阅读说明：本技术 一种高效能喷雾装置 (High-effect spraying device ) 是由 王萍 于 2020-08-07 设计创作，主要内容包括：本发明公开了一种高效能喷雾装置,包括矩形移动外壳。本发明首先使得吸入的空气进行冷却的热转换,将进入的空气冷却,冷却后空气的温度降低,使得空气中产生一定的微小液体颗粒,而后,再使得冷却后的空气进入到雾气区域,由于雾气的作用,空气中掺入较大的液体颗粒,该液体颗粒会吸附周围的微小液体,从而产生效果更强的雾气效果,该聚集的液体颗粒,在空气的流动作用下,进入到空间更小的区域,由于空间压缩作用,使得聚集的液体颗粒在高压下,产生效果更好的雾气效果,进而在同等风机效率下,产生高质量的雾气。(The invention discloses a high-efficiency spraying device which comprises a rectangular movable shell. The invention firstly carries out cooling heat conversion on sucked air, cools the entered air, reduces the temperature of the cooled air to generate certain tiny liquid particles in the air, then leads the cooled air to enter a fog area, and leads the air to be doped with bigger liquid particles under the action of fog, and the liquid particles can adsorb surrounding tiny liquid, thereby generating stronger fog effect.)

1. A high-efficiency spraying device comprises a rectangular movable shell (1), and is characterized in that: the rectangular movable shell is characterized in that roller mounting spaces (2) are arranged on two sides of the bottom of the rectangular movable shell (1), a roller (3) is mounted on the rectangular movable shell (1) through a bearing on a structure located in the roller mounting spaces (2), two liquid storage spaces (4) and main component mounting spaces (5) which are not communicated with each other are arranged in the center of the rectangular movable shell (1), communicated main liquid through holes (6) are formed in the bottoms of one sides of the liquid storage spaces (4) and the main component mounting spaces (5), a main liquid injection hole (7) communicated with the top of the liquid storage space (4) is formed in the top of the rectangular movable shell (1), auxiliary liquid through holes (8) and a main pipeline mounting hole (9) communicated with the top of the main component mounting spaces (5) are formed in the top of the rectangular movable shell (1), and a main rotating shaft (10) is mounted on the upper surface of the rectangular movable shell (1) through a main, the top end of the main rotating shaft (10) is installed on a transverse pipeline body (12) through a movable hinge (11), one end of the transverse pipeline body (12) is provided with a cylindrical space (13), the rectangular movable shell (1) is provided with a conical space (14) on one side of the cylindrical space (13), a snakelike pipeline air filtering type cooling mechanism (15) is installed inside the cylindrical space (13), the rectangular movable shell (1) is provided with two pipeline installation holes (16) on the structure positioned on the side surface of the cylindrical space (13), the top of the rectangular movable shell (1) is provided with a driving motor (25), a belt pulley (26) is installed at the end part of a main shaft in the driving motor (25), a belt hole (22) is arranged right below the belt pulley (26) at the top of the rectangular movable shell (1), and a support rod is installed on one side of the cylindrical space (13) of the rectangular movable shell (1), a main shaft sleeve (21) is arranged at the top of the supporting rod, a secondary rotating shaft (23) is arranged in the transverse inner part of the main shaft sleeve (21) through a main bearing, another belt pulley (26) is arranged at one shaft body of the secondary rotating shaft (23), a belt (27) penetrating through the belt pulley (22) is sleeved between the two belt pulleys (26), fan blades (24) with air inlets facing to the cylindrical space (13) are respectively arranged on shaft bodies at two ends of the secondary rotating shaft (23), an annular liquid hole (18) is arranged in one side of the transverse pipeline body (12) positioned in the belt hole (22), a main liquid discharging hole (19) communicating the annular liquid hole (18) with the bottom space of the transverse pipeline body (12) is arranged in the transverse pipeline body (12), a plurality of secondary liquid discharging holes (17) communicating the annular liquid hole (18) with the conical space (14) are arranged in the transverse pipeline body (12), and a liquid atomizing spray head (20) is arranged in each auxiliary liquid discharge hole (17).

2. The high efficiency spray apparatus as recited in claim 1 wherein: serpentine conduit air filtration formula cooling body (15) includes serpentine conduit (151) for serpentine conduit air filtration formula cooling body, serpentine conduit air filtration formula feed channel (152) for cooling body, serpentine conduit air filtration formula cooling body is with blow-off pipeline (153), serpentine conduit air filtration formula cooling body is with serpentine conduit hole (154), serpentine conduit air filtration formula cooling body is with feed hole (155) and serpentine conduit air filtration formula cooling body is with blow-off hole (156).

