CN114215978B

CN114215978B - Floating fine tuning spray cooling pipe screwing structure

Info

Publication number: CN114215978B
Application number: CN202210045559.0A
Authority: CN
Inventors: 陶勇
Original assignee: Jiangsu Haiding Electrical Technology Co ltd
Current assignee: Jiangsu Haiding Electrical Technology Co ltd
Priority date: 2022-01-15
Filing date: 2022-01-15
Publication date: 2023-07-21
Anticipated expiration: 2042-01-15
Also published as: CN114215978A

Abstract

The invention discloses a floating fine-tuning spray cooling pipe screwing structure, which comprises a transverse adjusting mechanism; according to the invention, the transverse adjusting mechanism is additionally arranged, and the plurality of transverse connection elastic bodies are uniformly arranged between the outer sides of the periphery of the transverse movable ring body and the inner wall of the annular accommodating cavity, so that the transverse movable ring body has a certain transverse displacement function on the annular accommodating cavity, and when the axial positions of the lower floating ring body and the upper floating ring body deviate, the transverse movable ring body can be subjected to transverse fine adjustment, so that the axial positions of the lower floating ring body and the upper floating ring body correspond to each other, the assembly of the lower floating ring body and the upper floating ring body is realized, and the use is more flexible and convenient.

Description

Floating fine tuning spray cooling pipe screwing structure

Technical Field

The invention relates to a floating fine-tuning spray cooling pipe screwing structure.

Background

Spray water can form the incrustation scale in infinite circulation process, and then the shower nozzle appears blocking phenomenon, will influence spray water's spraying effect like this, will influence working fluid's cooling temperature at last, consequently, the shower just need be taken apart after using a period and wash, but, present spray water's connection mostly uses screw fixed connection, need use extracting tool to unscrew when dismantling and installing, therefore the staff need hand-carry the instrument, just can take the shower apart and install, bring a lot of trouble for dismantling and installation work, influence work efficiency, so need to realize the installation and the convenience of dismantling, need guarantee the leakproofness of structure simultaneously, need improve flexibility and the resistance variability of structure installation simultaneously.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: the floating fine-adjustment spray cooling pipe screwing structure is flexible in assembly, convenient and quick to install and detach and good in sealing performance.

In order to solve the problems, the invention adopts the following technical scheme:

a floating fine tuning spray cooling pipe screwing structure comprises an upper connector, a lower connector, a double floating type butt joint mechanism and a transverse adjusting mechanism; the upper connector is arranged at the upper end of the lower connector; a double floating type butt joint mechanism is arranged between the upper connector and the lower connector; the transverse adjusting mechanism is arranged around the inner part of the upper end of the lower connector; the transverse adjusting mechanism comprises a transverse moving ring body, a transverse connecting elastic body, a supporting ring body, an upper telescopic sealing ring body and a lower telescopic sealing ring body; an annular accommodating cavity is formed around the inner part of the upper end of the lower connector; the bottom of the annular accommodating cavity is provided with a supporting ring body at the periphery, the inside of the annular accommodating cavity is provided with a transverse moving ring body at the periphery, and the lower end of the transverse moving ring body is abutted to the upper end of the supporting ring body; a plurality of transverse connection elastic bodies are uniformly arranged between the outer sides of the periphery of the transverse moving ring body and the inner wall of the annular accommodating cavity; an upper telescopic sealing ring body is arranged between the periphery of the upper end of the transverse moving ring body and the periphery of the inner part of the upper end of the annular accommodating cavity; a lower telescopic sealing ring body is arranged between the periphery of the lower end of the transverse moving ring body and the periphery of the inner part of the lower end of the annular accommodating cavity; the double-floating type docking mechanism comprises an upper floating ring body, a positioning clamping ring, an upper abutting elastic ring body, an upper sealing ring body, an annular convex edge, a lower floating ring body, a lower abutting elastic body and a lower sealing ring body; an upper annular groove and a lower annular groove are respectively arranged on the outer side of the periphery of the upper end and the outer side of the periphery of the lower end of the upper connector; a positioning clamping ring is arranged around the upper end of the upper annular groove in a vertically sliding clamping manner; the periphery of the lower end of the upper annular groove is sleeved with an upper abutting elastic ring body, and the upper end of the upper abutting elastic ring body abuts against the periphery of the lower end of the positioning clamping ring; the lower ends of the outer sides of the periphery of the positioning clamping ring bodies are rotationally clamped and mounted with an upper floating ring body; the inner side of the periphery of the upper floating ring body is connected with an annular convex edge; the periphery of the inner end of the annular convex edge extends into the lower annular groove; an upper sealing ring body is arranged around the lower end of the inner part of the lower annular groove; the upper end of the transverse moving ring body is connected with a lower floating ring body in a sliding and clamping manner, and the lower end of the lower floating ring body is in sealing telescopic connection with the inner part of the upper end of the transverse moving ring body; the lower abutting elastic body is arranged in the upper end of the transverse moving ring body, and the upper end of the lower abutting elastic body is elastically abutted against the lower end of the lower floating ring body; a lower sealing ring body is arranged around the upper end of the lower floating ring body; the upper end of the upper floating ring body is abutted to the periphery of the lower end of the upper floating ring body in an upward abutting mode, the upper floating ring body is driven to rotate to drive the lower floating ring body to be screwed into the upper floating ring body in an upward threaded mode, the lower sealing ring body is abutted to the periphery of the lower end of the upper connector in an upward abutting mode, and the upper floating ring body continues to rotate and move downwards to drive the annular convex edge to be abutted to the periphery of the upper end of the upper sealing ring body in a downward abutting mode.

