Disclosure of Invention
The utility model provides a fire control coating storage facilities with prevent solidification function, includes protection frame and base shell, base shell fixed mounting is on ground, just base shell upper end is connected with protection frame, protection frame top runs through and is provided with pan feeding mouth and inflation inlet, protection frame bottom runs through and is provided with dampproofing filter tube, just the inner chamber has been seted up to the protection frame, just the protection frame with hollow interlayer has been seted up between the inner chamber, fixedly in the inner chamber be provided with the storage vat, the storage vat top is connected with bung collection device, just bung collection device is provided with servo motor, energy supply battery, heating resistor pipe and impeller, just the storage vat bottom is connected with the toper reposition of redundant personnel piece, be provided with water-cooling heat abstractor in the base shell, water-cooling heat abstractor is provided with the heat dissipation nest of tubes, the heat dissipation nest of tubes runs through and is connected with heat abstractor just water-cooling device top is connected with heat abstractor.
Preferably, the heat dissipating device comprises a fan frame arranged below the storage vat, a heat dissipating fan is arranged in the fan frame, a connecting rod is arranged at the upper end of the fan frame, the connecting rod is connected to the upper surface of the storage vat, and the bottom of the storage vat is provided with a conical flow dividing block.
Preferably, the protection frame comprises a frame shell, an inner cavity and a hollow interlayer, a drainage pipe group is arranged at the bottom of the hollow interlayer, a storage bucket is arranged in the inner cavity, and a temperature and humidity sensing display is arranged on the upper surface of the protection frame.
Preferably, the feeding port comprises a feeding pipe and a sealing cover which are installed at the top end of the protection frame in a penetrating mode, threads are arranged on the periphery of the sealing cover, and the feeding pipe is connected to the periphery of the sealing cover through the threads.
Preferably, the barrel cover collecting device comprises a sealed barrel cover, a servo motor, a power supply battery, a heating resistor tube, a conical gear set and a stirring impeller, wherein a motor fixing block is arranged on the upper surface of the sealed barrel cover, the motor fixing block is fixedly connected with the servo motor, the conical gear set is provided with a transverse gear and a longitudinal gear, the servo motor is connected with the longitudinal gear of the conical gear set, the transverse gear of the conical gear set is connected with a rotating shaft, and the rotating shaft is connected with the stirring impeller.
Preferably, an energy supply battery is arranged on the upper surface of the sealing barrel cover, the heating resistor tube is connected below the sealing barrel cover in a penetrating manner, and the energy supply battery is connected with the heating resistor tube.
Preferably, the water cooling device comprises a holding box arranged at the bottom of the inner cavity and a heat dissipation tube group penetrating through the holding box and connected with the storage barrel, wherein the inner part of the holding box is divided into three compartments, the compartments close to two sides in the holding box are filled with refrigerating fluid, a storage battery is arranged in the compartment in the middle position in the holding box, a main controller and a fuse box are arranged on the upper surface of the holding box, water suction pumps are connected to two sides of the holding box, and the water suction pumps are connected with the heat dissipation tube group.
Preferably, the compartment in the middle of the interior of the accommodating box is connected with a dampproof filter pipe, and a desiccant for dehumidification is arranged in the dampproof filter pipe.
Compared with the prior art, the invention has the advantages that:
(1) According to the invention, the water-cooling heat dissipation device and the heat dissipation fan are used for rapidly reducing the ambient temperature of the fire-fighting paint, the energy supply battery is used for providing power for the servo motor, the servo motor is used for driving the stirring impeller to rotate, so that the fire-fighting paint in the storage barrel is periodically stirred, the particles are effectively prevented from precipitating and uniformity is maintained, the fire-fighting paint in the storage barrel is stirred, the contact degree of the fire-fighting paint and the heat dissipation pipe group is improved, the fire-fighting paint can be more uniformly contacted with the surface of the heat dissipation pipe group, and the water-cooling physical cooling effect of the heat dissipation pipe group on the fire-fighting paint is effectively improved.
(2) In the invention, when the water cooling heat radiator and the heat radiator are used for cooling, the suction force generated by the back surface of the heat radiator is utilized to enable moisture close to the ground to be absorbed through the drying agent arranged in the dampproof filter pipe, so that the humidity of the storage area is controlled, and the moisture is effectively prevented from entering the paint.
