CN210036089U - Fire control protective equipment processing apparatus - Google Patents

Abstract

The utility model provides a fire protection tool processing device, in the application, a silver ion steam component generates high-temperature steam containing silver ions, and an ozone generator generates ozone with strong oxidizing property; the user can process the high-temperature steam containing silver ions and ozone inside the fire protection tool hung on the clothes hanger pipeline through the first heat transmission hole of the clothes hanger pipeline, and simultaneously process the outer surface of the fire protection tool through the second heat transmission hole on the first heat transmission pipeline and towards the fire protection tool, so that the inner surface and the outer surface of the fire protection tool are sterilized; after the sterilization treatment, the user can dry the inside of the fire protection tool with hot-blast first heat transfer pore pair that passes through the clothes hanger pipeline, simultaneously passes through the surface of the fire protection tool is dried to the second heat transfer pore pair that disappears the protection tool on the second heat transfer pipeline, realizes all-round even stoving of inside and outside surface to the protection tool, starts the cooperation of dehumidifying the subassembly and using simultaneously at the stoving process, can in time discharge evaporation vapor.

Description

Fire control protective equipment processing apparatus

Technical Field

The utility model relates to a fire-fighting equipment field indicates a fire control protective equipment processing apparatus especially.

Background

The personnel protection articles and the water belts used by firefighters are easy to be wetted due to a large amount of water used when the firefighters work, the personnel protection articles and the water belts are basically dependent on natural drying in China in the past, and in cold and humid areas and fire-fighting teams with frequent police outings in spring, autumn, winter, the natural drying time is long, so that the firefighters can only wear wet clothes to put on a fire scene frequently, and the articles can mildew due to long-time humidity in many times, thereby bringing adverse effects to the physical and mental health of the firefighters. The rapid and effective drying of personal protective articles such as fire fighting clothing, fire boots, gloves and helmets and fire hose is more and more important for improving the working environment of fire officers and soldiers and improving the overall fighting capacity.

Since the new century, the research of special devices in the aspect is started domestically, so far, the domestic structure forms such as professional clothes dryers or paint drying rooms are mostly adopted domestically, the working principle of the special clothes dryers or paint drying rooms is consistent with natural drying, namely, a drying environment with flowing hot air is artificially manufactured, and the dried articles are protected to the maximum extent, but the following problems still exist in the prior art:

1. the problem of uneven drying is particularly shown in the situation that the outer surface of the fire protection tool is dried but the inner surface of the fire protection tool is still wet, and the fire protection tool becomes moldy and smelly after being used for a long time, so that the fire protection tool is seriously scrapped;

2. because the fire control protection tool has a complex working environment, various harmful viruses or bacteria are easy to carry, but the existing equipment has single function and only has a drying function, and the problem that the viruses or bacteria adsorbed on the surface of the fire control protection tool cannot be solved, so that the fire control protection tool is simply dried to have certain health and safety hidden dangers.

Disclosure of Invention

In order to solve the problem, the utility model provides a fire control protective equipment processing apparatus through ozone generator, silver ion steam subassembly, hot-blast subassembly, realization to the inside and outside surface omnidirectional disinfection and drying process of protection utensil.

In order to achieve the above object, the utility model adopts the following technical scheme: a fire protection tool processing device comprises a box body and a dehumidifying assembly, wherein a cleaning chamber and a motor chamber which are mutually independent are arranged in the box body, and the dehumidifying assembly is arranged outside the box body and is communicated with the cleaning chamber; the top of the inner wall of the cleaning chamber is provided with a first heat transmission pipeline, two ends of the first heat transmission pipeline are respectively communicated with two second heat transmission pipelines positioned at two sides of the inner wall of the cleaning chamber, the first heat transmission pipeline is communicated with a plurality of clothes hanger pipelines used for hanging fire protection devices, and a plurality of first heat transmission holes are uniformly distributed on the surfaces of the clothes hanger pipelines; a plurality of second heat transmission holes facing the clothes hanger pipeline are distributed on the second heat transmission pipeline along the length direction of the second heat transmission pipeline; the control unit is respectively and electrically connected with the ozone generator, the hot air assembly, the silver ion steam assembly and the dehumidifying assembly; and the air outlet ends of the ozone generator, the silver ion steam component and the hot air component are respectively communicated with the two second heat transmission pipelines.

