CN201521494U

CN201521494U - Bladeless energy-saving water pump

Info

Publication number: CN201521494U
Application number: CN2009202160743U
Authority: CN
Inventors: 蔡瑞安
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-09-11
Filing date: 2009-09-11
Publication date: 2010-07-07
Anticipated expiration: 2019-09-11

Abstract

A bladeless energy-saving water pump comprises a rotator and a power device; the rotator is provided with a water storage accommodating chamber and at least one water outlet pipe inclined upwardly; a water inlet is formed at the bottom end of the rotator; a connecting seat is fixedly arranged on the outer side at the bottom end of the rotator; an accommodating groove corresponding to the water inlet is formed in the connecting seat, and a water inlet pipeline is communicated with the water inlet through the accommodating groove; the power device is connected with the connecting seat through a transmission mechanism; in order to start the power device, the transmission mechanism drives the connecting seat to rotate, so that the rotator synchronously rotates; when the accommodating chamber of the rotator is used for centrifugally conveying water at a high speed to form a vacuum state, so that the water or liquid is automatically sucked into the accommodating chamber through the water inlet pipeline. Therefore, the utility model utilizes the centrifugal effect to convey the water or liquid to reach zero water resistance and zero wind resistance; and the water pump can achieve the water conveyance effect by utilizing less power to achieve the energy-saving use effect.

Description

The energy-conservation suction engine of on-bladed formula

Technical field

The relevant energy-conservation suction engine of a kind of on-bladed formula of the utility model refers to a kind of on-bladed especially and utilizes centrifugal force to reach the suction engine of transporting water liquid, and reaches energy-conservation using effect.

Background technique

General traditional self-priming suction engine, big because of volume, efficient is low, running noise is big, has not met economic benefit in the use.

And general centrifugal suction engine, it is provided with a blade wheel chamber, is provided with an impeller in this blade wheel chamber, this impeller socket one transmission shaft, this transmission shaft is connected in a motor, this blade wheel chamber is connected with outlet pipe with intake pipe respectively, and this device construction is mainly utilized motor to drive transmission shaft and rotated, so that impeller rotates synchronously, and the impeller that rotates produces the power that draws water in blade wheel chamber, and with in the water suction intake pipe, and, push away that water liquid is sent to outlet pipe by the impeller drive; When this suction engine in the running, utilize motor impeller high speed rotating, and water pressurizeed, make water can be delivered in the outlet pipe, wherein must overcome the resistance that can allow water flow, need to use motor, therefore for this reason than high-power, expend big electric power and the required expense of more electric power, quite uneconomical.

Again, employed various large and small Water-pumping motors mostly are with the motor driven bailing vane at present, water is extracted the back discharge, form ringing, and the bailing vane of various types use that Water-pumping motor is installed, all be to have bigger blade, volume is also quite big, makes Water-pumping motor behind the installing bailing vane, and volume increases, weight also increases, therefore, cause Water-pumping motor installing, can take bigger spatial position in the design, carry when mobile also quite inconvenience; Right above-mentioned Water-pumping motor structure commonly used, above motor, be provided with bailing vane, be overlying on bailing vane top and set water outlet in the capping with cap cover, make the height of capping increase again, Water-pumping motor structural entity height is increased, shared space is also strengthened, and bailing vane is sinked water again by water outlet by water inlet and discharges, and distance wherein is big, and the required energy of bailing vane is also big, the energy that motor running consumed is also many, and the utmost point is not inconsistent economic benefit in the use.

So, suction engine structure commonly used reaches the disappearance in the use in design, is relevant dealer and desires most ardently the direction place that research improves, and in view of this, is necessary to provide a kind of in light weight, the suction engine of low power consuming.

Summary of the invention

The utility model provides a kind of on-bladed formula energy-conservation suction engine, and the suction engine volume that exists in the above-mentioned background technology is big, efficient is low, the technical problem that running noise is big to solve.