Further, the anti-slip device also comprises an anti-slip abutting mechanism; the anti-skid abutting mechanism comprises an anti-skid abutting spring and an abutting arc plate; a plurality of abutting grooves are uniformly formed in the outer side of the periphery of the middle of the upper connector; an anti-slip pressing spring is respectively arranged in the abutting groove; the outer ends of the anti-slip abutting springs are respectively provided with an abutting arc plate.

Further, two sliding clamping teeth are respectively arranged at two ends of the inner side of the positioning clamping ring; two sides of the upper annular groove are respectively provided with a sliding clamping groove; the sliding latch is clamped on the sliding slot in an up-and-down sliding way.

Further, two sides of the upper end of the upper floating ring body are provided with rotary clamping teeth; annular clamping grooves are formed in the periphery of the outer side of the positioning clamping ring; the upper floating ring body is rotationally clamped on the annular clamping grooves around the outer side of the positioning clamping ring through the rotary clamping teeth on the two sides of the upper end.

Further, the circumference of the inner part of the lower end of the transverse moving ring body is provided with an abutting ring bulge; a sealing telescopic pipe is arranged around the upper end of the abutting ring bulge; the periphery of the upper end of the sealing telescopic tube is fixedly connected with the periphery of the lower end of the lower floating ring body.

Further, two limiting clamping grooves are respectively formed in two sides of the inner part of the transverse moving ring body; two sides of the lower end of the lower floating ring body are respectively provided with a limiting sliding block; the limiting sliding block is clamped on the limiting clamping groove in an up-and-down sliding manner; the limiting clamping grooves are respectively provided with a lower abutting elastic body; the upper end of the lower abutting elastic body is elastically abutted against the lower end of the limiting sliding block.

Further, an inner thread ring surface is arranged on the inner side of the periphery of the lower end of the upper floating ring body; the outer side of the periphery of the upper end of the lower floating ring body is provided with an external thread ring surface; the internal thread ring surface and the external thread ring surface are screwed together.

Further, the upper seal ring body and the lower seal ring body are both made of rubber materials.

