Energy-saving air heater
Technical Field
The utility model relates to the technical field of air heaters, in particular to an energy-saving air heater.
Background
Need heat the air in some environment, traditional electric heating mode, comparatively take electric and use energy-conservation not enough and can not be better the satisfying demand.
The energy-saving air heater provided by the application number 202022539290.0 in the prior art comprises a heater shell, a heater shell and a heating device, wherein the heater shell is in a shell shape with two open ends, one end of the heater shell is an air inlet port, the other end of the heater shell is a heating port, and an air outlet is formed in the side wall of one end, far away from the air inlet port, of the heater shell; the outer wall of the heater shell is coated with a layer of heat insulation cotton; the combined heating pipe extends into the inner cavity of the heater shell through the heating port; one end of the solar preheating pipe is communicated with the air inlet port, the other end of the solar preheating pipe is connected with an external air supply device, heat absorption fin plates are uniformly distributed on the side wall of the solar preheating pipe, a heat absorption chamber is formed inside each heat absorption fin plate, and the heat absorption chamber is communicated with the inner cavity of the solar preheating pipe.
Although the solar heating device also adopts a solar heating mode, when air cannot be stored well, air leakage and the like are easy to cause and inconvenient to use.
SUMMERY OF THE UTILITY MODEL
The technical problem to be solved by the utility model is to overcome the existing defects, and provide an energy-saving air heater, which can well store air, heat and preserve heat by utilizing solar energy, can well seal an air inlet after the air is introduced, prevent air leakage and effectively solve the problems in the background art.
In order to achieve the purpose, the utility model provides the following technical scheme: an energy-saving air heater comprises a base, an air inlet heating unit and a sealing unit;
base: the upper end of the heat-insulating cylinder is provided with an arc-shaped heat-insulating cylinder;
an intake air heating unit: the solar energy heat preservation device comprises a triangular solar heating plate, an air inlet pump, an air inlet short pipe, an air inlet filter screen plate and an air pressure gauge, wherein the triangular solar heating plate is installed at the front end of an arc-shaped heat preservation cylinder; can go into arc heat preservation section of thick bamboo with the fine storage of outside air through the pump that admits air, utilize the filter screen on the filter screen board that admits air to prevent that big dust from getting into when admitting air, then carry out fine heating through triangle solar heating board to the air in the arc heat preservation section of thick bamboo.
A sealing unit: is arranged at the left end of the arc-shaped heat preservation cylinder.
Further, the unit of sealing contains spring cartridge, movable rod, elasticity even dish and sealing spring, the left end at an arc heat preservation section of thick bamboo is installed to the spring cartridge, the inside sliding connection of spring cartridge has the movable rod, the right-hand member of movable rod is installed elasticity even dish, the inside left end at the spring cartridge is connected to the left end of sealing spring, the right-hand member and the elasticity even dish swing joint of sealing spring. The elastic connecting disc can drive the movable rod to move right through the elastic force of the sealing spring, so that the short air inlet pipe is sealed in a natural state.
Further, seal the unit and still contain the cover mouth of pipe cap and carry the handle of pulling, the handle of pulling is installed to the left end of movable rod, the cover mouth of pipe cap is connected with the movable rod through mouth cap even board, the internally mounted of cover mouth of pipe cap has the sealing washer. The cover pipe orifice cap can be rotated by pulling the lifting handle, and then the cover pipe orifice cap is rotated to the corresponding position of the air inlet short pipe to seal the air inlet short pipe.
Further, still include the outlet duct, the outlet duct is installed to the right-hand member of arc heat preservation section of thick bamboo. The heated air can flow out more conveniently through the air outlet pipe.
Furthermore, the air outlet valve is also arranged on the air outlet pipe. Whether the gas in the arc-shaped heat preservation cylinder flows out or not can be realized by controlling the gas outlet switch valve.
Further, still include the mounting bar, two mounting bars are installed to the lower extreme of base. The mounting bar can be fixed on the roof by using an external bolt, so that the heater can be well fixed.
Compared with the prior art, the utility model has the beneficial effects that: the energy-saving air heater has the following advantages:
1. this energy-saving air heater is equipped with the heating element that admits air, can advance an arc heat preservation section of thick bamboo with the fine storage of outside air through the pump of admitting air in, the filter screen that utilizes on the filter screen board of admitting air can prevent that big dust from getting into when admitting air, then carries out fine heating through triangle solar energy heating board to the air in the arc heat preservation section of thick bamboo.
2. The energy-saving air heater is provided with a sealing unit, and the elastic connecting disc can drive the movable rod to move right through the elasticity of the sealing spring so as to seal the short air inlet pipe in a natural state.
3. The sealing unit arranged on the energy-saving air heater can enable the nozzle cap of the cover pipe to rotate by pulling the lifting handle, and then the nozzle cap is rotated to the corresponding position of the air inlet short pipe to seal the air inlet short pipe.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the left side of the present invention;
fig. 3 is a schematic view of the internal structure of the spring case of the present invention.
