Security and protection interactive device and application method thereof
Technical Field
The invention relates to the technical field of security protection, in particular to a security protection interactive device and a use method thereof.
Background
Security can be understood as an abbreviation of "security precaution", and according to the explanation of the traditional Chinese dictionary, the security is that no danger exists, no infringement exists, and no accident occurs; the protection means preparation and abstaining, and the abstaining means preparation for coping with attack or avoiding damage, and the abstaining means preparation and protection, and the security protection can be defined as follows by combining the above explanations: the preparation and the protection are prepared to cope with the attack or avoid the damage, so that the protected object is in a safe state without danger, invasion and accident, and the safety is obviously a purpose, the prevention is a means, and the purpose of safety is achieved or realized through the prevention means, which is the basic connotation of the safety prevention.
The safety precaution system aims at maintaining social public safety, and an intrusion alarm system, a video safety monitoring system, an entrance control system, a BSV liquid crystal splicing wall system, an entrance guard fire protection system, an explosion-proof safety inspection system and the like which are formed by safety precaution products and other related products are used; or electronic systems or networks where these systems are combined or integrated as subsystems, the security system is defined in national standards as security & protection system (SPS), and is more known abroad as Loss prevention and Crime prevention (Loss prevention) which is the task of the security industry, which is the responsibility of police law enforcement.
At present, the interactors are generally used for completing the transmission of security information, but because the interactors are large in information interaction quantity during long-term use, the temperature of the interactors is promoted to be gradually increased, in the prior art, the internal components in the interactors are cooled through cold air, but because the flow rate of the cold air is high, the cold air is not easy to promote to stay in the interactors, the temperature of the interactors is promoted to be reduced slowly, so that the transmission efficiency of the security information is reduced, and the security effect of the interactors is reduced.
Disclosure of Invention
1. Technical problem to be solved
Aiming at the problems existing in the prior art, the invention aims to provide a security and protection interaction device and a use method thereof.
2. Technical proposal
In order to solve the problems, the invention adopts the following technical scheme.
The utility model provides a security protection is with mutual ware, includes the mutual ware main part, mutual ware main part outer end fixedly connected with cold wind intake pipe and cold wind outlet duct, the interior stagnant gas drum that is fixedly connected with and cold wind intake pipe and cold wind outlet duct communicate each other in the mutual ware main part, interior stagnant gas drum inner fixedly connected with main magnetic balloon, interior stagnant gas drum outer end fixedly connected with a plurality of evenly distributed's outsourcing sacculus, the vice magnetic balloon of fixedly connected with in the outsourcing sacculus, the packing has ammonium chloride powder in the outsourcing sacculus, outsourcing sacculus outer end fixedly connected with a plurality of evenly distributed's heat-conducting rod, through the heat that produces in the work of mutual ware main part, make ammonium chloride powder heated decomposition and produce hydrogen chloride gas and ammonia gas to make outsourcing sacculus inflation, on the one hand can absorb the heat, realize cooling to the mutual ware main part, on the other hand can be released the magnetic shielding to its interior vice magnetic balloon of in the inflation, and under the attraction effect of main magnetic balloon, make the sacculus shrink again, and make the air bag shrink again under the effect of the air conditioning that makes the effect of air outlet duct and make use of the ammonia chloride gas and make use of the effect of the ammonia chloride gas to transfer in the mutual effect to the ammonia chloride powder to the inside of the air carrier, make use of the inside the mutual ware main part and the ammonia chloride powder.
Further, the outer end fixedly connected with of interior stagnancy gas drum is a plurality of evenly distributed just is located the outsourcing return bend bag in outsourcing sacculus outside, the upper and lower both ends of outsourcing return bend bag have all been excavated and have the dust exchange hole, the heat-conducting rod runs through outsourcing return bend bag and with outsourcing return bend bag fixed connection, through setting up outsourcing return bend bag and dust exchange hole, can be when outsourcing sacculus shrink, can promote outsourcing return bend bag to be flattened by the help of the pulling of heat-conducting rod to the gas release in it, on the one hand increases the radiating effect by the gas flow in the interaction ware main part, on the other hand can blow away the dust in the interaction ware main part, and adsorb it through the folding filter screen of expansion, in addition when outsourcing return bend bag resumes deformation, can inhale the dust in the interaction ware main part, thereby realize fully absorbing the dust in the interaction ware main part.
