Disclosure of Invention
In view of the above technical shortcomings, the present invention provides a data recognition device for controlling humidity, which can overcome the above shortcomings.
The data identification device for controlling humidity comprises an outer shell, wherein a humidity data identification instrument is fixedly arranged on the upper end face of the outer shell, a gas tank is arranged in the outer shell, a heating tank is arranged on the right side of the gas tank, a water storage cavity is arranged in the heating tank, a combustion cavity is arranged below the heating tank, a left pressure cavity is arranged below the gas tank, and a gas pushing assembly is arranged in the left pressure cavity;
the fuel-saving combustion chamber is characterized in that a right pressure chamber is arranged on the right side of the combustion chamber, a fuel pushing assembly is arranged in the right pressure chamber, a moving chamber is arranged on the left side of the left pressure chamber, a left limiting chamber is arranged below the left pressure chamber, a transmission chamber communicated with the left limiting chamber is arranged on the right side of the left limiting chamber, a transmission assembly is arranged in the transmission chamber, a right limiting chamber communicated with the transmission chamber is arranged on the right side of the transmission chamber, a sliding chamber is arranged on the right side of the right limiting chamber, a sliding chamber is arranged above the sliding chamber;
the cold fog control chamber is arranged on the fuel tank, the spraying chamber is arranged on the right side of the cold fog control chamber, the cold and wet air spraying assembly is arranged in the spraying chamber, the water tank is arranged on the left side of the cold fog control chamber, the liquefaction pipe is fixedly arranged on the outer side of the water tank in a surrounding mode, the steam chamber communicated with the water tank is arranged above the water storage chamber, and the steam assembly is arranged in the steam chamber.
Preferably, the drive assembly includes fixed mounting and is in motor in the transmission chamber front end wall, the motor with humidity data identification appearance control connects, motor front side power connection is equipped with the primary shaft, the primary shaft rear end rotates to be installed in the transmission chamber rear end wall, fixed mounting is equipped with half round gear on the primary shaft, half round gear external toothing connects and is equipped with the internal gear piece fixed uniform installation is equipped with the gear tooth on the upper and lower internal end wall of internal gear piece, the gear tooth with tooth on the half round gear meshes mutually, internal gear piece left side fixed mounting is equipped with first fixed block.
Preferably, the gas promotion subassembly includes fixed mounting and is in left stopper in the end wall about the spacing chamber in a left side, first fixed block slidable mounting be in the spacing chamber in a left side, first fixed block extends to it is equipped with the second fixed block to remove intracavity and fixed mounting, second fixed block upper end fixed mounting is equipped with the third fixed block, third fixed block right-hand member extends to left side pressure intracavity fixed mounting has left toper piece, left side pressure chamber top be equipped with the first transmission pipe that the gas case is linked together, the combustion chamber with left side pressure chamber intercommunication department is equipped with the edge the one-way subassembly of combustion chamber center bilateral symmetry.
Preferably, left one-way subassembly is installed including rotating the second shaft in the burning chamber upper end wall, fixed mounting is equipped with the top closure piece on the second shaft, top closure piece below fixed mounting is equipped with first magnet, first magnet below magnetic connection is equipped with second magnet, second magnet below fixed mounting is equipped with down the closure piece, closure piece fixed mounting is in the third axle down, the third axle rotates to be installed in the burning chamber lower end wall.
Preferably, the fuel pushing assembly comprises a right limiting block fixedly installed in the upper end wall and the lower end wall of the right limiting cavity, a fourth fixing block is fixedly installed on the right side of the inner gear block, the fourth fixing block is slidably installed in the right limiting block and extends into the sliding cavity, a fifth fixing block is fixedly installed in the sliding cavity, a rope is fixedly installed on the right end face of the fifth fixing block, the upper end of the rope is fixedly installed on the right end face of a sixth fixing block slidably installed in the sliding cavity, hydraulic fluid is arranged in the sliding cavity and between the sixth fixing block and the fifth fixing block, a seventh fixing block is fixedly installed at the left end of the sixth fixing block, the seventh fixing block extends into the right pressure cavity and is fixedly installed with a right conical block, and a second transmission pipe communicated with the fuel tank is arranged in the upper end wall of the right pressure cavity, and a one-way assembly on the right side is arranged at the communication position of the right pressure cavity and the combustion cavity.
