The present invention relates to a faucet, and more particularly to the faucet which has a support bracket configured to support a spray head of the faucet.
A faucet with articulating arm is disclosed in US Publication No. 20150308088A1 to overcome defects of pull-down faucets, for example, the sprayer cannot be flexibly fixed to a desired position.
The faucet includes a body; a hub mounted on a top of the body; two articulating arms rotatably connected with two sides of the hub respectively; a forearm rotatably coupled with one end of the articulating arms; a nest rotatably joined with one end of the forearm so as to magnetically attract with a sprayer; a waterway formed by a flexible tube and communicating with a top of the hub; the sprayer connecting with one end of the waterway so as to spray water.
The hub has a first pivot axis rotatably connected with the articulating arms and perpendicular to a longitudinal axis on the body. When the articulating arms are rotated over 90 degrees, the forearm touches and interferes the waterway to limit rotatable height and width of the sprayer.
The articulating arms are rotatably connected with the two sides of the hub by using the first pivot coupling and are limited by a diameter of the hub, so the first pivot coupling and the articulating arms occupy large space and influence aesthetics appearance. Furthermore, the body has a handle fixed thereon, thus interfering operation of the handle.
The articulating arms and the forearm are close to the waterway and the handle, so they are interfered by the waterway and the handle.
The sprayer tilts horizontally as the nest revolves relative to the forearm, but is cannot slant forward and backward, thus reducing flexibility of water supply.
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.
The primary objective of the present invention is to provide a faucet which has a support bracket rotatably connected with or removed from the body in an operation space so as to avoid interfering a handle.
Another objective of the present invention is to provide a faucet which has a support bracket rotatably connected with or removed from the body so as to maintain an operating firmness of movable joints and flexible adjustment of the spray head as rotating the spray head.
To obtain the above objectives, a faucet having a support bracket provided by the present invention contains: a body, a flexible outlet pipe, a spray head, and a support bracket.
The body includes a vertical axis extending along a central portion of the body.
The flexible outlet pipe extends outwardly from a top of the body and includes an outflow segment.
The spray head is in connection with the outflow segment of the flexible outlet pipe.
The support bracket includes a first rotatable connector disposed on the top of the body, and the support bracket includes a first tab extending outwardly from the first rotatable connector, wherein the first tab has a first rotation axis separated a distance from and perpendicular to the vertical axis. The support bracket further includes a second rotatable connector having a head segments and a distal segment, wherein the head segment is rotatably connected with the first tab so as to form a first movable joint, and the distal segment is connected with or removed from the spray head.
The second rotatable connector has a first connection portion having the head segment and a first coupling segment; a second connection portion having a second coupling segment and the distal segment, wherein the second coupling segment is rotatably connected with the first coupling segment so as to form a second movable joint.
The first connection portion includes two extensions; the two extensions have the head segment rotatably connected with two sides of the first tab, and the two extensions have the first coupling segment; the second coupling segment of the second connection portion has a second tab, two sides of which are rotatably coupled with the first coupling segment of the two extensions.
The faucet having the support bracket further contains a second rotatable connector configured to rotatably connect the head segment of the two extensions with the two sides of the first tab; a second rotation set configured to rotatably connect the first coupling segment of the two extension with the two sides of the second tab.
The head segment of the two extensions has two first fitting sleeves formed thereon; the first tab has two first columns separately extending outward from the two sides thereof; the first rotation set has two friction loops accommodated in the two first fitting sleeves respectively and limitedly retained on the two sides of the first tab individually, wherein the two friction loops are forced to deform flexibly; two screw bolts are configured to lock the two friction loops with the two first columns separately; two adjustable buttons are respectively screwed into the two first fitting sleeves so as to force the two friction loops to deform flexibly and to contact with the two first fitting sleeves respectively.
The first coupling segment of the two extensions have two second fitting sleeves formed thereon; the second tab has two second columns individually extending outward from the two sides thereof; and the second rotation set has another two friction loops accommodated in the second fitting sleeves respectively and limitedly retained on the two sides of the second tab individually, wherein said another two friction loops are forced to deform flexibly; two another screw bolts are configured to lock said another two friction loops with the two second columns separately of the second tab; two another adjustable buttons are screwed into the two second fitting sleeves respectively so as to force said another two friction loops to deform flexibly and to contact with the second fitting sleeve separately.
