The present invention relates to pump, specifically to a vertical self-priming pump.
The self-priming pump is capable of starting to work at the situation that the liquid inlet pipe is not filled with liquid medium (but the must be enough liquid medium in the pump body) and automatically exhausting gas in the liquid inlet pipe. When the pump is started for the first time, there must be enough liquid medium added into the pump body of the self-priming pump; after this, the self-priming pump can start again by the liquid medium remaining in the pump body. The self-priming pump can be divided into two types according to working principle, including internal mixing type and external mixing type. The internal mixing type self-priming pump means that the gas-liquid mixing is carried out near the inlet of the impeller, while the external mixing type self-priming pump means that the gas-liquid mixing is carried out at the outer edge of the impeller. Structure of the external mixing type self-priming pump is as shown in
However, because there is a backflow gap 3 in the self-priming pump structure, the remaining medium keeps circulating under action of the pressure, which causes big loss in volume efficiency. The test shows that the loss is about 8%, which lowers down the efficiency of the self-priming pump seriously. Besides, the self-priming pump cannot reach the normal flow and pump head, and energy consumption is increased.
The present invention aims to solve the technical problem that the self-priming pump is low in efficiency.
In order to solve the above problem, the present invention provides a vertical self-priming pump that comprises a pump body, a motor and a medium backflow blocking device.
The inner cavity of the pump body is divided into a gas-liquid separation chamber and a liquid storage chamber through a middle partition plate that is provided with an axial inlet opening, and the gas-liquid separation chamber is above the liquid storage chamber; a flow guide body is fixed on the upper surface of the middle partition plate; the flow guide body is provided with an axial through hole and a radial flow guide hole that is in communication with the axial through hole, and the gas-liquid separation chamber is in communication with the liquid storage chamber through the axial inlet opening and the radial flow guide hole on the flow guide body; a motor, which is fixed on the top of the pump body for driving a pump shaft that vertically downward penetrates into the inner cavity of the pump body to rotate, and an impeller that is arranged in the axial through hole of the flow guide body is fixed on the lower end of the pump shaft; a backflow gap channel is formed between the outer circumferential surface of the impeller and the inner wall of the axial through hole of the flow guide body; further comprising a medium backflow blocking device that comprises a static ring and a moving ring which are vertically and oppositely arranged as well as an elastic supporting sleeve; the moving ring is embedded on the upper surface of the impeller, and the outer edge of the elastic supporting sleeve extends downwards to form a supporter that is fixed on the upper surface of the flow guide body; the static ring is embedded on the lower surface of an elastic supporting ring, and the lower end surface of the static ring protrudes the lower surface of the elastic supporting sleeve, and a gap is formed between the lower end surface of the static ring and the upper end of the moving ring.
In the above proposal, the self-priming pump further comprises a flow-blocking depressurization plate; upper part of the impeller is in a step-like axle shape with top part smaller than lower part, and the flow-blocking depressurization plate is in a step-like sleeve shape with top part bigger than the lower part and provided with an axle hole; the flow-blocking depressurization plate is vertically sleeved on the impeller with the big-diameter part fixed on the flow guide body; a backflow gap channel is formed by the gap between inner wall of the axle hole of the flow-blocking depressurization plate and outer circumferential surface of the small-diameter part of the impeller and the gap between the lower end surface of the flow-blocking depressurization plate and step surface of the impeller.
In the above proposal, the size of the backflow gap channel is 0.3-0.5 mm.
In the above proposal, the gap channel between the lower end surface of the flow-blocking depressurization plate and step surface of the impeller is provided with a downwards slant dip angle.
In the above proposal, the dip angle is 3-8 degrees.
In the above proposal, the inner wall of axle hole of the flow-blocking depressurization plate is provided with a plurality of circular grooves.
In the above proposal, the moving ring and the static ring are separately made of hard alloy, silicon carbide, ceramic, graphite or polytetrafluoroethylene.
