CN212596498U - High-pressure water rotary nozzle with drainage structure design - Google Patents

Abstract

The utility model relates to an industrial cleaning technical field especially relates to a rotatory nozzle of water under high pressure of drainage structural design. The high-pressure water rotary sprayer comprises a water inlet joint, a sealing rod, a high-pressure rotary sealing assembly, a limiting part, a sealing blind plug and a rotary head. The utility model has simple and unique structure, safer and more reliable operation in high pressure state and longer service life; the manufacturing cost and the use cost are greatly reduced; high-pressure water inflow is ingeniously led into the rotating head at the foremost end of the spray head, and the cleaning effect and the efficiency are greatly improved. All easily damaged parts can be replaced independently, and the maintenance is very convenient.

Description

High-pressure water rotary nozzle with drainage structure design

Technical Field

The utility model relates to an industry washs technical field, especially relates to a rotatory nozzle of water under high pressure of drainage structural design, and this product is as a high-efficient cleaning means, mainly is used for the pipeline to scab and the dirt washs in the water jet cleaning trade.

Background

The high-pressure water rotary nozzle is an efficient water jet cleaning tool, and the shape, size, pressure resistance grade and internal structure of the high-pressure water rotary nozzle are mainly determined by the structural size of a cleaning object, the physical performance of scabbing or dirt and construction quality requirements. When the pipeline with smaller inner diameter is cleaned to be scabbed or dirty, the outer diameter of the high-pressure rotary spray head is extremely strictly limited, on one hand, the safety and the reliability of the operation of the high-pressure rotary spray head are considered, and on the other hand, the use effect, the cleaning efficiency, the manufacturing cost, the use cost and the like of the high-pressure rotary spray head are considered, and the key factors are all not necessary.

Limited by size, a high-pressure water rotary sprayer with a smaller outer diameter, such as an outer diameter of 10-25 mm, usually does not have a bearing model with a proper size for selection, and therefore, how to balance axial force and radial force generated by the rotary sprayer in a high-pressure rotating state? How to reduce rotational friction resistance and noise? How is the rotational speed controlled? How to control the reasonable leakage of the high pressure seal? How to ensure the mechanical performance of key parts under high pressure, and the like, are key technical problems that designers must solve.

The rotating head is an open-circuit pioneer in the high-pressure water rotating nozzle and is also an extremely fragile part, and the main function of the rotating head is to convert high-pressure water into mechanical energy with cutting and crushing capabilities. It has been found that the cleaning effect, efficiency or the striking force of the high-pressure water jet is best only when the rotary head is in the foremost position of the spray head.

SUMMERY OF THE UTILITY MODEL

How to balance the axial and radial forces generated by the spinner in a high-pressure rotating state? How to reduce rotational friction resistance and noise? How is the rotational speed controlled? How to control the reasonable leakage of the high pressure seal? How guarantee key spare part mechanical properties etc. under high pressure state, in order to solve these technical problems, the utility model provides a rotatory nozzle of drainage structural design water with high pressure with the help of the inside simple and unique structural design of shower nozzle, intake water under high pressure ingeniously and introduce the rotating head of shower nozzle foremost through drainage channel, can satisfy rotatory shower nozzle under high pressure state continuous operation's security and reliability, can improve cleaning efficiency again by a wide margin to and reduce manufacturing cost and use cost by a wide margin.

The technical scheme of the utility model:

a high-pressure water rotary spray nozzle designed by a drainage structure comprises a water inlet joint 1, a sealing rod 2, a high-pressure rotary sealing assembly, a limiting part 6, a sealing blind plug 8 and a rotary head 9, wherein a through hole is formed in the sealing rod 2, and two or more drainage channels are formed in the high-pressure rotary sealing assembly; high-pressure water flows into the water inlet joint 1 and enters the inner cavity of the rotating head 9 through the through hole in the sealing rod 2 and the drainage channel in the high-pressure rotary sealing assembly; the rotating head 9 is provided with an eccentric jet hole, and when high-pressure water is jetted from the eccentric jet hole, the rotating head 9 and the high-pressure rotary sealing assembly rotate around the sealing rod 2 at a high speed; the rotary head 9 is connected with the high-pressure rotary sealing assembly through a connecting thread 12, a stepped through hole is formed in the central axis direction of the high-pressure rotary sealing assembly, a sealing blind plug 8 penetrates from the front end of the high-pressure rotary sealing assembly and is fixed in the stepped through hole in the front end of the high-pressure rotary sealing assembly, and a sealing rod 2 penetrates from the rear end of the high-pressure rotary sealing assembly and is clamped in the stepped through hole in the rear end of the high-pressure rotary sealing assembly through a limiting part 6; a gap seal is adopted between the cylindrical surface at the front end of the sealing rod 2 and the inner hole at the rear end of the high-pressure rotary sealing component, one end of leakage water generated by the gap seal is led out from a water drain hole 16 at the side surface of the high-pressure rotary sealing component, and the other end of the leakage water is led out from an annular gap 19 formed between the front end of the water inlet joint 1 and the rear end of the high-pressure rotary sealing component; by combining the drainage channel, the sealing blind plug 8 and the limiting part 6, high-pressure water flowing into the water inlet joint 1 is introduced into the inner cavity of the front-end rotating head 9 through the through hole in the sealing rod 2, so that high-efficiency conversion of high-pressure water energy is realized, and jet hitting force is greatly improved; in addition, because the drainage structure and the gap sealing technology are skillfully adopted, radial force and axial force generated in the process that high-pressure water flows through the whole channel are mutually offset or released among all parts in the high-pressure water rotary sprayer designed by the drainage structure, and meanwhile, overflow water generated by gap sealing forms a layer of protective film between the rotary high-pressure rotary sealing assembly and the non-rotary sealing rod as well as the end face of the water inlet connector to play a certain role in lubrication and support, so that no bearing is required to be installed.

Preferably, the high-pressure rotary sealing assembly comprises a shell A4 and a high-pressure rotary sealing sleeve 5, the shell A4 and the high-pressure rotary sealing sleeve 5 are assembled into a whole after interference fit, an eccentric injection hole is processed on the shell A4 and the high-pressure rotary sealing sleeve 5, a rotary head 9 is in threaded connection with the front end of the high-pressure rotary sealing sleeve 5 through a connecting thread 12, a stepped through hole is arranged in the direction of the central axis of the high-pressure rotary sealing sleeve 5, a sealing blind plug 8 penetrates from the front end of the high-pressure rotary sealing sleeve 5 and is fixed in the stepped through hole at the front end of the high-pressure rotary sealing sleeve 5, a sealing rod 2 penetrates from the rear end of the high-pressure rotary sealing sleeve 5 and is clamped in the stepped through hole at the rear end of the high-pressure rotary sealing sleeve 5 through a limiting part 6, gap sealing is adopted between the cylindrical surface at the front end of the sealing rod 2 and the, the other end of the leakage water is led out from an annular gap 19 formed between the front end of the water inlet joint 1 and the rear ends of the shell A4 and the high-pressure rotary sealing sleeve 5.

Preferably, in order to prevent the high-pressure water introduced into the inner cavity of the rotary head from reversely flowing out of the water discharge hole, a sealing blind plug 8 is arranged at the stepped through hole inside the front end of the high-pressure rotary sealing sleeve 5.

Preferably, the limiting part 6 is fixed at the front end of the sealing rod 2 in a threaded connection mode, and the outer diameter of the limiting surface of the limiting part 6 is slightly larger than the outer diameter of the cylindrical surface at the front end of the sealing rod 2 and the size of the inner hole at the rear end of the high-pressure rotary sealing sleeve 5 in clearance fit with the cylindrical surface, so that the axial positions of the high-pressure rotary sealing sleeve 5 and the sealing rod 2 are limited, and the high-pressure rotary sealing assembly and the rotating head 9 are prevented from being separated from the sealing rod 2.

Preferably, a drainage channel A13, a drainage channel B14 and a drainage channel C15 are arranged in the high-pressure rotary sealing assembly, the drainage channel A13 and the drainage channel C15 are of hole-shaped structures, and the drainage channel B14 is of a groove structure.

