Portable mist blower system

Abstract

A portable mist blower system, which has a housing assembly, a tank assembly, a handle assembly, a battery assembly, a pump motor assembly, a blower panel assembly, a manifold assembly, a blower assembly, and a solenoid assembly. The housing assembly has a front panel, a rear panel, a top panel, a bottom panel, and lateral panels. The tank assembly is secured to the top panel and trapped by the front panel, the battery assembly is secured to the top panel, the handle assembly is mounted onto the top panel, the pump motor assembly is secured to the rear panel, the blower panel assembly is mounted onto the front panel, the manifold assembly is connected to the blower panel assembly, and the blower assembly and the solenoid assembly are mounted onto the bottom panel.

Claims

1. A portable mist blower system, comprising: A) a housing assembly comprising a front panel, a rear panel, a top panel, a bottom panel, and lateral panels; B) a tank assembly secured to said top panel and trapped by said front panel; C) a handle assembly mounted onto said top panel; D) a battery assembly secured to said top panel; E) a pump motor assembly secured to said rear panel; F) a blower panel assembly mounted onto said front panel; G) a manifold assembly connected to said blower panel assembly; H) a blower assembly mounted onto said bottom panel; and I) a solenoid assembly mounted onto said bottom panel, whereby said housing assembly houses said tank assembly, said battery assembly, said pump motor assembly, said manifold assembly, said blower assembly, and said solenoid assembly.

2. The portable mist blower system set forth in claim 1, wherein said housing assembly further comprises corners, strap loops, air intake holes on said lateral panels, and feet on said bottom panel.

3. The portable mist blower system set forth in claim 1, wherein said front panel defines a blower panel cavity, said front panel comprises a mix switch hole, a power switch hole, and a charge port hole, and said top panel comprises a tank neck hole and a fuse hole.

4. The portable mist blower system set forth in claim 3, wherein said blower panel cavity receives said blower panel assembly, said mix switch hole receives a mix switch, said power switch hole receives a power switch, and said charge port hole receives a charge port.

5. The portable mist blower system set forth in claim 4, wherein said tank assembly comprises a tank body having a tank outlet, a tank upper section having a tank inlet to receive a mix tube, a tank neck, a tank strainer, a tank cap having a cap vent, a tank mounting flange, and a top flange.

6. The portable mist blower system set forth in claim 5, wherein said tank neck passes through said tank neck hole and protrudes from said top panel to receive said tank cap.

7. The portable mist blower system set forth in claim 5, wherein said handle assembly comprises a handle body, a handle top, a handle grip, and a mist switch.

8. The portable mist blower system set forth in claim 3, wherein said battery assembly comprises a battery, a control board, a fuse, a battery mounting bracket, and battery mounting screws.

9. The portable mist blower system set forth in claim 8, wherein said fuse passes through said fuse hole and protrudes from said top panel.

10. The portable mist blower system set forth in claim 8, wherein said battery, said tank assembly, and said handle assembly are secured to said top panel with said battery mounting screws, whereby a leg of said battery mounting bracket and said top flange are fixed together to said top panel by said battery mounting screws.

11. The portable mist blower system set forth in claim 7, wherein said pump motor assembly comprises a pump, a pump output with a pump output tube, a pump input with a pump input tube, and a motor.

12. The portable mist blower system set forth in claim 11, wherein said motor is secured to said rear panel with a motor bracket and a motor spacer is between said motor and said bottom panel.

13. The portable mist blower system set forth in claim 11, wherein said blower panel assembly comprises a blower panel, a bezel, a blower coupling shroud, a flapper, flapper pins, tee retainers, and nozzles.

14. The portable mist blower system set forth in claim 13, wherein said manifold assembly comprises a tubing, tee adapters, a plug, and a manifold input, whereby said tee adapters are connected to said nozzles.

15. The portable mist blower system set forth in claim 13, wherein said blower assembly comprises a blower, a blower mounting structure, a blower outlet, a blower inlet, and first and second blower spacers.

16. The portable mist blower system set forth in claim 15, wherein said blower coupling shroud fits into said blower, and said blower coupling shroud houses said flapper, which is secured by said flapper pins.

17. The portable mist blower system set forth in claim 15, wherein said blower mounting structure is mounted onto said first and second blower spacers and said first and second blower spacers are secured to said bottom panel.

18. The portable mist blower system set forth in claim 14, wherein said solenoid assembly comprises a solenoid valve, first and second solenoid input connections, a solenoid output connector, and a main output tube.

19. The portable mist blower system set forth in claim 18, wherein said pump input tube is connected from said tank outlet to said pump input and said main output tube is connected from said second input connector to said manifold input.

