CN214183631U

CN214183631U - Telescopic rotary cleaning spray head of extraction tower

Info

Publication number: CN214183631U
Application number: CN202023277894.9U
Authority: CN
Inventors: 杜金胜; 俞小石
Original assignee: Wuxi Baodejin Equipment Technology Co ltd
Current assignee: Wuxi Baodejin Equipment Technology Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-09-14
Anticipated expiration: 2030-12-31

Abstract

The utility model provides a scalable rotation type of extraction tower washs shower nozzle, it can conveniently wash the extraction tower. The water inlet is arranged at the bottom end of the first cylinder body, the second cylinder body is sleeved in the first cylinder body in a sealing and sliding manner, and a distribution sleeve is sleeved in the second cylinder body in a sealing and sliding manner; one end of the rotary core penetrates through the partial matching and is rotatably arranged in a rotary cavity formed in the distribution sleeve, the bottom end of the rotary core is I-shaped, a side groove of the rotary core can be clamped at a third limiting block arranged at the lower end of the rotary cavity, and a rotary ball is arranged at the other end of the rotary core; a first water chute communicated with the rotary cavity is formed in the inner wall of the middle of the rotary cavity, a vertical second water chute is formed in the side wall of the distribution sleeve, and the first water chute is communicated with the water inlet cavity at the lower half part of the distribution sleeve through the second water chute; the inner walls of the rotary ball and the rotary core are provided with water channels, and water flow is sprayed out from a water outlet formed in the surface of the rotary ball after passing through the water channels from the first water guide groove.

Description

Telescopic rotary cleaning spray head of extraction tower

Technical Field

The utility model belongs to wash the field, specificly relate to and wash the shower nozzle.

Background

The extraction tower often can't wash because inside has a lot of agitating unit, when needing to wash, needs to unpack whole extraction tower apart, hangs agitating unit out, and the extraction tower often highly is about 10 meters, and intensity of labour is big.

Disclosure of Invention

In order to solve the problem that the extraction tower is difficult to wash, the utility model provides a shower nozzle is washd to scalable rotation type of extraction tower, it can conveniently wash the extraction tower.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

shower nozzle is washd to scalable rotation type of extraction tower, it includes the water inlet, its characterized in that: the water inlet is arranged at the bottom end of the first cylinder body, a second cylinder body is sleeved in the first cylinder body in a sealing and sliding manner, when the second cylinder body slides to the highest position, the bottom end of the second cylinder body is clamped with a first limiting block arranged at the top end of the first cylinder body, a distribution cover is sleeved in the second cylinder body in a sealing and sliding manner, and when the distribution cover slides to the highest position, the bottom end of the distribution cover is clamped with a second limiting block arranged at the top end of the second cylinder body; one end of the rotary core penetrates through the distribution sleeve and is rotatably arranged in a rotary cavity formed in the distribution sleeve, the bottom end of the rotary core is I-shaped, a groove in the side surface of the rotary core can be clamped at a third limiting block arranged at the lower end of the rotary cavity, and a rotary ball is arranged at the other end of the rotary core; a first water chute communicated with the rotary cavity is formed in the inner wall of the middle of the rotary cavity, a vertical second water chute is formed in the side wall of the distribution sleeve, and the first water chute is communicated with the water inlet cavity at the lower half part of the distribution sleeve through the second water chute; the inner walls of the rotary ball and the rotary core are provided with water channels, and water flow passes through the water channels from the first water guide groove and then is sprayed out from a water outlet formed in the surface of the rotary ball.

It is further characterized in that:

the rotating ball is hollow, a third water guide groove which is combined obliquely is formed in the inner wall of the rotating ball, and water flows through the first water guide groove and is pressed into the third water guide groove after passing through the water channel.

The utility model has the advantages that: along with the increase of the water inlet pressure, the second cylinder body and the distribution sleeve are stressed upwards more, namely the height of the rotary ball is higher; meanwhile, when water flows through the first cylinder body, the second cylinder body, the water inlet cavity matched with the first cylinder body and the second water chute to enter the first water chute, a rotating force is given to the rotating core to drive the rotating ball to rotate; the water in the first water guide groove is sprayed out from a water outlet formed in the surface of the rotary ball after passing through the rotary core, the rotary ball and the water channel on the inner wall, so that the extraction tower is convenient to clean; in addition, water flows through the first water guide groove, passes through the water channel on the inner wall of the rotary core and then is pressed into the third water guide groove formed in the inner wall of the rotary ball, so that a rotary force is provided for the rotary ball, the rotation of the rotary ball is assisted, and the cleaning spray head can perform reciprocating cleaning without dead angles.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the inner wall of the rotary ball of the present invention;

in the figure: 1 a first cylinder; 11 a water inlet; 12 a first stopper; 2 a second cylinder; 21 a second limiting block; 3, matching; 31 a rotating chamber; 32 a water inlet cavity; 33 a third limiting block; 34 a first water chute; 35 a second water chute; 4 rotating the core; 5 rotating the ball; 51 a third flume.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and embodiments, which are only used for explaining the present invention and are not limited to the protection scope of the present invention.