Further, the heat conduction rod comprises a main heat conduction rod, one end of the main heat conduction rod, which is far away from the outer wrapping saccule, is fixedly connected with the outer wrapping bent saccule, one end of the main heat conduction rod, which is close to the outer wrapping saccule, is in sliding connection with the outer wrapping bent saccule, an outer protection cladding is fixedly connected to the outer wall of the main heat conduction rod, a plurality of evenly distributed capillary fiber thorns are fixedly connected to the outer end of the outer protection cladding, and the outer protection cladding and the capillary fiber thorns can be caused to rub against each other in the sliding process of the main heat conduction rod and the outer wrapping bent saccule, so that static electricity is generated on the surfaces of the outer protection cladding and the capillary fiber thorns, the adsorption efficiency of dust entering the outer wrapping bent saccule is improved, and the possibility that dust in the outer wrapping bent saccule enters the main body again along with air in the shrinking process of the outer wrapping bent saccule is reduced.
Furthermore, the outer-packed saccule is internally embedded with a plurality of evenly distributed magnetic insulation powder, the magnetic insulation powder is made of iron-nickel alloy materials, the nickel content of the magnetic insulation powder is 80%, and the magnetic insulation powder is manufactured by using iron-nickel alloy, so that the outer-packed saccule has a magnetic insulation effect when being contracted, and the auxiliary magnetic saccule is magnetically shielded.
Further, fixedly connected with elasticity rope that resets between vice magnetic ball and the outer bag inner wall, elasticity rope outer end fixedly connected with a plurality of evenly distributed's screening plectane that resets, screening plectane outer end is excavated and is had a plurality of evenly distributed's screening round hole, through setting up elasticity rope, screening plectane and screening round hole that resets, can carry out abundant scattering to the ammonium chloride powder in it at the in-process of outer bag deformation to improve the decomposition efficiency of ammonium chloride powder.
Further, fixedly connected with folding filter screen between outsourcing return bend bag and the outsourcing sacculus, folding filter screen is made by elastic material, through setting up folding filter screen, can filter the dust in the interchanger main part at the in-process that air flows.
Further, the sponge bending column is filled in the outer-wrapping bent pipe bag, and dust entering the outer-wrapping bent pipe bag can be absorbed through the sponge bending column, so that the possibility that the dust enters the main body of the interaction device again is reduced.
Further, the outer protective coating is made of a rubber material, the capillary fiber thorns are made of animal hair, and static electricity can be generated when the outer protective coating and the capillary fiber thorns rub against each other by using the rubber material to make the outer protective coating and the animal hair to make the capillary fiber thorns.
The application method of the security and protection interactor comprises the following steps:
s1, promoting the ammonium chloride powder to be heated and decomposed by heat generated in the working process of the main body of the interaction device to generate hydrogen chloride gas and ammonia gas, so that the outer-wrapping saccule is inflated;
s2, the magnetic shielding of the auxiliary magnetic ball in the air bag can be relieved by means of the expansion of the outer bag, the outer bag is promoted to shrink again under the attraction effect of the main magnetic ball on the outer magnetic ball, and ammonium chloride gas and ammonia gas are promoted to synthesize ammonium chloride powder again under the effect of the cold air outlet pipe;
s3, transferring the cold air in the internal stagnation air cylinder to an internal component of the interaction device body for cooling by taking ammonium chloride powder as a carrier, so that the utilization efficiency of the cold air in the internal stagnation air cylinder is improved.
