FR3013613A3 - - Google Patents

Abstract

A rotary spray apparatus includes a rotating pipe assembly and a rotatable guide structure. The rotating pipe assembly further includes a fixed pipe and a rotating pipe. The rotating pipe penetrates telescopically inside the fixed pipe. The rotating guide structure further includes a guide main body and a fluid control shutter. The main body guides has a pipe engaging portion and a housing portion, wherein the pipe engaging portion is attached to the rotating pipe and the housing portion having a housing shaft is integrally connected with the housing portion. hose engagement. The fluid control shutter is fixedly mounted within the housing vessel and has at least one helical guide groove. The helical guide groove associates the housing bowl to form a fluid control chamber, while the fluid control chamber is penetrated by a spray line.

Description

BACKGROUND OF THE INVENTION 1. FIELD OF THE INVENTION The invention relates to a rotary spray apparatus and a corresponding rotary guide structure, and more particularly to the invention. rotary spray apparatus and rotary guide structure for the rotary spray apparatus which utilizes a fluid control chamber formed between the helical guide groove of the fluid control shutter and the main body guide for fluid flow through the fluid control chamber to rotate the rotating guide structure, and thereby rotate the spray line. 2. DESCRIPTION OF THE PRIOR ART In everyday life, it is customary to wash vehicles, windows, walls and the like which have a larger surface by spraying the detergents directly onto the surface to be cleaned before brushing. . Generally, in order to broaden the coverage of detergents, a rotating spray apparatus is introduced. The rotary spray apparatus consists essentially of a fixed pipe and a curved spray line. By flowing a pressurized fluid (the detergent) through the curved spray line so as to rotate the spray line and spray the detergent freely.

As mentioned above, the common technique is to use the driving force induced by the pressurized fluid through the curved spray line to rotate the spray line. Thus, fluid flowing through the curved spray line is the necessary condition for spraying to be possible. However, since the spray efficiency of the curved spray line strongly depends on the pressure within the curved section of the spray line, then the hose for the spray line can not be too large in diameter. As a result, the manufacturing difficulty for the production of a certified or satisfactory spray line, especially in the curved portion thereof, is increased. SUMMARY OF THE INVENTION As described in the background sections above, the sputtering efficiency of the current rotary spray apparatus is highly dependent on the formulation of the interior of the curved portion of the present invention. curved spray line. Also, because a substantial difficulty exists in the production of the curved spray line, then the efficiency of the spray line is generally low in the art. Accordingly, the main object of the present invention is to provide a rotary spray apparatus and a rotatable guide structure for the rotary spray apparatus, wherein a helical guide groove is constructed on a fluid control shutter so as to forming a fluid control chamber therebetween with the main guide body; such that, while a pressurized fluid is flowing through the fluid control chamber, the rotating guide structure can be rotated so as to freely spray the pressurized fluid from the control chamber of fluid. In the present invention, the rotatable guide structure of the rotary spray apparatus is intended to cooperate with a rotating hose assembly, wherein the rotating hose assembly further has a fixed hose and a rotating hose, and wherein the hose Rotary is connected with the fixed pipe in a rotating manner. The rotating guide structure further includes a guide main body and a fluid control shutter.

The main guide body further includes a pipe engaging portion and a housing portion; wherein the pipe engaging portion is fixedly engaged with the rotating pipe, and the housing portion having a housing vessel is integrally connected with the pipe engaging portion.

The fluid control shutter fixedly mounted within the housing vessel is constructed to have at least one helical guide groove, wherein the at least one helical guide groove is matched to the housing vessel. so as to form a fluid control chamber therebetween. When a pressurized fluid flows through the fluid control chamber, the rotating guide structure is forced, and thereby rotated by the pressurized fluid to further spray the pressurized fluid therefrom. . In one embodiment of the present invention, the at least one helical guide groove is implemented as a plurality of helical guide grooves arranged in a symmetrical manner. In one embodiment of the present invention, the fluid control shutter is screwed to be attached to the interior of the housing vessel.

In one embodiment of the present invention, the pipe engaging portion is screwed to be fixedly connected with the rotating pipe. In another aspect of the rotary spray apparatus of the present invention, the apparatus includes a rotatable pipe assembly and a rotatable guide structure. The rotating pipe assembly further includes a fixed pipe and a rotating pipe. The rotating pipe is forced into the fixed pipe in a rotating manner. The rotatable guide structure further includes a guide main body and a fluid control shutter. The guide main body further includes a pipe engaging portion and a housing portion, wherein the pipe engaging portion is fixedly connected with the rotating pipe and the housing portion is integrated to connect with the pipe engagement part. The housing portion further has a housing vessel for fixedly positioning the fluid control shutter within the housing vessel and at least one helical guide groove to form a fluid control chamber between the housing tank. When a pressurized fluid flows through the fluid control chamber, the rotating guide structure is driven and thereby rotated by the pressurized fluid to allow the pressurized fluid to be sprayed out of the structure. rotating guide. In one embodiment of the present invention, the fixed pipe further includes a fixed pipe main body for connection with a foreign spray gun, and the rotating pipe is passed through the fixed pipe main body. Preferably, the pipe engaging portion is fixedly connected with the rotating pipe. In one embodiment of the present invention, the rotary spray apparatus further includes a brush head connected with the fixed pipe. Preferably, the brush head further includes a trumpet-shaped housing and a brush assembly, wherein the trumpet-shaped housing is threaded for connection with the fixed pipe and the brush assembly is looped with the trumpet-shaped housing.