The beneficial effects of the invention are as follows:

1. according to the invention, the transverse adjusting mechanism is additionally arranged, and the plurality of transverse connection elastic bodies are uniformly arranged between the outer sides of the periphery of the transverse movable ring body and the inner wall of the annular accommodating cavity, so that the transverse movable ring body has a certain transverse displacement function on the annular accommodating cavity, and when the axial positions of the lower floating ring body and the upper floating ring body deviate, the transverse movable ring body can be subjected to transverse fine adjustment, so that the axial positions of the lower floating ring body and the upper floating ring body correspond to each other, the assembly of the lower floating ring body and the upper floating ring body is realized, and the use is more flexible and convenient.

2. According to the invention, as the lower abutting elastic body abuts against the lower floating ring body upwards, the upper end of the lower floating ring body abuts against the periphery of the lower end of the upper floating ring body, the upper floating ring body continuously rotates, when the screw teeth of the upper floating ring body are in abutting joint with the screw teeth of the lower floating ring body, the upper floating ring body can be rotationally driven to be screwed into the upper floating ring body upwards, the lower floating ring body is driven to enter into the upper floating ring body, the lower sealing ring body is driven to abut against the periphery of the lower end of the upper connector upwards, a first seal realized by upwards floating of the lower floating ring body is formed, the lower floating ring body does not have a space to continuously move upwards, the upper floating ring body rotates downwards at the periphery of the lower floating ring body when the upper floating ring body is continuously rotated, the annular convex edge is driven to downwards move in the lower annular groove, the annular convex edge is enabled to abut against the periphery of the upper end of the upper sealing ring body downwards, and the second seal of the upper floating ring body is formed downwards, so that the sealing performance is guaranteed while the quick assembly is realized.

Drawings

Fig. 1 is a schematic view of the structure of the separation state of the present invention.

FIG. 2 is a schematic view of the structure of the upper floating ring body of the present invention driven by rotation of the floating ring body.

FIG. 3 is a schematic view of the structure of the present invention in which the upper floating ring body of FIG. 2 moves downward after continuing to rotate.

Fig. 4 is a partially enlarged schematic view of the upper side of fig. 1 according to the present invention.

Fig. 5 is a partially enlarged schematic view of the lower part of fig. 1 according to the present invention.

Fig. 6 is an enlarged partial schematic view of the assembled structure of fig. 3 according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, a floating fine-tuning spray cooling pipe screwing structure comprises an upper connector 1, a lower connector 2, a double floating type docking mechanism 3 and a transverse adjusting mechanism 5; the upper connector 1 and the lower connector 2 are of annular structures; the upper connector 1 is arranged at the upper end of the lower connector 2; a double floating type butt joint mechanism 3 is arranged between the upper connector 1 and the lower connector 2; the transverse adjusting mechanism 5 is arranged around the inner part of the upper end of the lower connector 2; the transverse adjusting mechanism 5 comprises a transverse moving ring body 51, a transverse connecting elastic body 52, a supporting ring body 53, an upper telescopic sealing ring body 54 and a lower telescopic sealing ring body 55; an annular accommodating cavity 28 is formed around the inner part of the upper end of the lower connector 2; the support ring body 53 is arranged around the bottom of the annular accommodating cavity 28, the transverse moving ring body 51 is arranged around the inside of the annular accommodating cavity 28, and the lower end of the transverse moving ring body 51 is abutted to the upper end of the support ring body 53; a plurality of transverse connection elastic bodies 52 are uniformly arranged between the outer sides of the periphery of the transverse moving ring body 51 and the inner wall of the annular accommodating cavity 28; an upper telescopic sealing ring body 54 is arranged between the periphery of the upper end of the transverse moving ring body 51 and the periphery of the inner part of the upper end of the annular accommodating cavity 28; a lower telescopic sealing ring body 55 is arranged between the periphery of the lower end of the transverse moving ring body 51 and the periphery of the inner part of the lower end of the annular accommodating cavity 28; the double-floating type docking mechanism 3 comprises an upper floating ring body 31, a positioning clamping ring 33, an upper abutting elastic ring body 34, an upper sealing ring body 37, an annular convex edge 36, a lower floating ring body 32, a lower abutting elastic body 38 and a lower sealing ring body 35; an upper annular groove 11 and a lower annular groove 12 are respectively arranged on the outer side of the periphery of the upper end and the outer side of the periphery of the lower end of the upper connector 1; a positioning clamping ring 33 is arranged around the upper end of the upper annular groove 11 in a vertically sliding clamping manner; an upper abutting elastic ring body 34 is sleeved and mounted on the periphery of the lower end of the upper annular groove 11, and the upper end of the upper abutting elastic ring body 34 abuts against the periphery of the lower end of the positioning clamping ring 33; the lower ends of the outer sides of the periphery of the positioning clamping ring bodies 33 are rotatably clamped and provided with an upper floating ring body 31; the inner side of the periphery of the upper floating ring body 31 is connected with an annular convex edge 36; the periphery of the inner end of the annular convex edge 36 extends into the lower annular groove 12; an upper sealing ring body 37 is arranged around the lower end of the inner part of the lower annular groove 12; the upper end of the transverse moving ring body 51 is connected with a lower floating ring body 32 in a sliding and clamping manner, and the lower end of the lower floating ring body 32 is in sealing telescopic connection with the inner part of the upper end of the transverse moving ring body 51; the lower abutting elastic body 38 is mounted inside the upper end of the transverse moving ring body 51, and the upper end of the lower abutting elastic body 38 is elastically abutted against the lower end of the lower floating ring body 32; a lower sealing ring body 35 is arranged around the upper end of the lower floating ring body 32; the lower abutting elastic body 38 abuts against the upper end of the lower floating ring body 32 upwards and abuts against the periphery of the lower end of the upper floating ring body 31, the upper floating ring body 31 rotates to drive the lower floating ring body 32 to be screwed into the upper floating ring body 31 upwards, the lower sealing ring body 35 abuts against the periphery of the lower end of the upper connector 1 upwards, and the upper floating ring body 31 continues to rotate and move downwards and drives the annular convex edge 36 to abut against the periphery of the upper end of the upper sealing ring body 37 downwards.