3. Advantageous effects
Compared with the prior art, the invention has the advantages that:
(1) According to the scheme, the heat generated in the working process of the interacter main body is utilized to promote the ammonium chloride powder to be heated and decomposed to generate hydrogen chloride gas and ammonia gas, so that the outer wrapping balloon is expanded, on one hand, the heat can be absorbed, the cooling of the interacter main body is realized, on the other hand, the magnetic shielding of the auxiliary magnetic ball in the interacter main body can be relieved by means of the expansion of the outer wrapping balloon, the outer wrapping balloon is promoted to shrink again under the attraction effect of the main magnetic ball, the ammonium chloride gas and the ammonia gas are promoted to be synthesized into the ammonium chloride powder again under the effect of the cold air outlet pipe, and the cold air in the inner stagnation air cylinder is transferred to the inner component of the interacter main body to cool by taking the ammonium chloride powder as a carrier, so that the utilization efficiency of the cold air in the inner stagnation air cylinder is improved.
(2) The outer end of the inner stagnation air cylinder is fixedly connected with a plurality of outer-wrapping bent pipe bags which are uniformly distributed and positioned outside the outer-wrapping saccule, dust exchange holes are formed in the upper end and the lower end of each outer-wrapping bent pipe bag, a heat conduction rod penetrates through each outer-wrapping bent pipe bag and is fixedly connected with each outer-wrapping bent pipe bag, when the outer-wrapping saccule contracts, the outer-wrapping bent pipe bags can be pushed to be flattened by means of pulling of the heat conduction rod, gas in the outer-wrapping bent pipe bags is pushed to be released, on one hand, the heat dissipation effect is improved by means of gas flowing in the interactive device main body, on the other hand, dust in the interactive device main body can be blown away, the interactive device main body is adsorbed through an unfolded folding filter screen, and in addition, dust in the interactive device main body can be sucked when the outer-wrapping bent pipe bags are recovered to deform, so that the dust in the interactive device main body can be fully absorbed.
(3) The heat conduction rod comprises a main heat conduction rod, one end of the main heat conduction rod, which is far away from the outer bag, is fixedly connected with the outer bag, one end of the main heat conduction rod, which is close to the outer bag, is fixedly connected with an outer protection cladding layer on the outer wall of the main heat conduction rod, the outer end of the outer protection cladding layer is fixedly connected with a plurality of evenly distributed capillary fiber thorns, and the outer protection cladding layer and the capillary fiber thorns can be caused to rub against each other in the sliding process of the main heat conduction rod and the outer bag, so that static electricity is generated on the surfaces of the outer protection cladding layer and the capillary fiber thorns, the adsorption efficiency of dust entering the outer bag is improved, and the possibility that the dust in the outer bag enters the interactive device body again along with air in the shrinkage process of the outer bag is reduced.
(4) The outer-packed saccule is embedded with a plurality of evenly distributed magnetic insulation powder which is made of iron-nickel alloy material, the nickel content of the magnetic insulation powder is 80%, and the magnetic insulation powder is made of iron-nickel alloy, so that the outer-packed saccule can be promoted to have a magnetic insulation effect when contracted, and the auxiliary magnetic saccule in the outer-packed saccule is magnetically shielded.
(5) An elastic reset rope is fixedly connected between the auxiliary magnetic ball and the inner wall of the outer bag, a plurality of evenly distributed screening circular plates are fixedly connected to the outer end of the elastic reset rope, a plurality of evenly distributed screening circular holes are formed in the outer end of the screening circular plate, and the ammonium chloride powder in the elastic reset rope can be sufficiently scattered in the deformation process of the outer bag through the elastic reset rope, the screening circular plates and the screening circular holes, so that the decomposition efficiency of the ammonium chloride powder is improved.
(6) The folding filter screen is fixedly connected between the outer wrapping bent pipe bag and the outer wrapping saccule, and is made of elastic materials, and dust in the interaction device main body can be filtered in the air flowing process by arranging the folding filter screen.
(7) The sponge bending column is filled in the outer wrapping bent pipe bag, and dust entering the outer wrapping bent pipe bag can be absorbed by the sponge bending column, so that the possibility that the dust enters the main body of the interaction device again is reduced.
(8) The outer protective coating is made of rubber material, and the capillary fiber thorn is made of animal hair, and by making the outer protective coating from the rubber material and making the capillary fiber thorn from the animal hair, static electricity can be generated when the outer protective coating and the capillary fiber thorn rub against each other.