20. The portable mist blower system set forth in claim 18, wherein said solenoid assembly allows for a return fluid path for mixing and purging air when said mix switch is depressed and drops said main output tube pressure upon said mist switch release, allowing for a dripless operation.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) With the above and other related objects in view, the invention consists in the details of construction and combination of parts as will be more fully understood from the following description, when read in conjunction with the accompanying drawings in which:

(2) FIG. 1A is a front isometric view of the present invention.

(3) FIG. 1B is a rear isometric view of the present invention.

(4) FIG. 2A is a cut view taken along lines 2A-2A from FIG. 1A.

(5) FIG. 2B is a cut view taken along lines 2B-2B from FIG. 1A.

(6) FIG. 3 is a partial exploded view of the present invention.

(7) FIG. 4 is a partial exploded view of a top section of the present invention, which has a handle assembly, a tank assembly, and a battery assembly.

(8) FIG. 5 is a partial exploded view of the rear section of the present invention having a pump motor assembly.

(9) FIG. 6 is an exploded view of the front section of the present invention having a blower panel assembly.

(10) FIG. 7 is a partial exploded view of the bottom section of the present invention having a blower assembly and a solenoid assembly.

DETAILED DESCRIPTION OF THE INVENTION

(11) Referring now to the drawings, the present invention is a portable mist blower system and is generally referred to with numeral 10. It can be observed that it basically includes housing assembly 20, tank assembly 90, handle assembly 120, battery assembly 140, pump motor assembly 160, blower panel assembly 200, manifold assembly 220, blower assembly 230, and solenoid assembly 250.

(12) As seen in FIGS. 1A and 1B, housing assembly 20 comprises front panel 22, rear panel 24, top panel 26, bottom panel 28, and lateral panels 30. Housing assembly 20 further comprises corners 32. Corners 32 connect front panel 22 and rear panel 24 to top panel 26 and bottom panel 28. Corners 32 joined to top panel 26 comprise first and second strap loops 34. Lateral panels 30 comprise air intake holes 36. Air intake holes 36 are designed to prevent rodent and/or insect intrusion while providing adequate air intake. In a preferred embodiment, lateral panels 30 comprise solid area 38 approximately at a center, and rear panel 24 comprises info area 46. Handle assembly 120 is mounted onto top panel 26. Blower panel assembly 200 is mounted onto front panel 22.

(13) Present invention 10 is a portable mist blower system for solutions. Such solutions can be, but are not limited to, anti-pathogen agents, insect controls whether adult or pre-emergent including mosquitoes, bed bugs, lice, and mites. Solutions further include insect repellents, extermination treatments, plant health fertilizers, insecticides, fungicides, surfactants for drought resistance in public health applications, mold mitigation, sunscreen, sanitation products such as sanitizers and anti-pathogens, and odor controllers such as deodorizers and fragrances.

(14) As seen in FIGS. 2A and 2B, housing assembly 20 houses tank assembly 90, battery assembly 140, pump motor assembly 160, manifold assembly 220, seen in FIG. 3, blower assembly 230, and solenoid assembly 250. Pump input tube 170 is connected from tank outlet 106 to pump input 166. Main output tube 258 is connected from solenoid input connection 255 to manifold input 228, seen in FIG. 6. Solenoid valve 252 discharges main output tube 258 pressure upon mister deactivation dropping line pressure for anti-drip.

(15) As seen in FIG. 3, tank assembly 90 and battery assembly 140 are secured to top panel 26. Pump motor assembly 160 is secured to rear panel 24, and blower assembly 230 and solenoid assembly 250 are mounted onto bottom panel 28. Manifold assembly 220 is connected to blower panel assembly 200. Housing assembly 20 further comprises feet 70. Feet 70 are fixed to bottom panel 28 with feet washers 72 and feet screws 74. Feet screws 74 also work as corner screws, since feet screws 74 secure corresponding corners 32 to bottom panel 28. Corner screws 54 secure corners 32 on front panel 22, rear panel 24, and top panel 26.

(16) As seen in FIG. 4, top panel 26 comprises tank neck hole 40 and fuse hole 42. Tank assembly 90 comprises tank body 92, tank upper section 94, tank neck 96, tank strainer 98, tank cap 100 having cap vent 102, tank mounting flange 104, and top flange 112. Tank upper section 94 comprises tank inlet 108, which receives mix tube 110. Tank body 92 comprise tank outlet 106. Tank assembly 90 is secured on top panel 26 and trapped by front panel 22, seen in FIG. 2A. Tank assembly 90 rests on mix switch 58, power switch 60, and charge port 62, seen in FIG. 6, through tank mounting flange 104, while tank neck 96 passes through tank neck hole 40 protruding from top panel 26 to receive tank cap 100. Tank assembly 90 is secured to top panel 26 through top flange 112 with bracket mounting screws 154. Handle assembly 120 is fixed onto top panel 26. Handle assembly 120 comprises handle body 122, handle top 124, handle grip 126, and mist switch 128.

