat that digital electronic product produced in the receiver to make the heat that digital electronic product produced can not lead to the fact the accumulation at the receiver inner chamber, thereby avoided digital electronic product to appear because high temperature and the problem of damage.

(2) This prevent digital product receiver of high temperature damage from monitoring, the heat that adopts the mode of circulating water to carry out the electronic product production absorbs, can absorb and digest the heat that the electronic product produced under the natural state completely, when the temperature surpassed the critical value, just can carry out the heat very fast with dispersion form fixed point impact state and absorb to this controls receiver inner chamber temperature and ensures the safety of electronic product.

(3) This prevent digital product receiver of high temperature damage from monitoring, the inside and outside all setting of receiver also has the heat conduction copper sheet, and the heat conduction copper sheet of inner chamber mainly is the heat that is arranged in absorbing the electronic product and produces, and the heat conduction copper sheet dominant action in the outside absorbs the heat in the external environment, carries out the recovery and the heat exchange of heat conduction liquid.

(4) This prevent digital product receiver of high temperature damage from monitoring, floater in the energy storage return bend just can take place to vibrate when the receiver temperature reaches the limit for when cold and hot alternation between the heat absorption liquid, make the fixed point impact surface increase, improve the heat absorption efficiency to the electronic product.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the heat absorption mechanism of the present invention;

FIG. 3 is an enlarged view of the invention at A;

FIG. 4 is a right side cross-sectional view of the storage compartment of the present invention;

FIG. 5 is a front cross-sectional view of a bypass tube according to the present invention;

FIG. 6 is a schematic view of a compensating tube according to the present invention.

In the figure: the device comprises a storage box 1, a storage bin 2, a heat absorption mechanism 3, a liquid storage pipe 301, a heat exchange liquid 302, an oil floating layer 303, a sealing plug 304, a copper wire 305, a diffusion plate 306, a heat absorption copper sheet 307, a temperature control mechanism with 4 points of contact, a flow receiving pipe 401, a flow branch pipe 402, a contact ring 403 point, a shutoff piece 404, an adherent arc 405, a contact spring-back piece 406, a rebound water storage tank 407, a compensation pipe 408, a critical value monitoring mechanism 5, a critical straight pipe 501, a speed control piece 502, a threaded hollow pipe 503, a throttle blade 504, a vibration ball 505 and a solid impact ball 5051.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1-6, the present invention provides a technical solution: a digital product storage box capable of self-monitoring and preventing high-temperature damage comprises a storage box 1, a storage bin 2, a heat absorption mechanism 3, a point contact temperature control mechanism 4 and a critical value monitoring mechanism 5, wherein the storage bin 2 is arranged in the middle of an inner cavity of the storage box 1, the heat absorption mechanism 3 is arranged in the inner cavity of the storage box 1, the point contact temperature control mechanism 4 is arranged in the inner cavity of the storage bin 2, the critical value monitoring mechanism 5 is arranged at the bottom of the inner cavity of the storage box 1, the heat absorption mechanism 3 comprises a liquid storage pipe 301, a heat exchange liquid 302, a floating oil layer 303, a sealing plug 304, a copper wire strip 305, a diffusion plate 306 and a heat absorption copper sheet 307, the front surface of the liquid storage pipe 301 is fixedly bonded with the inner wall of the storage box 1 through glue, the heat exchange liquid 302 is stored in the inner cavity of the liquid storage pipe 301, the floating oil layer 303 is suspended on the top of the heat exchange liquid 302, the sealing plug 304, the copper filament 305 is installed in the inner cavity of the sealing plug 304 in a penetrating manner, the top of the diffusion plate 306 is fixedly welded with one end of the copper filament 305, which is located in the liquid storage tube 301, the heat absorption copper sheet 307 is fixedly welded with one end of the copper filament 305, which is far away from the sealing plug 304, the heat absorption copper sheet 307 is divided into an inner layer and an outer layer, the outer layer is mainly used for cooling the inner cavity of the liquid storage tube 301 at night or when the external environment temperature is low, the heat absorption copper sheet 307 located in the inner layer is used for receiving heat generated by an electronic product, meanwhile, the heat absorption copper sheet 307 can also isolate the radiation of the electronic product, the floating oil layer 303 is mainly used for isolating heat exchange liquid from air, meanwhile, the floating oil layer is easier to absorb heat and dissipate heat, the heat absorption liquid is more obviously driven to change, the critical value monitoring mechanism 5 comprises a critical straight tube 501, a speed, the speed control plate 502 is installed at the top and the bottom of the inner cavity of the critical straight pipe 501, the threaded hollow pipe 503 is installed at the central position of the speed control plate 502 in a penetrating manner, the throttle blade 504 is installed on the outer ring of the threaded hollow shaft 503, the vibration ball 505 is fixedly installed at the top of the threaded hollow shaft 503 through the suspension rope, the vibration ball 505 is suspended in the inner cavity of the liquid storage pipe 301, and through the mutual matching of the pulling force of the suspension rope and the inertia when the vibration ball 505 ascends, the vibration ball 505 can drive the heat exchange liquid 302 to act together under the limit state, and the heat exchange is rapid: the shock ball 505 is a hollow ball, the inner cavity of the shock ball 505 is filled with light gas, the shock ball 505 is located in the inner cavity floating in the heat exchange liquid 302 in the whole process, the shock solid ball 5051 is placed in the inner cavity of the shock ball 505, the shock solid ball 5051 mainly has the function of generating reverse acting force along with instant floating and instant stop of the shock ball 505, so that the shock ball 505 generates shock vibration in the heat exchange liquid 302, and the cold and hot liquids generate stronger collision and more sufficient heat exchange, the point contact temperature control mechanism 4 comprises a flow connection pipe 401, a branch pipe 402, a point contact ring 403, a flow interception plate 404, an adherent arc 405, a point contact rebound spring plate 406, a rebound water storage tank 407 and a compensation pipe 408, the opening end of the flow connection pipe 401 is fixedly connected with one end of the liquid storage pipe 301, the top of the branch pipe 402 is fixedly connected with the bottom of the flow connection pipe 401 and communicated with the bottom of the flow connection pipe, the bottom of the intercepting piece 404 is fixedly welded with the top of the point contact ring 403, the top of the adherent arc 405 is fixedly welded with the bottom of the point contact ring 403, the back surface of the point contact elastic return sheet 406 is fixedly welded with the front surface of the adherent arc 405, the rebounding water storage tanks 407 are equidistantly arranged on the top of the point contact elastic return sheet 406, the front surface of the compensating pipe 408 is fixedly welded with the bottom of the branch pipe 402 and communicated with the branch pipe 402, the point contact elastic return sheet 406 mainly depends on the impacted water flow to generate deformation and instant rebounding, and the rebounding water storage tanks 407 are accumulated by themselves, so that more cooling liquid is contacted with a heat dissipation part during each rebounding.

