PRESSURE RELEASING DEVICE FOR SPRAY PUMP

Abstract

A pressure releasing device contains a tubular body member with a slidable slider member inside. The pressure releasing device is connected to the output of the high-pressure pump and high-pressure water will flows through the pressure releasing device when the pump is turned on and, when the pump is turned off, the high-pressure backflow will force the slider member to quickly block the inlet of the pressure releasing device. A pressure releasing opening controlled by a low-pressure valve is provided along the tubular body member. When the pump is turned off, the high-pressure backflow will be quickly released through the pressure releasing opening and the low-pressure valve helps to keep the water pressure inside the hose below a low pressure level to prevent dripping.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective exploded view showing the various components of a pressure releasing device according to an embodiment of the present invention.

FIG. 2 is a perspective view showing the pressure releasing device of FIG. 1 after its assembly.

FIG. 3 is a sectional view showing the pressure releasing device of FIG. 1 when it is initially connected to a pump which is not turned on.

FIG. 4 is a sectional view showing how water flows through the pressure releasing device of FIG. 3 when the connected pump is turn on.

FIG. 5 is a sectional view showing how high-pressure backflow passes through the pressure releasing device of FIG. 4 when the connected pump is subsequently turned off.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following descriptions are of exemplary embodiments only, and are not intended to limit the scope, applicability or configuration of the invention in any way. Rather, the following description provides a convenient illustration for implementing exemplary embodiments of the invention. Various changes to the described embodiments may be made in the function and arrangement of the elements described without departing from the scope of the invention as set forth in the appended claims.

As shown in FIGS. 1 to 5, a pressure releasing device according to an embodiment of the present invention mainly contains a tubular body member 10 providing a through passageway where water from a pump enters from an inlet end and exits from an outlet end. Within the passageway, a slider member is slidably provided which is assembled by a cylindrical first piece 11 adjacent to the inlet end and a tubular second piece 111 adjacent to the outlet end. A cone-shaped first plug 15 made of reinforced plastics is configured on a front end of the first piece 11 close to the passageway's inlet end. When there is no water with at least an appropriate pressure, the inlet end of the passageway of the body member 10 is blocked by the first plug 15. The first piece 11 further has a T-shaped tunnel 12 inside behind the first plug 15. The tunnel 12 contains a diametrically oriented channel providing two openings around the circumference of the first piece 11, and an axially oriented channel behind, providing an opening at the back end of the first piece 11. The second piece 111, on the other hand, has an axially oriented channel 112 conducted to the axially oriented channel of the T-shaped tunnel 12. Also inside the slider member and between the channel 112 and the axially oriented channel of the tunnel 12, a second plug 13 and a first resilient element (e.g., a helix spring) 14 are provided in series so that the opening of the axially oriented channel of the tunnel 12 is blocked by the second plug 13 when there is no water with at least an appropriate pressure. Please note that a number of axially oriented ducts 131 are provided around the circumference of the second plug 13. Around the circumferences of the first and second pieces 11 and 111, a number of elastic washer rings 16 are provided to prevent leakage when the slider member is slid along the passageway. The second piece 111 is threaded in a second resilient element (e.g., a helix spring) 17, which will force the slider member to slide forward to block the inlet end when there is no water with at least an appropriate pressure. As such, when a water pump where the inlet of the pressure releasing device is connected is turned off and the pressure releasing device is under a normal water pressure, no water will leak out of a hose connected to the outlet end of the pressure releasing device. The body member 10 has a radial pressure releasing opening 20 close to the outlet end. The pressure releasing opening 20 is blocked by a third plug 22 pressed against by a third resilient element (e.g., a helix spring) 21.

When the pressure releasing device is put to use, its outlet end is connected to a pump while its outlet end is connected to a hose with a spray nozzle. When the pump is engaged, high-pressure water flows into the pressure releasing device and presses the slider member against the outlet end. In the mean time, the water pushes open the first plug 15, flows around the first piece 11, enters the T-shaped tunnel 12, pushes open the second plug 13, flows through the ducts 131, the channel 112, the hose, and then spurts out of the spray nozzle. When the pump is turned off, the high-pressure water in the hose flows back into the pressure releasing device and, together with the resilience of the second resilient element 17, the slider member is slid to block the inlet end. In the mean time, the high-pressure backflow pushes open the third plug 22 and exits from the pressure releasing opening 20. Please note that the third resilient element 21 is configured to have a weaker resilience around 2 kg f/cm². Therefore, when the pressure of the backflow drops below this level, the third plug 22 is restored to block the pressure releasing opening 20. In other words, the pressure of the water in the hose and the pressure releasing device will be maintained below this low pressure level. The dripping problem of the spray nozzle when the pump is disengaged therefore can be avoided. On the other hand, as low-pressure water is already filled inside the hose and the pressure releasing device, the water spry system is immediately operational when the pump is turned back on, without waiting for high-pressure water to fill the hose and the pressure releasing device.

In summary, the present invention contains a tubular body member with a slidable slider member inside and a pressure releasing opening at an end. When the pump is turned off, the high-pressure backflow pushes the slider member to block the inlet of the body member and is quickly released from the pressure releasing opening. The water in the hose and the pressure releasing device is maintained at a low pressure level so that the dripping problem is effectively resolved and the water spray system can be immediately put to work when the pump is engaged again.

It will be understood that each of the elements described above, or two or more together may also find a useful application in other types of methods differing from the type described above.

While certain novel features of this invention have been shown and described and are pointed out in the annexed claim, it is not intended to be limited to the details above, since it will be understood that various omissions, modifications, substitutions and changes in the forms and details of the device illustrated and in its operation can be made by those skilled in the art without departing in any way from the spirit of the present invention.

Claims

1. A pressure releasing device comprising: a body member providing a through passageway having an inlet end connected to a pump and an outlet end connected to a hose, a pressure releasing opening being provided close to said outlet end which is blocked by a third plug pressed against by a low-pressure third resilient element; anda slider member within said passageway having a first piece and a second piece joined in series, said first piece has a first plug on a front end adjacent to and blocking said inlet end, a tunnel inside said first piece having at least an opening around the circumference of said first piece and another opening at a back end of said first piece, said second piece having a channel inside conducted to said tunnel and to said outlet end, a second plug and a first resilient element being provided in series between said channel of said second piece and said tunnel of said first piece so that said opening of said tunnel at said back end is blocked by said second plug, said second piece being threaded in a second resilient element;wherein, when said pump is engaged, high-pressure water flows into said pressure releasing device and presses said slider member against said outlet end while the water pushes open said first plug, enters said tunnel, pushes open said second plug, flows through said channel of said second piece, and then spurts out of said hose; and, when said pump is turned off, the high-pressure water in said hose flows back into said pressure releasing device and, together with the resilience of said second resilient element, said slider member is slid to block said inlet end while the high-pressure backflow pushes open said third plug and exits from said pressure releasing opening.

2. The pressure releasing device according to claim 1, wherein said tunnel is T-shaped.

3. The pressure releasing device according to claim 1, wherein a plurality of washer rings are provided around the circumferences of said first and second pieces.

4. The pressure releasing device according to claim 1, wherein a plurality of axially oriented ducts are provided around the circumference of said second plug.