Preferably, the steam component comprises a pressure spring fixedly mounted on the upper end wall of the steam cavity, an eighth fixed block is fixedly mounted on the lower end face of the pressure spring, an isolated cavity is arranged in the right end wall of the water storage cavity, a third transmission pipe communicated with the water tank is arranged in the right wall of the water storage cavity, a water inlet cavity is arranged on the right side of the water storage cavity, a reset spring is fixedly mounted on the upper end face of the isolated cavity, a floating block capable of floating on the water surface is fixedly mounted in the ninth fixed block, the left end of the floating block extends into the water storage cavity, the right end of the floating block extends into the water inlet cavity, a tenth fixed block fixedly mounted on the lower end face of the floating block is arranged in the water inlet cavity, a through hole is arranged in the lower end of the tenth fixed block, and the lower end of the tenth fixed block extends into the third transmission pipe, and a fourth transmission pipe communicated with the steam cavity is arranged at the right upper side of the steam cavity, and a hot and humid air spraying assembly is arranged in the fourth transmission pipe.
Preferably, the hot and humid air spray assembly comprises a fifth transmission pipe located above and communicated with the fourth transmission pipe, the right end of the fifth transmission pipe is provided with an upper spray plate fixedly installed on the right end face of the outer shell, the upper spray plate is communicated with the fifth transmission pipe, the right end of the left pressure cavity is fixedly installed with an upper spray head for spraying water mist, a sixth transmission pipe communicated with the fourth transmission pipe is arranged below the fifth transmission pipe, the lower end of the sixth transmission pipe extends into the water tank, a control cavity located on the right side of the fourth transmission pipe is arranged in the fifth transmission pipe and the sixth transmission pipe, the lower end face of the control cavity is fixedly installed with an upper electromagnet, the upper end face of the control cavity is fixedly installed with a third magnet, a fourth magnet is arranged below the third magnet in a magnetic connection manner, and an isolation block is fixedly installed at the left end of the fourth magnet, the upper end of the isolation block extends into the fifth transmission pipe, and the lower end of the isolation block extends into the sixth transmission pipe.
Preferably, the cold and wet air spray assembly comprises a fifth magnet fixedly mounted on the left end wall of the cold fog control cavity, the right end of the fifth magnet is provided with a sixth magnet in a magnetic connection manner, the right end face of the cold fog control cavity is fixedly provided with a lower electromagnet, the upper end face of the sixth magnet is fixedly provided with an eleventh fixed block slidably mounted on the upper end face of the cold fog control cavity, the right end of the eleventh fixed block extends into the spray cavity and is fixedly provided with a push block, the push block is slidably mounted in the spray cavity, the lower end of the liquefaction pipe extends into the spray cavity, a water level sensor is fixedly mounted in the right end wall of the spray cavity, the right end face of the water level sensor is in a control connection manner and is provided with a control rod, the other end of the control rod extends into the cold fog control cavity and is in a control connection manner and is in a control manner and is connected with the lower end face of the lower electromagnet, and, and a lower spraying plate fixedly installed on the right end face of the outer shell is fixedly installed at the right end of the seventh transmission pipe, and a spray head is fixedly installed at the right end of the lower spraying plate.
The beneficial effects are that: the device has high automation degree, the starting of the motor is controlled by identifying the humidity content in the air through humidity data, so that the humidity in the room is maintained in the most comfortable state of a human body, meanwhile, the water mist sprayed by the spray head of the device is formed by water vapor generated after heating, the device does not contain various elements in water, secondary pollution caused by contact of the elements in the water and the air is prevented, and the device is cleaner and healthier, and the device can control the sprayed heated water mist or the cooled water mist to simultaneously control the temperature in the room to not form temperature difference according to the temperature of the room.
Detailed Description
All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.
