A kind of water continues supercharging device
[technical field]
The present invention relates to a kind of device of lasting supercharging of can feeding water.
[background technique]
The device of present feedwater supercharging is fewer, generally mostly be suction booster, the working principle of suction booster is for first will be full of liquid in suction booster, then centrifugal pump is started, impeller quick rotation, the blade of impeller orders about liquid and rotates, rely on inertia to impeller outer edge diffluence when liquid rotates, impeller is from suction chamber inspiration liquid simultaneously, in this course, liquid in impeller streams blade, to stream in motion liquid effects one lift in blade, blade is with a lift equal and opposite in direction therewith conversely, the contrary masterpiece in direction is used for liquid, this power is done work to liquid, make liquid obtain energy and flow out impeller, at this moment the kinetic energy of liquid and pressure energy all increase.
The pump often used in our reality is a simple one-way valve, when pull bar is up carried, the leather cup being now contained in pull bar lower end shrinks, namely from the aperture air cylinder cover, (what have does not have hole to air, then enter from the gap larger part of pull bar and lid) enter in inflator, at this moment, time by past for pull bar pressing down, leather cup is expanded and is adjacent to cylinder inner wall by air toward pressing down.Gas can only bottom inflator a small perforations top little iron shot (having plenty of with small iron plate) enter the valve of tire along leather hose.And when pull bar is up carried by second time again, leather cup shrinks once again, and now little iron shot falls, close aperture, make the air also noted completely for the first time in people's tire, can not therefore be drawn out of.The invention reside in the principle in conjunction with pump, realize a kind of easy device that can continue feedwater supercharging.
[summary of the invention]
The technical problem to be solved in the present invention, is to provide a kind of water to continue supercharging device, it simple for structure, with low cost, and lasting supercharging of can effectively feeding water.
The present invention is achieved in that a kind of water continues supercharging device, it comprises a water inlet lid, one outflow cover for water, and the supercharging device be arranged in described seal space of intaking between lid with outflow cover for water, described water inlet lid is provided with at least one water intake, described outflow cover for water is provided with at least one water outlet, described supercharging device comprises a rotatingshaft and a plurality of supercharging water pipe, described rotatingshaft is provided with a connection piece, the side of described link connects described a plurality of supercharging water pipe, described pressurized water pipe ring is around described link and perpendicular to the side of described link, described supercharging water pipe is evenly distributed, and sealing setting is carried out in the space between adjacent two supercharging water pipes,
Telescopic piston is provided with in described supercharging water pipe, described telescopic piston comprises active section, piston rod, movable booster block, one end of described piston rod is connected with described link by described active section, described active section can swing along the direction corresponding with link sense of rotation, the other end of described piston rod is flexibly connected described movable booster block, described movable booster block can swing along the direction consistent with active section swaying direction, described movable booster block is corresponding with the internal diameter of supercharging water pipe, the diameter of described movable booster block is greater than described piston rod, space between described rotatingshaft and supercharging water pipe is sealed by Sealing, and one end of described rotatingshaft is connected to an electric rotating machine through described water inlet lid, described supercharging water pipe is provided with water inlet towards the two ends end to end of the side of water inlet lid, two ends end to end towards the side of outflow cover for water are provided with osculum, described water inlet is set to the first one-way water inlet valve, described osculum is set to the first one-way water outlet valve, the two ends end to end of described supercharging water pipe all seal setting.
Further, described rotatingshaft is provided with a connection piece and comprises further: described rotatingshaft comprises straight length and at least one bending section being arranged at the middle structure that takes the shape of the letter U of straight length, on described rotatingshaft, the position ring of bending section is provided with a connection piece, and described link is one cylindric.
Further, the arrangement of described supercharging water pipe comprises further: described supercharging water pipe is evenly distributed is front two rows, and the arrangement and the supercharging water pipe of front two rows intermeshes, builds sealing between two adjacent supercharging water pipes.
Further, the arrangement of described supercharging water pipe comprises further: described supercharging water pipe is evenly distributed is a row, and builds sealing between two adjacent supercharging water pipes.
Further, the supercharging water pipe being arranged as a row described in is 6-8.
Further, space between described rotatingshaft and supercharging water pipe is undertaken sealing comprising further by Sealing: the both sides of described link and supercharging water pipe are respectively equipped with the first Sealing and the second Sealing, described first Sealing and the second Sealing are by the gap seals between rotatingshaft and supercharging water pipe, and one end of described rotatingshaft is connected to an electric rotating machine through described first Sealing, water inlet lid successively, the other end is then connected to the second Sealing by a bearing support.
Further, the water intake of described water inlet lid is set to the second one-way water inlet valve, and the water outlet of described outflow cover for water is set to the second one-way water outlet valve.
The invention has the advantages that:
1. structure of the present invention is simple, with low cost, pass through electric rotating machine, rotatingshaft, the cooperation of supercharging water pipe realizes the lasting supercharging of feeding water, described electric rotating machine drives described rotatingshaft to rotate, thus rotatingshaft has driven the motion of each telescopic piston be connected on this link by link, thus realize the pull-out of telescopic piston in supercharging water pipe and propelling, after water is entered by water inlet lid, enter in water inlet respectively by each supercharging water pipe, again by osculum out, converge to the side of outflow cover for water, form high pressure water, because electric rotating machine ceaselessly rotates, so the motion that rotatingshaft just drives telescopic piston constantly to pull out and advance, thus realize the function of constantly feedwater supercharging.