All of these objects are achieved by the rotating spray apparatus and the rotatable guide structure for the rotary spray apparatus described below. BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be specified with reference to its preferred embodiment illustrated in the drawings, in which: Figure 1 is a schematic perspective view of a first embodiment of the rotary spray apparatus According to the present invention; Figure 2 is an exploded schematic view of Figure 1; Figure 3 is a schematic cross-sectional view of Figure 1; Figure 4 is a schematic perspective view of a second embodiment of the rotary spray apparatus according to the present invention; Figure 5 is an exploded schematic view of Figure 4; Figure 6 is a schematic cross-sectional view of Figure 4; Figure 7 is a schematic perspective view of a rotatable guide structure for the rotary spray apparatus according to the present invention; Figure 8 is a schematic perspective view of another rotatable guide structure for the rotary spray apparatus according to the present invention; Figure 9 is a schematic view of an application of the rotary spray apparatus according to the present invention; Fig. 10 is a schematic view of another application of the rotary spray apparatus according to the present invention; and Fig. 11 is a schematic cross-sectional view of another application of the rotary spray apparatus according to the present invention. DESCRIPTION OF THE PREFERRED EMBODIMENT The invention disclosed herein relates to a rotary spray apparatus and a rotatable guide structure for the rotary spray apparatus. In the following description, many details are explained to provide a complete understanding of the present invention. It will be appreciated by those skilled in the art that variations of these specific details are possible while still achieving the results of the present invention. In another case, well-known components are not described in detail so as not to obscure the present invention unnecessarily. Referring now to Figure 1 to Figure 3, a first embodiment of the rotary spray apparatus according to the present invention is schematically shown in a perspective view, an exploded view and a cross-sectional view, respectively . As shown, the rotary spray apparatus 100 includes a rotating pipe assembly 1 and a rotating guide structure 2. The rotating pipe assembly 1 further includes a fixed pipe 11 and a rotating pipe. The fixed pipe 11 includes a fixed pipe main body 111, a first bearing 112, a dividing pipe 113, a second bearing 114 and a screw nut 115. The fixed pipe main body 111 is intended to be fixedly engaged. with a fluid sprayer (not shown in the figure). The branch pipe 113 having one end in contact with the first bearing 112 and another end in contact with the second bearing 114 is intended, together with the first bearing 112 and the second bearing 114, to externally sheath the fixed pipe main body. 111. The screw nut 115 is screwed to attach to one end of the fixed pipe main body 111 and to secure the outer sheath of the first bearing 112, the branch pipe 113 and the second bearing 114 over the main body. 111. The rotating pipe 12 sheathing the outside of the fixed pipe main body 111 has two opposite ends thereof radially spacing the fixed pipe main body 111 by the first bearing 112 and the second bearing 114. In practice the rotating pipe 12 is first sheathed over the fixed pipe main body 111, and then the first bearing 112, the dividing pipe 113, the second bearing 114 and the nut Screws 115 are sheathed in this order along the main body of fixed pipe 111. In addition, the rotary pipe 12 is intended to be sheathed over the screw nut 115, the second bearing 114, the branch pipe 113 and the first bearing 112 and having at ends thereof for internal contact with the first bearing 112 and the second bearing 114, so that the rotating pipe 12 can be rotatable about the fixed pipe 11 with the aid of the first Bearing 112 and second bearing 114. The rotating guide structure 2 further includes a guide main body 21 and a fluid control shutter 22. The main guide body 21 includes a hose engaging portion 211 and a housing portion. 212. The pipe engaging portion 211 provides an external thread 2111 at one end for fixed screwing with the rotating pipe 12. The housing portion 212 is integrally connected with the pipe engaging portion 211 as a piece. unique. In addition, the housing portion 212 has an inner housing 2121. Fluid control shutter 22 is screwed to be secured within housing housing 2121 and provides therein at one end thereof at least one helical guide groove 221. With helical guide groove 221 within the housing bowl 2121, a fluid control chamber F is then formed at the engagement section of the fluid control shutter 22 and the guide main body 21.

