Two-way hand-drawn pneumatic cylinder piston

Abstract

A piston for dual-directional hand inflator comprises a main body (1) having an internal hole (11) and an external hole (12). A plurality of spacers (17) are disposed between the top surface and the bottom surface of the main body (1) and divide a space into a gas-intake guide chamber (3) and a gas-exhaust guide chamber (5). The gas-intake guide chamber (3) communicates with the internal hole (11), and the gas-exhaust guide chamber (5) communicates with the external hole (12). A first cover plate (6) is disposed at an end of the gas-intake guide chamber to seal the gas-intake guide chamber. A second cover plate (7) is disposed at an end of the gas-exhaust guide chamber to seal the gas-exhaust guide chamber. There is only two cover plate to be adhered and fixed. The assembly is more convenient and the leakage probability is reduced.

Claims

1. A piston for dual-directional hand inflator, comprising a main body with a top surface and a bottom surface, having an internal hole for connecting to an inner tube and an external hole surrounding the internal hole for connecting to an outer tube, both holes formed in the center of the main body; a sealing ring disposed around a periphery of the main body; a first port and a second port provided on the top surface of the main body; a third port and a fourth port provided on the bottom surface of the main body; and a valve provided on each port; wherein the wall of the external hole protrudes upwardly from the top surface of the main body; a plurality of spacers are disposed between the top surface and the bottom surface of the main body and divide a space between the top surface and the bottom surface into a gas-intake guide chamber and a gas-exhaust guide chamber, the gas-intake guide chamber and the gas-exhaust guide chamber are not in communication with each other; the gas-intake guide chamber communicates with the internal hole, and the gas-exhaust guide chamber communicates with the external hole; a first cover plate is disposed at an end of the gas-intake guide chamber to seal the gas-intake guide chamber, the first cover plate having a top surface, a bottom surface, and two first joining walls, each first joining wall engages a spacer; two first recesses are provided at the end of the gas-intake guide chamber for engaging the first cover plate, the top surface and the bottom surface of the first cover plate respectively engages the corresponding first recesses; a second cover plate is disposed at an end of the gas-exhaust guide chamber to seal the gas-exhaust guide chamber; and the first port and the third port communicate with the gas-intake guide chamber, and the second port and the fourth port communicate with the gas-exhaust guide chamber.

2. The piston of claim 1, wherein two second recesses are provided at the end of the gas-exhaust guide chamber for engaging the second cover plate; the second cover plate has a top surface, a bottom surface, and two joining walls, each second joining wall engages a spacer, and the top surface and the bottom surface of the second cover plate respectively engages the corresponding second recesses.

3. The piston of claim 1, wherein each valve has a center rod; a first ring portion for the center rod to pass through is provided in the center of the first port, a plurality of first connecting ribs are radially arranged between a periphery of the first ring portion and an inner wall of the first port; a second ring portion for the center rod to pass through is provided in the center of the second port, a plurality of second connecting ribs are radially arranged between a periphery of the second ring portion and an inner wall of the second port; a third ring portion for the center rod to pass through is provided in the center of the third port, a plurality of third connecting ribs are radially arranged between a periphery of the third ring portion and an inner wall of the third port; a fourth ring portion for the center rod to pass through is provided in the center of the fourth port, a plurality of fourth connecting ribs are radially arranged between a periphery of the fourth ring portion and an inner wall of the fourth port.

4. The piston of claim 1, wherein a plurality of stiffened plates is provided between the top surface of the main body and a periphery of the external hole, each stiffened plate having a triangular shape.

5. The piston of claim 1, wherein an annular extending wall is formed at the bottom surface of the main body, the annular extending wall has an annular groove for receiving the sealing ring.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view from the front side of a piston for dual-directional hand inflator according to an embodiment of the present invention;

(2) FIG. 2 is a perspective view from the rear side of the piston for dual-directional hand inflator according to the embodiment of the present invention;

(3) FIG. 3 is a sectional view of the piston for dual-directional hand inflator according to the embodiment of the present invention;

(4) FIG. 4 is a sectional view of a main body of the piston for dual-directional hand inflator according to the embodiment of the present invention; and

(5) FIG. 5 is an exploded view of the piston for dual-directional hand inflator according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(6) To enable a further understanding of the present invention content of the invention herein, refer to the detailed description of the invention and the accompanying drawings below:

(7) FIG. 1-FIG. 3 show a preferred embodiment of a piston for dual-directional hand inflator. The piston for dual-directional hand inflator comprises a main body 1 with a top surface and a bottom surface, a sealing ring 4 disposed around the periphery of the main body 1, a first port 13 and a second port 14 provided on the top surface of the main body 1, a third port 15 and a fourth port 16 provided on the bottom surface of the main body 1, and a valve 2 provided on each port. The main body 1 is roughly round and a single-piece injection-molded member, has an internal hole 11 for connecting to an inner tube and an external hole 12 surrounding the internal hole 11 for connecting to an outer tube, both holes formed in the center of the main body 1. The wall of the external hole 12 protrudes upwardly from the top surface of the main body 1. A plurality of stiffened plates 18 are provided between the top surface of the main body 1 and the periphery of the external hole 12, each stiffened plate has a triangular shape.

