CN217929897U - Water tank cooling tube based on capillary tube high-efficiency evaporation heat dissipation - Google Patents

Abstract

The utility model relates to a cooling tube technical field specifically is a radiating water tank cooling tube based on high-efficient evaporation of capillary, including inner tube and outer tube, the left side of inner tube is equipped with the connecting pipe, the outside of connecting pipe is equipped with the screw thread, the thread groove has been seted up to the right side inner wall of inner tube, the upper and lower both sides outer wall of inner tube is equipped with the first strengthening rib of symmetric distribution, both sides are equipped with multiunit symmetric distribution's radiating fin and second strengthening rib around the inner tube, radiating fin and the crisscross distribution of second strengthening rib, the outside of outer tube just is close to the left end and is equipped with the sleeve, telescopic upper and lower both sides are equipped with the fixed subassembly of symmetric distribution, the utility model discloses a be equipped with radiating fin between inner tube and outer tube, increased the heat conduction speed on the temperature transmission to the outer tube of inner tube, then be convenient for external air flow in-process dispel the heat to the outer tube, and then realize the heat dissipation processing to the inner tube, be equipped with the screw thread through the connecting pipe outside, then can dismantle the connection to two inner tubes with thread groove threaded connection.

Description

Water tank cooling tube based on capillary tube high-efficiency evaporation heat dissipation

Technical Field

The utility model relates to a cooling tube technical field specifically is a water tank cooling tube based on capillary high-efficient evaporation heat dissipation.

Background

In addition, when the length of the pipeline is not long enough, the pipeline needs to be lengthened, and the pipeline used in the prior art is complex to operate in the connection process, so that the radiating pipe for the water tank based on the capillary high-efficiency evaporation and radiation is provided.

SUMMERY OF THE UTILITY MODEL

In order to make up for above not enough, the utility model provides a water tank cooling tube based on capillary high-efficient evaporation heat dissipation.

The technical scheme of the utility model is that:

the utility model provides a water tank cooling tube based on capillary high-efficient evaporation heat dissipation, includes inner tube and outer tube, the inner tube is located the central point of outer tube puts, the left side of inner tube is equipped with the connecting pipe, the outside of connecting pipe is equipped with the screw thread, the thread groove has been seted up to the right side inner wall of inner tube, the upper and lower both sides outer wall of inner tube is equipped with the first strengthening rib of symmetric distribution, both sides are equipped with radiating fin and the second strengthening rib of multiunit symmetric distribution around the inner tube, radiating fin with the crisscross distribution of second strengthening rib, the outside of outer tube just is close to the left end and is equipped with the sleeve, telescopic upper and lower both sides are equipped with the fixed subassembly of symmetric distribution.

As a preferable technical solution, the left side of the outer tube and the left end of the connecting tube are located on the same horizontal line, and the right end of the outer tube and the left end of the thread groove are located on the same horizontal line.

According to a preferable technical scheme, an annular block is arranged in the middle of the left side of the outer pipe, and an annular groove matched with the annular block in an inserted mode is formed in the middle of the right side of the outer pipe.

As a preferred technical scheme, the outer walls of the heat dissipation fins, the second reinforcing ribs and the first reinforcing ribs are tightly attached to the inner wall of the outer tube.

As the preferred technical scheme, the fixing assembly comprises a U-shaped block with an opening facing the outer pipe, a connecting rod is connected to the inside of the U-shaped block in a sliding mode, and a limiting block is arranged on the outer portion of the connecting rod and close to one side of the sleeve.

As an optimized technical scheme, the limiting block is fixedly connected with the inner wall of the U-shaped block through a spring, and the spring is sleeved outside the connecting rod.

As an optimal technical scheme, the upper end of the connecting rod penetrates through the inner wall of the U-shaped block and is rotatably connected with a rectangular block, a cylindrical block is vertically arranged on one side, close to the U-shaped block, of the rectangular block, and a slot in sliding connection with the cylindrical block is formed in the outer wall of the U-shaped block.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the heat dissipation device increases the heat conduction speed of the temperature of the inner pipe transmitted to the outer pipe by arranging the heat dissipation fins between the inner pipe and the outer pipe, and then is convenient for heat dissipation of the outer pipe in the flowing process of the outside air, thereby realizing the heat dissipation treatment of the inner pipe;

2. the utility model realizes the detachable connection of the two inner pipes by arranging the screw thread outside the connecting pipe and then connecting the connecting pipe with the screw thread groove, and increases the connection integrity between the two outer pipes by the splicing matching of the annular block and the annular groove; the stability of connecting between two outer tubes has been strengthened to the cooperation of rethread sleeve and fixed subassembly is used to simple structure, the simple operation.

