Patent Application
20130126771
1. Field of the Invention
The present invention relates to an air valve connecting head or device or attachment, and more particularly to an air valve connecting device or attachment including an improved structure for connecting to different inflation valves and for preventing an air leaking from the inflation valves and the attachment.
2. Description of the Prior Art
Typical air valve connecting devices or attachments comprise a fitting port formed in one end of a valve housing for receiving or engaging with an inflation valve and for inflating the balls, the inner tires of the bicycles or the motorcycles or the vehicles, or other inflatable articles.
For example, U.S. Pat. No. 4,334,839 to Flagg discloses one of the typical hand operated, dual chambered, pneumatic pumps comprising a twin piston air pump for pumping air under pressure in both directions, and a fitting member for engaging with an inflation valve.
However, normally, the typical air valve connecting heads or fittings may only be used for engaging with a single inflation valve only, such as a U.S. type valve and a French type valve, but may not be used for engaging with both of the inflation valves.
U.S. Pat. No. 4,842,489 to Lucisano, U.S. Pat. No. 5,683,234 to Chuang et al., and U.S. Pat. No. 7,866,335 to Wang disclose other typical air valve connecting heads for the hand-held air pump and comprising a fitting device or attachment for selectively or alternatively engaging with different tire valves, such as the U.S. type inflation valve or the French type inflation valve, or the like.
However, the typical air valve connecting heads or attachments comprise a structure that may not be easily operated or may not effectively grasping or holding the different inflation valves, and may have an air leaking problem occurred through either the inflation valve or the attachment.
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages of the conventional air valve connecting devices or attachments.
The primary objective of the present invention is to provide an air valve connecting device or attachment including an improved structure for connecting to different inflation valves and for preventing an air leaking from the inflation valves and the attachment.
In accordance with one aspect of the invention, there is provided an air valve connecting device comprising a housing including a chamber formed therein, and including an inlet mouth for receiving a pressurized air, a gasket engaged into the chamber of the housing and including a bore formed therein for engaging with an inflation valve, a casing slidably engaged in the chamber of the housing and engaged with the gasket for selectively compressing the gasket to grasp and retain the inflation valve to the housing, and the casing including a compartment formed therein and communicative with the bore of the gasket, a valve piece slidably engaged in the compartment of the casing and extendible into the bore of the gasket for engaging with the inflation valve, and the valve piece being engageble with the casing and for selectively blocking the compartment of the casing, a first spring biasing member for biasing the valve piece to engage with the casing, an actuator slidably engaged in the chamber of the housing and engageble with the casing for selectively forcing the casing to compress the gasket to grasp and retain the inflation valve to the housing, and the actuator including a peripheral pathway communicative with the inlet mouth of the housing for receiving the pressurized air from the inlet mouth, and including an aperture formed therein, and including a channel formed therein and communicative with the aperture and the peripheral pathway for allowing the pressurized air from the inlet mouth of the housing to flow into the peripheral pathway and the aperture of the actuator, and including a valve seat extended into the aperture of the actuator, a valve member disposed in the aperture of the actuator and movable to engage with the valve seat and to block the aperture of the actuator by the pressurized air, and a handle pivotally attached to the housing and including a cam member for engaging with the actuator and for selectively forcing the actuator to force the casing to compress the gasket and to grasp and retain the inflation valve to the housing.
The casing includes a swelling extended therefrom and having a passage formed in the swelling and communicative with the compartment of the casing, the valve member is engageble with the swelling of the casing. The casing includes a second compartment formed therein and communicative with the passage of the swelling of the casing.
The housing includes a second gasket engaged into the chamber of the housing and includes a bore formed therein and communicative with the second compartment of the casing. The casing includes a second valve piece slidably engaged in the second compartment of the casing and extendible into the bore of the second gasket.
The casing includes a peripheral flange extended into the compartment of the casing, and a sealing ring engaged in the compartment of the casing and engageble with the peripheral flange of the casing, and the valve piece is engageble with the sealing ring for selectively forcing the sealing ring to engage with the peripheral flange of the casing and to block the compartment of the casing.
The actuator includes a stepped depression formed therein and communicative with the aperture of the actuator, and a valve element slidably engaged in the stepped depression of the actuator, and a sealing ring engaged in the stepped depression of the actuator and engageable with the valve element and the actuator for selectively blocking the stepped depression and the aperture of the actuator.
The actuator includes an upper sealing ring and a lower sealing ring slidably engaged with the housing, and the peripheral pathway of the actuator is formed between the upper and the lower sealing rings and communicative with the inlet mouth of the housing. The housing includes a bottom wall having an opening formed therein and communicative with the bore of the gasket.
Further objectives and advantages of the present invention will become apparent from a careful reading of the detailed description provided hereinbelow, with appropriate reference to the accompanying drawings.
