CN205808171U - A kind of tubular cooler structure - Google Patents

Abstract

This utility model provides a kind of tubular cooler structure, belongs to heat-exchange apparatus technical field.It solve the problem that existing tubular cooler radiating efficiency is low.This tubular cooler structure includes water inlet pipe and the outlet pipe of horizontally set, and some longitudinally disposed radiating tubes, water inlet pipe and outlet pipe are close to the one end of radiating tube, the water part that the inner chamber of radiating tube can be divided into upper chamber and lower chambers it is equipped with in every radiating tube, radiating tube is positioned at upper chamber with the connectivity part of water inlet pipe, radiating tube is positioned at bottom chamber with the connectivity part of outlet pipe, water part includes water entering section, water guide sector and outlet part, the inwall tight fit of the periphery wall of water entering section and radiating tube and sealing, the diameter of water guide sector is less than the diameter of water entering section and has gap between water guide sector and the inwall of radiating tube, the inwall tight fit of outlet part and radiating tube and there is water space.This tubular cooler structure adds the path of flowing and the speed of flowing, improves the efficiency of heat radiation.

Description

A kind of tubular cooler structure

Technical field

This utility model belongs to heat-exchange apparatus technical field, relates to a kind of tubular cooler structure.

Background technology

Along with growth in the living standard, people are more and more higher to the requirement of quality of life.In current society, indoor Warming installation of all shapes and colors, in the season that wintry weather is cold, major part place, south all use air-conditioning to regulate temperature, But much use radiator to be used as the equipment of heating in the north, because major part place, the north has heating installation and hot water supply, Heating installation or hot water are led in radiator, then in radiator is dispersed into room, it is possible to improve indoor temperature.

Existing radiator, as Chinese patent application (application number: 201020130295.1) discloses a kind of dual-purpose compound Radiator, including the water inlet pipe be arrangeding in parallel and outlet pipe, is provided with some radiating tubes between water inlet pipe and outlet pipe, water inlet Each side of pipe, outlet pipe and radiating tube is equipped with the some blocks of heat sinks that can cover above-mentioned three, is provided with in water inlet pipe The electrothermal mechanism that water in pipe can be heated.Although above-mentioned radiator can play the effect of heat radiation heating, but it dissipates The thermal efficiency is relatively low.

Summary of the invention

The purpose of this utility model is to there are the problems referred to above for existing technology, it is proposed that a kind of tubular cooler knot Structure, technical problem to be solved in the utility model is: how to improve the efficiency of heat radiation.

The purpose of this utility model can be realized by following technical proposal: a kind of tubular cooler structure, including laterally The water inlet pipe arranged and outlet pipe and some longitudinally disposed radiating tubes, described water inlet pipe and outlet pipe be arranged side by side and Being parallel to each other, every radiating tube is all connected with water inlet pipe and outlet pipe and connects, it is characterised in that described water inlet pipe and water outlet Pipe is close to the one end of radiating tube, be equipped with in every radiating tube the inner chamber of described radiating tube can be divided into upper chamber and under The water part of chamber, water part has the connection of connection upper chamber and the water-guiding hole of lower chambers, described radiating tube and water inlet pipe Place is positioned at upper chamber, and described radiating tube is positioned at bottom chamber with the connectivity part of outlet pipe, and described water part includes being linked as successively The inwall tight fit of water entering section, water guide sector and the outlet part of one, the periphery wall of described water entering section and radiating tube and sealing, described The diameter of water guide sector is less than the diameter of water entering section and has gap between water guide sector and the inwall of radiating tube, described outlet part away from The inwall tight fit of one end of water guide sector and radiating tube and there is water space.