As shown in fig. 1 to 6, it is further preferable to further include an anti-slip abutment mechanism 4; the anti-skid abutting mechanism 4 comprises an anti-skid abutting spring 41 and an abutting arc plate 42; a plurality of abutting grooves 13 are uniformly formed in the outer side of the periphery of the middle of the upper connector 1; an anti-skid pressing spring 41 is respectively arranged in the abutting groove 13; the outer ends of the anti-skid pressing springs 41 are respectively provided with an abutting arc plate 42. Further, two sliding latches 332 are respectively mounted at two ends of the inner side of the positioning clamping ring 33; two sides of the upper annular groove 11 are respectively provided with a sliding clamping groove 14; the sliding latch 332 is slidably engaged with the sliding latch groove 14. Further, two sides of the upper end of the upper floating ring body 31 are provided with rotary clamping teeth 311; annular clamping grooves 331 are formed in the periphery of the outer side of the positioning clamping ring 33; the upper floating ring body 31 is rotatably clamped on the annular clamping groove 331 around the outer side of the positioning clamping ring 33 through the rotary clamping teeth 311 on the two sides of the upper end. Further, the lower end of the lateral moving ring 51 is provided with an abutment ring protrusion 22 around the inner periphery thereof; a sealing telescopic pipe 23 is arranged around the upper end of the abutting annular protrusion 22; the periphery of the upper end of the sealing telescopic pipe 23 is fixedly connected with the periphery of the lower end of the lower floating ring body 32. Further, two sides of the inner part of the lateral moving ring body 51 are respectively provided with a limiting clamping groove 21; two limiting sliding blocks 321 are respectively arranged on two sides of the lower end of the lower floating ring body 32; the limiting sliding block 321 is clamped on the limiting clamping groove 21 in a vertically sliding manner; a lower abutting elastic body 38 is respectively arranged in the limiting clamping groove 21; the upper end of the lower abutting elastic body 38 is elastically abutted against the lower end of the limit sliding block 321. Further, an inner thread ring surface is arranged on the inner side of the periphery of the lower end of the upper floating ring body 31; the outer side of the periphery of the upper end of the lower floating ring body 32 is provided with an external thread ring surface; the internal thread ring surface and the external thread ring surface are screwed together. Further, the upper seal ring 37 and the lower seal ring 35 are each made of a rubber material.