This prevent digital product receiver of high temperature damage from monitoring when using, at first directly place the electronic product in collecting storage 2, then directly with the last port of storing box 1 close can, the electronic product of accomodating in storing box 1 inner chamber self when moving can produce heat, when the electronic product quantity of accomodating reaches certain quantity, especially under the comparatively hot condition of weather, the temperature of confined storing box 1 inner chamber can rise gradually, the temperature that rises at first can directly conduct to the endothermic copper sheet 307 of inner chamber, the most audio-visual performance of endothermic copper sheet 307 temperature rise just conducts to diffuser plate 306 through copper filament 305, diffuser plate 306 then can directly be with the inner chamber air direct heating of liquid storage pipe 301, make the air produce the inflation, then promote heat transfer liquid 301 constantly along liquid storage pipe 301 inner chamber motion through oil-bearing layer 303, the heat that heat transfer liquid 302 can save under ideal state just when daytime the temperature is higher is totally greater than the electricity The heat generated by the sub-product is then directly cooled by the external heat absorbing copper sheet 307 at night, the air in the inner cavity of the liquid storage tube 301 is cooled again by the magic night heat 302 due to pressure intensity, but when the external environment temperature is continuously high and the heat emitted by the electronic product is added, the heat exchange liquid 302 is continuously pushed to continuously flow to absorb heat all the time, at the moment, the heat exchange liquid 302 flows into the inner cavity of the adherent arc 405 from the point contact ring 403 along the plurality of the intercepting pieces 404 through the flow connection tube 401, the adherent arc 405 makes the water flow more fully contact with the heat dissipation part of the electronic product, and the heat absorption liquid flows away without heat residue, when the water flow falls down each time, a part of the heat exchange liquid remains in the inner cavity of the rebound water storage tank 407, the point contact rebound spring piece 406 is impacted to deform, and the accumulated heat exchange liquid 302 is directly impacted to the heat dissipation part again to absorb heat for the second time, when the heat exchange liquid is close to the electronic product, after the absorbed heat reaches the limit value, the throttle blade 504 and the threaded hollow tube 503 also rotate to the limit position, at this time, the oscillating ball 505 instantly washes upwards due to the action of buoyancy, after the limit position is instantly reached, the impact solid ball 5051 is matched with the pulling force to act on the oscillating ball 505, so that the oscillating ball 505 oscillates up and down in the inner cavity of the heat exchange liquid, the absorbed heat in the heat exchange liquid is fully mixed and cooled, the heat absorption and cooling are carried out again, and then after the temperature is reduced, the throttle blade 504 and the threaded hollow tube 503 can restore to the initial position along with the reflowed heat exchange liquid 302 again.