When the radiator of this tubulose uses, available hot water or heating installation are used as thermal source, are connected on water inlet pipe by thermal source, allow heat Water or heating installation enter in the upper chamber of all of radiating tube, and the water-guiding hole being then passed through water part enters bottom chamber, then Discharging from outlet pipe flowing through water space, the heat on hot water or heating installation is delivered to the tube wall of radiator by conduction of heat On outwardly distribute heat realize heating.The inner chamber of radiating tube is separated by the heat spreader structures of this tubulose by the effect of water part For upper chamber and lower chambers, say, that hot water or heating installation are introduced into upper chamber from water inlet pipe, enter through water part the most again Enter in lower chambers, and owing to water inlet pipe and outlet pipe are close to same one end of radiating tube, therefore outlet pipe and the connection of radiating tube Place is positioned at first the most down cavity bottom flowing after the upper end of lower chambers, hot water or heating installation enter lower chambers and refluxes from outlet pipe the most again Discharge, add the path of flowing and the speed of flowing, thus improve the efficiency of heat radiation.And water part is set to external diameter not With water entering section, water guide sector and outlet part, and the inwall tight fit of one end of outlet part and radiating tube, therefore at hot water or warm During flow of air, be equivalent to the two ends of water part all with the radiator of this tubulose against, will not shake generation noise.When So, this heat spreader structures can use the thermal source such as hot water, heating installation to carry out work, it would however also be possible to employ arranges electrical heating in water inlet pipe Work, adaptability is extensive, and the occasion different at each works flexibly.

In above-mentioned tubular cooler structure, described outlet part is tapered and internal diameter is past from the one end being connected with water guide sector The other end is gradually reduced, and the inwall tight fit of the bigger one end of described outlet part internal diameter and radiating tube, described outlet part internal diameter is relatively Circumferentially there is on big lateral wall, one end the aquaporin of crossing of several indents formation, the described inwall crossing aquaporin and radiating tube Above-mentioned water space excessively is formed between Jin.Outlet part is tapered, and hot water or heating installation can be with radiating tubes after outlet part flows out Inwall collides generation backflow, good heat dissipation effect, and the inwall close-fitting of the bigger one end of outlet part portion internal diameter and radiating tube Close, so that, water part will not shake generation noise, and the water refluxed can be discharged out from crossing flow through water space Water pipe.

In above-mentioned tubular cooler structure, described outlet part is that water guide sector forms flat tube shape through flattening process, described Outlet part is formed away from one end of water guide sector and the inwall tight fit of radiating tube and between outer wall and the inwall of radiating tube Stated water space.The outlet part of water part is to be formed through flattening process, can be tight with the inwall of radiating tube after outer wall deformation Coordinate, it is to avoid rock generation noise, between outer wall and the inwall of radiating tube, formed water space supplying hot water or heating installation circulation.

In above-mentioned tubular cooler structure, described water entering section and water guide sector all in column, described water entering section and water guide Connected by tapered guide part transition between portion.The internal diameter of water entering section is more than the internal diameter of water guide sector, setting of taper guide part Meter, it is possible to the pressure reduction between water entering section and water guide sector, increases hot water or the flow velocity of heating installation, improves radiating efficiency.

In above-mentioned tubular cooler structure, described water inlet pipe and/or outlet pipe are additionally provided with mounting seat, described installation The bottom of seat has curved mounting surface, and described curved mounting surface is fitted on the lateral wall of described water inlet pipe or outlet pipe.Install The design of seat, it is simple to install, and the curved mounting surface of mounting seat can be fitted with the outer wall of water inlet pipe or outlet pipe, installs After stability preferable.

In above-mentioned tubular cooler structure, described water inlet pipe and outlet pipe are equipped with two mounting seats and difference position In water inlet pipe or the two ends of outlet pipe.The design of four mounting seats, the stability after installation is preferable.

Compared with prior art, this tubular cooler structure has the advantage that

1, the inner chamber of radiating tube is divided into upper chamber and lower chambers, due to water inlet pipe and water outlet by the effect of water part Pipe is close to same one end of radiating tube, and therefore the connectivity part of outlet pipe and radiating tube is positioned at the upper end of lower chambers, hot water or heating installation Enter after lower chambers the most down cavity bottom flowing to reflux the most again and discharge from outlet pipe, add the path of flowing and flowing Speed, thus improve the efficiency of heat radiation.