3. The high efficiency spray apparatus as recited in claim 2 wherein: serpentine air filtering type cooling mechanism is provided with serpentine air filtering type cooling mechanism feed pipeline (152) and serpentine air filtering type cooling mechanism discharge pipeline (153) of integral structure at the two ends of serpentine air filtering type cooling mechanism serpentine pipeline (151) respectively, serpentine air filtering type cooling mechanism feed pipeline (152), serpentine air filtering type cooling mechanism discharge pipeline (153) are provided with serpentine air filtering type cooling mechanism serpentine pipeline hole (154), serpentine air filtering type cooling mechanism feed hole (155) and serpentine air filtering type cooling mechanism discharge hole (156) inside respectively, and the serpentine air filtering type cooling mechanism feed hole (155) and serpentine air filtering type cooling mechanism discharge hole (156) are provided with the two ends of serpentine air filtering type cooling mechanism feed hole (155) and serpentine air filtering type cooling mechanism discharge hole (155) respectively 156) And (4) communicating.

4. The high efficiency spray apparatus as recited in claim 3 wherein: the serpentine air filtering cooling mechanism is arranged in the cylindrical space (13) by the pipeline wall of the serpentine pipeline (151).

5. The high efficiency spray apparatus as recited in claim 3 wherein: the pipeline bodies of the feeding pipeline (152) for the serpentine pipeline air filtering type cooling mechanism and the discharging pipeline (153) for the serpentine pipeline air filtering type cooling mechanism respectively penetrate through and are installed inside the two pipeline installation holes (16).

Technical Field

The invention relates to the technical field of spraying devices, in particular to a high-efficiency spraying device.

Background

At present, current atomizer all utilizes the fan, drives a large amount of air and impresses in the spray pipe way, recycles the toper structure, compresses the air to form high-pressure air, this high-pressure air makes the air produce the fog, thereby realizes the spraying function.

Disclosure of Invention

The present invention is directed to a high efficiency spraying apparatus to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency spraying device comprises a rectangular movable shell, wherein roller installation spaces are arranged on two sides of the bottom of the rectangular movable shell, a roller is installed on the structure, located in the roller installation spaces, of the rectangular movable shell through a bearing, two liquid storage spaces and a main component installation space which are not communicated with each other are arranged in the center of the rectangular movable shell, a main liquid through hole communicated with the bottom of one side of each of the liquid storage spaces and the main component installation space is formed in the bottom of the rectangular movable shell, a main liquid injection hole communicated with the top of each of the liquid storage spaces is formed in the top of the rectangular movable shell, an auxiliary liquid through hole and a main pipe installation hole communicated with the top of each of the main component installation spaces are formed in the top of the rectangular movable shell, a main rotating shaft is installed on the upper surface of the rectangular movable shell through a main bearing, the top end of the main rotating shaft is installed on, the rectangular movable shell is provided with a conical space at one side of the cylindrical space, a snakelike pipeline air filtering type cooling mechanism is arranged in the cylindrical space, two pipeline mounting holes are formed in a structure on the side surface of the cylindrical space, a driving motor is arranged at the top of the rectangular movable shell, a belt pulley is arranged at the end part of a motor spindle in the driving motor, a belt hole is formed in the top of the rectangular movable shell under the belt pulley, a supporting rod is arranged at one side of the cylindrical space, a spindle sleeve is arranged at the top of the supporting rod, a secondary rotating shaft is arranged in the transverse inner part of the spindle sleeve through a main bearing, another belt pulley is arranged at one shaft of the secondary rotating shaft, and a belt penetrating through the belt pulley is sleeved between the two belt pulleys, the belt conveyor is characterized in that fan blades with air inlets facing cylindrical spaces are respectively installed on shaft bodies at two ends of the auxiliary rotating shaft, an annular liquid hole is formed in one side of the belt hole, a main liquid drainage hole communicating the annular liquid hole with the bottom space of the transverse pipeline body is formed in the transverse pipeline body, a plurality of auxiliary liquid drainage holes communicating the annular liquid hole with the conical space are formed in the transverse pipeline body, and a liquid atomization nozzle is installed in each of the auxiliary liquid drainage holes.

Further, serpentine pipeline air filtration formula cooling body includes serpentine pipeline for serpentine pipeline air filtration formula cooling body, serpentine pipeline air filtration formula feed pipe for cooling body, serpentine pipeline air filtration formula cooling body is with arranging material pipeline, serpentine pipeline air filtration formula cooling body is with serpentine pipeline hole, serpentine pipeline air filtration formula feed port for cooling body and serpentine pipeline air filtration formula relief hole for cooling body.