(3) According to the invention, when the temperature and humidity sensing display shows that the temperature is lower than 15 ℃, the main controller controls the fan relay arranged in the fuse box to disconnect the fan, the water cooling heat dissipation device stops working, and when the temperature and humidity sensing display shows that the temperature is lower than 10 ℃, the heating resistor connected with the energy supply battery works to generate heat, the electric energy is converted into heat energy, so that the resistor generates high temperature, the temperature of fire-fighting paint in the storage barrel is increased, and when the temperature reaches 25 ℃, the energy supply battery stops supplying energy, so that the storage barrel is effectively ensured to be between 10 and 25 ℃, and the curing temperature influence effect of the fire-fighting paint is reduced.
Detailed Description
In example 1, since the fire-fighting paint storage device needs to have good sealing performance, the conventional cooling method for preventing solidification of the fire-fighting paint storage device is to place the fire-fighting paint storage device in a room temperature chamber, or to help cooling by an external fan, but these methods cannot directly contact the fire-fighting paint through external temperature conduction, resulting in a slower cooling speed.
Referring to fig. 1, 4, 6 and 7, a fire-fighting paint storage device with anti-solidification function comprises a protection frame 1 and a base shell 2, wherein the base shell 2 is fixedly installed on the ground, the upper end of the base shell 2 is connected with the protection frame 1, the top end of the protection frame 1 is provided with a feed inlet 3 and an air charging inlet 4 in a penetrating way, the bottom end of the protection frame 1 is provided with a dampproof filter tube 9 in a penetrating way, the protection frame 1 is provided with an inner cavity 102, a hollow interlayer 103 is arranged between the protection frame 1 and the inner cavity 102, a storage barrel 6 is fixedly arranged in the inner cavity 102, the top end of the storage barrel 6 is connected with a barrel cover collecting device 5, the barrel cover collecting device 5 is provided with a servo motor 505, an energy supply battery 503, a heating resistor tube 504 and a stirring impeller 508, the bottom of the storage barrel 6 is connected with a conical shunt block 10, a water-cooling heat dissipation device 7 is arranged in the base shell 2, the water cooling device 7 is provided with the heat dissipation nest of tubes 703, heat dissipation nest of tubes 703 through-connection storage vat 6, and water cooling device 7 top is connected with heat abstractor 8, the benefit of heat dissipation nest of tubes 703 through-connection storage vat 6 is can be fast with the inside fire control coating contact of storage vat 6, and it is rotatory to drive stirring impeller 508 through servo motor 505, make fire control coating can the biggest area contact with heat dissipation nest of tubes 703, effectively accelerate the cooling treatment to fire control coating, it is quick direct, inject nitrogen gas in the container through inflation inlet 4, can reduce the oxygen content in the container, thereby slow down the solidification process, and fire control coating is sensitive to humidity, so design dampproofing filter tube 9 controls the humidity of storage area, ensure that the container leakproofness is good, in order to prevent moisture entering coating.
As a further aspect of the invention: the protection frame 1 includes frame housing 101, inner chamber 102 and cavity interlayer 103, and frame housing 101 adopts antimonous oxide fire-retardant material to constitute, and cavity interlayer 103 bottom is provided with drainage nest of tubes 104, and inner chamber 102 is provided with storage vat 6, and protection frame 1 upper surface is provided with temperature and humidity sensing display 105, and drainage nest of tubes 104 is used for the steam on the pipe wall of water conservancy diversion cooling nest of tubes 703.
As a further aspect of the invention: the feed inlet 3 comprises a feed pipe 303 and a sealing cover 301 which are installed at the top end of the protection frame 1 in a penetrating mode, threads 302 are arranged on the periphery of the sealing cover 301, and the feed pipe 303 is connected to the periphery of the sealing cover 301 through the threads 302.
As a further aspect of the invention: the water cooling device 7 comprises a containing box 701 arranged at the bottom of the inner cavity 102 and a heat dissipation tube group 703 penetrating through the storage barrel 6, wherein the inside of the containing box 701 is divided into three compartments, the compartments close to two sides inside the containing box 701 are filled with refrigerating fluid, a storage battery 706 is arranged in the compartment at the middle position inside the containing box 701, a main controller 704 and a fuse box 705 are arranged on the upper surface of the containing box 701, a fan relay point is arranged in the fuse box 705 and used for controlling the rotating speed of the fan, the main controller 704 is used for controlling the whole water cooling device 7 to start and close, the two sides of the containing box 701 are connected with a water suction pump 702, the water suction pump 702 is connected with the heat dissipation tube group 703, and the storage battery 706, the water suction pump 702, the main controller 704 and the fuse box 705 are connected through wires.