The invention adds the transverse adjusting mechanism 5, and a plurality of transverse connecting elastic bodies 52 are uniformly arranged between the outer sides of the periphery of the transverse moving ring body 51 and the inner wall of the annular accommodating cavity 28, so that the transverse moving ring body 51 has a certain transverse displacement function on the annular accommodating cavity 28, when the axial positions of the lower floating ring body 31 and the upper floating ring body 32 deviate, the transverse fine adjustment position of the transverse moving ring body 51 can be carried out, the lower floating ring body 32 is driven to slightly move, the axial positions of the lower floating ring body 32 and the upper floating ring body 31 correspond, the assembly of the lower floating ring body 32 and the upper floating ring body 31 is realized, and the use is more flexible and convenient.

According to the invention, as the lower abutting elastic body 38 abuts against the lower floating ring body 32 upwards, the upper end of the lower floating ring body 32 abuts against the periphery of the lower end of the upper floating ring body 31, the upper floating ring body 31 continuously rotates, when the screw teeth of the upper floating ring body 31 are in engagement with the screw teeth of the lower floating ring body 32, the upper floating ring body 31 can rotationally drive the lower floating ring body 32 to be in threaded connection with the inner part of the upper floating ring body 31 upwards, so that the lower floating ring body 32 enters into the inner part of the upper floating ring body 31, the lower sealing ring body 35 is driven to abut against the periphery of the lower end of the upper connector 1 upwards, a first seal realized by upwards floating the lower floating ring body 32 is formed, the lower floating ring body 32 does not have a space to continuously move upwards, the upper floating ring body 31 rotates downwards at the periphery of the lower floating ring body 32 when the upper floating ring body 31 is continuously rotated, the annular convex edge 36 is driven to move downwards in the lower annular groove 12, the annular convex edge 36 abuts against the periphery of the upper end of the upper sealing ring body 37 downwards, and a second seal realized by downwards floating the upper floating ring body 31 is formed.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The floating fine-tuning spray cooling pipe screwing structure is characterized by comprising an upper connector, a lower connector, a double floating type butt joint mechanism and a transverse adjusting mechanism; the upper connector is arranged at the upper end of the lower connector; a double floating type butt joint mechanism is arranged between the upper connector and the lower connector; the transverse adjusting mechanism is arranged around the inner part of the upper end of the lower connector; the transverse adjusting mechanism comprises a transverse moving ring body, a transverse connecting elastic body, a supporting ring body, an upper telescopic sealing ring body and a lower telescopic sealing ring body; an annular accommodating cavity is formed around the inner part of the upper end of the lower connector; the bottom of the annular accommodating cavity is provided with a supporting ring body at the periphery, the inside of the annular accommodating cavity is provided with a transverse moving ring body at the periphery, and the lower end of the transverse moving ring body is abutted to the upper end of the supporting ring body; a plurality of transverse connection elastic bodies are uniformly arranged between the outer sides of the periphery of the transverse moving ring body and the inner wall of the annular accommodating cavity; an upper telescopic sealing ring body is arranged between the periphery of the upper end of the transverse moving ring body and the periphery of the inner part of the upper end of the annular accommodating cavity; a lower telescopic sealing ring body is arranged between the periphery of the lower end of the transverse moving ring body and the periphery of the inner part of the lower end of the annular accommodating cavity; the double-floating type docking mechanism comprises an upper floating ring body, a positioning clamping ring, an upper abutting elastic ring body, an upper sealing ring body, an annular convex edge, a lower floating ring body, a lower abutting elastic body and a lower sealing ring body; an upper annular groove and a lower annular groove are respectively arranged on the outer side of the periphery of the upper end and the outer side of the periphery of the lower end of the upper connector; a positioning clamping ring is arranged around the upper end of the upper annular groove in a vertically sliding clamping manner; the periphery of the lower end of the upper annular groove is sleeved with an upper abutting elastic ring body, and the upper end of the upper abutting elastic ring body abuts against the periphery of the lower end of the positioning clamping ring; the lower ends of the outer sides of the periphery of the positioning clamping ring bodies are rotationally clamped and mounted with an upper floating ring body; the inner side of the periphery of the upper floating ring body is connected with an annular convex edge; the periphery of the inner end of the annular convex edge extends into the lower annular groove; an upper sealing ring body is arranged around the lower end of the inner part of the lower annular groove; the upper end of the transverse moving ring body is connected with a lower floating ring body in a sliding and clamping manner, and the lower end of the lower floating ring body is in sealing telescopic connection with the inner part of the upper end of the transverse moving ring body; the lower abutting elastic body is arranged in the upper end of the transverse moving ring body, and the upper end of the lower abutting elastic body is elastically abutted against the lower end of the lower floating ring body; a lower sealing ring body is arranged around the upper end of the lower floating ring body; the upper end of the upper floating ring body is abutted to the periphery of the lower end of the upper floating ring body in an upward abutting mode, the upper floating ring body is driven to rotate to drive the lower floating ring body to be screwed into the upper floating ring body in an upward threaded mode, the lower sealing ring body is abutted to the periphery of the lower end of the upper connector in an upward abutting mode, and the upper floating ring body continues to rotate and move downwards to drive the annular convex edge to be abutted to the periphery of the upper end of the upper sealing ring body in a downward abutting mode.