The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The invention relates to a data identification device for controlling humidity, which comprises an outer shell 78, wherein a humidity data identification instrument 77 is fixedly arranged on the upper end surface of the outer shell 78, a gas tank 54 is arranged in the outer shell 78, a heating tank 56 is arranged on the right side of the gas tank 54, a water storage cavity 57 is arranged in the heating tank 56, a combustion cavity 55 is arranged below the heating tank 56, a left pressure cavity 51 is arranged below the gas tank 54, a gas pushing component is arranged in the left pressure cavity 51, a right pressure cavity 36 is arranged on the right side of the combustion cavity 55, a fuel pushing component is arranged in the right pressure cavity 36, a moving cavity 49 is arranged on the left side of the left pressure cavity 51, a left limit cavity 45 is arranged below the left pressure cavity 51, a transmission cavity 44 communicated with the right side of the left limit cavity 45 is arranged on the right side of the transmission cavity 44, a transmission component is arranged in the transmission cavity, the utility model discloses a cold mist spray device, including right spacing chamber 38, the chamber 35 that slides is equipped with in the right side, the chamber 35 top that slides is equipped with the chamber 32 that slides, right side pressure chamber 36 top is equipped with fuel tank 27, be equipped with cold mist control chamber 67 on the fuel tank 27, cold mist control chamber 67 right side is equipped with spraying chamber 25, be equipped with cold moisture spraying subassembly in the spraying chamber 25, cold mist control chamber 67 left side is equipped with water tank 19, the fixed installation of encircleing in the water tank 19 outside is equipped with liquefaction pipe 20, water storage chamber 57 top is equipped with steam chamber 58 with it communicates, be equipped with steam subassembly in the steam chamber 58.
Beneficially, the transmission assembly includes a motor 60 fixedly installed in the front end wall of the transmission cavity 44, the motor 60 is in control connection with the humidity data identifier 77, a first shaft 40 is arranged on the front side of the motor 60 in power connection, the rear end of the first shaft 40 is rotatably installed in the rear end wall of the transmission cavity 44, a semicircular gear 41 is fixedly installed on the first shaft 40, an inner gear block 43 is arranged on the outer meshing connection of the semicircular gear 41, gear teeth 42 are fixedly and uniformly installed on the upper inner end wall and the lower inner end wall of the inner gear block 43, the gear teeth 42 are meshed with the teeth on the semicircular gear 41, and a first fixing block 47 is fixedly installed on the left side of the inner gear block 43.
Beneficially, the gas pushing assembly comprises a left limiting block 46 fixedly installed in the upper and lower end walls of the left limiting cavity 45, the first fixing block 47 is slidably installed in the left limiting block 46, the first fixing block 47 extends into the moving cavity 49 and is fixedly installed with a second fixing block 48, a third fixing block 50 is fixedly installed at the upper end of the second fixing block 48, the right end of the third fixing block 50 extends into the left pressure cavity 51 and is fixedly installed with a left conical block 52, a first transmission pipe 53 communicated with the gas tank 54 is arranged above the left pressure cavity 51, and a one-way assembly which is bilaterally symmetrical along the center of the combustion cavity 55 is arranged at the communication position of the combustion cavity 55 and the left pressure cavity 51.
Advantageously, the one-way assembly on the left side comprises a second shaft 79 rotatably mounted in the upper end wall of the combustion chamber 55, an upper closing block 80 is fixedly mounted on the second shaft 79, a first magnet 81 is fixedly mounted below the upper closing block 80, a second magnet 82 is magnetically connected below the first magnet 81, a lower closing block 83 is fixedly mounted below the second magnet 82, the lower closing block 83 is fixedly mounted in a third shaft 84, and the third shaft 84 is rotatably mounted in the lower end wall of the combustion chamber 55.
Advantageously, the fuel pushing assembly comprises a right limiting block 37 fixedly installed in the upper and lower end walls of the right limiting cavity 38, a fourth fixing block 39 is fixedly installed at the right side of the inner gear block 43, the fourth fixing block 39 is slidably installed in the right limiting block 37 and extends into the sliding cavity 35, a fifth fixing block 34 is fixedly installed, the fifth fixing block 34 is slidably installed in the sliding cavity 35 and is fixedly installed at the right end face, a rope 33 is installed at the upper end face of the sixth fixing block 30 slidably installed in the sliding cavity 32, hydraulic fluid is arranged in the sliding cavity 35 and between the sixth fixing block 30 and the fifth fixing block 34, a seventh fixing block 31 is fixedly installed at the left end of the sixth fixing block 30, the seventh fixing block 31 extends into the right pressure cavity 36 and is fixedly installed with a right conical block 29, a second delivery pipe 28 communicated with the fuel tank 27 is arranged in the upper end wall of the right pressure chamber 36, and a right one-way component is arranged at the communication position of the right pressure chamber 36 and the combustion chamber 55.
