COUPLER

Abstract

A coupler, adapted for being assembled and connected with a water sprayer, includes a sleeve and a coupling member adapted for being assembled and connected with the water sprayer. The coupling member and the sleeve are sleeved with each other and respectively have a first corresponding end and a second corresponding end which correspond to each other. The first corresponding end and the second corresponding end are adapted to be engaged with each other, so that the sleeve and the coupling member are capable of being mutually locked and into a non-rotatable state through the engagement and rotation meshing operation. The sleeve can be disengaged with the coupling member through axially moving the sleeve so that the sleeve is allowed to be axially rotatable.

Claims

1. A coupler, adapted to be a connecting element to connect a water sprayer and a hose, comprising: a coupling member, having a tubular shape defining a channel therein and a first corresponding end provided thereon; a sleeve, having a second corresponding end provided thereon; wherein said coupling member is sleeved on said sleeve and said sleeve is adapted to move axially on said coupling member within a limited distance, wherein said channel of said coupling member has a flange arranged on a tube wall thereof, wherein said sleeve further has a shaft tube, sleeved into said channel of said coupling member, and an enlarged end provided on an end of said shaft tube through molding or stamping, wherein said enlarged end is matchingly stopped at said flange, wherein said first corresponding end and said second corresponding end are matched with each other, wherein after engaging and locking said first corresponding end and said second corresponding end of said coupling member and said sleeve, said coupling member and said sleeve are non-rotatable to each other, wherein after axially moving said sleeve to disengage the surface of said second corresponding end from said first corresponding end, said sleeve and said coupling member are rotatable to each other.

2. (canceled)

3. The coupler, as recited in claim 1, wherein said first corresponding end is in a form of a plurality of protruding teeth, bump blocks or claws.

4. The coupler, as recited in claim 1, wherein said second corresponding end is in a form of a plurality of tooth spaces, bump grooves or claws.

5. The coupler, as recited in claim 1, wherein said coupling member further has a first screw portion arranged thereon.

6. The coupler, as recited in claim 1, wherein said sleeve further has a second screw portion arranged thereon.

7. The coupler, as recited in claim 1, wherein said coupling member has an inner diameter wall, wherein said shaft tube has outer diameter wall, wherein said first corresponding end is integrally formed on the a bottom end of the inner diameter wall of said coupling member, wherein said second corresponding end is integrally formed on the a bottom end of the outer diameter wall of the shaft tube of said sleeve and is adapted for being correspondingly engaged and curbed with said first corresponding end.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is an exploded view of the present invention.

[0010] FIG. 2 is an exploded view of another direction of the present invention.

[0011] FIG. 3 is sectional view of a sleeve and a coupling member in a non-engaging state according to the present invention.

[0012] FIG. 4 is perspective view of a sleeve and a coupling member in an unlock state according to the present invention.

[0013] FIG. 5 is sectional view of a sleeve and a coupling member in an engaged state according to the present invention.

[0014] FIG. 6 is perspective view of a sleeve and a coupling member in a locked state according to the present invention.

[0015] FIG. 7 is a sectional view of an implementation of assembling of the present invention onto an inlet connector of a handle of a water sprayer.

[0016] FIG. 8 is a sectional view of an implementation of assembling of the present invention respectively with an inlet connector of a handle of a water sprayer and a hose connector, wherein when the coupling member and the sleeve are in an unlock state, the sleeve is rotatable.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0017] Referring to FIGS. 1, 2, 3, and 5, a coupler according to a preferred embodiment is illustrated.

[0018] For a specific implementation, FIGS. 1 and 2 illustrate a coupler, comprising a coupling member (1) and a sleeve (2). The coupling member (1) has a first screw portion (12), while the sleeve (2) has a second screw portion (24). Here, the coupling member (1) and the sleeve (2) respectively have a first corresponding end (11) and a second corresponding end (21) capable of corresponding to each other. The first corresponding end (11) and a second corresponding end (21) are engagement devices capable of correspondingly engaging and meshing with each other. Through an operation to rotate the first corresponding end (11) and the second corresponding end (21) until they are meshed with each other, it allows the coupling member (1) and the sleeve (2) lock each other and become not rotatable to each other. Through an operation of axial moving the sleeve (2) leading the end faces of the first corresponding end (11) and the second corresponding end (21) be disengaged from each other, it allows the coupling member (1) and the sleeve (2) to freely rotate while staying assembled with each other, which is allowing the sleeve (2) to freely rotate on the coupling member (1).