2. The floating fine tuning spray cooling tube swivel joint structure of claim 1 further comprising an anti-slip abutment mechanism; the anti-skid abutting mechanism comprises an anti-skid abutting spring and an abutting arc plate; a plurality of abutting grooves are uniformly formed in the outer side of the periphery of the middle of the upper connector; an anti-slip pressing spring is respectively arranged in the abutting groove; the outer ends of the anti-slip abutting springs are respectively provided with an abutting arc plate.

3. The floating fine-tuning spray cooling pipe screwing structure according to claim 1, wherein two sliding latches are respectively installed at two ends of the inner side of the positioning clamping ring; two sides of the upper annular groove are respectively provided with a sliding clamping groove; the sliding latch is clamped on the sliding slot in an up-and-down sliding way.

4. The floating fine-tuning spray cooling pipe screwing structure according to claim 1, wherein two sides of the upper end of the upper floating ring body are provided with rotary clamping teeth; annular clamping grooves are formed in the periphery of the outer side of the positioning clamping ring; the upper floating ring body is rotationally clamped on the annular clamping grooves around the outer side of the positioning clamping ring through the rotary clamping teeth on the two sides of the upper end.

5. The floating fine-tuning spray cooling pipe screwing structure according to claim 1, wherein the lower end of the transverse moving ring body is internally provided with abutting ring protrusions at the periphery; a sealing telescopic pipe is arranged around the upper end of the abutting ring bulge; the periphery of the upper end of the sealing telescopic tube is fixedly connected with the periphery of the lower end of the lower floating ring body.

6. The floating fine-tuning spray cooling pipe screwing structure according to claim 1, wherein two limiting clamping grooves are respectively arranged on two sides of the inner part of the transverse moving ring body; two sides of the lower end of the lower floating ring body are respectively provided with a limiting sliding block; the limiting sliding block is clamped on the limiting clamping groove in an up-and-down sliding manner; the limiting clamping grooves are respectively provided with a lower abutting elastic body; the upper end of the lower abutting elastic body is elastically abutted against the lower end of the limiting sliding block.

7. The floating fine-tuning spray cooling pipe screwing structure according to claim 1, wherein an inner thread ring surface is arranged on the inner side of the periphery of the lower end of the upper floating ring body; the outer side of the periphery of the upper end of the lower floating ring body is provided with an external thread ring surface; the internal thread ring surface and the external thread ring surface are screwed together.

8. The floating fine tuning spray cooling tube swivel structure of claim 1 wherein the upper and lower seal rings are each made of rubber material.