Disclosure of Invention
The invention provides a humidifying device for building construction, which can enlarge the humidifying range, can uniformly and sufficiently humidify the construction environment and improve the humidifying efficiency.
The technical scheme of the invention is as follows: the utility model provides a humidification device for construction, is including mounting plate, support frame, mounting bracket, torque spring, water pump, subassembly, motor support, drive motor, water delivery subassembly and the mechanism of shaking head, support frame fixed connection side on mounting plate, the mounting bracket rotary type is connected on support frame upper portion, be connected with torque spring between support frame and the mounting bracket, water pump fixed connection side on mounting plate, the subassembly of blowing establish on the mounting bracket and with drive motor's output shaft, the motor support is established on the subassembly of blowing, drive motor fixed connection is at motor support top, the water delivery subassembly is established on the water pump, the mechanism of shaking head is established on the motor support and is connected with the mounting bracket.
As preferred, the subassembly of blowing is including fan housing, screen panel, fan wheel and worm, the fan housing rotary type is connected on the mounting bracket, motor support fixed connection is in the fan housing lower part, the three screen panel of fan housing upper portion both sides fixedly connected with, fan wheel rotary type is connected in the fan housing, worm fixed connection is on drive motor's output shaft, drive motor's one end and fan wheel fixed connection are kept away from to the worm.
As preferred, water delivery subassembly is including stereoplasm toper pipe, hose and atomizer, stereoplasm toper pipe lower extreme is connected on the water pump and is communicate with the water pump, the hose lower extreme is connected in stereoplasm toper pipe upper end and is communicated with stereoplasm toper pipe, one side of worm is kept away from to atomizer fixed connection at the fan housing, atomizer and hose upper end intercommunication, it has a plurality of apertures to open on the atomizer.
As preferred, the mechanism of shaking head is including rotation axis, turbine, crank and fluting board, the rotation axis rotary type is connected on the motor support, turbine fixed connection is in the rotation axis upper end, worm and turbine meshing, crank fixed connection is at the rotation axis lower extreme, fluting board fixed connection is in mounting bracket upper portion one side, the crank lower extreme is connected with fluting board slidingtype.
Preferably, still including angle of elevation adjustment mechanism, angle of elevation adjustment mechanism establishes on the support frame and with motor support connection, angle of elevation adjustment mechanism is including fixed square pole, arc gib block and fixed slide bar, two fixed square poles of support frame middle part fixedly connected with, two fixed square pole is the symmetry setting, two fixedly connected with arc gib block between the fixed square pole, one side lower part of fan housing is kept away from at motor support to fixed slide bar fixed connection, fixed slide bar and arc gib block contact.
Preferably, still including flow control mechanism, flow control mechanism establishes on the mounting bracket and is connected with stereoplasm toper pipe, flow control mechanism is including fixed slot pole, tapered slot pole and cowl, fixed slot pole fixed connection is in one side lower part that the mounting bracket is close to stereoplasm toper pipe, one side that the mounting bracket was kept away from to tapered slot pole sliding type connection at the fixed slot pole, tapered slot pole and stereoplasm toper pipe sliding type connection, tapered slot pole lower extreme is located the stereoplasm toper pipe, cowl fixed connection is in tapered slot pole middle part, cowl and the contact of the stereoplasm toper outside of tubes side.
Preferably, the atomizing device further comprises a spherical outer cover, the spherical outer cover is rotatably connected to the atomizing spray head, and a plurality of small holes are formed in the spherical outer cover.
Preferably, the atomizing nozzle further comprises an arc-surface perforated baffle, and the arc-surface perforated baffle is fixedly connected to one end, far away from the fan cover, of the atomizing nozzle.
Has the advantages that:
1. according to the invention, the fan impeller and the atomizing nozzle are driven to swing left and right by the left-right swing of the worm, and the screen cover is driven to swing left and right by the left-right swing of the fan cover, so that the fan impeller and the atomizing nozzle swing left and right, the humidifying range is expanded, and the humidifying efficiency is further improved.
2. The air cover swings upwards to drive the mounting frame, the net cover and the fan impeller to swing upwards, so that the atomizing nozzle and the fan impeller humidify the environment in an elevation angle mode when swinging, the humidifying range is further expanded, the same area is prevented from being humidified all the time, and the environment is humidified more dispersedly.
3. According to the invention, the gap between the hard conical pipe and the conical groove rod is enlarged by the upward movement of the conical groove rod, so that the water flow is increased, the humidification range is enlarged, the atomization amount of water is increased, the surrounding environment is kept at the same humidity as much as possible, and the humidification is more uniform.
4. The invention guides the air blown out by the fan impeller through the cambered surface perforated baffle, and the fan impeller rotates to blow water mist to the periphery through the cambered surface perforated baffle, so that the water mist can humidify the environment in a wider range, and further fully humidify the environment.
