CN221195376U - Switching mechanism of stagnation supercharging energy-saving pump - Google Patents

Abstract

The utility model discloses a switching mechanism of a stagnation boosting energy-saving pump, which comprises a pump pipe and a switching pipe, wherein the switching pipe is arranged outside the pump pipe, a positioning pipe is fixedly connected outside the switching pipe, one end of the positioning pipe is provided with four pipe walls, one end of the switching pipe, which is far away from the pump pipe, is provided with an outer water pipe, a locking bolt is jointly arranged between the outer water pipe and the positioning pipe, the inner side wall of the outer water pipe is fixedly connected with a rubber ring, the inner wall of the pump pipe is provided with a threaded inner wire, and the switching pipe extends into the inner wall of the pump pipe and is in threaded connection with the inner wall of the pump pipe. According to the utility model, the pump pipe and the switching pipe are matched with each other, and the switching pipe is arranged at the water inlet pump pipe of the stagnation boosting energy-saving pump, so that the pump pipe of the energy-saving pump is protected during water pumping, the impact on the pipe orifice of the pump pipe is reduced, the service life of the pump pipe is greatly prolonged, and meanwhile, when the pump pipe is damaged, a worker can conveniently and rapidly replace the pump pipe, thereby bringing convenience to the use of the boosting energy-saving pump.

Description

Switching mechanism of stagnation supercharging energy-saving pump

Technical Field

The utility model relates to the technical field of pipeline connecting mechanisms, in particular to a switching mechanism of a stagnation supercharging energy-saving pump.

Background

The stagnation pressure-increasing energy-saving pump is a chemical pump product with advanced technology and stable performance. Compared with the common oil pump, the energy-saving pump has the advantages of high benefit, low noise, no vibration and long service life. Therefore, the energy-saving pump plays a vital role in the drying process fields of textile printing and dyeing, chemical industry, wood building, medicine, papermaking and the like.

At present, when the existing booster energy-saving pump is used, the pump pipe of the external water pipe and the booster pump are mostly connected through a flange, when the pump body is used for pumping water for a long time at high strength, the pump pipe and the external water pipe are flushed by high-speed water flow for a long time, the impact on the pipe orifice of the pump pipe is large, scale is easy to accumulate, the pump pipe is damaged, the pump pipe is often arranged with the booster pump as a whole, and the pump pipe is replaced more inconveniently, so that the use of the booster pump by workers is influenced.

Disclosure of utility model

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

In order to solve the technical problems, according to one aspect of the present utility model, the following technical solutions are provided:

The utility model provides a switching mechanism of stagnation booster energy-saving pump, includes pump line and switching pipe, the pump line outside is provided with the switching pipe, switching pipe outside fixedly connected with registration arm, registration arm one end is provided with four pipe walls, the one end that the pump line was kept away from to the switching pipe is provided with outer water pipe, be provided with the locking bolt jointly between outer water pipe and the registration arm, outer water pipe inside wall fixedly connected with rubber ring.

As a preferable scheme of the switching mechanism of the stagnation boosting energy-saving pump, the inner wall of the pump pipe is provided with the threaded inner wire, the switching pipe stretches into the inner wall of the pump pipe and is in threaded connection with the inner wall of the pump pipe, and water flow can directly enter the inner wall of the pump pipe from the switching pipe, so that the impact of the water flow on the pipe orifice of the pump pipe is effectively avoided, and the pump pipe is protected and is not easy to damage.

As a preferable scheme of the switching mechanism of the stagnation boosting energy-saving pump, the outer side wall of the pump pipe is fixedly connected with the limiting rings, the four pipe walls are internally provided with the limiting grooves corresponding to the limiting rings, and the limiting grooves in the pipe walls are matched with the limiting rings, so that the connection stability between the pump pipe and the positioning pipe is further improved, and the pump pipe is not easy to fall off when impacted by high-pressure water flow.

As a preferable scheme of the switching mechanism of the stagnation and pressurization energy-saving pump, the four pipe wall outer side walls are provided with threaded outer threads, the four pipe wall outer side walls are connected with locking rings in a threaded manner, the pipe wall is fixed, and the positioning pipe is locked with the outside of the pump pipe.