Between the distal segment of the support bracket and the spray head is defined a magnetic attraction structure so that the spray head is freely removed from the distal segment of the support bracket.
The distal segment of the support bracket has a peripheral knob made of magnetic attracting material; the spray head includes an accommodation groove defined therein so as to accommodate an annular magnet and to magnetically attracting the peripheral knob in the accommodation groove.
The head segment of the two extensions has two first fitting sleeves formed thereon; the first rotation set includes a first toothed seat rotatably housed in the first tab, and the first toothed seat has two first mesh portions arranged on two ends of the first toothed seat respectively; a positioning ring; an adjusting ring; two second toothed seats rotatably accommodated in the two first fitting sleeves separately, and each of the two second toothed seats has a second mesh portion configured to mesh with each of the two first mesh portions; two springs, one of which is mounted between the positioning ring and one of the two second toothed seats, and the other spring is fixed between the adjusting ring and the other second toothed seat; a rotary shaft screwed with the adjusting ring from the positioning ring via the one spring, the one second toothed seat, and the first toothed seat, such that the positioning ring, the one second toothed seat, and the adjusting ring are rotatably connected with the first toothed seat, wherein the two springs push against the two second toothed seats separately so that two second mesh portions of the two second toothed seats mesh with the two first mesh portions individually; two caps are screwed with the positioning ring and the adjusting ring so as to rotatably connect the two first fitting sleeves with the first tab.
The first coupling segment of the two extensions has two second fitting sleeves formed thereon; the second rotation set includes a first toothed seat rotatably housed in the first tab, and the first toothed seat has two first mesh portions arranged on two ends of the first toothed seat respectively; a positioning ring; an adjusting ring; two second toothed seats are rotatably accommodated in the two first fitting sleeves separately, and each of the two second toothed seats has a second mesh portion configured to mesh with each of the two first mesh portions; two springs, one of which is mounted between the positioning ring and one of the two second toothed seats, and the other spring is fixed between the adjusting ring and the other second toothed seat; a rotary shaft is screwed with the adjusting ring from the positioning ring via the one spring, the one second toothed seat, and the first toothed seat, such that the positioning ring, the one second toothed seat, and the adjusting ring are rotatably connected with the first toothed seat, wherein the two springs push against the two second toothed seats separately so that two second mesh portions of the two second toothed seats mesh with the two first mesh portions individually; two caps are screwed with the positioning ring and the adjusting ring so as to rotatably connect the two first fitting sleeves with the first tab.
The first connection portion has a first holding stem, wherein the holding stem has the head segment rotatably connected with the first tab, and the holding stem has a contacting segment; a second holding stem moving along the first holding stem, wherein the second holding stem has a lock segment and the first coupling segment, the lock segment extends out of the head segment of the holding stem and locked in the first tab, hence the first connection portion limitedly rotates relative to and locks with the first tab, the first coupling segment is biased against the contacting segment of the holding stem and is pulled by an external force to remove the lock segment from the first tab; the second coupling segment of the second rotatable connector has a second tab rotatably coupled with the first coupling segment of the second holding stem.
The first connection portion has a first holding stem, wherein the holding stem has the head segment rotatably connected with the first tab, and the holding stem has a contacting segment; a second holding stem moving along the first holding stem, wherein the second holding stem has a lock segment and the first coupling segment, the lock segment extends out of the head segment of the holding stem and locked in the first tab, hence the first connection portion limitedly rotates relative to and locks with the first tab, the first coupling segment is biased against the contacting segment of the holding stem and is pulled by an external force to remove the lock segment from the first tab; the second coupling segment of the second rotatable connector has a second tab rotatably coupled with the first coupling segment of the second holding stem.
The distal segment of the support bracket has a hook, an opening, a hanging space defined by the hook, and a cavity communicating with the opening and the hanging space; the spray head includes a neck portion hang on the hook from the opening via the cavity and retained in the hanging space.
Preferably, the first connection portion of the support bracket is rotated toward two angles so as to enhance stability of the support bracket. In addition, when the support bracket is not operated, the spray head is adjustably revolved to a desired angle by way of the magnetic attraction structure.