Drawings
Fig. 1 is a schematic view of a first overall structure of a humidifying device for building construction according to the present invention.
Fig. 2 is a schematic view of a second overall structure of the humidifying device for building construction of the present invention.
Fig. 3 is a schematic diagram of a third overall structure of the humidifying device for building construction according to the present invention.
FIG. 4 is an enlarged view of A in FIG. 2 according to the present invention.
Fig. 5 is a schematic structural diagram of a rigid tapered tube, a fixed groove rod, a tapered groove rod and an arc baffle in the humidifying device for building construction.
Fig. 6 is a schematic structural view of an atomizing nozzle, a spherical outer cover and a cambered surface perforated baffle in the humidifying device for building construction.
Fig. 7 is a schematic diagram of a fourth overall structure of the humidifying device for building construction of the present invention.
Fig. 8 is a schematic view of a fifth overall structure of the humidifying device for building construction of the present invention.
Description of reference numerals: 1-installation bottom plate, 2-support frame, 3-installation frame, 31-torsion spring, 4-water pump, 5-blowing component, 51-fan cover, 52-mesh cover, 53-fan impeller, 54-worm, 6-motor support, 7-transmission motor, 8-water delivery component, 81-hard conical tube, 82-hose, 83-atomization nozzle, 9-oscillating mechanism, 91-rotating shaft, 92-turbine, 93-crank, 94-slotted plate, 10-elevation angle adjusting mechanism, 101-fixed square rod, 102-arc guide bar, 103-fixed sliding rod, 11-flow control mechanism, 111-fixed slotted rod, 112-conical slotted rod, 113-arc baffle, 121-spherical outer cover and 131-arc perforated baffle.
Detailed Description
In the description of the present invention, it should be noted that the terms "connected" and "connected" are used broadly and should be understood to include, for example, fixed connections, detachable connections, integrated connections, mechanical connections, electrical connections, direct connections, and indirect connections through intervening media, unless expressly specified or limited otherwise. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.
Example 1
The utility model provides a humidification device for construction, as shown in fig. 1-3, including mounting plate 1, support frame 2, mounting bracket 3, torsion spring 31, water pump 4, subassembly 5 of blowing, motor support 6, driving motor 7, water delivery subassembly 8 and the mechanism 9 of shaking the head, support frame 2 welding is to the side on mounting plate 1, mounting bracket 3 rotary type is connected on 2 upper portions of support frame, be connected with torsion spring 31 through the couple between support frame 2 and the mounting bracket 3, water pump 4 passes through bolted connection in mounting plate 1 to the side, subassembly 5 of blowing is established on mounting bracket 3 and with the output shaft of driving motor 7, subassembly 5 of blowing is used for blowing off water smoke around the environment, humidifies the environment, motor support 6 is established on subassembly 5 of blowing, driving motor 7 passes through bolted connection at motor support 6 top, water delivery subassembly 8 is established on water pump 4, water delivery subassembly 8 is used for carrying water and atomizing blowout to subassembly 5 of blowing off, the mechanism 9 of shaking the head is established on motor support 6 and is connected with motor support 3, water delivery subassembly 8 is used for left side swing the mechanism 5 and then lets the humidification scope expand the humidification scope.
Blowing component 5 is including fan housing 51, screen panel 52, fan wheel 53 and worm 54, the fan housing 51 rotary type is connected on mounting bracket 3, motor support 6 fixed connection is in the fan housing 51 lower part, the three screen panel 52 of fan housing 51 upper portion both sides fixedly connected with, fan wheel 53 rotary type is connected in fan housing 51, fan wheel 53 is used for blowing away water smoke, worm 54 is established on the output shaft of driving motor 7, worm 54 is the level setting, the one end and the fan wheel 53 fixed connection of driving motor 7 are kept away from to worm 54.
Water delivery subassembly 8 is including stereoplasm taper pipe 81, hose 82 and atomizer 83, stereoplasm taper pipe 81 lower extreme is connected on water pump 4 and with water pump 4 intercommunication, hose 82 lower extreme is connected on stereoplasm taper pipe 81 and with stereoplasm taper pipe 81 intercommunication, hose 82 has the guide effect to water, atomizer 83 fixed connection is in the one side that worm 54 was kept away from to fan housing 51, atomizer 83 is used for the atomized water to with the water smoke blowout, atomizer 83 and hose 82 upper end intercommunication, it has a plurality of apertures to open on the atomizer 83.