Preferably, the high-pressure rotary sealing assembly is a housing B22, a drain hole is formed in the housing B22, a drainage channel D23 and a drainage channel E24 are arranged in the housing B22, the drainage channel D23 is in an annular groove structure, the drainage channel E24 is in a slender through hole structure, and the drainage channel E24 directly introduces high-pressure water into the inner cavity of the rotary head 9 through the drainage channel D23.

Preferably, a stepped hole is formed in the water inlet joint 1, a circular step is formed at the rear end of the sealing rod 2, and the sealing rod 2 penetrates through the rear end of the water inlet joint 1 and is fixed in the stepped hole in the water inlet joint 1.

Preferably, the water inlet connector 1 and the sealing rod 2 can be directly manufactured as one piece.

The limiting part is one of components with limiting functions, such as an inner hexagonal screw, a straight screw, a cross screw, a snap ring and the like.

The utility model has the advantages that: the utility model is mainly used for cleaning the pipeline scabs and dirt, the structure is simple and unique, the operation is safer and more reliable under the high pressure state, and the service life is longer; the manufacturing cost and the use cost are greatly reduced; high-pressure water inflow is ingeniously led into the rotating head at the foremost end of the spray head, and the cleaning effect and the efficiency are greatly improved. All easily damaged parts can be replaced independently, and the maintenance is very convenient.

Drawings

Fig. 1 is a sectional view of a high pressure water rotary nozzle designed by a drainage structure of the utility model.

Fig. 2 is a cross-sectional view of another structure of the present invention.

Wherein:

1-water inlet joint; 2-sealing rod; 3-sealing ring; 4-shell a; 5-high pressure rotary sealing sleeve;

6-limiting parts; 7-O-shaped rings; 8-sealing blind plugging; 9-rotating the head;

10-rotating head spray orifice; 11-rotating head lumen; 12-connecting screw threads; 13-drainage channel A

14-drainage channel B; 15-drainage channel C; 16-a drain hole; 17-a through hole;

18-a through hole; 19-annular gap; 20-water inlet joint jet hole;

21-water inlet joint connecting screw thread; 22-shell B; 23-drainage channel D24-drainage channel E

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

all features disclosed in this specification may be combined in any combination, except features that are mutually exclusive.

This specification includes any features disclosed in the appended claims, abstract and drawings, which are, unless expressly stated otherwise, replaceable with other equivalent or similarly purposed alternative features. Unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Example 1

The high-pressure water rotary spray nozzle designed by the drainage structure comprises a water inlet joint 1, a sealing rod 2, a sealing ring 3, a shell A4, a high-pressure rotary sealing sleeve 5, a limiting part 6, an O-shaped ring 7, a sealing blind plug 8 and a rotating head 9, wherein a through hole 17 and a through hole 18 are formed in the sealing rod 2, and the shell A4 and the high-pressure rotary sealing sleeve 5 are assembled in an interference manner to form a component, which is referred to as a high-pressure rotary sealing assembly for short. A drainage channel A13, a drainage channel B14 and a drainage channel C15 are arranged in the high-pressure rotary sealing assembly, the drainage channel A13 and the drainage channel C15 are of hole-shaped structures, and the drainage channel B14 is of a groove structure.

High-pressure water flows into the water inlet connector 1 and enters the inner cavity 11 of the rotary head 9 after passing through the through hole 17 and the through hole 18 in the sealing rod 2, the drainage channel C15, the drainage channel B14 and the drainage channel A13 in the high-pressure rotary sealing assembly; eccentric injection holes are formed in the rotary head 9 and/or the shell A4 and the high-pressure rotary sealing sleeve 5, and when high-pressure water is injected from the eccentric injection holes, the rotary head 9 and the high-pressure rotary sealing assembly rotate around the sealing rod 2 at a high speed.