The utility model provides a kind of on-bladed formula energy-conservation suction engine, comprise a rotor and power plant, wherein this rotor has the outlet pipe of water storage room and at least one oblique top, its bottom surface central authorities are provided with a water intake, this outside, rotor bottom surface sets firmly a connecting seat, has a tank in this connecting base and also can be communicated in this water intake by this tank for an inlet pipeline corresponding to this water intake; These power plant are connected in this connecting base by a driving mechanism, in order to drive this rotor rotation; Wherein, starting these power plant drives the rotation of this connecting base by this driving mechanism this rotor is rotated synchronously, the room of this rotor forms vacuum state when high speed centrifugation send water, send so that water liquid sucks in this room and by this outlet pipe automatically via inlet pipeline.

The utility model provides a kind of on-bladed formula energy-conservation suction engine, wherein in the tank of this connecting base at least one bearing is set further, this bearing housing be connected to this inlet pipeline and with tank inwall fluid-tight engagement, to increase the steadiness of this inlet pipeline configuration, avoid damaging.

Therefore, the utility model utilizes centrifugal action to carry out water liquid and carries to reach zero water resistance and zero windage, compares known technology, and the power that uses during the utility model running is less, only utilizes smaller power can carry out water liquid and carries, to reach energy-conservation using effect.

Description of drawings

Fig. 1 is the utility model one embodiment's cross-sectional schematic;

Fig. 2 is the utility model embodiment's cross-sectional schematic again;

Fig. 3 is another embodiment's schematic top plan view of the utility model.

Description of reference numerals

Suction engine 1; Rotor 10; Room 11; Outlet pipe 12; Water intake 13; Connecting base 14; Tank 15; Inlet pipeline 16; Bearing 17; Power plant 20; Output terminal 201; Driving mechanism 21; Low windage coaming plate 30; Peripheral board 31; Interior coaming plate 32; Space portion 33; Water source 40.

Embodiment

For making the utility model clear and definite more full and accurate, enumerate preferred embodiment now and cooperate following diagram, structure of the present utility model and technical characteristics thereof are described in detail as the back:

Please refer to Fig. 1 and shown in Figure 3, generalized section for an embodiment of the energy-conservation suction engine of the utility model on-bladed formula, an embodiment generalized section and another embodiment's schematic top plan view again, this suction engine 1 comprises a rotor 10 and power plant 20 rotate in order to drive this rotor 10, wherein this rotor 10 has room 11 and at least one outlet pipe 12 that is communicated in this room 11 of a dark dish shape, this outlet pipe 12 is by these room 11 oblique top configurations, the bottom of this rotor 10 is provided with a water intake 13 and its affixed a connecting seat 14 in outside, bottom, this connecting base 14 can be integral by the bottom locking of locking screw and rotor 10, and these connecting base 14 inside have a tank 15 corresponding to this water intake 13 and can be communicated in this water intake 13 by this tank 15 for an inlet pipeline 16, these inlet pipeline 16 1 ends are connected in water source 40 as wet pit, the rivers and creeks, the lake, the other end is communicated in this water intake 13 by this tank 15, at least one bearing 17 further is set in this tank 15, this bearing 17 does not limit and can be ball bearing or roller bearings, and this bearing 17 be socketed on these inlet pipeline 16 outer rims and with the inwall fluid-tight engagement of this tank 15, to increase the steadiness of these inlet pipeline 16 configurations, between the water intake 13 that makes this rotor 10 and this inlet pipeline 16 exactly contraposition be communicated with, avoid damaging.

These power plant 20 are the power resources of these rotor 10 rotations, and be linked to this rotor 10 by a driving mechanism 21, to drive this rotor 10 rotations, these power plant 20 can be a drive motor, wherein the output terminal 201 of these power plant 20 is connected in an end of this driving mechanism 21, and the other end of this driving mechanism 21 is connected in this connecting base 14, this driving mechanism 21 needs can be made up of a gear train as present embodiment is shown in Figure 1 according to design, or is made up of belt and belt pulley or chain and sprocket wheel (scheming not show).