As described above, the helical guide groove 221 is formed as a helical slope groove. Thus, when a pressurized fluid flows through the fluid control chamber F between the helical guide groove 211 and the housing vessel 2121, the rotating guide structure 2 is driven by the pressurized fluid in rotation so as to allow the pressurized fluid to be sprayed out of the fluid control shutter 22. In addition, in this first embodiment, the fluid control shutter 22 has an external thread 222 for being fixedly engaged with and be located inside the housing bowl 2121.

However, in certain other embodiments, the fixed engagement with the accommodation vessel 2121 may nevertheless apply any other suitable means. Referring now to Figure 4 to Figure 6, a second embodiment of the rotary spray apparatus 30 according to the present invention is schematically shown in a perspective view, an exploded view and a cross-sectional view, respectively . As shown, the rotary spray apparatus 200 includes a rotating hose assembly 1a, a rotatable guide structure 2a, and a brush head 3a. The rotary hose assembly further includes a fixed hose 11a and a rotating hose 12a. The fixed pipe 1a further includes a fixed pipe main body 111a, a first bearing 112a and a second bearing 113a. The fixed pipe main body 111a includes an engaging portion 1111a, a front portion 1112a and an extension sheath portion 1113a. Engagement portion 1111a serves to permanently connect a foreign sprayer (not shown here). Front portion 1112a is threaded to enter engaging portion 1111a. The extension sheath pipe portion 1113a is screwed to be connected with the engagement portion 1111a and to allow the front portion 1112a to extend into the extension sheath pipe portion 1113a. The first bearing 112a is intended to be located inside the extension sheath pipe portion 1113a at one end thereof, while the second bearing 113a is intended to be located within the extension sheath pipe portion 1113a at another end thereof. The rotating pipe 12a serves to sheath the front portion 1112a in a non-contact manner, and is penetrated through the first bearing 112a and the second bearing 113a so that the rotary pipe 12a can extend inside. of the extension sheath pipe portion 1113a of the fixed pipe 11 a. In practice, the second bearing 113a is firstly plugged into one end of the extension sheath pipe portion 1113a, then the first bearing 112a is mounted within the extension sheath pipe portion 1113a. then the rotary pipe 12a is sent to penetrate both the first bearing 112a and the second bearing 113a, and finally the extension duct pipe portion 1113a is engaged with the engagement portion 1111a. The rotating guide structure 2a includes a guide main body 21a and a fluid control shutter 22a. The main guide body 21a further has a pipe engaging portion 211a and a housing portion 212a. The hose engaging portion 211a provides an internal thread 2111a for fixed screwing with the rotating hose 12a and protruding out of the extension hose portion 1113a. The housing portion 212a is integrally connected with the hose engaging portion 211a and provides an inner housing vessel 2121a.