Drawings
FIG. 1 is a perspective view of a body portion of an interactor of the present invention;
FIG. 2 is a cross-sectional view of a body portion of an interactor of the present invention;
FIG. 3 is a schematic diagram of the structure shown at A in FIG. 2;
FIG. 4 is a schematic diagram of the structure at B in FIG. 3;
fig. 5 is a partial cross-sectional view of an overwrap elbow bladder of the present invention.
The reference numerals in the figures illustrate:
the device comprises a main body of a 1-interaction device, a 2-cold air inlet pipe, a 3-cold air outlet pipe, a 4-inner air stagnation cylinder, a 5-main magnetic ball, a 6-outer-wrapping balloon, a 7-pair magnetic ball, a 701 elastic reset rope, a 702 screening circular plate, a 703 screening circular hole, 8 ammonium chloride powder, a 9 heat conduction rod, a 10-outer-wrapping bent tube balloon, a 1001 folding filter screen, a 1002 sponge bending column, a 11-dust exchange hole, a 12-main heat conduction rod, a 13-outer-protection cladding and a 14 capillary fiber thorn.
Detailed Description
The drawings in the embodiments of the present invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only a few embodiments of the present invention; but not all embodiments, are based on embodiments in the present invention; all other embodiments obtained by those skilled in the art without undue burden; all falling within the scope of the present invention.
In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "configured to," "engaged with," "connected to," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.
Example 1:
referring to fig. 1-3, an interactive device for security protection comprises an interactive device main body 1, wherein the outer end of the interactive device main body 1 is fixedly connected with a cold air inlet pipe 2 and a cold air outlet pipe 3, an internal air-retaining cylinder 4 which is mutually communicated with the cold air inlet pipe 2 and the cold air outlet pipe 3 is fixedly connected in the interactive device main body 1, a main magnetic ball 5 is fixedly connected in the internal air-retaining cylinder 4, a plurality of uniformly distributed outer bags 6 are fixedly connected in the outer ends of the internal air-retaining cylinder 4, auxiliary magnetic balls 7 are fixedly connected in the outer bags 6, ammonium chloride powder 8 is filled in the outer bags 6, a plurality of uniformly distributed heat conduction rods 9 are fixedly connected in the outer ends of the outer bags 6, and heat generated in the working process of the interactive device main body 1 is utilized, the ammonium chloride powder 8 is caused to be heated and decomposed to generate hydrogen chloride gas and ammonia gas, so that the outer wrapping balloon 6 is expanded, heat can be absorbed on one hand, the temperature of the interactive body 1 is reduced, on the other hand, the magnetic shielding of the auxiliary magnetic balloon 7 in the outer wrapping balloon can be relieved by virtue of the expansion of the outer wrapping balloon 6, the outer wrapping balloon 6 is caused to shrink again under the attraction effect of the main magnetic balloon 5, the ammonium chloride gas and the ammonia gas are caused to be synthesized into the ammonium chloride powder 8 again under the effect of the cold air outlet pipe 3, and the cold air in the inner stagnation cylinder 4 is transferred to the internal component of the interactive body 1 to reduce the temperature by taking the ammonium chloride powder 8 as a carrier, so that the utilization efficiency of the cold air in the inner stagnation cylinder 4 is improved.
Referring to fig. 3-5, the outer end of the inner stagnation air cylinder 4 is fixedly connected with a plurality of outer bend bags 10 which are uniformly distributed and are positioned at the outer side of the outer bend bag 6, dust exchange holes 11 are formed in the upper end and the lower end of the outer bend bags 10, a heat conduction rod 9 penetrates through the outer bend bags 10 and is fixedly connected with the outer bend bags 10, when the outer bend bags 6 shrink, the outer bend bags 10 can be flattened by means of pulling of the heat conduction rod 9, gas in the outer bend bags 10 is promoted to be released, on one hand, the heat dissipation effect is increased by means of gas flow in the interactive device main body 1, on the other hand, dust in the interactive device main body 1 can be blown away, the dust is adsorbed through an unfolded folding filter screen 1001, and in addition, when the outer bend bags 10 recover deformation, the dust in the interactive device main body 1 can be inhaled, so that the dust in the interactive device main body 1 can be fully absorbed.