The rotating head 9 passes through connecting thread 12 and 5 front end threaded connection of high pressure rotary seal cover, 5 the central axis direction of high pressure rotary seal cover has cascaded through-hole, the blind stifled 8 of the sealed of O shape circle 7 that is equipped with penetrates and is fixed in the cascaded through-hole of 5 front ends of high pressure rotary seal cover from 5 front ends of high pressure rotary seal cover, sealing washer 3 covers in 2 roots of sealing rod, sealing rod 2 penetrates and is blocked in the cascaded through-hole of 5 rear ends of high pressure rotary seal cover through spacing spare part 6 from 5 rear ends of high pressure rotary seal cover. A gap seal is adopted between the cylindrical surface at the front end of the sealing rod 2 and the inner hole at the rear end of the high-pressure rotary sealing sleeve 5, one end of leakage water generated by the gap seal is led out from a water drain hole 16 on the side surface of the high-pressure rotary sealing component, and the other end of the leakage water is led out from an annular gap 19 formed between the front end of the water inlet joint 1 and the rear end of the high-pressure rotary sealing component.

By combining the drainage channel A13, the drainage channel B14, the drainage channel C15, the sealing blind plug 8 and the limiting part 6, high-pressure water flowing into the water inlet joint 1 is skillfully introduced into the inner cavity 11 of the front-end rotating head 9 through the through hole 17 and the through hole 18 in the sealing rod 2, so that high-efficiency conversion of high-pressure water energy is realized, and jet hitting force is greatly improved; in addition, because the drainage structure and the gap sealing technology are skillfully adopted, radial force and axial force generated in the process that high-pressure water flows through the whole channel are mutually offset or released among parts in the high-pressure water rotating nozzle designed by the drainage structure, and meanwhile, overflow water generated by gap sealing forms a layer of protective film between the rotating high-pressure rotating sealing sleeve 5 and the end faces of the non-rotating sealing rod 2 and the water inlet joint 1 to play a certain role in lubrication and support, so that no bearing is required to be installed.

In order to prevent the high-pressure water introduced into the inner cavity of the rotary head from reversely flowing out of the water discharge hole, a sealing blind plug 8 is arranged at a stepped through hole in the front end of the high-pressure rotary sealing sleeve 5.

The limiting part 6 is fixed at the front end of the sealing rod 2 in a threaded connection mode, and the outer diameter of the limiting surface of the limiting part 6 is slightly larger than the outer diameter of the cylindrical surface at the front end of the sealing rod 2 and the size of the inner hole at the rear end of the high-pressure rotary sealing sleeve 5 in clearance fit with the cylindrical surface, so that the effect of limiting the axial positions of the high-pressure rotary sealing sleeve 5 and the sealing rod 2 is achieved, and the high-pressure rotary sealing assembly and the rotating head 9 are prevented from being separated from the sealing rod 2.

A stepped hole is formed in the water inlet connector 1, a circular step is formed in the rear end of the sealing rod 2, and the sealing rod 2 penetrates into the stepped hole in the water inlet connector 1 from the rear end of the water inlet connector 1 and is fixed in the stepped hole in the water inlet connector 1. The water inlet joint 1 and the sealing rod 2 can be directly machined into one piece if factors such as convenience in maintenance and reduction in use cost are not taken into consideration.

The limiting part is one of components with limiting functions, such as an inner hexagonal screw, a straight screw, a cross screw, a snap ring and the like.

The utility model discloses a working process:

referring to fig. 1, high-pressure water flows into the water inlet joint 1 and enters the inner cavity 11 of the rotary head 9 through the through hole 17 and the through hole 18 in the sealing rod 2, the drainage channel C15, the drainage channel B14 and the drainage channel a13 in the high-pressure rotary sealing assembly. Eccentric injection holes are formed in the rotary head 9 and/or the housing a4 and the high-pressure rotary seal cartridge 5, and when high-pressure water is injected from the eccentric holes, the rotary head 9 and the high-pressure rotary seal cartridge rotate at high speed around the seal rod 2. The rotating head 9 passes through connecting thread 12 and 5 front end threaded connection of high pressure rotary seal cover, 5 the central axis direction of high pressure rotary seal cover has cascaded through-hole, the blind stifled 8 of the sealed of O shape circle 7 that is equipped with penetrates and is fixed in the cascaded through-hole of 5 front ends of high pressure rotary seal cover from 5 front ends of high pressure rotary seal cover, sealing washer 3 covers in 2 roots of sealing rod, sealing rod 2 penetrates and is blocked in the cascaded through-hole of 5 rear ends of high pressure rotary seal cover through spacing spare part 6 from 5 rear ends of high pressure rotary seal cover. A gap seal is adopted between the cylindrical surface at the front end of the sealing rod 2 and the inner hole at the rear end of the high-pressure rotary sealing sleeve 5, one end of leakage water generated by the gap seal is led out from a water drain hole 16 on the side surface of the high-pressure rotary sealing component, and the other end of the leakage water is led out from an annular gap 19 formed between the front end of the water inlet joint 1 and the rear end of the high-pressure rotary sealing component. By combining the drainage channel A13, the drainage channel B14, the drainage channel C15, the sealing blind plug 8 and the limiting part 6, the high-pressure water flowing into the water inlet joint 1 is introduced into the inner cavity 11 of the front-end rotating head 9 through the through hole 17 and the through hole 18 in the sealing rod 2.

Example 2

The high-pressure water rotary sprayer designed by the drainage structure is described by combining fig. 2, and comprises a water inlet joint 1, a sealing rod 2, a sealing ring 3, a shell B22, a limiting part 6, an O-shaped ring 7, a sealing blind plug 8 and a rotary head 9, wherein a through hole 17 and a through hole 18 are formed in the sealing rod 2, a drain hole is processed in the shell B22, a drainage channel D23 and a drainage channel E24 are arranged in the shell B22, the drainage channel D23 is of an annular groove structure, the drainage channel E24 is of a long and thin through hole structure, and the drainage channel E24 directly introduces high-pressure water into an inner cavity of the rotary head 9 through the drainage channel D23.

The high pressure water flows into the water inlet joint 1, passes through the through hole 17 and the through hole 18 in the sealing rod 2, the drainage channel D23 in the shell B22 and the drainage channel E24, and then enters the inner cavity 11 of the rotary head 9. The rotary head 9 and/or the housing B22 are formed with eccentric injection holes, and when high pressure water is injected from the eccentric injection holes, the rotary head 9 and the housing B22 are rotated at a high speed around the sealing rod 2.

Rotating head 9 passes through connecting thread 12 and shell B22 front end threaded connection, there is cascaded through-hole shell B22 the central axis direction, the sealed blind plug 8 that is equipped with O shape circle 7 penetrates and is fixed in the cascaded through-hole of shell B22 front end from shell B22 front end, sealing washer 3 cover is at sealing rod 2 root, sealing rod 2 penetrates and is blocked in the cascaded through-hole of shell B22 rear end through spacing spare part 6 from shell B22 rear end. A gap seal is adopted between the cylindrical surface at the front end of the sealing rod 2 and the inner hole at the rear end of the shell B22, one end of leakage water generated by the gap seal is led out from a drainage hole 16 at the side surface of the shell B22, and the other end of the leakage water is led out from an annular gap 19 formed between the front end of the water inlet joint 1 and the rear end of the shell B22. By combining the drainage channel D23, the drainage channel E24, the sealing blind plug 8 and the limiting part 6, high-pressure water flowing into the water inlet joint 1 is introduced into the inner cavity of the front-end rotating head 9 through the through hole 17 and the through hole 18 in the sealing rod 2, so that high-efficiency conversion of high-pressure water energy is realized, and jet hitting force is greatly improved; in addition, due to the skillful adoption of the drainage structure and the gap sealing technology, radial force and axial force generated in the process that high-pressure water flows through the whole channel are mutually offset or released among parts in the high-pressure water rotating nozzle designed by the drainage structure, and meanwhile, overflow water generated by gap sealing forms a layer of protective film between the rotating shell B22 and the end faces of the non-rotating sealing rod 2 and the water inlet joint 1 to play a certain role in lubrication and support, so that no bearing is required to be installed.