Beneficially, the steam assembly comprises a pressure spring 10 fixedly mounted on the upper end wall of the steam cavity 58, an eighth fixed block 59 is fixedly mounted on the lower end face of the pressure spring 10, an isolated cavity 74 is arranged in the right end wall of the water storage cavity 57, a third transmission pipe 69 communicated with the water tank 19 is arranged in the right wall of the water storage cavity 57, a water inlet cavity 76 is arranged on the right side of the water storage cavity 57, a reset spring 73 is fixedly mounted on the upper end face of the isolated cavity 74, a ninth fixed block 72 is fixedly mounted on the lower end face of the reset spring 73, a floating block 71 capable of floating on the water surface is fixedly mounted in the ninth fixed block 72, the left end of the floating block 71 extends into the water storage cavity 57, the right end of the floating block 71 extends into the water inlet cavity 76, and a tenth fixed block 75 fixedly mounted on the lower end face of the floating block 71 is arranged in the water inlet cavity 76, a through hole 70 is formed in the lower end of the tenth fixed block 75, the lower end of the tenth fixed block 75 extends into the third transmission pipe 69, a fourth transmission pipe 11 communicated with the steam cavity 58 is arranged on the upper right side of the steam cavity 58, and a hot and humid air spraying assembly is arranged in the fourth transmission pipe 11.
Advantageously, the hot and humid air spraying assembly comprises a fifth transmission pipe 16 located above and communicated with the fourth transmission pipe 11, an upper spraying plate 21 fixedly installed on the right end face of the outer shell 78 is arranged at the right end of the fifth transmission pipe 16, the upper spraying plate 21 is communicated with the fifth transmission pipe 16, an upper spraying head 22 for spraying water mist is fixedly installed at the right end of the left pressure chamber 51, a sixth transmission pipe 18 communicated with the fourth transmission pipe 11 is arranged below the fifth transmission pipe 16, the lower end of the sixth transmission pipe 18 extends into the water tank 19, a control chamber 13 located at the right side of the fourth transmission pipe 11 is arranged in the fifth transmission pipe 16 and the sixth transmission pipe 18, an upper electromagnet 12 is fixedly installed on the lower end face of the control chamber 13, a third magnet 17 is fixedly installed on the upper end face of the control chamber 13, and a fourth magnet 14 is arranged below the third magnet 17 in a magnetic connection manner, the left end of the fourth magnet 14 is fixedly provided with an insulating block 15, the upper end of the insulating block 15 extends into the fifth transmission pipe 16, and the lower end of the insulating block 15 extends into the sixth transmission pipe 18.
Beneficially, the cold and wet air spraying assembly comprises a fifth magnet 64 fixedly installed on the left end wall of the cold fog control cavity 67, a sixth magnet 65 is installed at the right end of the fifth magnet 64 in a magnetic connection manner, a lower electromagnet 68 is fixedly installed on the right end face of the cold fog control cavity 67, an eleventh fixed block 66 slidably installed on the upper end face of the sixth magnet 65 is fixedly installed on the upper end face of the cold fog control cavity 67, the right end of the eleventh fixed block 66 extends into the spraying cavity 25 and is fixedly installed with a push block 26, the push block 26 is slidably installed in the spraying cavity 25, the lower end of the liquefaction tube 20 extends into the spraying cavity 25, a water level sensor 61 is fixedly installed in the right end wall of the spraying cavity 25, a control rod 63 is connected to the right end face of the water level sensor 61 in a control manner, the other end of the control rod 63 extends into the cold fog control cavity 67 and is connected to the lower end face of the lower electromagnet 68 in a control manner, a seventh transmission pipe 62 extending to the outer end face of the outer shell 78 is arranged in the right end wall of the spray cavity 25, a lower spray plate 23 fixedly installed on the right end face of the outer shell 78 is fixedly installed at the right end of the seventh transmission pipe 62, and a spray head 24 is fixedly installed at the right end of the lower spray plate 23.