Furthermore, both ends of the serpentine pipeline for the serpentine pipeline air filtering type cooling mechanism are respectively provided with a feeding pipeline for the serpentine pipeline air filtering type cooling mechanism and a discharging pipeline for the serpentine pipeline air filtering type cooling mechanism, the inside of the serpentine pipeline for the serpentine pipeline air filtering type cooling mechanism, the serpentine pipeline for the serpentine pipeline air filtering type cooling mechanism and the serpentine pipeline for the serpentine pipeline air filtering type cooling mechanism are respectively provided with a serpentine pipeline hole for the serpentine pipeline air filtering type cooling mechanism, a serpentine pipeline feeding hole for the serpentine pipeline air filtering type cooling mechanism and a serpentine pipeline discharge hole for the serpentine pipeline air filtering type cooling mechanism, and the two ends of the coiled pipeline air filtering type cooling mechanism for the coiled pipeline hole are respectively communicated with the feeding hole for the coiled pipeline air filtering type cooling mechanism and the discharging hole for the coiled pipeline air filtering type cooling mechanism.

Further, the serpentine pipeline air filtering type cooling mechanism is installed inside the cylindrical space by the pipeline wall of the serpentine pipeline.

Furthermore, the pipeline bodies of the feeding pipeline for the serpentine pipeline air filtering type cooling mechanism and the discharge pipeline for the serpentine pipeline air filtering type cooling mechanism respectively penetrate through and are installed inside the two pipeline installation holes.

Compared with the prior art, the invention has the beneficial effects that: the invention firstly carries out cooling heat conversion on sucked air, cools the entered air, reduces the temperature of the cooled air to generate certain tiny liquid particles in the air, then leads the cooled air to enter a fog area, and leads the air to be doped with bigger liquid particles under the action of fog, and the liquid particles can adsorb surrounding tiny liquid, thereby generating stronger fog effect.

Drawings

FIG. 1 is a schematic diagram of a full-sectional structure of a high-performance spraying apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of a serpentine air filtering cooling mechanism of a high performance atomizer according to the present invention;

in the figure: 1, rectangular movable housing, 2, roller mounting space, 3, rollers, 4, liquid storage space, 5, main part mounting space, 6, main liquid through hole, 7, main liquid injection hole, 8, sub-liquid through hole, 9, main pipe mounting hole, 10, main rotation axis, 11, living hinge, 12, horizontal pipe body, 13, cylindrical space, 14, conical space, 15, serpentine pipe air filtration type cooling mechanism, 151, serpentine pipe for air filtration type cooling mechanism, 152, serpentine pipe for air filtration type cooling mechanism, 153, serpentine pipe for air filtration type cooling mechanism, 154, serpentine pipe hole for air filtration type cooling mechanism, 155, serpentine pipe for air filtration type cooling mechanism, 156, serpentine pipe for air filtration type cooling mechanism, 16, pipe mounting hole, 6, and the like, 17, auxiliary liquid discharge holes 18, annular liquid holes 19, main liquid discharge holes 20, liquid atomizing nozzles 21, main shaft sleeves 22, belt holes 23, auxiliary rotating shafts 24, fan blades 25, driving motors 26, belt pulleys 27 and belts.

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, an embodiment of the present invention: the rectangular movable shell comprises a rectangular movable shell 1, roller installation spaces 2 are arranged on two sides of the bottom of the rectangular movable shell 1, a roller 3 is installed on the rectangular movable shell 1 through a bearing on a structure located in the roller installation spaces 2, two liquid storage spaces 4 and main component installation spaces 5 which are not communicated with each other are arranged in the center of the rectangular movable shell 1, a main liquid through hole 6 communicated with the liquid storage spaces 4 and the main component installation spaces 5 is arranged at the bottom of one side of each liquid storage space 4 and the bottom of one side of each main component installation space 5, a main liquid injection hole 7 communicated with the top of each liquid storage space 4 is arranged at the top of the rectangular movable shell 1, an auxiliary liquid through hole 8 and a main pipeline installation hole 9 communicated with the top of each main component installation space 5 are arranged at the top of the rectangular movable shell 1, a main rotating shaft 10 is installed on the upper surface of the rectangular movable shell 1 through a main bearing, one end of the transverse pipeline body 12 is provided with a cylindrical space 13, one side of the rectangular movable casing 1 located in the cylindrical space 13 is provided with a conical space 14, a serpentine pipeline air filtering type cooling mechanism 15 is installed inside the cylindrical space 13, the rectangular movable casing 1 is provided with two pipeline installation holes 16 in a structure located on the side face of the cylindrical space 13, the top of the rectangular movable casing 1 is provided with a driving motor 25, a belt pulley 26 is installed at a motor spindle end part of the driving motor 25, a belt hole 22 is arranged right below the belt pulley 26 at the top of the rectangular movable casing 1, a support rod is installed at one side of the cylindrical space 13 at the rectangular movable casing 1, a spindle sleeve 21 is installed at the top of the support rod, and a pair of rotating shafts 23 is installed in the transverse inner part of the spindle sleeve 21 through a main bearing, another belt pulley 26 is installed at one shaft body of the auxiliary rotating shaft 23, a belt 27 penetrating through the belt pulley 22 is sleeved between the two belt pulleys 26, fan blades 24 with air inlets facing the cylindrical space 13 are respectively installed on shaft bodies at two ends of the auxiliary rotating shaft 23, an annular liquid hole 18 is formed in one side of the transverse pipeline body 12 located in the belt hole 22, a main liquid discharge hole 19 communicating the annular liquid hole 18 with the bottom space of the transverse pipeline body 12 is formed in the transverse pipeline body 12, a plurality of auxiliary liquid discharge holes 17 communicating the annular liquid hole 18 with the conical space 14 are formed in the transverse pipeline body 12, and a liquid atomization nozzle 20 is installed in each auxiliary liquid discharge hole 17.