The telescopic rotary cleaning spray head of the extraction tower comprises a water inlet 11, wherein the water inlet 11 is arranged at the bottom end of a first cylinder body 1, a second cylinder body 2 is sleeved in the first cylinder body 1 in a sealing sliding manner, when the second cylinder body 2 slides to the highest position, the bottom end of the second cylinder body 2 is clamped with a first limiting block 12 arranged at the top end of the first cylinder body 1, a distribution sleeve 3 is sleeved in the second cylinder body 2 in a sealing sliding manner, and when the distribution sleeve 3 slides to the highest position, the bottom end of the distribution sleeve 3 is clamped with a second limiting block 21 arranged at the top end of the second cylinder body 2; one end of the rotary core 4 penetrates through the matching sleeve 3 and is rotatably arranged in a rotary cavity 31 formed in the matching sleeve 3, the bottom end of the rotary core 4 is I-shaped, a side groove of the rotary core can be clamped at a third limiting block 33 arranged at the lower end of the rotary cavity 31, and the other end of the rotary core is provided with a rotary ball 5; a first water chute 34 communicated with the rotating cavity 31 is formed in the inner wall of the middle of the rotating cavity 31, a vertical second water chute 35 is formed in the side wall of the distributing sleeve 3, and the first water chute 34 is communicated with the water inlet cavity 32 on the lower half part of the distributing sleeve 3 through the second water chute 35; the inner walls of the rotary ball 5 and the rotary core 4 are provided with water channels, and water flow is sprayed out from a water outlet arranged on the surface of the rotary ball 5 after passing through the water channels from the first water guide groove 34. The spin ball 5 is hollow, and the inner wall thereof is provided with a third water guide groove 51 which is obliquely combined, so that water flows through the first water guide groove 34, passes through the water channel, and is pressed into the third water guide groove 51.

The utility model has the advantages that: along with the increase of the water inlet pressure, the second cylinder body 2 and the distribution sleeve 3 are forced upwards more, namely the height of the rotary ball 5 is higher; meanwhile, when water flows through the first cylinder body 1, the second cylinder body 2, the water inlet cavity 32 of the distribution sleeve 3 and the second water chute 35 to enter the first water chute 34, a rotating force is given to the rotating core 4 to drive the rotating ball 5 to rotate; the water in the first water chute 34 passes through the rotary core 4, the rotary ball 5 and the water channel on the inner wall and then is sprayed out from the water outlet formed on the surface of the rotary ball 5, so that the extraction tower is convenient to clean; in addition, water flows through the water channel on the inner wall of the rotary core 4 from the first water guide groove 34 and then is pressed into the third water guide groove 51 formed on the inner wall of the rotary ball 5, so that a rotating force is provided for the rotary ball 5 to help the rotary ball 5 to rotate, and the cleaning spray head can perform reciprocating cleaning without dead angles.

Claims

1. Shower nozzle is washd to scalable rotation type of extraction tower, it includes the water inlet, its characterized in that: the water inlet is arranged at the bottom end of the first cylinder body, a second cylinder body is sleeved in the first cylinder body in a sealing and sliding manner, when the second cylinder body slides to the highest position, the bottom end of the second cylinder body is clamped with a first limiting block arranged at the top end of the first cylinder body, a distribution cover is sleeved in the second cylinder body in a sealing and sliding manner, and when the distribution cover slides to the highest position, the bottom end of the distribution cover is clamped with a second limiting block arranged at the top end of the second cylinder body; one end of the rotary core penetrates through the distribution sleeve and is rotatably arranged in a rotary cavity formed in the distribution sleeve, the bottom end of the rotary core is I-shaped, a groove in the side surface of the rotary core can be clamped at a third limiting block arranged at the lower end of the rotary cavity, and a rotary ball is arranged at the other end of the rotary core; a first water chute communicated with the rotary cavity is formed in the inner wall of the middle of the rotary cavity, a vertical second water chute is formed in the side wall of the distribution sleeve, and the first water chute is communicated with the water inlet cavity at the lower half part of the distribution sleeve through the second water chute; the inner walls of the rotary ball and the rotary core are provided with water channels, and water flow passes through the water channels from the first water guide groove and then is sprayed out from a water outlet formed in the surface of the rotary ball.

2. The retractable rotary cleaning head of claim 1, wherein: the rotating ball is hollow, a third water guide groove which is combined obliquely is formed in the inner wall of the rotating ball, and water flows through the first water guide groove and is pressed into the third water guide groove after passing through the water channel.