As a further aspect of the invention: the heat abstractor 8 is including setting up the fan frame 801 in storage vat 6 below, be provided with radiator fan 802 in the fan frame 801, fan frame 801 upper end is provided with connecting rod 803, connecting rod 803 connects at storage vat 6 upper surface, and storage vat 6 bottom is provided with toper reposition of redundant personnel piece 10, the effect of toper reposition of redundant personnel piece 10 is the mouth of pipe that lets radiator fan 802 blow the wind quick dispersion to drainage nest of tubes 104, the wind can pour into in the cavity interlayer 103 this moment, and contact the heat dissipation nest of tubes 703, help reduce heat dissipation nest of tubes 703 surface temperature, thereby effectively reduce storage vat 6 inside temperature, and through the quick discharge of drainage nest of tubes 104 mouth of pipe of protection frame 1.
Specifically, according to the temperature detected by the temperature and humidity sensing display 105, when the temperature is about to reach 30 °, the main controller 704 controls the water pump 702 to pump the refrigerating fluid in the accommodating box 701 and circularly convey the refrigerating fluid into the heat dissipation tube group 703, meanwhile, the main controller 704 controls the fan relay point device arranged in the fuse box 705 to adjust the fan to rotate rapidly, at this time, the wind blown by the heat dissipation fan 802 is rapidly dispersed to the pipe orifice of the drainage tube group 104 through the conical flow distribution block 10, and the wind enters the hollow interlayer 103 and contacts the heat dissipation tube group 703, thereby helping to reduce the surface temperature of the heat dissipation tube group 703, so as to effectively reduce the internal temperature of the storage barrel 6 and discharge the wind rapidly.
In embodiment 2 and embodiment 1, the air blown by the cooling fan 802 is rapidly dispersed to the pipe orifice of the drainage pipe set 104 through the conical flow dividing block 10, and the air enters the hollow interlayer 103 and contacts the cooling pipe set 703, so as to help reduce the surface temperature of the cooling pipe set 703, thereby effectively reducing the internal temperature of the storage barrel 6 and being rapidly discharged.
Referring to fig. 1, 3 and 5, in combination with the foundation of embodiment 1, the barrel cover assembling device 5 includes a sealed barrel cover 501, a servo motor 505, a power supply battery 503, a heating resistor tube 504, a conical gear set 506 and a stirring impeller 508, a motor fixing block 502 is disposed on the upper surface of the sealed barrel cover 501, the motor fixing block 502 is fixedly connected with the servo motor 505, the conical gear set 506 is provided with a transverse gear and a longitudinal gear, the servo motor 505 is connected with the longitudinal gear of the conical gear set 506, and the transverse gear of the conical gear set 506 is connected with a rotating shaft 507, the rotating shaft 507 is connected with the stirring impeller 508, and the conical gear set 506 is driven to rotate by the servo motor 505, so that the rotating shaft 507 and the stirring impeller 508 connected with the conical gear set 506 are driven to rotate for periodic stirring, and as fire-proof particles in the fire-proof paint may be precipitated, the periodic stirring paint can be effectively prevented from precipitating particles and kept uniform.
Specifically, when heat abstractor 8 carries out water-cooling to storage vat 6, energy supply battery 503 provides electric power for servo motor 505, drive tapered gear group 506 rotatory through servo motor 505, thereby it is rotatory to drive pivot 507 and stirring impeller 508 that tapered gear group 506 has been connected, realize the periodic stirring to the inside fire control coating of storage vat 6, effectively prevent the granule deposit and keep the homogeneity, fire control coating's stirring in storage vat 6 simultaneously, fire control coating and the contact degree of heat dissipation nest 703 have been improved, make fire control coating can more even contact heat dissipation nest 703 surface, effectively improve the water-cooling physical cooling effect of heat dissipation nest 703 to fire control coating.
In embodiment 3 and embodiment 2, the fire-fighting paint is stirred in the storage barrel 6, so that the contact degree of the fire-fighting paint and the heat dissipation tube group 703 is improved, the fire-fighting paint can be more uniformly contacted with the surface of the heat dissipation tube group 703, the water-cooling physical cooling effect of the heat dissipation tube group 703 on the fire-fighting paint is effectively improved, but the temperature is reduced to be too low, moisture is easily increased, and the temperature is too low, so that the fixing effect of the fire-fighting paint is also influenced.