Further, the outer surface of the box body is provided with a control panel, and the output end of the control panel is connected with the input end of the control unit.

Further, the clothes hanger pipeline comprises a vertical pipeline and a plurality of branch pipelines, wherein one end of the vertical pipeline is vertically communicated with the first heat transmission pipeline, the branch pipelines are obliquely placed and communicated with the outer side face of the first heat transmission pipeline, and the first heat transmission holes are uniformly distributed on the outer side faces of the vertical pipeline and the branch pipelines.

Furthermore, a plurality of support rings are sleeved on the outer side face of each branch pipeline, and each support ring is arranged between every two adjacent first heat transmission holes.

The silver ion steam cleaning device is characterized by further comprising a Y-shaped circulation pipeline arranged in the motor chamber, wherein two ends of the top of the circulation pipeline extend into the cleaning chamber and are respectively communicated with the two second heat transmission pipelines, one end of the bottom of the circulation pipeline is communicated with a four-way joint, the air outlet end of the hot air assembly is communicated with the four-way joint through a first electromagnetic valve, the air outlet end of the ozone generator is communicated with the four-way joint through a second electromagnetic valve, the air outlet end of the silver ion steam assembly is communicated with the four-way joint through a third electromagnetic valve, and the output end of the control unit is respectively connected with the input ends of the first electromagnetic valve, the second electromagnetic valve and the third electromagnetic valve.

Further, silver ion steam subassembly is provided with the first end of giving vent to anger and the second end of giving vent to anger, and wherein the first end of giving vent to anger is through third solenoid valve and four way connection intercommunication, the second end of giving vent to anger is through the one end intercommunication of fourth solenoid valve and outlet duct, the other end of outlet duct extends to in the clean room and is connected with the shower nozzle, just the control unit's output is connected with the input of fourth solenoid valve respectively.

Further, the inner wall of clean room still is provided with UV ultraviolet lamp, just the output of control unit and UV ultraviolet lamp's input intercommunication.

Furthermore, the outer surface of the box body corresponding to the cleaning room is wrapped with an insulating layer, and the insulating layer comprises fiber fabrics wrapped on the outer side surface of the box body and an aluminum-plated film wrapped on the outer surface of the fiber fabrics.

The beneficial effects of the utility model reside in that:

1. the silver ion steam component generates high-temperature steam containing silver ions, and the ozone generator generates ozone with strong oxidizing property; the user can process the high-temperature steam containing silver ions and ozone inside the fire protection tool hung on the clothes hanger pipeline through the first heat transmission hole of the clothes hanger pipeline, and simultaneously process the outer surface of the fire protection tool through the second heat transmission hole of the first heat transmission pipeline, which faces the fire protection tool, so that the omnibearing disinfection and sterilization treatment of the inner surface and the outer surface of the fire protection tool is realized; the high-temperature steam containing silver ions can kill bacteria in clothes when the clothes are ironed, meanwhile, the silver ions are brought out by the steam and attached to the clothes, and the antibacterial continuity of the clothes can be kept for a certain time after the clothes are disinfected and leveled; and the strong oxidation effect of the ozone can kill the microbes, and the peculiar smell of the treated fire protection tool can be greatly reduced.

2. Wherein hot-blast subassembly produces the hot-blast of being used for drying the fire protection protective equipment, and after the bactericidal treatment, the user can be dried the hot-blast first heat transfer pore pair that passes through the clothes hanger pipeline and is affiliated to the inside at the fire protection protective equipment of clothes hanger pipeline, simultaneously passes through second heat transfer pore pair fire protection protective equipment's surface is dried towards the protection utensil that disappears on the second heat transfer pipeline, realizes all-round even stoving of the internal and external surface of protection utensil, starts the cooperation of dehumidification subassembly and uses simultaneously at the drying process, can in time discharge evaporation steam.

Drawings

Fig. 1 is a schematic view of the overall device structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the clean room of the present invention.

Fig. 3 is a schematic view of the internal structure of the motor chamber of the present invention.