With reference to
The body 10 includes a vertical axis X extending along a central portion thereof and includes a handle 11 arranged on one side of the body 10.
The flexible outlet pipe 20 extending outwardly from a top of the body 10 and includes an outflow segment 21.
The spray head 30 is in connection with the outflow segment 21 of the flexible outlet pipe 20.
The support bracket 40 includes a first rotatable connector 40a disposed on the top of the body 10, and the support bracket 40 includes a first tab 41 extending outwardly from the first rotatable connector 40a, wherein the first tab 41 has a first rotation axis Y separated a distance from and perpendicular to the vertical axis X, as shown in
Preferably, the first rotation axis Y is perpendicular to and is not intersected with the vertical axis X, and the first rotation axis Y is separated the width W from the vertical axis X, hence the support bracket 40 is freely rotated between the body 10 and the spray head 30.
Referring to
Thereby, the first movable joint 403 is rotatable with respect to the body 10, the flexible outlet pipe 20, and the handle 11. When the first connection portion 40c is rotated upwardly around/at 90 degrees, it does not touch the flexible outlet pipe 20, such that the second connection portion 40d and the spray head 30 are adjustably rotated toward a water sink close to the body 10 or toward a higher position. Furthermore, a width of the first movable joint 403 is decreased so that the handle 11 operates smoothly.
Referring to
As illustrated in
With reference to
Referring to
As illustrated in
As illustrated in
As illustrated in
As illustrated in
With reference to
a first rotation set 40g including a first toothed seat 47a rotatably housed in the first tab 41, and the first toothed seat 47a having two first mesh portions 471 arranged on two ends of the first toothed seat 47a respectively; a positioning ring 47b; an adjusting ring 47c; two second toothed seats 47d rotatably accommodated in the two first fitting sleeves 421 separately, and each of the two second toothed seats 47d has a second mesh portion 472 configured to mesh with each of the two first mesh portions 471; two springs 47e, one of which is mounted between the positioning ring 47b and one of the two second toothed seats 47d, and the other spring 47e is fixed between the adjusting ring 47c and the other second toothed seat 47d; a rotary shaft 47f screwed with the adjusting ring 47c from the positioning ring 47b via the one spring 47e, the one second toothed seat 47d, and the first toothed seat 47a, such that the positioning ring 47b, the one second toothed seat 47d, and the adjusting ring 47c are rotatably connected with the first toothed seat 47a, wherein the two springs 47e push against the two second toothed seats 47d separately so that two second mesh portions 472 of the two second toothed seats 47d mesh with the two first mesh portions 471 individually; two caps 47g screwed with the positioning ring 47b and the adjusting ring 47c so as to rotatably connect the two first fitting sleeves 421 with the first tab 41.
The first toothed seat 47a has a limiting rib 473 extending outwardly from an outer end thereof so as to abut the first toothed seat 47a against one side of the first tab 41 opposite to the one positioning ring 47b; the first toothed seat 47a has a plastic washer 474 fitted thereon and defined between the other side of the first tab 41 and one of the two first fitting sleeves 421, wherein the other side of the first tab 41 is opposite to the adjusting ring 47c, and the one first fitting sleeve 421 accommodates the adjusting ring 47c, hence friction among the two first fitting sleeves 421 and the first tab 41 reduces.
Each of the two first mesh portions 471 and the two second mesh portions 472 has multiple teeth arranged thereon.
Each of the first tab 41 and the two first fitting sleeves 421 has a polygonal inner wall defined therein; and each of the first toothed seat 47a and the two second toothed seats 47d has a polygonal outer wall formed thereon.