Fluid control shutter 22a has a helical guide groove 221a thereon and has an external thread 222a for firmly screwed into housing housing 2121a. By matching the helical guide groove 221a and the housing shaft 2121a, a fluid control chamber F is then formed therebetween. The brush head 3a further has a trumpet-shaped housing 31a and a brush assembly 32a. The trumpet-shaped housing 31a is screwed to be connected with the extension sheath pipe portion 1113a, while the rotatable guide structure 2a is located within the trumpet-shaped housing 31a. In addition, the brush assembly 32a is looped with the trumpet-shaped housing 31a, and the brush assembly 32a includes a plurality of circumferentially-arranged brushes. As described above, the main difference between this second embodiment 200 and the aforementioned first embodiment 100 of the rotary spray apparatus is that the second embodiment provides a rotatable interior design, so that the 3a brush head can be included outside. Further, by using the first bearing 112a and the second bearing 113a to form the rotating supports for the inner rotating pipe 12a and the fluid control shutter 22a, the rotating vibration acts on the rotating pipe 12a and the control shutter. fluid 22a can be greatly reduced. Referring now to Figure 7, a rotatable guide structure for the rotary spray apparatus according to the present invention is schematically shown in a perspective view. As shown, the rotating guide structure 2b includes a guide main body 2b and a fluid control shutter 22b. The 2 lb guide main body further includes a pipe engaging portion 211b and a housing portion 212b. The housing portion 212b is integrally connected with the hose engaging portion 21b. It is noted that the guide rotary structure 2b proposed here is similar to the guide rotary structure 2a of the second embodiment, but with one difference in that the fluid control shutter 22b of the rotary guide structure 2b has two guide grooves 22 lb, 22 lb. helical helicals arranged symmetrically. As described above, as the fluid control shutter 22b has two helical guide grooves 22 lb, 22 lb ', when the pressurized fluid flows through the fluid control chamber formed by pairing these two 22 lb, 22 lb 'helical guide grooves and the housing portion 212b, the forcing of the pressurized fluid within the fluid control shutter 22b can be substantially improved. Referring now to Figure 8, another rotatable guide structure for the rotary spray apparatus according to the present invention is schematically shown in a perspective view. As shown, the rotating guide structure 2c includes a guide main body 21c and a fluid control shutter 22c. The main guide body 21c further includes a pipe engaging portion 211c and a housing portion 212c. The housing portion 212c is integrally connected with the pipe engaging portion 211c. It is noted that the main difference between the guide rotating structure 2c of this embodiment and the aforementioned main guide body 2b is that the pipe engaging portion 211c of the rotating guide structure 2c provides thereon an external thread 2111c to allow the rotary guide structure 2c to replace the rotary guide structure 2 of the aforementioned first embodiment. Also, by providing the two helical guide grooves 221c, 221c ', the driving force in the fluid control shutter 22c by the pressurized liquid can be increased. Referring now to Figure 4, Figure 6 and Figure 9, in which Figure 9 is a schematic view of an application of the rotary spray apparatus according to the present invention. As shown, in practice, the fixed pipe main body 111a of the rotary spray apparatus 200 is threaded to be fixedly engaged with a spray gun 300. In the embodiment, the spray gun 300 is the type of spray gun that connects to a foreign source of pressurized fluid. The pressurized liquid is supplied from the foreign source, through the spray gun 300, and intended to be rotatively sprayed through the rotary spray apparatus 200. Referring now to FIG. Figure 6, Figure 10 and Figure 11, in which Figure 10 is a schematic view of another application of the rotary spray apparatus according to the present invention and Figure 11 is a schematic cross-sectional view of another application of the rotary spray apparatus according to the present invention. As shown, the fixed pipe main body 111a of the rotary spray apparatus 200 is threaded to be fixedly engaged with a spray gun 400 having a liquid container 401. A spray line 402 constructed at the The interior of the rotary spray apparatus 200 is intended to penetrate through the rotating guide structure 2a and then extend into the liquid container 401, so that the user can introduce the pressurized liquid supplied by the spray gun. spraying 400 to force the rotating guide structure 2a and the spray line 402 to rotate. Also, according to the Venturi effect, the pressurized liquid can be delivered continuously by the liquid container 400 and thus be sprayed through the apparatus. Although the present invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and of the scope of the present invention.

Claims (9)

REVENDICATIONS1. A rotatable guide structure of a rotary spray apparatus, cooperating with a rotating hose assembly having a fixed pipe and a rotating pipe, the rotating pipe being rotatably connected to the fixed pipe, the rotating guide structure comprising: a body main guide, further including: a pipe engaging portion, fixedly connected with the rotating pipe; and a housing portion, integrally connected with the hose engaging portion, further having a housing cup; and a fluid control shutter, fixedly mounted within the housing vessel, further having at least one helical guide groove, the at least one helical guide groove being connected to the housing vessel so as to forming a fluid control chamber; wherein, while a pressurized fluid is flowing through the fluid control chamber, the rotating guide structure is rotated by the pressurized fluid and further allows the pressurized fluid to be sprayed in a manner press. The rotatable guide structure of the rotary spray apparatus according to claim 1, wherein the at least one helical guide groove is a plurality of helical guide grooves arranged in a symmetrical manner. Rotary guide structure of the rotary spray apparatus according to claim 1, wherein the fluid control shutter is fixedly screwed into the housing vessel. Rotary guide structure of the rotary spray apparatus according to claim 1, wherein the pipe engaging portion is fixedly screwed to the rotating pipe. A rotary spray apparatus, comprising: a rotating hose assembly, further including: a fixed hose; and a rotating pipe, rotating through the fixed pipe; a rotary guide structure, including: a guide main body, further including: a pipe engaging portion, fixedly connected with the rotating pipe; and a housing portion, integrally connected with the hose engaging portion, further having a housing cup; and a fluid control shutter, fixedly mounted within the housing vessel, further having at least one helical guide groove, the at least one helical guide groove being connected to the housing vessel so as to forming a fluid control chamber; in which, while a pressurized fluid is flowing through the fluid control chamber, the rotating guide structure is rotated by the pressurized fluid and further allows the pressurized fluid is sprayed in a rotary manner. The rotary spray apparatus of claim 5, wherein the fixed pipe further includes a fixed pipe main body for externally connecting a spray gun, the rotating pipe rotating through the fixed pipe main body. A rotary spray apparatus according to claim 6, wherein the pipe engaging portion enters the fixed pipe main body and fixedly engages the rotatable pipe. 15 The rotary spray apparatus of claim 5, further including a brush head connected with the fixed pipe. The rotary spray apparatus according to claim 8, wherein the brush head further includes a trumpet-shaped housing and a brush assembly, the trumpet-shaped housing connected with the fixed pipe in a screwed manner, the looped brush set with the trumpet-shaped housing.