2, water part is set to the different water entering section of external diameter, water guide sector and outlet part, and one end of outlet part and radiating tube Inwall tight fit, therefore during hot water or heating installation flow, be equivalent to the two ends of water part all with the heat radiation of this tubulose Device against, will not shake generation noise.

3, the design of taper guide part, it is possible to the pressure reduction between water entering section and water guide sector, increases hot water or the flow velocity of heating installation, Improve radiating efficiency.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of this tubular cooler structure.

Fig. 2 is this tubular cooler structural blast figure.

Fig. 3 is the partial sectional view of this tubular cooler structure.

Fig. 4 is the sectional view of radiating tube.

Fig. 5 is the enlarged drawing in Fig. 3 at A.

In figure, 1, water inlet pipe；2, outlet pipe；3, radiating tube；31, upper chamber；32, lower chambers；4, water part；41, water guide Hole；42, water entering section；43, water guide sector；44, outlet part；45, water space is crossed；46, guide part；5, mounting seat.

Detailed description of the invention

The following is specific embodiment of the utility model and combine accompanying drawing, the technical solution of the utility model is made further Description, but this utility model is not limited to these embodiments.

Embodiment one

As shown in Figure 1-2, this tubular cooler structure, including the water inlet pipe 1 of horizontally set and outlet pipe 2 and some The radiating tube 3 that root is longitudinally disposed, water inlet pipe 1 and outlet pipe 2 are arranged side by side and are parallel to each other, every radiating tube 3 all with water inlet pipe 1 Being connected with outlet pipe 2 and connect, water inlet pipe 1 and outlet pipe 2 are close to the one end of radiating tube 3.As in figure 2 it is shown, every dissipates It is equipped with the water part 4 that the inner chamber of radiating tube 3 can be divided into upper chamber 31 and lower chambers 32 in heat pipe 3, water part 4 has Connection upper chamber 31 and the water-guiding hole 41 of lower chambers 32, radiating tube 3 is positioned at upper chamber 31 with the connectivity part of water inlet pipe 1, heat radiation Pipe 3 is positioned at lower chambers 32 with the connectivity part of outlet pipe 2.During use, available hot water or heating installation are used as thermal source, are connected on by thermal source On water inlet pipe 1, allow hot water or heating installation enter in the upper chamber 31 of all of radiating tube 3, be then passed through the water-guiding hole of water part 4 First reflux the most again toward lower chambers 32 flows after 41 entrance lower chambers 32 and discharge from outlet pipe 2, add the path of flowing With the speed of flowing, the heat on hot water or heating installation is delivered on the tube wall of radiator outwardly distribute heat by conduction of heat Realize heating, thus improve the efficiency of heat radiation.

As shown in Figure 2-5, water part 4 includes water entering section 42, water guide sector 43 and the outlet part 44 being connected as a single entity successively, water inlet Portion 42 and water guide sector 43 all in column, the internal diameter of water entering section 42 more than the internal diameter of water guide sector 43, water entering section 42 and water guide sector 43 it Between connected by tapered guide part 46 transition, the inwall tight fit of the periphery wall of water entering section 42 and radiating tube 3 and sealing, lead Having gap between the inwall of water portion 43 and radiating tube 3, outlet part 44 is that water guide sector 43 forms flat tube shape, water outlet through flattening process Portion 44 is formed away between the inwall of one end of water guide sector 43 and the inwall tight fit of radiating tube 3 and outer wall and radiating tube 3 Cross water space 45.

Being additionally provided with mounting seat 5 on water inlet pipe 1 and/or outlet pipe 2, the bottom of mounting seat 5 has curved mounting surface, and arc is pacified Dress face is fitted on the lateral wall of described water inlet pipe 1 or outlet pipe 2, in the present embodiment, water inlet pipe 1 and outlet pipe 2 is equipped with Two mounting seats 5 and lay respectively at water inlet pipe 1 or the two ends of outlet pipe 2.