Mechanism 9 of shaking head is including rotation axis 91, turbine 92, crank 93 and fluting board 94, rotation axis 91 rotary type is connected on motor support 6, rotation axis 91 is vertical setting, turbine 92 is established in rotation axis 91 upper end, worm 54 and the meshing of turbine 92, crank 93 fixed connection is at rotation axis 91 lower extreme, fluting board 94 fixed connection is in mounting bracket 3 upper portion one side, it has the spout to open on the fluting board 94, crank 93 lower extreme and fluting board 94 sliding connection.
In actual operation, the staff moves the mounting base plate 1 to the appropriate position for humidification, then communicates the water pipe to the water pump 4, then starts the transmission motor 7 and the water pump 4, the rotation of the output shaft of the transmission motor 7 can drive the worm 54 to rotate, the rotation of the worm 54 can drive the fan impeller 53 to rotate, the water pump 4 can convey water into the hard tapered pipe 81, and then convey the water into the hose 82 from the hard tapered pipe 81, the water is atomized and sprayed out by the atomizing nozzle 83, the rotation of the fan impeller 53 can blow the water mist to the surroundings, and then the surrounding environment is humidified.
The worm 54 drives the worm 92 engaged with the worm 54 to slowly rotate while rotating, the slow rotation of the worm 92 drives the rotating shaft 91 to slowly rotate, the slow rotation of the rotating shaft 91 drives the crank 93 to rotate along the chute of the slotted plate 94, because the slotted plate 94 is fixedly connected with the mounting rack 3, the slotted plate 94 abuts against the crank 93, so that the crank 93 deflects while rotating, the swinging of the crank 93 drives the rotating shaft 91 to swing, the swinging of the rotating shaft 91 drives the motor support 6 and the worm 92 to swing, the swinging of the motor support 6 drives the transmission motor 7, the worm 54 and the fan housing 51 swing, the swinging of the worm 54 drives the fan impeller 53 and the atomizing nozzle 83 to swing, the swinging of the fan housing 51 drives the mesh 52 to swing, the swinging of the crank 93 by 180 degrees drives the rotating shaft 91 to reset, the resetting of the rotating shaft 91 drives the motor support 6 and the worm 92 to reset, the resetting of the motor support 6 drives the transmission motor 7, the worm 54 and the fan housing 51 to reset, the fan impeller 53 and the fan impeller 83 to reset by the swinging of the fan impeller 51, the swinging of the fan support 51 and the fan support 51, the swinging of the worm support 91 and the worm support 92 drives the rotation shaft 54 and the resetting motor 54, the rotation of the fan impeller 54, the rotation shaft 54 and the rotation of the fan motor support 54, the rotation of the fan support 54, the fan support 54 and the rotation of the fan support 54, the fan motor support 54 and the fan support 54, the rotation of the fan support 54 and the fan support 54, the fan support 54 and the rotation of the fan cover 52 and the fan support 54, the rotation of the fan cover 52, the rotation shaft 54, the rotation of the fan and the fan support 53 and the motor support 53 and the fan cover 52, the rotation of the motor support 91, the rotation of the fan cover 53 and the rotation of the fan and the motor support 91, the fan cover 53, the fan cover 52, the fan and the motor 7, the rotation of the fan cover 53 and the rotation of the motor 7, the fan cover 52, the swing of the fan cover 51 drives the mesh enclosure 52 to reset, so that the fan impeller 53 and the atomizing nozzle 83 swing left and right, the humidifying range is expanded, and the humidifying efficiency is improved.
Example 2
On the basis of embodiment 1, as shown in fig. 3, the humidifying device further includes an elevation angle adjusting mechanism 10, the elevation angle adjusting mechanism 10 is disposed on the support frame 2 and connected to the motor support 6, the elevation angle adjusting mechanism 10 is configured to humidify the environment in an elevation angle manner when the atomizing nozzle 83 and the fan impeller 53 swing, so as to further expand a humidification range, and avoid humidifying the same area all the time, and further humidify the environment more dispersedly, the elevation angle adjusting mechanism 10 includes fixed square bars 101, arc-shaped guide bars 102 and fixed slide bars 103, the middle portion of the support frame 2 is welded with two fixed square bars 101, the two fixed square bars 101 are symmetrically disposed, the arc-shaped guide bars 102 are fixedly connected between the two fixed square bars 101, the fixed slide bars 103 are fixedly connected to a lower portion of one side of the motor support 6, which is far away from the fan housing 51, the fixed slide bars 103 are in contact with the arc-shaped guide bars 102, and the fixed slide bars 103 are located below the arc-shaped guide bars 102.
