The present invention relates to a hose and, more particularly, to a hose-reeling apparatus.
Referring to
The base 91 includes a hollow axle 912. A conduit 93 is inserted in an open end of the axle 912. An end of the conduit 93 is kept in the axle 912 by an elastic clip 932. Another end of the conduit 93 is connected to a source pipe 82. The hose 81, which is wound on the tubular body 922, can be connected to a communication element 94 inserted in the tubular body 922. The communication element 94 is connected to the conduit 93 when the tubular body 922 is supported on the base 91.
Problems are encountered in the use of the conventional hose-reeling apparatus. Firstly, water supply could be choked because of reduced cross-sectional area of the source pipe 82, which is connected to the conduit 93, must be bent for an angle of 90 degrees in use.
Secondly, the hose 81 is wound on the reel 92. The total weight of the hose 81 and the reel 92 is considerable. A large force is exerted on the reel 92 and the hose 81 to locate the reel 92 on and around the base 91 and engage the communication element 94 with the conduit 93. The conduit 93, alone, bears this force during the location of the tubular body 922 of the reel 92 onto the axle 912 of the base 91. The conduit 93 is kept in the axle 912 by the elastic clip 932 only. Hence, the elastic clip 932 could easily be damaged and hence the conduit 93 could easily be detached from the axle 912. Further damage could occur. The operation is troublesome and the cost could be raised.
The present invention is therefore intended to obviate or at least alleviate the problems encountered in prior art.
It is the primary objective of the present invention to provide a hose with a reliable hose-reeling apparatus.
To achieve the foregoing objective, the hose-used hose-reeling apparatus includes a base, a reel, a conduit assembly and a communication element. The reel is supported on the base. The conduit assembly includes a conduit and a shackle. The conduit extends in the base and includes a horizontal tube and a vertical tube. The horizontal tube includes an insertion section and an abutment section. The insertion section includes at least one hook inserted in a slot in the base. The abutment section includes an end for abutment against a supporting element. The vertical tube extends in a peripheral aperture of the base from the insertion section. The shackle is movable between a releasing position disengaged from the insertion section and a locking position engaged with the insertion section. The communication element extends in the reel and covers a peripheral aperture in the insertion section as the reel is supported on the base.
Other objectives, advantages and features of the present invention will be apparent from the following description referring to the attached drawings.
The present invention will be described via detailed illustration of the preferred embodiment versus the prior art referring to the drawings wherein:
Referring to
The base 10 includes a plate 12 formed at an end of an axle 14.
The plate 12 includes a rear face 122, a dovetail recess 124 in the rear face 122, a peripheral aperture 1242 in communication with the dovetail recess 124, and an opening 126 extending axially throughout the plate 12. The plate 12 is made of proper thickness for strength.
The axle 14 includes several cantilevers 142 extending from an end disc 144 at an end and extending from a front face of the plate 12 at an opposite end. The cantilevers 142 are evenly located around the opening 126. The end disc 144 includes two slots 146 and a central aperture 148. The central aperture 148 is located between the slots 146.
The reel assembly 20 can be rotationally supported on the axle 14. The reel assembly 20 includes a reel 22 and a decorative cover 24.
The reel 22 includes a tubular body 221 formed between two annular flanges 228. The tubular body 221 includes an axial passageway 222 and a peripheral bore 229 (
The reel 22 is further formed with an end disc 223 at an end of the axial passageway 222. The end disc 223 includes several slots 225, a central aperture 226 and several peripheral apertures 227. The slots 225 are arranged in two rows. The central aperture 226 is located between the rows of the slots 225. The slots 225 and the central aperture 226 are located in a region defined by the peripheral apertures 227. An operation chamber 224 is made by an annular end portion of the tubular body 221 and the end disc 223.
The reel 22 further includes a handle 2282 extending from one of the annular flanges 228. The handle 2282 is operable to rotate the entire reel 22 to wound a hose 81 on the tubular body 221.
The decorative cover 24 is used to close the operation chamber 224. To this end, the decorative cover 24 includes several buckles 242 corresponding to the peripheral apertures 227. The buckles 242 can be inserted in the peripheral apertures 227 to attach the decorative cover 24 to the end disc 223 so that the decorative cover 24 thinly closes the operation chamber 224. The decorative cover 24 further includes a window 244. The operation chamber 224 is observable through the window 244.