2. supercharging water pipe of the present invention is evenly distributed, sealing is built between two adjacent pressurized water pipes, and the both sides of described rotatingshaft are respectively equipped with the first Sealing and the second sealing, described first Sealing and the second Sealing are by the gap seals between rotatingshaft and supercharging water pipe, the two ends end to end of described supercharging water pipe all seal setting, whole supercharging device is made to keep sealing like this, water inlet lid side and outflow cover for water side are isolated, water into Shui Gai side is needed under the effect of telescopic piston, outflow cover for water side is converged to through pressurized water pipe, effectively ensure that at outflow cover for water side formation high pressure water.
[accompanying drawing explanation]
The present invention is further illustrated in conjunction with the embodiments with reference to the accompanying drawings.
Fig. 1 is overall structure schematic diagram of the present invention.
Fig. 2 is decomposition texture schematic diagram of the present invention.
[embodiment]
Refer to shown in Fig. 1 to Fig. 2, embodiments of the invention are described in detail.
Composition graphs 1, Fig. 2, a kind of water of the present invention continues supercharging device, it comprises a water inlet lid 1, one outflow cover for water 2, and the supercharging device 3 in the seal space being arranged between described water inlet lid 1 and outflow cover for water 2, described water inlet lid 1 is provided with at least one water intake 11, and water intake 11 can be set to the second one-way water inlet valve, described outflow cover for water 2 is provided with at least one water outlet 21, and water outlet can be set to the second one-way water outlet valve.Described supercharging device comprises a rotatingshaft 31 and a plurality of supercharging water pipe 32, described rotatingshaft 31 comprises straight length and at least one bending section being arranged at the middle structure that takes the shape of the letter U of straight length, on described rotatingshaft 31, the position ring of bending section is provided with a connection piece 33, described link 33 is one cylindric, the side of described link 33 connects described a plurality of supercharging water pipe 32, and described supercharging water pipe 32 is around described link 33 and perpendicular to the side of described link 33.Described supercharging water pipe 32 can evenly distributedly be front two rows, and the arrangement position of the supercharging water pipe 32 of front two rows intermeshes, and builds sealing between two adjacent supercharging water pipes 32.Described supercharging water pipe 32 can evenly distributedly be also a row, and builds sealing (as shown in Figure 2, being a row) between two adjacent supercharging water pipes 32.The quantity of described supercharging water pipe 32 is depending on the size (in Fig. 2 being 6) of this device.
Be provided with telescopic piston (not shown) in described supercharging water pipe 32, described telescopic piston comprises piston rod (not shown), movable booster block (not shown), active section (not shown).One end of described piston rod is connected with link 32 by described active section, described active section can swing along the direction corresponding with link 32 sense of rotation, the other end of described piston rod is flexibly connected described movable booster block, described movable booster block is consistent with the swaying direction of active section, described movable booster block is corresponding with the internal diameter of supercharging water pipe 32, and the diameter of described movable booster block is greater than described piston rod.The both sides of described rotatingshaft 31 are respectively equipped with the first Sealing (not shown) and the second Sealing 34, described first Sealing and the second Sealing 34 are by the gap seals (described link 33 is arranged in the seal space of described first Sealing and the second Sealing 34) between rotatingshaft 31 and supercharging water pipe 32, and one end of described rotatingshaft 31 is connected to an electric rotating machine (not shown) through described first Sealing, water inlet lid 1 successively, the other end is then connected to the second Sealing 34 by a bearing support.Described supercharging water pipe 32 is provided with water inlet (not shown) towards the two ends end to end of the side of water inlet lid 1, two ends end to end towards the side of outflow cover for water 2 are provided with osculum 321, described water inlet is set to the first one-way water inlet valve, described osculum 321 is set to the first one-way water outlet valve, and the two ends end to end of described supercharging water pipe 32 all seal setting.
Working principle of the present invention:
When electric rotating machine rotates time, described electric rotating machine drives rotatingshaft 31 to rotate, thus rotatingshaft 31 has driven the motion of each telescopic piston be connected on this link 33 (link 33 to be sheathed on the bending section of rotatingshaft 31 by link 33, link 33 is followed time rotatingshaft 31 rotates and effectively can pull telescopic piston), thus realize the pull-out of telescopic piston in supercharging water pipe 32 and propelling (when link 33 rotates towards the direction deviating from telescopic piston, this telescopic piston pulls out, when link 33 rotates towards telescopic piston direction in opposite directions, this telescopic piston inwardly advances), after water is entered from the water intake 11 of water inlet lid 1, if time telescopic piston is in and pulls out, water is entered by the water inlet of supercharging water pipe 32 head, and (the present invention is to deviate from link 33 side for head, with close link 33 side for afterbody), go out from the osculum 321 of afterbody, when telescopic piston inwardly advances time, water is entered from the water inlet of supercharging water pipe 32 afterbody, go out from the osculum 321 of head, water after going out from each supercharging water pipe 32 converges to outflow cover for water 2 side, gone out by the water outlet 21 of outflow cover for water 2 again, because electric rotating machine ceaselessly rotates, so the motion that rotatingshaft 31 just drives telescopic piston constantly to pull out and advance, thus realize water and constantly entered by the water inlet of supercharging water pipe 32, from osculum 321 out, then the side converging to outflow cover for water 2 is spouting again.
The above, be only present pre-ferred embodiments, therefore can not limit scope of the invention process according to this, the equivalence change namely done according to the scope of the claims of the present invention and description with modify, all should still belong in scope that the present invention contains.