In the present invention, a medium backflow blocking device is provided on the upper surface of the impeller. During normal working, the elastic supporting sleeve of the present invention in the medium backflow blocking device generates a downward deformation under the action of liquid medium pressure, thus the moving ring and the static ring closely contact with each other and block the backflow gap channel, therefore the volume loss generated by the backflow is avoided, and the pump efficiency can be improved by 5%-8%.
The vertical self-priming pump provided in the present invention improves the working efficiency through the medium backflow blocking device. During the startup and vacuumizing process of the self-priming pump, the medium backflow blocking device does not take effect; when the vacuum izing process is finished and the self-priming pump works normally, because the pressure in the gas-liquid separation chamber is enlarged, the backflow gap channel is blocked through the medium backflow blocking device, so as to reduce the backflow loss of the self-priming pump and improve the working efficiency. The following is detailed description to the present invention combining drawings and embodiments.
The pump body 10 comprises an inner cavity that is vertically divided into a gas-liquid separation chamber 12 and a liquid storage chamber 13 through a middle partition plate 11; a liquid inlet pipe 14 is arranged on the gas-liquid separation chamber 12, and the liquid outlet pipe 14 is provided with check valve 15; the liquid storage chamber 13 is provided with a liquid inlet pipe 16 that is provided with a vacuum breaking valve 17.
The middle partition plate 11 is provided with an axial inlet opening, and a flow guide body 40 is fixed on the upper surface of the middle partition plate 11; the flow guide body 40 is provided with an axial through hole and a radial flow guide hole 41 that is in communication with the axial through hole, the medium backflow blocking device 30 is provided on the upper surface of the flow guide body 40; the gas-liquid separation chamber 12 is in communication with the liquid storage chamber 13 through the axial inlet opening 18 and the radial flow guide hole 41 on the flow guide body 40.
A motor 20 is fixed on the top of the pump body 10 for driving a pump shaft 21 that vertically downward penetrates into the inner cavity of the pump body 10 to rotate, and an impeller 22 that is arranged in the axial through hole of the flow guide body 40 is fixed on the lower end of the pump shaft 21; an impeller channel 23 is provided inside the impeller 22, and inlet of the impeller channel 23 is in communication with the liquid storage chamber 13 through the axial inlet hole 18, and the outlet of the impeller channel 23 is in communication with the gas-liquid separation chamber 12 through the radial flow guide hole 41 on the flow guide body 40; a backflow gap channel 24 is formed between the outer circumferential surface of the impeller 22 and the inner wall of the axial through hole of the flow guide body 40; the size of the backflow gap channel 24 is 0.3-0.5 mm.
As shown in
It is well known that the impeller of the vertical self-priming pump is easy to be worn. The outer circumferential surface of the impeller is easy to be worn in use; in order to reduce cost of replacing the impeller; the present invention improves the structure of impeller. The specific improvement is as shown in
Further, the inner wall of axle hole of the flow-blocking depressurization plate 50 is provided with a plurality of circular grooves 52 (as shown in
The following is description of the use process of the vertical self-priming pump provided in the present invention combining
As shown in
As shown in
When the vertical self-priming pump stops working, the check valve 15 is closed quickly to block backflow of the high liquid medium in the liquid outlet pipe 14; at the same time, the vacuum breaking valve 17 on the liquid inlet pipe 16 is synchronously opened so that gas enters into the liquid inlet pipe 16 to break the vacuum status thereof; therefore, the problem that all liquid medium in the pump flows back and drains because of siphonage is completely avoided. As a result, the liquid storage chamber 13 is always remaining a part of pumped liquid medium, so as to realize the self-priming forever goal of the self-priming pump after drainage for once.
The present invention is not limited by the above best implementation way. Any structural change inspired by the present invention and any technical proposal that is same as or similar with the present invention should belong to the protection scope of the present invention.
Number | Date | Country | |
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Parent | 13812529 | Apr 2013 | US |
Child | 15245370 | US |