Fig. 4 is a schematic view of the structure of the pipeline of the clothes rack of the utility model.

Fig. 5 is a circuit block diagram of the whole device of the present invention.

The reference numbers illustrate: 1. a box body; 11. a clean room; 111. a first heat transfer pipe; 112. a second heat transfer pipe; 1121. a second heat transfer hole; 113. a vertical pipe; 114. a branch pipe; 1141. a first heat transfer hole; 1142. a support ring; 12. a motor chamber; 121. a hot air assembly; 1211. a first solenoid valve; 122. an ozone generator; 1221. a second solenoid valve; 123. a silver ion vapor component; 1231. a third electromagnetic valve; 1232. a fourth solenoid valve; 1233. a first air outlet end; 1234. a second air outlet end; 124. a control unit; 125. a flow conduit; 126. a four-way joint; 127. an air outlet pipe; 128. a spray head; 13. a dehumidifying component; 14. a control panel; 15. and (7) an insulating layer.

Detailed Description

Referring to fig. 1-5, the present invention relates to a fire protection tool processing device, which comprises a box body 1 and a dehumidifying component 13, wherein the box body 1 is internally provided with a cleaning chamber 11 and a motor chamber 12 which are independent from each other from top to bottom, and the dehumidifying component 13 is arranged outside the box body 1 and is communicated with the cleaning chamber 11; the top of the inner wall of the cleaning chamber 11 is provided with a first heat transmission pipeline 111, and two ends of the first heat transmission pipeline 111 are respectively communicated with two second heat transmission pipelines 112 positioned at two sides of the inner wall of the cleaning chamber 11, wherein the first heat transmission pipeline 111 is communicated with a plurality of clothes hanger pipelines for hanging fire protection equipment, and a plurality of first heat transmission holes 1141 are uniformly distributed on the surface of each clothes hanger pipeline; a plurality of second heat transmission holes 1121 facing the clothes hanger pipeline are distributed on the second heat transmission pipeline 112 along the length direction; wherein an ozone generator 122, a hot air component 121, a silver ion steam component 123 and a control unit 124 are arranged in the motor chamber 12, and the control unit 124 is respectively and electrically connected with the ozone generator 122, the hot air component 121, the silver ion steam component 123 and the dehumidifying component 13; the air outlet ends of the ozone generator 122, the silver ion steam component 123 and the hot air component 121 are respectively communicated with the two second heat transmission pipelines 112.

In the present application, the silver ion vapor module 123 generates high temperature vapor containing silver ions, and the ozone generator 122 generates ozone with strong oxidizing property; a user can treat the interior of the fire protection tool hung on the clothes hanger pipeline by high-temperature steam containing silver ions and ozone through the first heat transmission hole 1141 of the clothes hanger pipeline, and simultaneously treat the outer surface of the fire protection tool through the first heat transmission pipeline 111 towards the second heat transmission hole 1121 of the fire protection tool, so that the comprehensive disinfection and sterilization treatment of the inner surface and the outer surface of the fire protection tool is realized; the high-temperature steam containing silver ions can kill bacteria in clothes when the clothes are ironed, meanwhile, the silver ions are brought out by the steam and attached to the clothes, and the antibacterial continuity of the clothes can be kept for a certain time after the clothes are disinfected and leveled; the antibacterial mechanism of silver is metal ion action and photocatalysis. The chemical structure of silver determines that the silver has higher catalytic capability, and the reduction potential of the silver in a high oxidation state is extremely high enough to generate atomic oxygen in the surrounding space. Atomic oxygen has strong oxidizing property and can sterilize, and Ag + can strongly attract sulfydryl on protease in bacteria, and can be rapidly combined with the sulfydryl, so that the protease loses activity, and the bacteria die. When the bacteria are killed by Ag +, the Ag + is dissociated from the bacterial corpses and then contacts with other bacterial colonies, and the process is repeatedly carried out. Meanwhile, the strong oxidation effect of the ozone can kill the microbes, and the peculiar smell of the treated fire protection tool can be greatly reduced.

