Connection structure of ceramic cartridge of faucet

Abstract

A connection structure of a ceramic cartridge of a faucet contains: a control body, a rotatable operation rod, a connection ring, a stop ring, a guide ring, and a seal washer. The control body includes an accommodation space and an outlet. The guiding ring includes a fan-shaped hole corresponding to multiple stopping fringes of the stop ring. The control body includes an orifice, and the rotatable operation rod includes multiple O rings fitted thereon to avoid a leakage of the waters. The orifice has a recess, and the rotatable operation rod includes a notch for accommodating a C retainer. The rotatable operation rod includes an insertion, and the connection ring includes a receiving trough. The insertion has a hook, and the receiving trough has a cutout configured to engage with the hook. The connection ring includes a rib. The stop ring includes an aperture and multiple stopping fringes.

Claims

1. A connection structure of a ceramic cartridge of a faucet comprising: a control body, a rotatable operation rod, a connection ring, a stop ring, a guide ring, and a seal washer; the control body including an accommodation space, and the rotatable operation rod being received in the control body and connected with the connection ring, the stop ring, the guide ring and the seal washer being received in the accommodation space, a lower end of the control body being connected with a body of the faucet so as to flow waters, and the control body further including an outlet defined on a middle section of the control body; the connection ring being connected with the rotatable operation rod, and a lower end of the connection ring being connected with the stop ring, such that the rotatable operation rod is rotated so that the connection ring actuates the stop ring to revolve simultaneously, and the stop ring including multiple stopping fringes formed on a lower end thereof; the guiding ring being connected on the lower end of the stop ring, the guide ring including a fan-shaped hole defined thereon and corresponding to the multiple stopping fringes, and the multiple stopping fringes being communicated to flow the waters or are closed to stop the waters; the stop ring being fixed on the lower end of the control body, and the connection ring, the stop ring and the guide ring being limited in the accommodation space; wherein the control body includes an orifice defined on a center thereof and configured to accommodate the rotatable operation rod, and the rotatable operation rod includes multiple O rings fitted thereon to avoid a leakage of the waters; wherein the orifice has a recess defined on an upper end thereof, and the rotatable operation rod includes a notch defined on a predetermined position thereof and accommodating a C retainer, such that the rotatable operation rod is connected with the control body by using the C retainer securely; wherein the rotatable operation rod includes an insertion extending from a lower end thereof, and the connection ring includes a receiving trough defined on an upper end thereof so as to accommodate the insertion, wherein the insertion has a hook formed on a bottom thereof, and the receiving trough has a cutout configured to engage with the hook, such that the insertion is engaged with the receiving trough of the connection ring firmly; wherein the connection ring includes a rib extending from the lower end thereof, and the stop ring includes an aperture defined on an upper end thereof and corresponding to the rib, the stop ring also includes the multiple stopping fringes formed on the lower end thereof, wherein a cross section of a respective stopping fringe is arcuate so that the respective stopping fringe guides and stops the water.

2. The connection structure as claimed in claim 1, wherein the receiving trough of the connection ring is vertically intersected with the rib.

3. The connection structure as claimed in claim 1, wherein the connection ring further includes a wear resistant ring fitted on an upper end thereof and configured to contact with an upper wall of the accommodation space so that the connection ring rotates smoothly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a cross-sectional perspective view showing the assembly of a connection structure of a ceramic cartridge of a faucet according to a preferred embodiment of the present invention.

(2) FIG. 2 is a perspective view showing the assembly of the connection structure of the ceramic cartridge of the faucet according to a preferred embodiment of the present invention.

(3) FIG. 3 is a cross sectional view taken along the line A-A of FIG. 2.

(4) FIG. 4 is a cross sectional view taken along the line B-B of FIG. 2.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(5) With reference to FIGS. 1-2, a connection structure of a ceramic cartridge of a faucet according to a preferred embodiment of the present invention comprises: a control body 10, a rotatable operation rod 20, a connection ring 30, a stop ring 40, a guide ring 50, and a seal washer 60.