The faucet 1 further comprises: a second rotation set 40h including a first toothed seat 47a rotatably housed in the second tab 43, and the first toothed seat 47a having two first mesh portions 471 arranged on two ends of the first toothed seat 47a respectively; a positioning ring 47b; an adjusting ring 47c; two second toothed seats 47d rotatably and respectively accommodated in the two second fitting sleeves 422, and each of the two second toothed seats 47d has a second mesh portion 472 configured to mesh with each of the two first mesh portions 471; two springs 47e, one of which is mounted between the positioning ring 47b and one of the two second toothed seats 47d, and the other spring 47e is fixed between the adjusting ring 47c and the other second toothed seat 47d; a rotary shaft 47f screwed with the adjusting ring 47c from the positioning ring 47b via the one spring 47e, the one second toothed seat 47d, and the first toothed seat 47a, such that the positioning ring 47b, the one second toothed seat 47d, and the adjusting ring 47c are rotatably connected with the first toothed seat 47a, wherein the two springs 47e push against the two second toothed seats 47d separately so that two second mesh portions 472 of the two second toothed seats 47d mesh with the two first mesh portions 471 individually; two caps 47g screwed with the positioning ring 47b and the adjusting ring 47c so as to rotatably and separately connect the two second fitting sleeves 422 with the second tab 43.
The first toothed seat 47a of the second rotation set 40h has a limiting rib 473 extending outwardly from an outer end thereof so as to abut the first toothed seat 47a against one side of the second tab 43 opposite to the one positioning ring 47b, and the first toothed seat 47a of the second rotation set 40h abuts against one of the two second fitting sleeves 422, wherein the first toothed seat 47a has a plastic washer 474 fitted thereon and defined between the other side of the second tab 43 and the other second fitting sleeve 422, wherein the other side of the second tab 43 is opposite to the adjusting ring 47c, and the other second fitting sleeve 422 accommodates the adjusting ring 47c, hence friction between the second fitting sleeve 422 and the second tab 43 reduces.
Each of the second tab 43 and the two second fitting sleeves 422 has a polygonal inner wall defined therein; and each of the first toothed seat 47a and the two second toothed seats 47d has a polygonal outer wall formed thereon.
Accordingly, when the first movable joint 403 or the second movable joint 406 is revolved, it makes sounds so that the user knows accuracy positioning of the support bracket at any angles, and the faucet 1 is secured by the support bracket firmly.
With reference to
In other words, the first connection portion 40c locks with and unlocks from the first movable joint 403 by pulling and releasing the second holding stem 48b so as to adjustably rotate with respective to the first tab of the first rotatable connector 40a.
Referring to
In this embodiment, two trenches 415 are defined on the outer wall of the rotatable post 414;
The rotatable post 414 has the at least two trenches 415 defined on an outer wall thereof and a trough 416 formed on the outer wall of the rotatable post 414, wherein two limitation fences 417 forms on two sides of the trough 416; the first fitting sleeve 421 has a second bulge 423 extending from an inner wall thereof and limitedly rotating in the trough 416 between the two limitation fences 417; when the second bulge 423 abuts against one of the two limitation fences 417, it locks in the one trench 415; when the second bulge 423 abuts against the other limitation fence 417, it locks in the other trench 415.
Accordingly, the first connection portion 40c is rotated toward two angles as shown in
As shown in
In other words, the defining portion 493 of the second holding stem 48b is biased against the stop fence 491 by way of the two first spring 48d, and the second bulge 423 locks in the other trench 415. As desiring to adjustably rotate the first connection portion 40c, the second holding stem 48b is pulled outwardly and resists against the two springs 48s so as to remove the second bulge 423 from the other trench 415, hence the first fitting sleeve 421 of the first holding stem 48a rotates relative to the first tab 41.
The first connection portion 40c further has a covering plate 48e configured to close the lower face 485 of the first holding stem 48a.
In this embodiment, a second fitting sleeve 422 is formed by the first coupling segment 404 of the second holding stem 48b. The second tab 43 is formed by the second coupling segment 405 of the second rotatable connector 40d. The second rotatable connector 40b has a third rotation set 40k configured to rotatably connect the second fitting sleeve 422 with the second tab 43 so as to form the second movable joint 406.
As illustrated in
Therefore, the adjustment bolt 49d is rotated so as to adjust a resistance against rotation between the second rotatable connector 40d and the second holding stem 48b.
Each of the housing room 433 and the second fitting sleeve 422 has a polygonal inner wall defined therein; and each of the first toothed seat 49a and the second toothed seats 49b has a polygonal outer wall formed thereon.
Referring to
While the preferred embodiments of the invention have been set forth for the purpose of disclosure, modifications of the disclosed embodiments of the invention as well as other embodiments thereof may occur to those skilled in the art. The scope of the claims should not be limited by the preferred embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.
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