The hot-blast subassembly 121 produces the hot-blast of being used for drying the fire protection protective equipment, and the user can dry the inside of the fire protection protective equipment of hanging at the clothes hanger pipeline with hot-blast first heat transmission hole 1141 through the clothes hanger pipeline, simultaneously passes through the second heat transmission hole 1121 towards the protection utensil that disappears is dried to the surface of protection utensil on first heat transmission pipeline 111, realizes drying the inside and outside surface omnidirectional of protection utensil, starts the cooperation of dehumidification subassembly 13 at the stoving process simultaneously and uses, can in time discharge the vapor of evaporating.

Referring to fig. 1-5, further, a control panel 14 is disposed on an outer surface of the box body 1, and an output end of the control panel 14 is connected to an input end of the control unit 124. The user can control the whole device through the control panel 14, such as turning on or off the device through the control panel 14, or setting an operation time or setting an operation mode, etc.

Referring to fig. 4, further, the hanger duct includes a vertical duct 113 and a plurality of branch ducts 114, wherein one end of the vertical duct 113 is vertically communicated with the first heat pipe 111, the plurality of branch ducts 114 are disposed obliquely and communicated with the outer side of the first heat pipe, and the first heat pipes 1141 are uniformly distributed on the outer sides of the vertical duct 113 and the branch ducts 114. The dendritic support formed by one vertical pipeline 113 and a plurality of branch pipelines 114 can not only hang the firefighter uniform on the branch pipelines 114, but also hang articles such as fire boots, fire trousers, gloves and helmets on the branch pipelines 114, so that multiple sets or multiple types of firefighter uniform can be treated at one time, and the cleaning time is greatly saved.

Referring to fig. 4, further, a plurality of support rings 1142 are sleeved on the outer side surface of the branch pipe 114, and each support ring 1142 is disposed between two adjacent first heat transfer holes 1141. Because high-temperature steam and hot-blast circulation in branch pipeline 114, the temperature of branch pipeline 114 lateral surface is high, so in order to avoid branch pipeline 114 lateral surface and fire-entry suit direct contact to cause the damage to the fire-entry suit, the event separates fire-entry suit and branch pipeline 114 through setting up support ring 1142, and support ring 1142 separates fire-entry suit and branch pipeline 114 can increase with high-temperature steam and hot-blast area of contact, strengthens its disinfection's effect.

As shown in fig. 3, the cleaning device further includes a Y-shaped flow pipe 125 disposed in the motor chamber 12, wherein two ends of the top of the flow pipe 125 extend into the cleaning chamber 11 and are respectively communicated with the two second heat pipes 112, one end of the bottom of the flow pipe 125 is communicated with a four-way joint 126, an air outlet end of the hot air module 121 is communicated with the four-way joint 126 through a first electromagnetic valve 1211, an air outlet end of the ozone generator 122 is communicated with the four-way joint 126 through a second electromagnetic valve 1221, and an air outlet end of the silver ion steam module 123 is communicated with the four-way joint 126 through a third electromagnetic valve 1231.

In this embodiment, the two second heat transmission pipelines 112 are communicated through the flow pipeline 125, the air outlet end of the medium hot air module 121 is communicated with the four-way joint 126 through the first electromagnetic valve 1211, the air outlet end of the ozone generator 122 is communicated with the four-way joint 126 through the second electromagnetic valve 1221, and the air outlet end of the silver ion steam module 123 is communicated with the four-way joint 126 through the third electromagnetic valve 1231; the hot air assembly 121, the ozone generator 122, and the silver ion steam assembly 123 are all controlled by the corresponding solenoid valves to be communicated with the two second heat transmission pipelines 112, so that the situation that part of the hot air generated by the hot air assembly 121 enters the silver ion steam assembly 123 along the four-way joint 126 can be avoided, and the corresponding working mode, such as a disinfection and sterilization mode, is set by the program inside the control unit 124 before the equipment leaves the factory, that is, the ozone generator 122 and the silver ion steam assembly 123 are started, and simultaneously the second solenoid valve 1221 and the third solenoid valve 1231 are opened, so that the ozone generator 122 outputs ozone, the silver ion steam assembly 123 outputs silver ion high-temperature steam, and the ozone and the silver ion high-temperature steam enter the second heat transmission pipeline 112 through the circulation pipeline 125, enter the hanger pipeline on the first heat transmission pipeline 111, and pass through the second heat transmission pipeline 112, Discharging the first heat dissipation hole of the clothes hanger pipeline;