In the figure: the solar energy heat preservation device comprises a base 1, an arc-shaped heat preservation cylinder 2, an air inlet heating unit 3, a triangular solar heating plate 31, an air inlet pump 32, an air inlet short pipe 33, an air inlet filter screen plate 34, an air pressure gauge 35, a sealing unit 4, a spring cylinder 41, a movable rod 42, an elastic connecting disc 43, a sealing spring 44, a pipe orifice cap 45, a lifting handle 46, an air outlet pipe 5, an air outlet switch valve 6 and a mounting strip 7.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-3, the present embodiment provides a technical solution: an energy-saving air heater comprises a base 1, an air inlet heating unit 3 and a sealing unit 4;
base 1: the upper end of the heat-insulating cylinder is provided with an arc-shaped heat-insulating cylinder 2;
intake air heating unit 3: the solar energy heat preservation device comprises a triangular solar heating plate 31, an air inlet pump 32, an air inlet short pipe 33, an air inlet filter screen plate 34 and an air pressure gauge 35, wherein the triangular solar heating plate 31 is installed at the front end of an arc heat preservation cylinder 2, the air inlet pump 32 is installed at the left end of the arc heat preservation cylinder 2, the outlet end of the air inlet pump 32 is connected to an air inlet at the left end of the arc heat preservation cylinder 2 through an air pipe, the air inlet short pipe 33 is installed at the inlet end of the air inlet pump 32, the air inlet filter screen plate 34 is installed inside the air inlet short pipe 33, a filter screen is installed on the air inlet filter screen plate 34, and the air pressure gauge 35 is installed at the upper end of the arc heat preservation cylinder 2; can be fine the storage of outside air into arc heat preservation section of thick bamboo 2 through air inlet pump 32, utilize the filter screen on the filter screen board 34 of admitting air to prevent that big dust from getting into when admitting air, then carry out fine heating through triangle solar energy hot plate 31 to the air in the arc heat preservation section of thick bamboo 2.
The sealing unit 4: is arranged at the left end of the arc-shaped heat preservation cylinder 2.
The sealing unit 4 comprises a spring cylinder 41, a movable rod 42, an elastic connecting disc 43 and a sealing spring 44, wherein the spring cylinder 41 is installed at the left end of the arc-shaped heat-insulating cylinder 2, the movable rod 42 is slidably connected inside the spring cylinder 41, the elastic connecting disc 43 is installed at the right end of the movable rod 42, the left end of the sealing spring 44 is connected to the left end inside the spring cylinder 41, and the right end of the sealing spring 44 is movably connected with the elastic connecting disc 43. The elastic force of the sealing spring 44 can make the elastic connecting disc 43 drive the movable rod 42 to move right, so as to seal the short air inlet pipe 33 in a natural state.
The sealing unit 4 further comprises a cover nozzle cap 45 and a lifting handle 46, the lifting handle 46 is installed at the left end of the movable rod 42, the cover nozzle cap 45 is connected with the movable rod 42 through a nozzle cap connecting plate, and a sealing ring is installed inside the cover nozzle cap 45. The nozzle cap 45 is rotated by pulling the carrying handle 46 and then rotated to the position corresponding to the inlet stub 33 to seal it.
Still include outlet duct 5, outlet duct 5 is installed to the right-hand member of arc heat preservation section of thick bamboo 2. The heated air can flow out more conveniently through the air outlet pipe 5.
The air outlet valve 6 is further included, and the air outlet valve 6 is installed on the air outlet pipe 5. Whether the gas in the arc-shaped heat preservation cylinder 2 flows out or not can be realized by controlling the gas outlet switch valve 6.
Still include mounting bar 7, two mounting bars 7 are installed to the lower extreme of base 1. The mounting bar 7 can be fixed to the roof by using external bolts, thereby fixing the heater well.
The working principle of the energy-saving air heater provided by the utility model is as follows: the air storage who admits air earlier advances arc heat preservation section of thick bamboo 2 with outside through admitting air pump 32, utilize the filter screen on the filter screen board of admitting air 34 to prevent that big dust from getting into when admitting air, numerical value through observing barometer 35, the work of control pump 32 of admitting air, and carry handle 46 to make lid mouth of pipe cap 45 rotate through the pulling, it reaches inlet pipe stub 33 and corresponds position department, utilize the elasticity of sealing spring 44 to drive it and seal inlet pipe stub 33, heat the air in the arc heat preservation section of thick bamboo 2 through triangle solar energy hot plate 31 at last, and is convenient and fast and more energy-conserving.
It should be noted that the triangular solar heating plate 31 disclosed in the above embodiments is made by using the working principle of a solar water heater, the air intake pump 32 may be made by using the brand outlanding, the barometer 35 may be made by using the model of the self-instrument in the brand as Y-100, the input end of the air intake pump 32 is electrically connected to the output end of the external control switch, the input end of the external control switch is electrically connected to the output end of the external power supply, and the external control switch controls the operation of the air intake pump 32 by using the method commonly used in the prior art.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.