(17) Battery assembly 140 comprises battery 142, control board 144, fuse 146, and battery mounting bracket 152. Fuse 146 passes through fuse hole 42 and protrudes from top panel 26. Fuse spacer 148 is positioned between top panel 26 and fuse 146. Fuse 146 is secured by fuse nut 150. Battery 142 comprises a battery management system. Battery 142 is charged through charge port 62, seen in FIG. 4, with a charger, not seen. Battery 142 is secured to top panel 26 by battery mounting bracket 152 and battery mounting screws 154. Battery mounting screws 154 secure tank assembly 90, battery 142, and handle assembly 120 to top panel 26. A leg of battery mounting bracket 152 and top flange 112 are fixed together to top panel 26 by battery mounting screw 154, which passes through top panel 26 to receive and secure handle body 122.

(18) As seen in FIG. 5, pump motor assembly 160 comprises pump 162, pump output 164 to connect pump output tube 168, pump input 166 to connect pump input tube 170, and motor 172. Motor 172 is secured to rear panel 24 by motor bracket 174 with pump-motor mount screws 180 secured by pump-motor mount nuts 178. Motor spacer 176 is between motor 172 and bottom panel 28, as seen in FIG. 2B.

(19) As seen in FIG. 6, front panel 22 defines blower panel cavity 44, mix switch hole 48, power switch hole 50, and charge port hole 52. Mix switch hole 48 receives mix switch 58, power switch hole 50 receives power switch 60, and charge port hole 52 receives charge port 62. Mix switch 58, power switch 60, and charge port 62 are secured to front panel 22 with mix switch nut 64, power switch nut 66, and charge port nut 68, respectively. Mix switch 58 allows solenoid assembly 250, seen in FIG. 3, to purge the pump of air. Depressing mix switch 58 allows for in-tank mixing or re-mixing. Blower panel cavity 44 receives blower panel assembly 200. Blower panel assembly 200 comprises blower panel 202, bezel 204, blower coupling shroud 206, flapper 208, flapper pins 210, tee retainers 214, and nozzles 216. In a preferred embodiment, there are four tee retainers 214 and four nozzles 216. Bezel 204 is secured to front panel 22 with blower panel screws 212. Blower coupling shroud 206 houses flapper 208, which is secured by flapper pins 210.

(20) Manifold assembly 220 comprises tubing 222, tee adapters 224, and plug 226. Blower panel 202 comprises tee adapter holes 218 to receive respective tee adapters 224. Tee adapters 224 are connected to respective nozzle 216.

(21) As seen in FIG. 7, blower assembly 230 comprises blower 232, blower mounting structure 236, blower outlet 240, blower inlet 242, and first and second blower spacers 244. Blower mounting structure 236 is mounted onto first and second blower spacers 244 and fixed with blower mounting screws 238. First and second blower spacers 244 are secured to bottom panel 28 by blower spacer screws 246. Blower assembly 230 is connected to blower panel assembly 200, seen in FIG. 6, whereby blower coupling shroud 206, seen in FIG. 6, fits into blower 232.

(22) Solenoid assembly 250 comprises solenoid valve 252, solenoid input connections 254 and 255, solenoid output connector 256, and main output tube 258, which is connected to solenoid input connection 255. Solenoid assembly 250 is secured onto bottom panel 28 by solenoid mounting screws 264. Solenoid assembly 250 further comprises ground bus 262 and ground bus nut 260. Solenoid input connections 254 and 255 may act as an input or output depending if solenoid assembly 250 is on or off. Pump output tube 168 is connected from pump output 164, seen in FIG. 5, to solenoid input connection 254. When solenoid valve 252 is not being used, pump output tube 168 sources main output tube 258. Solenoid assembly 250 drops main output tube 258 pressure when misting stops upon mist switch 128, seen in FIG. 4, release allowing for dripless operation. Solenoid assembly 250 allows for a return fluid path for mixing when mix switch 58, seen in FIG. 6, is depressed. Solenoid assembly 250 purges the pump of air. This allows users to purge air from the pump motor assembly 160, seen in FIG. 3, so it reaches optimum pressure and by returning the purge fluid back to tank assembly 90, it prevents the alternative of misting out onto the ground.

(23) The foregoing description conveys the best understanding of the objectives and advantages of the present invention. Different embodiments may be made of the inventive concept of this invention. It is to be understood that all matter disclosed herein is to be interpreted merely as illustrative, and not in a limiting sense.