Drawings

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

fig. 2 is a second schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of a cut-away portion of the middle and outer tube of the present invention;

FIG. 4 is a schematic view of a cut-away portion of the inner tube of the present invention;

fig. 5 is a schematic view of a part of the structure of the U-shaped block of the present invention after being cut.

The meaning of the individual reference symbols in the figures is:

an inner tube 1; a connecting pipe 11; a thread groove 12; a first reinforcing rib 2; heat radiating fins 3; a second reinforcing rib 4; an outer tube 5; a cylindrical groove 51; a ring block 52; an annular groove 53; a sleeve 6; a fixing member 7; a U-shaped block 71; a connecting rod 72; a stopper 721; a rectangular block 722; a cylindrical block 7221; a spring 73.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and for simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

the utility model provides a water tank cooling tube based on radiating of capillary high-efficient evaporation, including inner tube 1 and outer tube 5, the inside of inner tube 1 is equipped with a plurality of equidistant distribution's capillary, inner tube 1 is located the central point of outer tube 5 and puts, the left side of inner tube 1 is equipped with connecting pipe 11, the inner wall of connecting pipe 11 is located same water flat line with the inner wall of inner tube 1, so that liquid can flow to inside 1 of inner tube along the inner wall of connecting pipe 11, the outside of connecting pipe 11 is equipped with the screw thread, threaded groove 12 has been seted up to the right side inner wall of inner tube 1, the outside screw thread and the 12 looks adaptations of threaded groove of connecting pipe 11, the upper and lower both sides outer wall of inner tube 1 is equipped with first strengthening rib 2 of symmetric distribution, both sides are equipped with multiunit symmetric distribution's radiating fin 3 and second strengthening rib 4 around inner tube 1, radiating fin 3 and second strengthening rib 4 staggered distribution, the outside of outer tube 5 just is close to the left end and is equipped with sleeve 6, the inner wall of sleeve 6 contacts with the outer wall of outer tube 5, the upper and lower both sides of sleeve 6 are equipped with symmetric distribution's fixed subassembly 7.

Preferably, the left side of the outer tube 5 and the left end of the connecting tube 11 are located on the same horizontal line, the right end of the outer tube 5 and the left end of the thread groove 12 are located on the same horizontal line, an annular block 52 is disposed at the middle position on the left side of the outer tube 5, and an annular groove 53 in plug-in fit with the annular block 52 is disposed at the middle position on the right side of the outer tube 5, so as to connect the two outer tubes 5.

As the preferred of this embodiment, the outer wall of radiating fin 3, second strengthening rib 4 and first strengthening rib 2 all closely laminates with the inner wall of outer tube 5, and the outer wall of radiating fin 3, second strengthening rib 4 and first strengthening rib 2 all with outer tube 5 fixed connection, and radiating fin 3's inner wall and outer wall all are equipped with the silicone grease layer for improve heat conduction efficiency.

Preferably, the fixing assembly 7 includes a U-shaped block 71 with an opening facing the outer tube 5, a connecting rod 72 is slidably connected inside the U-shaped block 71, a limit block 721 is disposed outside the connecting rod 72 and on a side close to the sleeve 6, the limit block 721 is fixedly connected to an inner wall of the U-shaped block 71 through a spring 73, the spring 73 is sleeved outside the connecting rod 72 and is used for limiting a deformation track of the spring 73, so as to prevent the spring 73 from deviating laterally in a deformation process, a cylindrical groove 51 in plug-in fit with the connecting rod 72 is formed in a side of the outer tube 5 away from the fixing assembly 7, specifically, when the spring 73 is in a normal state, a side of the limit block 721 close to the outer tube 5 contacts with an outer wall of the sleeve 6, and at this time, one end of the connecting rod 72 close to the sleeve 6 penetrates through the outer wall of the sleeve 6 and sinks into the cylindrical groove 51.

Preferably, the upper end of the connecting rod 72 penetrates through the inner wall of the U-shaped block 71 and is rotatably connected with the rectangular block 722, one side of the rectangular block 722 close to the U-shaped block 71 is vertically provided with a cylindrical block 7221, and the outer wall of the U-shaped block 71 is provided with a slot in sliding connection with the cylindrical block 7221.