As a preferable scheme of the switching mechanism of the stagnation boosting energy-saving pump, a rubber sealing ring is fixedly embedded between the switching pipe and the positioning pipe, and the rubber sealing ring is matched with the end part of the pump pipe, so that the positioning pipe, the switching pipe and the pump pipe can be conveniently connected and sealed.

As a preferable scheme of the switching mechanism of the stagnation boosting energy-saving pump, the end part of the external water pipe is fixedly connected with a flange, and the locking bolt penetrates through the flange and is in threaded connection with the positioning pipe, so that the positioning pipe is conveniently communicated with an external water supply pipe.

As a preferable scheme of the switching mechanism of the stagnation and pressurization energy-saving pump, the rubber ring stretches into the switching pipe and is tightly attached to the inner wall of the switching pipe, and the rubber ring is made of wear-resistant rubber, so that the joint between the outer water pipe and the positioning pipe is protected conveniently, and the impact on the joint is reduced.

Compared with the prior art, the utility model has the following beneficial effects:

According to the utility model, the pump pipe and the switching pipe are matched with each other, and the switching pipe is arranged at the water inlet pump pipe of the stagnation boosting energy-saving pump, so that the pump pipe of the energy-saving pump is protected during water pumping, the impact on the pipe orifice of the pump pipe is reduced, the service life of the pump pipe is greatly prolonged, and meanwhile, when the pump pipe is damaged, the rapid replacement of workers is also facilitated, thereby bringing convenience to the use of the boosting energy-saving pump.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the following detailed description will be given with reference to the accompanying drawings and detailed embodiments, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained from these drawings without inventive faculty for a person skilled in the art. Wherein:

FIG. 1 is a perspective view of an adapter mechanism of a stagnation-pressure-boosting energy-saving pump of the present utility model;

FIG. 2 is a schematic structural view of an adapter mechanism of a stagnation-pressure-boosting energy-saving pump according to the present utility model;

FIG. 3 is a schematic view of the internal connection of an adapter mechanism of a stagnation-pressure-boosting energy-saving pump according to the present utility model;

fig. 4 is an enlarged view at a in fig. 3.

Legend description: 1. a pump tube; 2. a transfer tube; 3. a positioning tube; 4. a limiting ring; 5. a limit groove; 6. a tube wall; 7. a locking ring; 8. a rubber seal ring; 9. an outer water pipe; 10. a locking bolt; 11. and a rubber ring.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

Next, the present utility model will be described in detail with reference to the drawings, wherein the sectional view of the device structure is not partially enlarged to general scale for the convenience of description, and the drawings are only examples, which should not limit the scope of the present utility model. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1-4, the utility model provides a switching mechanism of a stagnation pressure-boosting energy-saving pump, which comprises a pump pipe 1 and a switching pipe 2, wherein the switching pipe 2 is arranged outside the pump pipe 1, the inner wall of the pump pipe 1 is provided with a threaded internal thread, the switching pipe 2 stretches into the inner wall of the pump pipe 1 and is in threaded connection with the inner wall of the pump pipe 1, water flow can directly enter the inner wall of the pump pipe 1 from the switching pipe 2, and the impact of the water flow on the pipe orifice of the pump pipe 1 is effectively avoided, so that the pump pipe 1 is protected from being damaged easily.

The outside fixedly connected with locating tube 3 of adapter tube 2, locating tube 3 one end is provided with four pipe walls 6, and pump line 1 lateral wall fixedly connected with spacing ring 4, and spacing groove 5 that corresponds with spacing ring 4 has all been seted up to four pipe walls 6 inside, and through spacing groove 5 in the pipe wall 6 and spacing ring 4 agreeing with, be convenient for further improve the connection stability between pump line 1 and the locating tube 3, when making it receive the impact of high pressure rivers, be difficult for droing. The outer side walls of the four pipe walls 6 are provided with threaded outer threads, the outer side walls of the four pipe walls 6 are connected with locking rings 7 in a threaded manner, the pipe walls 6 are fixed, and the positioning pipe 3 is locked with the outside of the pump pipe 1.

The rubber sealing ring 8 is fixedly connected between the transfer pipe 2 and the positioning pipe 3 in a joint embedded mode, and the rubber sealing ring 8 is matched with the end portion of the pump pipe 1, so that the positioning pipe 3, the transfer pipe 2 and the pump pipe 1 can be conveniently connected and sealed.