In the initial state: the lower end of the isolation block 15 extends into the sixth transfer pipe 18 and seals the communication position of the sixth transfer pipe 18 and the fourth transfer pipe 11, and the fifth transfer pipe 16 is communicated with the fourth transfer pipe 11; the port 70 is positioned above the third delivery pipe 69 so that the place where the third delivery pipe 69 communicates with the water tank 19 is isolated by the tenth fixed block 75; the return spring 73 is in a compressed state.
When the work is started:
1. when humidity data recognizer 77 passes through data recognition, when analyzing that the air humidity in the room is low to a certain extent, humidity data recognizer 77 can automatic control motor 60 starts, motor 60 can drive the primary shaft 40 rotates, thereby the primary shaft 40 rotates to drive and is semi-circular gear 41 rotates, semi-circular gear 41 through with gear tooth 42 in the lower end wall of inner gear piece 43 can drive when meshing mutually inner gear piece 43 moves left, thereby move left and can drive first fixed block 47 with fourth fixed block 39 moves left.
2. The first fixed block 47 moves leftwards through the second fixed block 48 to drive the third fixed block 50 to move leftwards, the third fixed block 50 moves leftwards to drive the left conical block 52 to move leftwards, the left conical block 52 moves leftwards to form low air pressure in the right end of the left pressure chamber 51, when the left conical block 52 moves leftwards to move to the left of the first transmission pipe 53, the gas in the gas tank 54 is sucked into the left pressure chamber 51 under the influence of the low air pressure of the left pressure chamber 51, at the same time, the fourth fixed block 39 moves leftwards to drive the fifth fixed block 34 to move leftwards, the fifth fixed block 34 moves leftwards through the rope 33 to drive the sixth fixed block 30 to move rightwards, and the sixth fixed block 30 moves rightwards to drive the seventh fixed block 31 to move rightwards, the seventh fixed block 31 moves to the right to drive the right conical block 29 to move to the right, the right conical block 29 moves to the right to form low air pressure in the left end of the right pressure chamber 36, and when the right conical block 29 moves to the right of the second delivery pipe 28, the fuel in the fuel tank 27 is sucked into the right pressure chamber 36 under the influence of the low air pressure in the right pressure chamber 36.
3. Then, when the semi-circular gear 41 rotates to be meshed with the gear teeth 42 in the upper end wall of the inner gear block 43, the inner gear block 43 is driven to move rightwards, and the first fixing block 47 and the fourth fixing block 39 are driven to move rightwards by the rightwards movement.
4. The first fixed block 47 moves rightwards to pass through the second fixed block 48 so as to drive the third fixed block 50 to move rightwards, the third fixed block 50 moves rightwards so as to drive the left conical block 52 to move rightwards, when the left conical block 52 moves rightwards to the right side of the first transmission pipe 53, the gas in the left pressure cavity 51 is pushed to enter a left one-way assembly where the left pressure cavity 51 is communicated with the combustion cavity 55, then the thrust generated by the rightwards movement of the first transmission pipe 53 separates the first magnet 81 from the second magnet 82, the left upper sealing block 80 rotates upwards around the second shaft 79, and the lower sealing block 83 rotates upwards and downwards around the third shaft 84, so that the gas in the left pressure cavity 51 enters the combustion cavity 55.