A stepped hole is formed in the water inlet connector 1, a circular step is formed in the rear end of the sealing rod 2, and the sealing rod 2 penetrates into the stepped hole in the water inlet connector 1 from the rear end of the water inlet connector 1 and is fixed in the stepped hole in the water inlet connector 1. The water inlet joint 1 and the sealing rod 2 can be directly machined into one piece if factors such as convenience in maintenance and reduction in use cost are not taken into consideration.

The limiting part is one of components with limiting functions, such as an inner hexagonal screw, a straight screw, a cross screw, a snap ring and the like.

The utility model discloses a working process:

referring to fig. 2, high pressure water flows into the water inlet joint 1 and enters the inner cavity of the rotary head 9 through the through holes 17 and 18 in the sealing rod 2, the drainage channel D23 in the housing B22 and the drainage channel E24. The rotary head 9 and/or the housing B22 are formed with eccentric injection holes, and when high pressure water is injected from the eccentric injection holes, the rotary head 9 and the housing B22 are rotated at a high speed around the sealing rod 2. Rotating head 9 passes through connecting thread 12 and shell B22 front end threaded connection, and there is cascaded through-hole in the shell 22 central axis direction, and the sealed blind stopper 8 that is equipped with O shape circle 7 penetrates and is fixed in the cascaded through-hole of shell B22 front end from shell B22 front end, and sealing washer 3 cover is at the sealing rod 2 root, and sealing rod 2 penetrates and is blocked in the cascaded through-hole of shell B22 rear end through spacing spare part 6 from shell B22 rear end. A gap seal is adopted between the cylindrical surface at the front end of the sealing rod 2 and the inner hole at the rear end of the shell B22, one end of leakage water generated by the gap seal is led out from a drainage hole 16 at the side surface of the shell B22, and the other end of the leakage water is led out from an annular gap 19 formed between the front end of the water inlet joint 1 and the rear end of the shell B22. By the technical means of combining the drainage channel D23, the drainage channel E24, the sealing blind plug 8 and the limiting part 6, high-pressure water flowing into the water inlet joint 1 is introduced into the inner cavity of the front-end rotating head 9 through the through hole 17 and the through hole 18 in the sealing rod 2.

The utility model has the advantages that: the utility model is mainly used for cleaning the pipeline scabs and dirt, the utility model is simple and unique, the operation under high pressure is safer and more reliable, and the service life is longer; the manufacturing cost and the use cost are greatly reduced; high-pressure water inflow is ingeniously led into the rotating head at the foremost end of the spray head, and the cleaning effect and the efficiency are greatly improved. All easily damaged parts can be replaced independently, and the maintenance is very convenient.

The above detailed description describes the preferred embodiments of the present invention, but the present invention is not limited to the details of the above embodiments, and the technical idea of the present invention can be within the scope of the present invention, and can be right to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (8)

1. The utility model provides a rotatory nozzle of water under high pressure of drainage structural design which characterized in that: the high-pressure water rotary sprayer designed by the drainage structure comprises a water inlet joint (1), a sealing rod (2), a high-pressure rotary sealing assembly, a limiting part (6), a sealing blind plug (8) and a rotary head (9), wherein a through hole is formed in the sealing rod (2), a drainage channel is formed in the high-pressure rotary sealing assembly, and high-pressure water flows into the water inlet joint (1) and enters an inner cavity of the rotary head (9) after passing through the through hole in the sealing rod (2) and the drainage channel in the high-pressure rotary sealing assembly; the rotary head (9) is provided with an eccentric jet hole, and when high-pressure water is jetted from the eccentric jet hole, the rotary head (9) and the high-pressure rotary sealing assembly rotate around the sealing rod (2) at a high speed; the rotary head (9) is connected with the high-pressure rotary sealing assembly through a connecting thread (12), a stepped through hole is formed in the central axis direction of the high-pressure rotary sealing assembly, a sealing blind plug (8) penetrates from the front end of the high-pressure rotary sealing assembly and is fixed in the stepped through hole in the front end of the high-pressure rotary sealing assembly, and a sealing rod (2) penetrates from the rear end of the high-pressure rotary sealing assembly and is clamped in the stepped through hole in the rear end of the high-pressure rotary sealing assembly through a limiting part (6); a gap seal is adopted between the cylindrical surface at the front end of the sealing rod (2) and the inner hole at the rear end of the high-pressure rotary sealing component, one end of leakage water generated by the gap seal is led out from a drain hole (16) on the side surface of the high-pressure rotary sealing component, and the other end of the leakage water is led out from an annular gap (19) formed between the front end of the water inlet joint (1) and the rear end of the high-pressure rotary sealing component; by combining the drainage channel, the sealing blind plug (8) and the limiting part (6), high-pressure water flowing into the water inlet joint (1) is introduced into an inner cavity of the front-end rotating head (9) through a through hole in the sealing rod (2).