The utility model discloses a water tank cooling tube based on capillary high-efficient evaporation heat dissipation is when using, when connecting two pipelines, at first insert the inside of left side ring channel 53 with right side ring piece 52, make two outer tubes 5 preliminary spacing connection, this moment, sleeve 6 keeps away from a pot head of outer tube 5 and establishes the outside at another outer tube 5, namely sleeve 6 is corresponding with the position of two outer tube 5 junctions, then rotate right side outer tube 5 again, make parts such as right side inner tube 1 rotate in step, thereby make the outside screw thread of right side connecting pipe 11 and the inside thread groove 12 threaded connection of seting up of left side inner tube 1, and then realize the connection to two pipelines, then rotate rectangular block 722, make cylindricality piece 7221 rotate to the corresponding position with the slot, then the bounce of spring 73 promotes stopper 721 to sleeve 6 one side removal, thereby make cylindricality piece 21 not go into the inside of slot, the stopper drives connecting rod 72 and rectangular block 722 and moves to sleeve 6 one side in step, then make the tip of connecting rod 72 not go into inside the cylindricality piece 51 rather than corresponding, thereby realize further connecting to two 5, then liquid flows to the inside 721 of 7211, then the inner tube, the inner tube transmits to the fin to the cooling fin on 3 further transmission to the inner tube, thereby further transmission of the cooling fin is realized.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only the preferred embodiments of the present invention, and is not intended to limit the present invention, and that there may be various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a water tank cooling tube based on radiating of capillary high-efficient evaporation, includes inner tube (1) and outer tube (5), its characterized in that: inner tube (1) is located the central point of outer tube (5) puts, the left side of inner tube (1) is equipped with connecting pipe (11), the outside of connecting pipe (11) is equipped with the screw thread, thread groove (12) have been seted up to the right side inner wall of inner tube (1), the upper and lower both sides outer wall of inner tube (1) is equipped with first strengthening rib (2) of symmetric distribution, both sides are equipped with radiating fin (3) and second strengthening rib (4) of multiunit symmetric distribution around inner tube (1), radiating fin (3) with second strengthening rib (4) crisscross distribution, the outside of outer tube (5) just is close to the left end and is equipped with sleeve (6), the upper and lower both sides of sleeve (6) are equipped with fixed subassembly (7) of symmetric distribution.

2. A water tank heat pipe based on capillary high efficiency evaporative heat dissipation as recited in claim 1 wherein: the left side of the outer pipe (5) and the left end of the connecting pipe (11) are located on the same horizontal line, and the right end of the outer pipe (5) and the left end of the thread groove (12) are located on the same horizontal line.

3. A water tank heat pipe based on capillary high efficiency evaporative heat dissipation as recited in claim 1 wherein: an annular block (52) is arranged in the middle of the left side of the outer pipe (5), and an annular groove (53) which is in plug-in fit with the annular block (52) is formed in the middle of the right side of the outer pipe (5).

4. A water tank heat pipe based on capillary high efficiency evaporative heat dissipation as recited in claim 1 wherein: the outer walls of the radiating fins (3), the second reinforcing ribs (4) and the first reinforcing ribs (2) are tightly attached to the inner wall of the outer tube (5).

5. A water tank heat pipe based on capillary high efficiency evaporative heat dissipation as recited in claim 1 wherein: the fixing assembly (7) comprises a U-shaped block (71) with an opening facing the outer pipe (5), a connecting rod (72) is connected to the inside of the U-shaped block (71) in a sliding mode, and a limiting block (721) is arranged on one side, close to the sleeve (6), of the outside of the connecting rod (72).

6. The water tank heat pipe based on capillary high-efficiency evaporation heat dissipation of claim 5, wherein: the limiting block (721) is fixedly connected with the inner wall of the U-shaped block (71) through a spring (73), and the spring (73) is sleeved outside the connecting rod (72).

7. A water tank heat pipe based on capillary high efficiency evaporative heat dissipation as recited in claim 6 wherein: the upper end of connecting rod (72) passes the inner wall of U-shaped piece (71) and rotates and be connected with rectangular block (722), rectangular block (722) are close to one side of U-shaped piece (71) is vertical to be equipped with cylindrical block (7221), the outer wall of U-shaped piece (71) seted up with cylindrical block (7221) sliding connection's slot.

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