The one end that transfer pipe 2 kept away from pump line 1 is provided with outer water pipe 9, is provided with locking bolt 10 jointly between outer water pipe 9 and the positioning tube 3, and outer water pipe 9 tip fixedly connected with ring flange, locking bolt 10 run through the ring flange and with positioning tube 3 threaded connection, be convenient for put through positioning tube 3 and outside delivery pipe. The outer water pipe 9 inside wall fixedly connected with rubber ring 11, rubber ring 11 stretches into the adapter pipe 2 inside and closely laminates with its inner wall, and rubber ring 11 is wear-resisting rubber material, is convenient for protect the junction between outer water pipe 9 and the positioning tube 3, reduces the impact to the junction.

During installation, the transfer tube 2 is sleeved outside the water inlet pump tube 1 and the water outlet pump tube 1 of the booster energy-saving pump, the positioning tube 3 is screwed to position the transfer tube outside the pump tube 1, the four tube walls 6 are gradually contacted with the limiting rings 4 and deform outwards in the process of screwing the positioning tube 3, the limiting rings 4 gradually enter the limiting grooves 5 along with the sleeving of the positioning tube 3, the tube walls 6 are also fit and attached to the outer wall of the pump tube 1, the transfer tube 2 stretches into the pump tube 1 at the moment, meanwhile, the rubber sealing rings 8 are sleeved at the end part of the pump tube 1, and finally the locking rings 7 are arranged outside the four tube walls 6 in a threaded mode, so that the positioning tube 3 and the pump tube 1 are further fixedly connected.

When the outer water pipe 9 is installed on the pump pipe 1 of the booster energy-saving pump, the flange plate of the outer water pipe 9 corresponds to the positioning pipe 3, the rubber ring 11 stretches into the positioning pipe 3, the outer water pipe 9 is fixedly connected with the positioning pipe 3 through the locking bolt 10, water flows into the booster energy-saving pump through the inner wall of the pump pipe 1 after passing through the switching pipe 2 when entering the booster energy-saving pump pipe 1, impact on the end part of the pump pipe 1 is effectively avoided, and when the switching pipe 2 is damaged for a long time, the dismounting and the replacement of workers are also facilitated.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The utility model provides a switching mechanism of stagnation booster energy-saving pump, includes pump line (1) and switching pipe (2), its characterized in that, pump line (1) outside is provided with switching pipe (2), switching pipe (2) outside fixedly connected with positioning tube (3), positioning tube (3) one end is provided with four pipe walls (6), the one end that pump line (1) was kept away from to switching pipe (2) is provided with outer water pipe (9), be provided with locking bolt (10) jointly between outer water pipe (9) and positioning tube (3), outer water pipe (9) inside wall fixedly connected with rubber ring (11).

2. The switching mechanism of the stagnation-pressure-boosting energy-saving pump according to claim 1, wherein the inner wall of the pump pipe (1) is provided with a threaded inner wire, and the switching pipe (2) extends into the inner wall of the pump pipe (1) and is in threaded connection with the inner wall of the pump pipe (1).

3. The switching mechanism of the stagnation-pressure-boosting energy-saving pump according to claim 1, wherein limiting rings (4) are fixedly connected to the outer side wall of the pump pipe (1), and limiting grooves (5) corresponding to the limiting rings (4) are formed in the four pipe walls (6).

4. The switching mechanism of the stagnation-pressure-boosting energy-saving pump according to claim 1, wherein the outer side walls of the four tube walls (6) are provided with threaded outer threads, and the outer side walls of the four tube walls (6) are connected with locking rings (7) in a threaded manner.

5. The switching mechanism of the stagnation-pressure-boosting energy-saving pump according to claim 1, wherein a rubber sealing ring (8) is fixedly connected between the switching tube (2) and the positioning tube (3) in an embedded mode, and the rubber sealing ring (8) is matched with the end portion of the pump tube (1).

6. The switching mechanism of the stagnation-pressure-boosting energy-saving pump according to claim 1, wherein a flange is fixedly connected to the end part of the outer water pipe (9), and the locking bolt (10) penetrates through the flange and is in threaded connection with the positioning pipe (3).

7. The switching mechanism of the stagnation-pressure-boosting energy-saving pump according to claim 1, wherein the rubber ring (11) stretches into the switching tube (2) and is tightly attached to the inner wall of the switching tube, and the rubber ring (11) is made of wear-resistant rubber.