Button latch with integrally molded cantilever springs
First Claim
1. A button latch for use in a fluid connector, the button latch comprising:
- a button actuator portion for engagement by a user;
a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and configured to physically secure a male connector within the button latch; and
a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate and cantilevered from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion,wherein the plurality of cantilevered leg springs comprise;
two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate in a locked position and resist depression forces applied to each of the button actuator portion and the latch plate, anda rear leg spring extending downward from a bottom of the button actuator portion and curving distally.
3 Assignments
0 Petitions
Accused Products
Abstract
An integral button latch is formed for use in a female fluid connector housing. The button latch has a latch plate, a button actuator, and two or more cantilevered leg springs extending from beneath the actuation surface to interface with the connector housing. The latch plate, the button actuator, and the leg springs are all integrally formed. The leg springs bias the latch plate in a locked position and resist depression forces applied to either of the button actuator or the latch plate. By integrally forming the button latch structure, the separate costs associated with purchasing the springs, molding the lock latch, and the ensuing assembly of the three are significantly diminished.
615 Citations
31 Claims
-
1. A button latch for use in a fluid connector, the button latch comprising:
-
a button actuator portion for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and configured to physically secure a male connector within the button latch; and a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate and cantilevered from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion, wherein the plurality of cantilevered leg springs comprise; two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate in a locked position and resist depression forces applied to each of the button actuator portion and the latch plate, and a rear leg spring extending downward from a bottom of the button actuator portion and curving distally. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
-
-
12. A fluid tubing connector, comprising:
-
a housing defining an aperture in a top surface thereof; a tube connection portion; an opening configured to receive a male connector; and a button latch configured to engage and disengage with the male connector, the button latch further comprising; a button actuator portion with a top surface exposed within the aperture in the top surface of the housing for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and defining a latch aperture substantially aligned with the opening, wherein the latch plate is configured to engage a male connector to secure the fluid tubing connector in a locked position; and a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate, extending from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion, and contacting an inner wall surface of the housing, wherein the plurality of cantilevered leg springs comprise; two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate within the housing in the locked position and resist depression forces applied to each of the button actuator portion and the latch plate, and a rear leg spring extending downward from a bottom of the button actuator portion and curving distally to slidingly engage the inner wall surface of the housing. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
-
-
26. A button latch for use in a fluid connector, the button latch comprising:
-
a button actuator portion for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and configured to physically secure a male connector within the button latch; a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate and cantilevered from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion; and a hinge tab extending from a rear edge of the button actuator portion, the hinge tab being configured to engage a bearing surface on a housing of the fluid connector, wherein the plurality of cantilevered leg springs comprise two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate in a locked position and resist depression forces applied to each of the button actuator portion and the latch plate.
-
-
27. A button latch for use in a fluid connector, the button latch comprising:
-
a button actuator portion for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and configured to physically secure a male connector within the button latch; a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate and cantilevered from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion; and an alignment post extending downward from a bottom surface of the button actuator portion, the alignment post being configured to engage with a post receiver in the fluid connector, wherein the plurality of cantilevered leg springs comprise two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate in a locked position and resist depression forces applied to each of the button actuator portion and the latch plate.
-
-
28. A button latch for use in a fluid connector, the button latch comprising:
-
a button actuator portion for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and configured to physically secure a male connector within the button latch; a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate and cantilevered from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion; and a retention tab positioned along a front edge of the button actuator portion and configured to retain the front edge of the button actuator portion within a housing of the fluid connector, wherein the plurality of cantilevered leg springs comprise two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate in a locked position and resist depression forces applied to each of the button actuator portion and the latch plate.
-
-
29. A fluid tubing connector, comprising:
-
a housing defining an aperture in a top surface thereof; a tube connection portion; an opening configured to receive a male connector; and a button latch configured to engage and disengage with the male connector, the button latch further comprising; a button actuator portion with a top surface exposed within the aperture in the top surface of the housing for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and defining a latch aperture substantially aligned with the opening, wherein the latch plate is configured to engage a male connector to secure the fluid tubing connector in a locked position; a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate, extending from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion, and contacting an inner wall surface of the housing; and a hinge tab extending from a rear edge of the button actuator portion, the hinge tab being configured to engage a bearing surface on an edge of the housing defining the aperture in the top surface, wherein the plurality of cantilevered leg springs comprise two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate within the housing in the locked position and resist depression forces applied to each of the button actuator portion and the latch plate.
-
-
30. A fluid tubing connector, comprising:
-
a housing defining an aperture in a top surface thereof; a tube connection portion; an opening configured to receive a male connector; and a button latch configured to engage and disengage with the male connector, the button latch further comprising; a button actuator portion with a top surface exposed within the aperture in the top surface of the housing for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and defining a latch aperture substantially aligned with the opening, wherein the latch plate is configured to engage a male connector to secure the fluid tubing connector in a locked position; a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate, extending from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion, and contacting an inner wall surface of the housing; and an alignment post extending downward from the bottom surface of the button actuator portion, the alignment post being configured to engage with a post receiver formed on the inner wall surface of the housing, wherein the plurality of cantilevered leg springs comprise two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate within the housing in the locked position and resist depression forces applied to each of the button actuator portion and the latch plate.
-
-
31. A fluid tubing connector, comprising:
-
a housing defining an aperture in a top surface thereof; a tube connection portion; an opening configured to receive a male connector; and a button latch configured to engage and disengage with the male connector, the button latch further comprising; a button actuator portion with a top surface exposed within the aperture in the top surface of the housing for engagement by a user; a latch plate integrally formed with and extending downwardly and perpendicularly from a proximal edge of the button actuator portion and defining a latch aperture substantially aligned with the opening, wherein the latch plate is configured to engage a male connector to secure the fluid tubing connector in a locked position; a plurality of cantilevered leg springs, each leg spring integrally formed with the button actuator portion and the latch plate, extending from either a bottom surface of the button actuator portion or both an upper portion of the latch plate and the bottom surface of the button actuator portion, and contacting an inner wall surface of the housing; and a retention tab positioned along a front edge of the button actuator portion and configured engage an edge of the housing defining the aperture in the top surface to retain the front edge of the button actuator portion within the housing, wherein the plurality of cantilevered leg springs comprise two leg springs extending symmetrically downward and inward from laterally opposite corners of the button actuator portion to bias the latch plate within the housing in the locked position and resist depression forces applied to each of the button actuator portion and the latch plate.
-
Specification