(8) A plurality of spacers 17 are radially disposed at intervals between the top surface and the bottom surface of the main body 1, and so as to divide a space between the top surface and the bottom surface into a gas-intake guide chamber 3 and a gas-exhaust guide chamber 5, the gas-intake guide chamber 3 and the gas-exhaust guide chamber 5 are not in communication with each other; the gas-intake guide chamber 3 communicates with the internal hole 11, and the gas-exhaust guide chamber 5 communicates with the space X between the wall of the internal hole 11 and the wall of the external hole 12, that is, the gas-exhaust guide chamber 5 communicates with the external hole 12. A first cover plate 6 is disposed at an end of the gas-intake guide chamber 3 to seal the gas-intake guide chamber; a second cover plate 7 is disposed at an end of the gas-exhaust guide chamber 5 to seal the gas-exhaust guide chamber. The first port 13 and the third port 15 communicate with the gas-intake guide chamber 3, and the second port 14 and the fourth port 15 communicate with the gas-exhaust guide chamber 5.

(9) Two first recesses 31 are provided at the end of the gas-intake guide chamber 3 for engaging the first cover plate 6; the first cover plate has a top surface, a bottom surface, and two first joining walls, each first joining wall 61 engages a spacer 17, and the top surface and the bottom surface of the first cover plate 6 respectively engages the corresponding first recesses 31.

(10) Two second recesses 51 are provided at the end of the gas-exhaust guide chamber 5 for engaging the second cover plate 7; the second cover plate has a top surface, a bottom surface, and two joining walls, each second joining wall 71 engages a spacer 17, and the top surface and the bottom surface of the second cover plate 7 respectively engages the corresponding second recesses 51.

(11) Each valve 2 has a center rod 21; a first ring portion 131 for the center rod 21 to pass through is provided in the center of the first port 13, a plurality of first connecting ribs 132 are radially arranged between a periphery of the first ring portion 131 and an inner wall of the first port 13; a second ring portion 141 for the center rod 21 to pass through is provided in the center of the second port 14, a plurality of second connecting ribs 142 are radially arranged between a periphery of the second ring portion 141 and an inner wall of the second port 14; a third ring portion 151 for the center rod 21 to pass through is provided in the center of the third port 15, a plurality of third connecting ribs 152 are radially arranged between a periphery of the third ring portion 151 and an inner wall of the third port 15; a fourth ring portion 161 for the center rod 21 to pass through is provided in the center of the fourth port 16, a plurality of fourth connecting ribs 162 are radially arranged between a periphery of the fourth ring portion 161 and an inner wall of the fourth port 16;

(12) An extending wall 19 is formed at the bottom surface of the main body 1, the annular extending wall 19 has an annular groove 191 for receiving the sealing ring 4.

(13) The component of the piston in the present invention is the main body 1 which is a single-piece component; and the end of the two chambers 3, 5 before completely assembled provide a space for mounting valves 2, and after valves 2 are completely mounted, the two cover plates 6 and 7 are adhered and fixed at the end of the chambers 3, 5. In this way, the whole piston is completely mounted. Additionally, there are only two cover plate components 6 and 7 to be adhered and fixed for a whole piston. Hence, the assembly is more convenient, the cost is low, and the leakage probability due to infirm adhesion is reduced.

(14) Since the annular groove 191 into which the sealing ring 4 is mounted is located below the main body 1, such a special construction of the main body 1 may utilize the maximum available space. Hence, with the use of this piston, on the premise of a same diameter, compared with a common piston, larger ports 13, 14, 15 and 16 may be used. That is, each valve 2 has the maximum size and can be mounted on the ports 13, 14, 15 and 16 of the piston to ensure the maximum gas flow. Even when the diameter of the piston is reduced, large ports are still ensured, and this significantly increases the gas flow of the piston. Large gas flow of the piston is very important for a pump of this type. A larger gas flow provides for small tensile force of the hand inflator, labor-saving effect and convenient use during the use of the piston.