Embodiment two

The structure of the present embodiment is essentially identical with embodiment one, and its difference is: outlet part 44 is tapered and internal diameter It is gradually reduced toward the other end from the one end being connected with water guide sector 43, the inwall of the bigger one end of outlet part 44 internal diameter and radiating tube 3 Tight fit, what the lateral wall, one end that outlet part 44 internal diameter is bigger circumferentially had the formation of several indents crosses aquaporin, crosses water Water space 45 was formed between the inwall of passage and radiating tube 3 is tight.

Specific embodiment described herein is only to this utility model spirit explanation for example.This utility model institute Belong to those skilled in the art described specific embodiment to make various amendment or supplement or use similar Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Claims (6)

1. a tubular cooler structure, sets including the water inlet pipe (1) of horizontally set and outlet pipe (2) and some longitudinal directions The radiating tube (3) put, described water inlet pipe (1) and outlet pipe (2) are arranged side by side and are parallel to each other, every radiating tube (3) all with enter Water pipe (1) is connected with outlet pipe (2) and connects, it is characterised in that described water inlet pipe (1) and outlet pipe (2) are close to heat radiation Pipe (3) one end, be equipped with in every radiating tube (3) inner chamber of described radiating tube (3) can be divided into upper chamber (31) and The water part (4) of lower chambers (32), water part (4) has the water-guiding hole (41) of connection upper chamber (31) and lower chambers (32), The connectivity part of described radiating tube (3) and water inlet pipe (1) is positioned at the company of upper chamber (31), described radiating tube (3) and outlet pipe (2) Logical place is positioned at lower chambers (32), and described water part (4) includes the water entering section (42) being connected as a single entity successively, water guide sector (43) and goes out The inwall tight fit of water portion (44), the periphery wall of described water entering section (42) and radiating tube (3) and sealing, described water guide sector (43) Diameter has gap, described outlet part less than between the diameter of water entering section (42) and the inwall of water guide sector (43) and radiating tube (3) (44) away from the one end of water guide sector (43) and the inwall tight fit of radiating tube (3) and had water space (45).

Tubular cooler structure the most according to claim 1, it is characterised in that described outlet part (44) is tapered and internal diameter It is gradually reduced toward the other end from the one end being connected with water guide sector (43), one end that described outlet part (44) internal diameter is bigger and radiating tube (3) inwall tight fit, the lateral wall, one end that described outlet part (44) internal diameter is bigger circumferentially has several indents and is formed Cross aquaporin, form above-mentioned mistake water space (45) between the described inwall crossing aquaporin and radiating tube (3) is tight.

Tubular cooler structure the most according to claim 1, it is characterised in that described outlet part (44) is water guide sector (43) The inwall close-fitting of flat tube shape, described outlet part (44) one end away from water guide sector (43) and radiating tube (3) is formed through flattening process Close and formed between the inwall of outer wall and radiating tube (3) above-mentioned water space (45) excessively.

4. according to the tubular cooler structure described in claim 1 or 2 or 3, it is characterised in that described water entering section (42) and water guide Portion (43), all in column, is connected by tapered guide part (46) transition between described water entering section (42) and water guide sector (43).

5. according to the tubular cooler structure described in claim 1 or 2 or 3, it is characterised in that described water inlet pipe (1) and/or go out Being additionally provided with mounting seat (5) on water pipe (2), the bottom of described mounting seat (5) has curved mounting surface, and described curved mounting surface is fitted On the lateral wall of described water inlet pipe (1) or outlet pipe (2).

Tubular cooler structure the most according to claim 5, it is characterised in that on described water inlet pipe (1) and outlet pipe (2) It is equipped with two mounting seats (5) and lays respectively at water inlet pipe (1) or the two ends of outlet pipe (2).