(6) Referring to FIGS. 1 and 2, a structure of the control body 10 of the present invention is identical to a structure of a conventional body. The control body 10 includes an actuation section 11 formed on an upper end thereof and configured to connect with a hand tool so that the actuation section 11 is operated by the hand tool to lock the control body 10 with a body (not shown) of the faucet, an orifice 12 defined on a center thereof and configured to accommodate the rotatable operation rod 20, and a circular groove defined on a lower end of the control body 10 and being coaxial with the orifice 12, as shown in FIGS. 3 and 4, an accommodation space 13 is defined by the circular groove and the orifice 12, and the accommodation space 13 is configured to receive the connection ring 30, the stop ring 40, the guide ring 50, and the seal washer 60. The lower end of the control body 10 is connected with the body of the faucet so as to flow waters, and the control body 10 further includes an outlet 14 defined on a middle section thereof.

(7) As illustrated in FIGS. 1, 3 and 4, the rotatable operation rod 20 includes multiple O rings 21 fitted thereon so that when the rotatable operation rod 20 is received in the orifice 12, the multiple O rings 21 stop a leakage of the waters. The orifice 12 has a recess 121 defined on an upper end thereof, and the rotatable operation rod 20 includes a notch 22 defined on a predetermined position thereof and accommodating a C retainer 23, such that the rotatable operation rod 20 is connected with the control body 10 by using the C retainer 23 securely.

(8) With reference to FIGS. 1, 3 and 4, the rotatable operation rod 20 includes an insertion 24 extending from a lower end thereof, and the connection ring 30 includes a receiving trough 31 defined on an upper end thereof so as to accommodate the insertion 24, wherein the insertion 24 has a hook 241 formed on a bottom thereof, and the receiving trough 31 has a cutout 311 configured to engage with the hook 241, such that the insertion 24 is engaged with the receiving trough 31 of the connection ring 30 firmly.

(9) Referring to FIGS. 1, 3 and 4, the connection ring 30 is connected with the rotatable operation rod 20, and a lower end of the connection ring 30 is connected with the stop ring 40. The rotatable operation rod 20 is rotated so that the connection ring 30 actuates the stop ring 40 to revolve simultaneously, wherein the connection ring 30 includes a rib 32 extending from the lower end thereof, and the stop ring 40 includes an aperture 41 defined on an upper end thereof and corresponding to the rib 32, the stop ring 40 also includes multiple stopping fringes 42 formed on a lower end thereof, as shown in FIG. 42, wherein a cross section of a respective stopping fringe 42 is arcuate so that the respective stopping fringe 42 guides and stops the water.

(10) As shown in FIGS. 1, 3 and 4, the guide ring 50 is fixed on a lower end of the stop ring 40, and the guide ring 50 includes a fan-shaped hole 51 defined thereon and corresponding to the multiple stopping fringes 42, wherein the multiple stopping fringes 42 are communicated to flow the waters or are closed to stop the waters.

(11) With reference to FIG. 1, the receiving trough 31 of the connection ring 30 is vertically intersected with the rib 32 so that when the rotatable operation rod 20 is rotated, the connection ring 30 scatters a stress to enhance a service life of the rib 32.

(12) Referring to FIGS. 1, 3 and 4, the connection ring 30 further includes a wear resistant ring 70 fitted on an upper end thereof and configured to contact with an upper wall of the accommodation space 13 so that the connection ring 30 rotates smoothly.

(13) As shown in FIGS. 1-4, in assembly, the connection ring 30, the stop ring 40, the guide ring 50, and the seal washer 60 are received in the accommodation space 13 of the control body 10, then the rotatable operation rod 20 is pushed downward from the upper end of the control body 10 so that the insertion 24 of the rotatable operation rod 20 is inserted and fixed in the receiving trough 31 of the connection ring 30.

(14) Thereby, the cutout 311 of the connection ring 30 is engaged with the hook 241 of the rotatable operation rod 20. In case, the insertion 24 is not inserted in the receiving trough 31, the rotatable operation rod 20 is adjustably moved so that the insertion 24 is engaged in the receiving trough 31, and the rotatable operation rod 20 is pushed from the upper end of the control body 10 so that the C retainer 23 is engaged with the recess 121, thus connecting the rotatable operation rod 20 with the control body 10 easily and securely.

(15) While the preferred embodiments of the invention have been set forth for purpose of disclosure, modifications of the disclosed embodiments of the invention and other embodiments thereof may occur to those skilled in the art. Accordingly, the appended claims are intended to cover all embodiments which do not depart from the spirit and scope of the invention.