[0019] Further, referring to FIGS. 3 and 5, the sleeve (2) has an elongated shaft tube (22) and the coupling member (1) has a passage (1a) in a tubular form, wherein the channel (1a) has a surrounding flange (13), wherein the shaft tube (22) of the sleeve (2) is inserted into the channel (1a) of the coupling member (1) and the end of the shaft tube (22) has an enlarged end (23), wherein the outer diameter of the enlarged end (23) is larger than the flange (13) of the coupling member (1). A further definition is that the enlarged end (23) of the shaft tube (22) is slightly larger than the flange (13), so that the shaft tube (22) can be moved axially on the coupling member (1) within a limited distance without departing from the coupling member (1).

[0020] Further, the enlarged end (23) is affixed onto the end of the shaft tube (22) through molding, stamping forming or ultrasonic bonding.

[0021] Further, the flange (13) has a soft ring (3) sleevingly arranged thereon. The bottom (2a) of the inner diameter of the second screw portion (24) has a seal gasket (4) sleevingly arranged thereat.

[0022] Continuing with FIGS. 3 to 6, the engagement device is utilized to lock the coupling member (1) and the sleeve (2) together, so as to allow the coupling member (1) to be locked when being rotated to the connector of the handle. In addition, when the sleeve (2) is moved axially, the engagement device does not interlock, allowing the sleeve (2) to freely rotate on the coupling member (1).

[0023] Further, referring to FIGS. 7 and 8, the first screw portion (12) is capable of being matchingly rotatingly assembled to the connector at the inlet end (A1) of the handle (A). Also, the second screw portion (24) is capable of being matchingly rotatingly assembled to the connector (B1) of the hose (B).

[0024] Besides, the first corresponding end (11) and the second corresponding end (21) have at least part of or full of the circular edge thereof having a plurality of teeth or tooth spaces formed thereon, wherein the engaging or cogging surface of the plurality of the teeth and tooth spaces is as illustrated in FIGS. 1-3.

[0025] The following further illustrates controlling features of the engagement device of the present invention. The first corresponding end (11) is integrally formed on the bottom of the inner diameter wall of the coupling member (1) in a form of a plurality of claws. The second corresponding end (21) is integrally formed on the bottom of the outer diameter wall of the shaft tube (22) of the sleeve (2) in a form of a plurality of tooth spaces, which are adapted to correspondingly engage and mesh with the claws to perform a twist control characteristic, wherein the engaging and meshing interaction will be further illustrated below. The claws of the first corresponding end (11) are preferably integrally formed on the bottom of the inner diameter wall, wherein the structural member of the claw is formed from the inner diameter wall of the coupling member (1). The tooth spaces of the second corresponding end (21) are preferably integrally formed on the bottom of the outer diameter wall of the shaft tube (22) of the sleeve (2).

[0026] FIG. 7 illustrates an operation of the connection of the present invention with a water sprayer. When the sleeve (2) axially moves on and along the coupling member (1), it meshes and locks the first corresponding end (11) with the second corresponding end (21), rendering the coupling member (1) and the sleeve (2) incapable of rotating against each other and causing the first screw portion (12) be rotatingly locked onto the connector (A1) of the handle (A) of the water sprayer, so that the coupling member (1) and the sleeve (2) are together assembled with the connector (A1) of the handle (A).

[0027] FIG. 8 illustrates an operation of the connection of a water sprayer and a hose through the present invention. When the sleeve (2) axially moves in an opposite direction along the coupling member (1), the first corresponding end (11) and the second corresponding end (21) will separate from each other, which allows the sleeve (2) to rotate on the coupling member (1). Here, the second screw portion (23) can be locked on the connector (B1) of the hose (B) through rotating the sleeve (2), such that when the water sprayer rotates, the coupling member (1) will rotate along with the rotation of the water sprayer, but the sleeve (2) will not rotate. Therefore, the hose (B) following the sleeve (2) will not be turned relatively.

[0028] The engagement devices that have the coupling member (1) and sleeve (2) interlocked with each other are especially important. According to an embodiment of the present invention, the first corresponding end (11) is a plurality of protruding teeth and the second corresponding end (21) is a plurality of tooth spaces. This corresponding arrangement of protruding teeth and tooth spaces is preferable because it ensures that the coupling member (1) and the sleeve (2) can be tight locked on the connector (A1) without being loosened. Meanwhile, the engagement device is arranged in a manner that the coupling member (1) and the sleeve (2) are just bucked with each other rather than overly locked and bonded. Therefore, the sleeve (2) can be axially moved easily, so as for disengaging the sleeve (2) and the coupling member (1).

[0029] As various changes may be made in the form, construction, and arrangement of components herein without departing from the spirit and scope of the present invention and without sacrificing any advantages thereof, it should be understood that all matter herein is to be interpreted as illustrative and not in a limiting sense.