To sum up, this prevent digital product receiver of high temperature damage from monitoring carries out energy utilization and consumption with the heat that digital electronic product produced in the receiver on accomplishing to reduce digital electronic product radiation's basis as far as possible basis to make the heat that digital electronic product produced can not cause the accumulation at the receiver inner chamber, thereby avoided digital electronic product to appear because high temperature and the problem of damage.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. The utility model provides a prevent digital product receiver of high temperature damage from monitoring which characterized in that: including storing box (1), storage chamber (2), heat absorption mechanism (3), some temperature control mechanism (4) and critical value monitoring mechanism (5) of touching, storage chamber (2) set up the middle part at storing box (1) inner chamber, heat absorption mechanism (3) set up the inner chamber at storing box (1), the inner chamber at storage chamber (2) is installed in some temperature control mechanism (4) of touching, critical value monitoring mechanism (5) set up the bottom at storing box (1) inner chamber.

2. The self-monitoring high temperature damage resistant digital product storage box of claim 1, wherein: heat absorption mechanism (3) include liquid storage pipe (301), heat transfer liquid (302), oil slick layer (303), seal stopper (304), copper filament (305), diffuser plate (306) and heat absorption copper sheet (307), the front of liquid storage pipe (301) is passed through glue and is bonded with the inner wall fixed of storing box (1), heat transfer liquid (302) are stored in the inner chamber of liquid storage pipe (301), oil slick layer (303) suspend at the top of heat transfer liquid (302), seal stopper (304) activity card joint is at the opening part of liquid storage pipe (301), the inner chamber of sealing stopper (304) is installed to copper filament (305) run through formula, the top of diffuser plate (306) and the fixed welding of one end that copper filament (305) are located liquid storage pipe (301), the fixed welding of one end that sealing plug (304) was kept away from to heat absorption copper sheet (307) and copper filament (305).

3. The self-monitoring high temperature damage resistant digital product storage box of claim 1, wherein: the critical value monitoring mechanism (5) comprises a critical straight pipe (501), a speed control piece (502), a threaded hollow shaft (503), a throttle blade (504) and a vibration ball (505), wherein the critical straight pipe (501) is inserted in the middle of the liquid storage pipe (301), the speed control piece (502) is installed at the top and the bottom of the inner cavity of the critical straight pipe (501), the threaded hollow pipe (503) is installed at the center of the speed control piece (502) in a penetrating mode, the throttle blade (504) is installed on the outer ring of the threaded hollow shaft (503), and the vibration ball (505) is fixedly installed at the top of the threaded hollow shaft (503) through a suspension rope.

4. The self-monitoring high temperature damage resistant digital product storage box of claim 1, wherein: the point contact temperature control mechanism (4) comprises a flow receiving pipe (401), a branch pipe (402), a point contact ring (403), an intercepting piece (404), an adherent arc (405), a point contact resilience piece (406), a resilience water storage tank (407) and a compensation pipe (408), wherein the open end of the flow receiving pipe (401) is fixedly connected with one end of the liquid storage pipe (301), the top of the branch pipe (402) is fixedly connected with the bottom of the flow receiving pipe (401) and communicated with the bottom of the flow receiving pipe (401), the point contact ring (403) is movably clamped at the top of the inner cavity of the branch pipe (402), the bottom of the intercepting piece (404) is fixedly welded with the top of the point contact ring (403), the top of the adherent arc (405) is fixedly welded with the bottom of the point contact ring (403), the back of the point contact resilience piece (406) is fixedly welded with the front of the adherent arc (405), the resilience tank (407) is equidistantly arranged at the top of the point contact resilience piece (406), the front surface of the compensation pipe (408) is fixedly welded with the bottom of the branch pipe (402) and is communicated with the branch pipe.

5. The self-monitoring high temperature damage resistant digital product storage box of claim 3, wherein: vibrate ball (505) and be the clean shot, vibrate ball (505) inner chamber and fill and have light gas, vibrate ball (505) and be in whole the inner chamber of floating at heat transfer liquid (302), vibrate ball (505) inner chamber and placed and assault solid sphere (5051).

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