Referring to fig. 2, the serpentine air-filtering cooling mechanism 15 includes a serpentine 151 for the serpentine air-filtering cooling mechanism, a serpentine 152 for the serpentine air-filtering cooling mechanism, a serpentine 153 for the serpentine air-filtering cooling mechanism, a serpentine 154 for the serpentine air-filtering cooling mechanism, a serpentine 155 for the serpentine air-filtering cooling mechanism, and a serpentine 156 for the serpentine air-filtering cooling mechanism; the two ends of the serpentine pipeline 151 for the serpentine pipeline air filtering type cooling mechanism are respectively provided with a feeding pipeline 152 for the serpentine pipeline air filtering type cooling mechanism and a discharging pipeline 153 for the serpentine pipeline air filtering type cooling mechanism, the serpentine pipeline 151 for the serpentine pipeline air filtering type cooling mechanism, the feeding pipeline 152 for the serpentine pipeline air filtering type cooling mechanism and the discharging pipeline 153 for the serpentine pipeline air filtering type cooling mechanism are respectively provided with a serpentine pipeline hole 154 for the serpentine pipeline air filtering type cooling mechanism, a feeding hole 155 for the serpentine pipeline air filtering type cooling mechanism and a discharging hole 156 for the serpentine pipeline air filtering type cooling mechanism, and both ends of the serpentine pipeline air filtering type cooling mechanism serpentine pipeline hole 154 are respectively communicated with a serpentine pipeline air filtering type cooling mechanism feed hole 155 and a serpentine pipeline air filtering type cooling mechanism discharge hole 156; the serpentine air filtering type cooling mechanism is installed inside the cylindrical space 13 by using the pipe wall of the serpentine pipe 151; the pipeline bodies of the feeding pipeline 152 for the serpentine pipeline air filtering type cooling mechanism and the discharging pipeline 153 for the serpentine pipeline air filtering type cooling mechanism respectively penetrate through and are installed inside the two pipeline installation holes 16.

The specific use mode is as follows: in the working process of the invention, a liquid circulating pump and a refrigerator are arranged in the main component mounting space, the liquid inlet port of the circulating pump is communicated with the main liquid through hole 6, then a pipeline penetrating through the secondary liquid through hole 8 is used for connecting the liquid outlet port of the circulating pump with the main liquid through hole 19, then the discharge hole and the feed hole of the refrigerator are respectively connected with the discharge pipeline 152 for the snakelike pipeline air filtering type cooling mechanism and the feed pipeline 153 for the snakelike pipeline air filtering type cooling mechanism through pipelines penetrating through the main pipeline mounting hole 9, then the driving motor 25, the liquid circulating pump and the refrigerator are respectively opened, at the moment, air enters, and when the air enters, the air can pass through the snakelike pipeline air filtering type cooling mechanism 15 in a pre-selected mode, under the action of the snakelike pipeline air filtering type cooling mechanism 15, the air can be cooled firstly, the temperature of the cooled air is reduced, the liquid in the liquid storage space 4 can be sprayed into the conical space 14 through the liquid spray head 20 due to the action of the liquid circulating pump, then, the cooled air enters the mist area under the flowing action of the air, and the larger liquid particles are doped into the air due to the action of the mist, and can adsorb the surrounding micro liquid, so that the stronger mist effect is generated, and the gathered liquid particles enter the area with smaller space under the flowing action of the air, and the gathered liquid particles generate the better mist effect under high pressure due to the space compression action.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.