When water liquid is entered when flowing into the room 11 of these rotors 10 via this water intake 13 by this inlet pipeline 16 again, start these power plant 20 and drive this driving mechanism 21 runnings synchronously, drive these connecting base 14 rotations and drive this rotor 10 rotations synchronously by this driving mechanism 21, and during 10 rotations of this rotor, form a centrifugal force effect, make water liquid in this room 11 be subjected to centrifugal action to form jet flow and outwards send by this outlet pipe 12, to be used for the transporting water liquid or the use of watering flowers, simultaneously centrifugal when sending water, this room 11 forms vacuum state, so that the water liquid at water source 40 can be inhaled into this inlet pipeline 16 automatically and flow to this room 11; And this room 11 is when high speed centrifugation send water, form vacuum state so that water liquid absorbs water automatically and allows atmospheric pressure 1033g/c m ²Promote thrust.

This suction engine 1 further comprises a low windage coaming plate 30, this low windage coaming plate 30 is located at the peripheral of this outlet pipe 12 and is rotated synchronously with this outlet pipe 12, should hang down the double-layer structure that windage coaming plate 30 is made up of coaming plate 32 in a peripheral board 31 and, and in this peripheral board 31 and this coaming plate 32 between have a space portion 33, so that this outlet pipe 12 is coated in this space portion 33, and in these outlet pipe 12 peripheral formation water conservancy diversion effects, so that this outlet pipe 12 reaches zero windage when rotating centrifugal send water.

As mentioned above, the energy-conservation suction engine of the utility model on-bladed formula is done in order to transporting water liquid by the rotary centrifugal force of this rotor 10, comparing known suction engine utilizes the blade rotation to flow to push water liquid, can significantly reduce the flow resistance of water liquid, simultaneously little than known technology at the power of the required use of transporting water liquid, only need a smaller power can reach the water delivery effect, and the utility model is simple in structure, easy to maintenance, except can reaching energy-conservation using effect, can also improve servicing ease and reduce maintenance expenses.

The above only is a preferred embodiment of the present utility model, only is illustrative for the utility model, and nonrestrictive; Those of ordinary skills understand, and can carry out many changes to it in the spirit and scope that the utility model claim is limited, revise, even the equivalence change, but all will fall in the protection domain of the present utility model.

Claims

1. the energy-conservation suction engine of on-bladed formula is characterized in that, comprises:

One rotor, it has a room and at least one outlet pipe that is communicated in this room, and the bottom of this rotor is provided with a water intake, and the outside, bottom of this rotor sets firmly a connecting seat, have a tank in this connecting base, make an inlet pipeline be communicated in this water intake by this tank; And

One power plant, it is connected in this connecting base by a driving mechanism, to drive this rotor rotation;

Wherein, start this power plant running to drive this rotor rotation, this rotor makes this room and this outlet pipe form vacuum state when rotating centrifugal send water, is sent so that water liquid sucks in this room and by this outlet pipe automatically via inlet pipeline.

2. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that, this room is dark dish shape room.

3. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that, this outlet pipe is by the oblique top configuration of this room.

4. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that this connecting base is locked in the bottom of this rotor by locking screw.

5. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that, at least one bearing further is set in this tank, this bearing housing be connected to this inlet pipeline outer rim and with the inwall fluid-tight engagement of this tank.

6. the energy-conservation suction engine of on-bladed formula as claimed in claim 5 is characterized in that this bearing is selected from the wherein a kind of of ball bearing or roller bearings.

7. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that these power plant are a drive motor.

8. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that, an end of this driving mechanism is connected in the set output terminal of these power plant, and the other end is connected on this connecting base.

9. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that this driving mechanism is made up of a gear train or is made up of belt and belt pulley.

10. the energy-conservation suction engine of on-bladed formula as claimed in claim 1 is characterized in that, further comprises a low windage coaming plate, and this low windage coaming plate is located at the peripheral of this outlet pipe and is rotated synchronously with this outlet pipe.