when the working mode is in the drying mode, the ozone generator 122 and the silver ion steam assembly 123 are turned off, and the second electromagnetic valve 1221 and the third electromagnetic valve 1231 are turned off at the same time; and the hot air assembly 121 is started, the first solenoid valve 1211 is opened, and hot air enters the second heat transmission pipeline 112 and the clothes hanger pipeline on the first heat transmission pipeline 111 through the circulation pipeline 125 and is discharged through the second heat radiation hole on the second heat transmission pipeline 112 and the first heat radiation hole of the clothes hanger pipeline; after the hot air assembly 121 is started, the timer is started by the internal program of the control unit 124, and when the time exceeds the preset time of the timer, the dehumidifying assembly 13 is started to dehumidify; the timer is set to provide preheating time for the hot air assembly 121, so that the clothes can be sufficiently heated by flowing high-temperature air flow on the surface of the clothes, moisture on the clothes is evaporated, and the clothes are quickly dried; when the moisture on the clothes is evaporated into steam, the dehumidifying component 13 is started again to dehumidify; therefore, the heat efficiency of the whole drying process is improved, and the drying process is more reasonable.

Further, the silver ion steam assembly 123 is provided with a first gas outlet end 1233 and a second gas outlet end 1234, wherein the first gas outlet end 1233 is communicated with the four-way joint 126 through a third electromagnetic valve 1231, the second gas outlet end 1234 is communicated with one end of the gas outlet pipe 127 through a fourth electromagnetic valve 1232, the other end of the gas outlet pipe 127 extends into the cleaning chamber 11 and is connected with the spray head 128, and the output end of the control unit 124 is connected with the input end of the fourth electromagnetic valve 1232 respectively. In this embodiment, a manual sterilization mode is further provided, when the silver ion steam assembly 123 is in the manual sterilization mode, that is, the control unit 124 controls to start the silver ion steam assembly 123, close the third electromagnetic valve 1231, and open the fourth electromagnetic valve 1232, so that the silver ion high-temperature steam inside the silver ion steam assembly 123 is sequentially discharged through the outlet pipe 127 and the spray head 128 along the second outlet end 1234; the user can aim at certain position of fire-entry suit with shower nozzle 128 according to actual demand manual through handheld outlet duct 127 and handle, uses more in a flexible way.

Further, the inner wall of the cleaning chamber 11 is further provided with a UV ultraviolet lamp, and the output end of the control unit 124 is communicated with the input end of the UV ultraviolet lamp. In the present embodiment, in order to further improve the disinfection and sterilization effect, the inner wall of the cleaning chamber 11 is further provided with a UV ultraviolet lamp, wherein the UV ultraviolet lamp is activated to emit ultraviolet light by using a low mercury vapor pressure, i.e., a vapor pressure of 1.3 to 13Pa, and the two emission spectral lines mainly include a wavelength of 253.7nm and a wavelength of 185nm, and the two emission spectral lines are ultraviolet rays invisible to naked eyes. The sterilizing lamp does not need to be converted into visible light, the sterilizing lamp can play a good sterilizing role at the wavelength of 253.7nm, because cells have a rule on the absorption spectral line of light waves, ultraviolet rays at 250-270 nm have maximum absorption, the absorbed ultraviolet rays actually act on cell genetic material, namely DNA, and play a photochemical role, the energy of ultraviolet photons is absorbed by base pairs in the DNA to cause genetic material variation, so that bacteria die immediately or cannot reproduce offspring, and the inside of the cleaning chamber 11 can be further sterilized.