The conduit assembly 30 is inserted in the base 10 in use. The conduit assembly 30 includes a conduit 32, a reinforcing element 34 (
The conduit 32 includes a horizontal tube 322 and a vertical tube 324. The horizontal tube 322 and the vertical tube 324 are made in one piece.
The horizontal tube 322 extends throughout the opening 126 of the plate 12 and the central aperture 148 of the end disc 144 of the axle 14 in use. The horizontal tube 322 is formed with an insertion section 3221 and an abutment section 3222 at two ends. The insertion section 3221 includes at least one peripheral aperture 3223 via which the interior of the horizontal tube 322 is in communication with the exterior of the horizontal tube 322. An annular groove 3224 is made in an external face of the insertion section 3221. The insertion section 3221 further includes hooks 3225 corresponding to the slots 146 of the end disc 144. The hooks 3225 are inserted in the slots 146 to connect the insertion section 3221 to the end disc 144 in use.
Preferably, the conduit 32 includes a contact plate 38 formed at end of the abutment section 3222. The contact plate 38 is formed with a rear face (not numbered) substantially in flush with the rear face 122 of the plate 12 in use. The contact plate 38 is used to reinforce the abutment section 3222 and increase an area of contact of the abutment section 3222 with a supporting element 50 such as a wall (
Referring to
An end of the reinforcing element 34 is connected to the horizontal tube 322. Another end of the reinforcing element 34 is connected to the vertical tube 324. Preferably, the reinforcing element 34 is made in one piece with the horizontal tube 322 and the vertical tube 324.
Referring to
Referring to
In use, the collar 42 is located on and around the insertion section 3221 and inserted in the tubular body 221. The collar 42 is co-central with the central aperture 148 of the disc 144 of the base 10 and the central aperture 226 of the reel 22 of the reel assembly 20.
The tube 44 extends to the exterior of the tubular body 221 from the interior of the tubular body 221 through the peripheral bore 229. Then, the tube 44 is connected to the hose 81, which is wound on and around the tubular body 221.
The hooks 46 are inserted in the slots 225, thereby keeping the communication element 40 in position relative to the reel 22.
Advantageously, the base 10 and the conduit assembly 30, which is inserted in the base 10, are both connected to the supporting element 50 for example. Thus, both the rear face 122 of the base 10 and the abutment section 3222 of the conduit assembly 30 are abutted against the supporting element 50, and the conduit 32 of the conduit assembly 30 is connected to a source pipe 82 through the vertical tube 324.
In use, the axle 14 is inserted in the axial passageway 222 of the reel 22 of the reel assembly 20. Then, the reel 22 is moved toward the plate 12 of the base 10. As the axle 14 matches the axial passageway 222, the collar 42 of the communication element 40, which is inserted in the reel 22, can be located on and around the of the insertion section 3221 of the conduit 32. Advantageously, the conduit 32 is directly abutted against the supporting element 50. Hence, a force exerted on the reel 22 to move the reel 22 onto the axle 14 is transferred to the supporting element 50 via the conduit 32, without any risk of disengaging the conduit 32 from the axle 14.
The present invention has been described via the illustration of the preferred embodiment. Those skilled in the art can derive variations from the preferred embodiment without departing from the scope of the present invention. Therefore, the preferred embodiment shall not limit the scope of the present invention defined in the claims.
Number | Date | Country | Kind |
---|---|---|---|
201920636510.6 | May 2019 | CN | national |
Number | Name | Date | Kind |
---|---|---|---|
3050078 | Hooper | Aug 1962 | A |
3433247 | Haselden | Mar 1969 | A |
4506698 | Garcia | Mar 1985 | A |
RE32510 | Tisbo | Sep 1987 | E |
5797424 | Tisbo | Aug 1998 | A |
8801047 | Phillips | Aug 2014 | B2 |
8869820 | Arcati | Oct 2014 | B2 |
Number | Date | Country | |
---|---|---|---|
20200354187 A1 | Nov 2020 | US |