Referring to the drawings, and initially to
As shown in
The gaskets 20, 21 each include a bore 22, 23 formed therein and having a predetermined size or dimension or standard for receiving or engaging with the inflation valves 91, and the gaskets 20, 21 are made of soft or elastic materials, such as rubber, plastic or other synthetic materials and include a suitable or predetermined softness or resilience for being selectively depressed or compressed or squeezed or deformed to grip or grasp or hold or retain the inflation valves 91 to the housing 10. Alternatively, as shown in
A follower or sliding member or piston or casing 30 is slidably or movably disposed or engaged into the chamber 11 of the housing 10 and contacted or engaged with the gaskets 20, 21 for selectively depressing or compressing or squeezing or deforming the gaskets 20, 21 to grip or grasp or hold or retain the inflation valves 91 to the housing 10, and includes two or more compartments 31, 32 formed therein for aligning or communicative with the bores 22, 23 of the gaskets 20, 21 respectively, and includes a bulge or seat or swelling 33 extended upwardly from the casing 30 and having a passage 34 formed therein and communicative with the compartments 31, 32 of the casing 30, and includes a sealing ring 35 disposed or engaged into each of the compartments 31, 32 of the casing 30, and includes a peripheral flange 36 extended laterally and inwardly into each of the compartments 31, 32 of the casing 30 for engaging with the sealing rings 35 and for anchoring or securing or retaining the sealing rings 35 in the compartments 31, 32 of the casing 30 respectively and for preventing the sealing rings 35 from being disengaged from the casing 30.
A valve pressing member or tube or valve piece 40, 41 is slidably engaged in each of the compartments 31, 32 of the casing 30 respectively and slidable or extendible into the respective bore 22, 23 of the gasket 20, 21 for selectively engaging with the inflation valves 91, such as the French type valve 91 and the U.S. type valve and the like, and the valve pieces 40, 41 each include a peripheral flange or stop 42 extended laterally and outwardly therefrom for contacting or engaging with the sealing rings 35 and for selectively forcing or pressing the sealing rings 35 onto the peripheral flanges 36 of the casing 30, and thus for selectively making a water or air tight seal with the casing 30 and/or for selectively blocking the compartments 31, 32 of the casing 30, and the valve pieces 40, 41 each include a stud 43 extended upwardly therefrom for engaging with a spring biasing means or member 44, 45 which may bias and force the valve pieces 40, 41 to engage with and to press the sealing rings 35 onto the peripheral flanges 36 of the casing 30.
An actuating member or piston or follower or sliding member or actuator 50 is slidably engaged into the chamber 11 of the housing 10 and disposed or located above the casing 30 for contacting or engaging with the casing 30, and includes an upper sealing ring 51 and a lower sealing ring 52 attached or mounted or secured onto the outer peripheral portion thereof for slidably engaging with the inner peripheral portion of the housing 10 and for making a water tight or air tight seal between the actuator 50 and the housing 10, and includes an outer peripheral recess or pathway 53 formed or defined between the upper and the lower sealing rings 51, 52 and aligned with or communicative with the inlet mouth 16 of the housing 10 for receiving the pressurized air from the air pump 90, and includes a central or middle aperture 54 formed therein, and includes a groove or channel 55 formed therein and intersected or communicative with the aperture 54 and the peripheral pathway 53 for allowing the pressurized air from the air pump 90 to flow through the inlet mouth 16 of the housing 10 and to flow into the peripheral pathway 53 and the aperture 54 of the actuator 50.
As shown in
The actuator 50 includes a peripheral flange or stop or valve seat 56 extended laterally and inwardly into the aperture 54 of the actuator 50, and a valve member 57 is loosely and movably disposed or engaged in the aperture 54 of the actuator 50 and normally contacted or engaged with the swelling 33 of the casing 30 due to the gravity force, and normally disengaged or spaced from the valve seat 56 of the actuator 50 for allowing the air to selectively flow through the aperture 54 of the actuator 50 (
A valve element 60 is slidably engaged in the stepped depression 59 of the actuator 50 and includes a stem or leg or shank 61 extended downwardly therefrom for selectively engaging into the aperture 54 of the actuator 50, and includes a gasket or sealing ring 62 disposed or engaged into the stepped depression 59 of the actuator 50 and engageable with the valve element 60 and the actuator 50 for selectively making a water tight or air tight seal between the actuator 50 and the valve element 60 and for selectively blocking the stepped depression 59 and the aperture 54 of the actuator 50, the pressurized air from the air pump 90 and the inlet mouth 16 of the housing 10 may selectively flow into the aperture 54 of the actuator 50 and may selectively move or disengage the valve element 60 from the actuator 50 and may selectively open the stepped depression 59 and the aperture 54 of the actuator 50.
An actuating handle 70 is attached or mounted or secured or coupled to the axle 19 for pivotally or rotatably attaching or mounting or securing the actuating handle 70 to the housing 10 and for allowing the actuating handle 70 to be pivoted or rotated relative to the housing 10 to selected angular positions. The actuating handle 70 includes a cam member 71 formed or provided on the one end portion thereof for selectively engaging with the valve element 60 and the actuator 50 and for selectively forcing or moving the valve element 60 to block the stepped depression 59 and the aperture 54 of the actuator 50, and for selectively forcing or actuating the actuator 50 to move toward the casing 30 and the gaskets 20, 21, and for selectively forcing or actuating the casing 30 to selectively depress, or compress or squeeze or deform the gaskets 20, 21 and to grip or grasp or hold or retain the inflation valves 91 to the housing 10.
In operation, as shown in
As shown in
As shown in
Alternatively, as shown in
Accordingly, the air valve connecting device or attachment in accordance with the invention includes an improved structure for connecting to different inflation valves and for preventing an air leaking from the inflation valves and the attachment.
Although this invention has been described with a certain degree of particularity, it is to be understood that the present disclosure has been made by way of example only and that numerous changes in the detailed construction and the combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention as hereinafter claimed.