Referring to fig. 1 and 5, in combination with the foundations of embodiment 1 and embodiment 2, a moisture-proof filter tube 9 is connected to a compartment at an intermediate position inside the housing box 701, and a desiccant for dehumidification is provided inside the moisture-proof filter tube 9.
As a further aspect of the invention: the upper surface of sealed bung 501 is provided with energy supply battery 503, and the below of sealed bung 501 is connected with heating resistor pipe 504 in a through connection, and energy supply battery 503 connects heating resistor pipe 504, and energy supply battery 503 still provides power for servo motor 505 in addition.
Specifically, when the temperature and humidity sensing display 105 shows that the temperature is lower than 15 °, the main controller 704 controls the fan relay arranged in the fuse box 705 to disconnect the fan, the water cooling device 7 stops working, and when the temperature and humidity sensing display 105 shows that the temperature is lower than 10 °, the heating resistor 504 connected with the energy supply battery 503 works to generate heat, the electric energy is converted into heat energy, the heating resistor 504 generates high temperature, the temperature of the fire-fighting paint in the storage bucket 6 is increased, and when the temperature reaches 25 °, the energy supply battery 503 stops supplying energy, in addition, the fire-fighting paint is sensitive to humidity, therefore, when the water cooling device 7 and the heat dissipating device 8 are used for cooling, the back surface of the heat dissipating fan 802 works to generate suction force, so that the moisture close to the ground is absorbed through the drying agent arranged in the moisture-proof filter pipe 9, thereby being used for controlling the humidity of the storage area, and effectively preventing the moisture from entering the paint.
The working principle of the invention is as follows:
firstly pouring fire-fighting paint to be stored into a storage barrel 6 from a feed inlet 3, covering a sealing cover 301, then injecting nitrogen into the storage barrel 6 through an air charging opening 4 to reduce the oxygen content in the storage barrel 6, thereby effectively slowing down the curing process, observing the temperature detected by a temperature and humidity sensing display 105, when the temperature is about to reach 30 ℃, a main controller 704 controls a water suction pump 702 to pump refrigerating fluid in a containing box 701 and circularly convey the refrigerating fluid into a heat dissipation tube group 703, meanwhile, the main controller 704 controls a fan relay point device arranged in a fuse box 705 to adjust the fan to rotate rapidly, at the moment, wind blown by a heat dissipation fan 802 is rapidly dispersed to a tube opening of a drainage tube group 104 through a conical shunt block 10, the wind enters a hollow interlayer 103 and contacts the heat dissipation tube group 703 to help reduce the surface temperature of the heat dissipation tube group 703, thereby effectively reducing the internal temperature of the storage barrel 6 and being rapidly discharged, and when the heat dissipating device 8 performs water cooling heat dissipation on the storage vat 6, the energy supply battery 503 provides power for the servo motor 505, the servo motor 505 drives the conical gear set 506 to rotate, thereby driving the rotating shaft 507 connected with the conical gear set 506 and the stirring impeller 508 to rotate, realizing regular stirring of fire-fighting paint in the storage vat 6, effectively preventing particles from precipitating and keeping uniformity, simultaneously stirring the fire-fighting paint in the storage vat 6, improving the contact degree of the fire-fighting paint and the heat dissipating tube 703, enabling the fire-fighting paint to be more uniformly contacted with the surface of the heat dissipating tube 703, effectively improving the water cooling physical cooling effect of the heat dissipating tube 703 on the fire-fighting paint, in addition, when the temperature and humidity sensing display 105 displays that the temperature is lower than 15 ℃, the main controller 704 controls the fan relay arranged in the fuse box 705 to disconnect the fan, the water cooling heat dissipating device 7 stops working, when the temperature and humidity sensing display 105 shows that the temperature is lower than 10 degrees, the heating resistor tube 504 connected with the energy supply battery 503 works to generate heat, the electric energy is converted into heat energy, so that the heating resistor tube 504 generates high temperature to raise the temperature of the fire-fighting paint in the storage barrel 6, and when the temperature reaches 25 degrees, the energy supply battery 503 stops supplying energy, and the fire-fighting paint is sensitive to humidity, so that when the water-cooling heat dissipation device 7 and the heat dissipation device 8 are used for cooling, the back of the heat dissipation fan 802 works to generate suction force, and moisture approaching the ground is absorbed through the drying agent arranged in the dampproof filter tube 9, so that the humidity of the storage area is controlled, and the moisture is effectively prevented from entering the paint.
The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.