The swing of the motor support 6 can drive the fixed slide bar 103 to swing, the swing of the fixed slide bar 103 can make the arc-shaped guide strip 102 extrude the fixed slide bar 103 to move downwards, because the mounting frame 3 is rotatably connected with the support frame 2, the downward movement of the fixed slide bar 103 can drive the motor support 6 to swing downwards, the downward swing of the motor support 6 can drive the fan housing 51 to swing upwards, the upward swing of the fan housing 51 can drive the mounting frame 3, the mesh cover 52 and the fan impeller 53 to swing upwards, the torsion spring 31 is twisted, so that the atomizing nozzle 83 and the fan impeller 53 can humidify the environment in an elevation angle mode when swinging, thereby further expanding the humidification range, avoiding humidifying the same area all the time, further dispersedly humidifying the environment, the reset of the motor support 6 can drive the fixed slide bar 103 to reset, the reset of the torsion spring 31 can drive the mounting frame 3 to reset downwards, the downward reset of the mounting frame 3 can drive the fan housing 51 to reset downwards, the downward reset of the fan housing 51 can drive the motor support 6, the atomizing nozzle 83 and the fan impeller 53 reset, the upward reset of the motor support 6 can drive the fixed slide bar 103 to reset upwards.
Example 3
On the basis of embodiment 2, as shown in fig. 4 to 5, a flow control mechanism 11 is further included, the flow control mechanism 11 is disposed on the mounting frame 3 and connected to the hard tapered tube 81, the flow control mechanism 11 is configured to intermittently increase the flow of water, so as to increase the atomization amount of water while expanding the humidification range, so that the surrounding environment is at the same humidity as possible, so that the humidification is more uniform, the flow control mechanism 11 includes a fixed grooved rod 111, a tapered grooved rod 112, and an arc-shaped baffle 113, the fixed grooved rod 111 is welded to a lower portion of the mounting frame 3 on a side close to the hard tapered tube 81, the tapered grooved rod 112 is slidably connected to a side of the fixed grooved rod 111 away from the mounting frame 3, the tapered grooved rod 112 is slidably connected to the hard tapered tube 81, the tapered rod 112 is used for adjusting the flow of water, a lower end of the tapered rod 112 is located in the hard tapered tube 81, the arc-shaped baffle 113 is fixedly connected to a middle portion of the tapered rod 112, the arc-shaped baffle 113 is in contact with an outer side of the hard tapered tube 81, and the hard arc-shaped baffle 113 always blocks the water in the hard tapered tube 81 to prevent leakage.
Firstly, water in the hard tapered tube 81 is conveyed to the hose 82 through a gap between the hard tapered tube 81 and the tapered slot rod 112, the mounting frame 3 swings upwards and simultaneously drives the fixed slot rod 111 to move upwards, the fixed slot rod 111 moves upwards and drives the tapered slot rod 112 to move upwards, the tapered slot rod 112 moves upwards and drives the arc baffle 113 to move upwards, the arc baffle 113 always blocks water in the hard tapered tube 81 to prevent leakage, the tapered slot rod 112 moves upwards to enable the gap between the hard tapered tube 81 and the tapered slot rod 112 to be enlarged, and further the water flow is increased, so that the atomization amount of the water can be increased while the humidification range is enlarged, the surrounding environment is at the same humidity as far as possible, the humidification is more uniform, the mounting frame 3 resets downwards to drive the fixed slot rod 111 to reset downwards, the fixed slot rod 111 resets downwards to drive the tapered slot rod 112 to reset downwards, the tapered slot rod 112 resets downwards to drive the arc baffle 113 to reset downwards, and the tapered slot rod 112 resets downwards.
Example 4
Based on embodiment 3, as shown in fig. 6 to 8, the humidifier further includes a spherical housing 121, the spherical housing 121 is rotatably connected to the atomizer 83, a plurality of small holes are formed on the spherical housing 121, and the spherical housing 121 facilitates adjusting the humidification amount according to actual conditions to prevent excessive humidification.
When the humidity in the environment is about to reach the maximum standard, the worker can rotate the spherical outer cover 121 to block half of the small holes of the atomizing nozzle 83 by the spherical outer cover 121, so that the amount of the water mist sprayed by the atomizing nozzle 83 is reduced, the humidification amount is reduced when the humidity in the environment is about to reach the standard, the humidification amount can be conveniently adjusted according to the situation, and excessive humidification is prevented.
Example 5
On the basis of embodiment 4, as shown in fig. 6, the atomizing nozzle further includes an arc-shaped baffle 131, the arc-shaped baffle 131 is fixedly connected to one end of the atomizing nozzle 83 away from the fan cover 51, and the arc-shaped baffle 131 is used for guiding the mist blown out by the fan impeller 53.
Cambered surface trompil baffle 131 is used for leading the wind that blows out fan wheel 53, and fan wheel 53 rotates and can blow off the water smoke all around through cambered surface trompil baffle 131 to make water smoke can carry out the humidification to the environment more extensively, and then fully humidify the environment.
The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.