2. The high-pressure water rotary sprayer with the flow guide structure design according to claim 1, characterized in that: the high-pressure rotary sealing component comprises a shell A (4) and a high-pressure rotary sealing sleeve (5), the shell A (4) and the high-pressure rotary sealing sleeve (5) are assembled into a whole after interference fit, an eccentric jet hole is processed on the high-pressure rotary sealing component, a rotating head (9) is in threaded connection with the front end of the high-pressure rotary sealing sleeve (5) through a connecting thread (12), a stepped through hole is arranged in the direction of the central axis of the high-pressure rotary sealing sleeve (5), a sealing blind plug (8) penetrates from the front end of the high-pressure rotary sealing sleeve (5) and is fixed in the stepped through hole at the front end of the high-pressure rotary sealing sleeve (5), a sealing rod penetrates from the rear end of the high-pressure rotary sealing sleeve (5) and is clamped in the stepped through hole at the rear end of the high-pressure rotary sealing sleeve (5) through a limiting part (6), and clearance sealing is adopted, one end of leakage water generated by the gap seal is led out from a lateral drainage hole (16) of the shell A (4) and the high-pressure rotary sealing sleeve (5), and the other end of the leakage water is led out from an annular gap (19) formed between the front end of the water inlet joint (1) and the rear ends of the shell A (4) and the high-pressure rotary sealing sleeve (5).

3. The high-pressure water rotary sprayer with the flow guide structure design according to claim 2, characterized in that: a sealing blind plug (8) is arranged at the stepped through hole in the front end of the high-pressure rotary sealing sleeve (5).

4. The high-pressure water rotary sprayer with the flow guide structure design according to claim 2, characterized in that: the limiting part (6) is fixed at the front end of the sealing rod (2) in a threaded connection mode, and the outer diameter of the limiting surface of the limiting part (6) is slightly larger than the outer diameter of the cylindrical surface at the front end of the sealing rod (2) and the size of the inner hole at the rear end of the high-pressure rotary sealing sleeve (5) in clearance fit with the cylindrical surface.

5. The high-pressure water rotary sprayer with the flow guide structure design according to claim 2, characterized in that: a drainage channel A (13), a drainage channel B (14) and a drainage channel C (15) are arranged in the high-pressure rotary sealing assembly, the drainage channel A (13) and the drainage channel C (15) are of porous structures, and the drainage channel B (14) is of a groove structure.

6. The high-pressure water rotary sprayer with the flow guide structure design according to claim 1, characterized in that: the high-pressure rotary sealing assembly is a shell B (22), a drain hole is processed on the shell B (22), a drainage channel D (23) and a drainage channel E (24) are arranged in the shell B (22), the drainage channel D (23) is of an annular groove structure, and the drainage channel E (24) is of a slender through hole structure.

7. The high-pressure water rotary sprayer with the flow guide structure design according to claim 1, characterized in that: a stepped hole is formed in the water inlet connector (1), a circular step is formed in the rear end of the sealing rod (2), and the sealing rod (2) penetrates into the stepped hole in the water inlet connector (1) from the rear end of the water inlet connector (1) and is fixed in the stepped hole in the water inlet connector (1).

8. The high-pressure water rotary sprayer with the flow guide structure design according to claim 1, characterized in that: the water inlet joint (1) and the sealing rod (2) can be directly processed into a component.

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