5. At the same time, the fourth fixed block 39 moves rightwards to drive the fifth fixed block 34 to move rightwards, the fifth fixed block 34 moves rightwards to drive the sixth fixed block 30 to move leftwards through the hydraulic fluid in the sliding chamber 32 of the rope 33, the sixth fixed block 30 moves leftwards to drive the seventh fixed block 31 to move leftwards, the seventh fixed block 31 moves leftwards to drive the right conical block 29 to move leftwards, when the right conical block 29 moves leftwards to the left of the second transmission pipe 28, the fuel in the right pressure chamber 36 is pushed to enter a right one-way component of the right pressure chamber 36 communicated with the combustion chamber 55, then the thrust generated by the rightwards movement of the right conical block 29 separates the right first magnet 81 from the second magnet 82, and the upper closed block 80 rotates upwards around the second shaft 79, the lower closing block 83 rotates up and down around the third shaft 84, so that the fuel in the right pressure chamber 36 enters the combustion chamber 55, the fuel and the gas are contacted to generate heat, so as to heat the heating box 56, the heating box 56 is heated to evaporate the water in the water storage chamber 57, and when the steam in the water storage chamber 57 reaches a certain degree, the eighth fixing block 59 is pushed to move upwards to compress the pressure spring 10, so that the steam in the steam chamber 58 enters the fourth transmission pipe 11.
6. Due to the fact that northern weather is cold and the room is dry, when hot steam needs to be supplied to the room to increase the humidity, the humidity data recognizer 77 controls the upper magnet 12 to be electrified to generate magnetic force, the upper magnet 12 is electrified to separate the fourth magnet 14 from the third magnet 17, then the fourth magnet 14 is magnetically connected with the upper magnet 12, the fourth magnet 14 moves downwards to drive the isolation block 15 to move downwards so that the fifth transmission pipe 16 is communicated with the fourth transmission pipe 11, the fourth transmission pipe 11 and the sixth transmission pipe 18 are isolated by the isolation block 15, and therefore the steam in the fourth transmission pipe 11 enters the fifth transmission pipe 16 and then passes through the upper spray plate 21 so that the upper spray head 22 forms water mist to spray out.
7. When the room is dry due to hot weather, the humidity data identifier 77 controls the upper electromagnet 12 to be powered off, so that the fourth magnet 14 and the third magnet 17 attract each other and the isolation block 15 moves upwards to isolate the communication between the fourth transfer pipe 11 and the fifth transfer pipe 16 and simultaneously to communicate the fourth transfer pipe 11 and the sixth transfer pipe 18, the water vapor in the fourth transfer pipe 11 then enters the liquefaction pipe 20 through the sixth transfer pipe 18, since the water tank 19 is filled with cold water having a relatively low temperature, the water vapor in the liquefaction pipe 20 is affected by the gas temperature difference so that the gas is changed into liquid, and then enters the spray chamber 25 from the lower end of the liquefaction tube 20 while decreasing the heating time in the water storage chamber 57 when heat is added in the water tank 19 to supply water to the water storage chamber 57.
8. When the water in the water storage cavity 57 is evaporated by heating to lower the water level line, the floating block 71 is not influenced by the buoyancy so that the floating block 71 is driven by the resilience of the return spring 73 to lower the tenth fixed block 75, when the port 70 enters the third transmission pipe 69 so that the water storage cavity 57 is communicated with the water tank 19, the water in the water tank 19 flows into the water storage cavity 57 due to the influence of the water level, the water level line in the water storage cavity 57 rises again to prop the floating block 71 to float upwards so that the port 70 is separated from the third transmission pipe 69, and the water tank 19 is isolated from the water storage cavity 57 again.
9. When the water level in the spraying cavity 25 reaches a certain level, the water level sensor 61 controls the lower electromagnet 68 to be electrified through the control rod 63 after sensing, the lower electromagnet 68 is electrified to generate magnetic force, so that the sixth magnet 65 is adsorbed to move rightwards, the sixth magnet 65 is attracted to the lower electromagnet 68, the sixth magnet 65 moves rightwards to drive the eleventh fixed block 66 to move rightwards, the eleventh fixed block 66 moves rightwards to drive the push block 26 to move rightwards so as to push the spraying cavity 25 to enter the seventh transmission pipe 62, and then the lower spraying plate 23 sprays water mist from the spraying head 24 to improve the humidity in the room, when the humidity data recognizer 77 recognizes that the humidity in the room reaches a certain level, the motor 60 is controlled to be turned off, and the lower electromagnet 68 is powered off at the same time, so that the sixth magnet 65 is attracted by the fifth magnet 64 again to drive the eleventh fixing block 66 to move leftwards, and the device is reset.
The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.