Further, the outer surface of the box body 1 corresponding to the cleaning chamber 11 is wrapped with an insulating layer 15, and the insulating layer 15 comprises a fiber fabric wrapped on the outer side surface of the box body 1 and an aluminum-plated film wrapped on the outer surface of the fiber fabric. Because equipment is in the process, because hot-blast subassembly 121 and silver ion steam subassembly 123 all can produce a large amount of heats, the surface parcel that so box 1 corresponds clean room 11 has heat preservation 15, can avoid the condition that the user mistake touched and lead to the scald, can reduce thermal loss moreover, improve the effect of disinfecting with the stoving.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (8)

1. The utility model provides a fire control protective equipment processing apparatus which characterized in that: the dehumidifying device comprises a box body and a dehumidifying component, wherein a cleaning chamber and a motor chamber which are mutually independent are arranged in the box body, and the dehumidifying component is arranged outside the box body and communicated with the cleaning chamber; the top of the inner wall of the cleaning chamber is provided with a first heat transmission pipeline, two ends of the first heat transmission pipeline are respectively communicated with two second heat transmission pipelines positioned at two sides of the inner wall of the cleaning chamber, the first heat transmission pipeline is communicated with a plurality of clothes hanger pipelines used for hanging fire protection devices, and a plurality of first heat transmission holes are uniformly distributed on the surfaces of the clothes hanger pipelines; a plurality of second heat transmission holes facing the clothes hanger pipeline are distributed on the second heat transmission pipeline along the length direction of the second heat transmission pipeline; the control unit is respectively and electrically connected with the ozone generator, the hot air assembly, the silver ion steam assembly and the dehumidifying assembly; and the air outlet ends of the ozone generator, the silver ion steam component and the hot air component are respectively communicated with the two second heat transmission pipelines.

2. A fire protection gear treatment device as claimed in claim 1, characterised in that: the outer surface of the box body is provided with a control panel, and the output end of the control panel is connected with the input end of the control unit.

3. A fire protection gear treatment device as claimed in claim 1, characterised in that: the clothes hanger pipeline comprises a vertical pipeline and a plurality of branch pipelines, wherein one end of the vertical pipeline is vertically communicated with the first heat transmission pipeline, the branch pipelines are obliquely placed and communicated with the outer side surface of the first heat transmission pipeline, and the first heat transmission holes are uniformly distributed on the outer side surfaces of the vertical pipeline and the branch pipelines.

4. A fire protection gear treatment device as claimed in claim 3, characterised in that: the outer side surface of the branch pipeline is sleeved with a plurality of support rings, and each support ring is arranged between two adjacent first heat transmission holes.

5. A fire protection gear treatment device as claimed in claim 1, characterised in that: the cleaning device is characterized by further comprising a Y-shaped circulation pipeline arranged in the motor chamber, wherein two ends of the top of the circulation pipeline extend into the cleaning chamber and are respectively communicated with the two second heat transmission pipelines, a four-way joint is communicated with one end of the bottom of the circulation pipeline, the air outlet end of the hot air assembly is communicated with the four-way joint through a first electromagnetic valve, the air outlet end of the ozone generator is communicated with the four-way joint through a second electromagnetic valve, the air outlet end of the silver ion steam assembly is communicated with the four-way joint through a third electromagnetic valve, and the output end of the control unit is respectively connected with the input ends of the first electromagnetic valve, the second electromagnetic valve and the third electromagnetic valve.

6. A fire protection gear treatment device as claimed in claim 5, characterised in that: silver ion steam subassembly is provided with the first end of giving vent to anger and the second end of giving vent to anger, and wherein the first end of giving vent to anger is through third solenoid valve and four way connection intercommunication, the second end of giving vent to anger is through the one end intercommunication of fourth solenoid valve and outlet duct, the other end of outlet duct extends to in the clean room and is connected with the shower nozzle, just the control unit's output is connected with the input of fourth solenoid valve respectively.

7. A fire protection gear treatment device as claimed in claim 1, characterised in that: the inner wall of the cleaning chamber is also provided with a UV ultraviolet lamp, and the output end of the control unit is communicated with the input end of the UV ultraviolet lamp.

8. A fire protection gear treatment device as claimed in claim 1, characterised in that: the outer surface of the box body corresponding to the cleaning room is wrapped with a heat insulation layer, and the heat insulation layer comprises a fiber fabric wrapped on the outer side surface of the box body and an aluminum-plated film wrapped on the outer surface of the fiber fabric.

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