Referring to fig. 5, the heat conducting rod 9 includes a main heat conducting rod 12, one end of the main heat conducting rod 12 far away from the outer bag 6 is fixedly connected with the outer tube bending bag 10, one end of the main heat conducting rod 12 close to the outer bag 6 is slidably connected with the outer tube bending bag 10, an outer protecting layer 13 is fixedly connected to the outer wall of the main heat conducting rod 12, a plurality of uniformly distributed capillary fiber thorns 14 are fixedly connected to the outer end of the outer protecting layer 13, and in the sliding process of the main heat conducting rod 12 and the outer tube bending bag 10, the outer protecting layer 13 and the capillary fiber thorns 14 can be caused to rub against each other, so that static electricity is generated on the surfaces of the outer protecting layer 13 and the capillary fiber thorns 14, the adsorption efficiency of dust entering the outer tube bending bag 10 is improved, and the possibility that dust in the outer tube bending bag 10 enters the interactive body 1 again along with air in the shrinking process of the outer tube bending bag 10 is reduced.
Referring to fig. 3-4, the outer-wrapping balloon 6 is embedded with a plurality of uniformly distributed magnetic insulation powder, the magnetic insulation powder is made of iron-nickel alloy material, the nickel content of the magnetic insulation powder is 80%, the magnetic insulation powder is made of iron-nickel alloy, so that the outer-wrapping balloon 6 can be promoted to have a magnetic insulation effect when contracting, the auxiliary magnetic ball 7 in the outer-wrapping balloon is magnetically shielded, an elastic reset rope 701 is fixedly connected between the auxiliary magnetic ball 7 and the inner wall of the outer-wrapping balloon 6, the outer end of the elastic reset rope 701 is fixedly connected with a plurality of uniformly distributed screening circular plates 702, a plurality of uniformly distributed screening circular holes 703 are cut at the outer end of the screening circular plates 702, and the ammonium chloride powder 8 in the outer-wrapping balloon 6 can be fully scattered in the deformation process of the outer-wrapping balloon 6, so that the decomposition efficiency of the ammonium chloride powder 8 is improved.
Referring to fig. 3 and 5, a folding filter screen 1001 is fixedly connected between the outer bent pipe bag 10 and the outer balloon 6, the folding filter screen 1001 is made of an elastic material, dust in the interactive device body 1 can be filtered in the air flowing process by arranging the folding filter screen 1001, the outer bent pipe bag 10 is filled with a sponge bending column 1002, dust entering the outer bent pipe bag 10 can be absorbed by arranging the sponge bending column 1002, so that the possibility that the dust enters the interactive device body 1 again is reduced, the outer protective coating 13 is made of a rubber material, the capillary fiber thorn 14 is made of animal hair, the outer protective coating 13 is made of the rubber material, and the capillary fiber thorn 14 is made of the animal hair, so that static electricity can be generated when the outer protective coating 13 and the capillary fiber thorn 14 rub against each other.
The application method of the security and protection interactor comprises the following steps:
s1, promoting the ammonium chloride powder 8 to be heated and decomposed by heat generated in the working process of the interactive device main body 1 to generate hydrogen chloride gas and ammonia gas, so that the outer-wrapping sacculus 6 is inflated;
s2, the magnetic shielding of the auxiliary magnetic ball 7 in the air conditioner can be relieved by means of the expansion of the outer wrapping saccule 6, the outer wrapping saccule 6 is promoted to shrink again under the attraction effect of the main magnetic ball 5, and the ammonium chloride gas and the ammonia gas are promoted to synthesize the ammonium chloride powder 8 again under the effect of the cold air outlet pipe 3;
s3, transferring the cold air in the internal stagnation air cylinder 4 to the internal components of the interactive device main body 1 for cooling by taking the ammonium chloride powder 8 as a carrier, so that the utilization efficiency of the cold air in the internal stagnation air cylinder 4 is improved.
The above; is only a preferred embodiment of the present invention; the scope of the invention is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the invention and the improved conception thereof; are intended to be encompassed within the scope of the present invention.