CN103591827A - Cooling pipe for thermostat tank - Google Patents

Abstract

The invention discloses a cooling pipe for a thermostat tank. The cooling pipe comprises a pipe body (6) with a water inlet pipe (4) at one end. The pipe body (6) is spiral downwards from the water inlet pipe (4) to form a spiral structure I (7); the part, at the bottom end of the spiral structure, of the pipe body (6), extends to the inside to form a spiral structure II (9) which is spiral upwards; the extending end of the spiral structure II (9) serves as a water outlet pipe (10); clamping straps (5) mounted vertically are arranged on the spiral structure I (7) and the spiral structure II (9). The cooling pipe for the thermostat tank has the advantages that cooling speed is increased greatly, efficiency is improved and cooling is more uniform as a cooling structure with an inner layer and an outer layer is formed.

Description

Cooling tube for temperature controlling groove

Technical field

The present invention relates to a kind of cooling device, specifically refer to a kind of cooling tube for temperature controlling groove.

Background technology

Cooling tube is widely used as cooling device, is widely used in each large industries such as machinery, chemical industry, manufacture, and cooling tube does not stop circulation by the cooling water in pipe, and cooling water is taken away heat, thereby reaches cooling-down effect.

Nowadays the cooling tube in temperature controlling groove is mostly a cooling tube and forms rotary type structure, and the cooling tube of this spline structure not only cooling velocity is slow, and cooling also unbalanced, and practicality is not strong.

Summary of the invention

Problem to be solved by this invention is to provide a kind of cooling tube for temperature controlling groove, has solved the problem that temperature controlling groove cooling tube cooling velocity was slow in the past, inhomogeneous cooling is even.

Technical scheme provided by the invention is: for the cooling tube of temperature controlling groove, comprise body, body one end is water inlet pipe, body starts to form the rotary type structure I of spiraling downward from water inlet pipe, rotary type structure body bottom extends and forms to its inside the rotary type structure II upwards of spiraling, rotary type structure II external part is outlet pipe, is also provided with the strap of vertical placement in rotary type structure I and rotary type structure II.

Described water inlet pipe and outlet pipe mouth of pipe end all have external screw thread, and external screw thread is provided with annular retaining ring at the ending segment of water inlet pipe, and nut sleeve is mated on external screw thread and with external screw thread.External screw thread and nut are for being connected and fixed with outer water tube, and annular retaining ring, for limiting the movement of nut, plays restricted driving effect.

In strap in described rotary type structure I and rotary type structure II, between adjacent strap, be also connected with fixed head.Fixed head is used for fixedly rotary type structure I and rotary type structure II, and distance and planform between the two can not changed, and can not have influence on the attaching space of cooling tube and liquid to be cooled.

Described fixed head is welded on strap.Weld that not only technique is simple, price is low and Welding Structure stable, difficult drop-off.

Described body is titanium matter pipe.Titanium matter is considered to not to be subject to corrode and corrodes.As the most corrosion resistant structural metal, its density is little, intensity is high, and in the situation that other materials can not tolerate erosion, titanium can be described as optimal selection.

The invention has the advantages that: the present invention designs this cooling tube for temperature controlling groove, it forms the inside and outside double-deck cooling structure, has not only increased cooling velocity, has improved efficiency, also makes cooling more even simultaneously.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Label in figure is expressed as: 1, external screw thread; 2, nut; 3, annular retaining ring; 4, water inlet pipe; 5, strap; 6, body; 7, rotary type structure I; 8, fixed head; 9, rotary type structure II; 10, outlet pipe.

The specific embodiment

Embodiment 1

Referring to Fig. 1, cooling tube for temperature controlling groove, comprise body 6, body 6 one end are water inlet pipe 4, body 6 starts to form the rotary type structure I 7 of spiraling downward from water inlet pipe 4, rotary type structure body 6 bottom extends and forms to its inside the rotary type structure II 9 upwards of spiraling, and rotary type structure II 9 external parts are outlet pipe 10, are also provided with the strap 5 of vertical placement in rotary type structure I 7 and rotary type structure II 9.

Above-mentioned water inlet pipe 4 and outlet pipe 10 mouth of pipe ends all have external screw thread 1, and external screw thread 1 is provided with annular retaining ring 3 at the ending segment of water inlet pipe 4, and nut 2 is enclosed within on external screw thread 1 and with external screw thread 1 and mates.

In strap 5 in above-mentioned rotary type structure I 7 and rotary type structure II 9, between adjacent strap 5, be also connected with fixed head 8.

Above-mentioned fixed head 8 is welded on strap 5.

Above-mentioned body 6 is titanium matter pipe.

In use, first cooling tube is placed in required temperature controlling groove, then water inlet pipe 4 and outlet pipe 10 are connected respectively to outside desuperheating water water source, the source switch of fetching boiling water can be used.Desuperheating water passes through from rotary type structure II 9 bottoms, upwards through outlet pipe 10, to flow out after the rotary type structure I 7 of body 6 outsides after water inlet pipe 4 enters again, desuperheating water is absorbing the heat of high-temp liquid and heat is being taken out of in body after rotary type structure I 7 and rotary type structure II 9, reach radiating effect, so circulation can be carried out desuperheat to required liquid.

The double layer design of rotary type structure I 7 and rotary type structure II 9 not only makes the contact area of desuperheating water and high-temp liquid greatly increase, and its heat radiation is more even, there will not be the problem of local heat radiation, and practicality improves greatly.

Can well realize the present invention as mentioned above.

Claims (5)

1. for the cooling tube of temperature controlling groove, comprise body (6), it is characterized in that: body (6) one end is water inlet pipe (4), body (6) starts to form the rotary type structure I (7) of spiraling downward from water inlet pipe (4), rotary type structure body (6) bottom extends and forms to its inside the rotary type structure II (9) upwards of spiraling, rotary type structure II (9) external part is outlet pipe (10), is also provided with the strap (5) of vertical placement in rotary type structure I (7) and rotary type structure II (9).

2. the cooling tube for temperature controlling groove according to claim 1, it is characterized in that: described water inlet pipe (4) and outlet pipe (10) mouth of pipe end all have external screw thread (1), external screw thread (1) is provided with annular retaining ring (3) at the ending segment of water inlet pipe (4), and nut (2) is enclosed within external screw thread (1) above and mates with external screw thread (1).

3. the cooling tube for temperature controlling groove according to claim 1, is characterized in that: between the upper adjacent strap (5) of the strap (5) in described rotary type structure I (7) and rotary type structure II (9), be also connected with fixed head (8).

4. the cooling tube for temperature controlling groove according to claim 3, is characterized in that: described fixed head (8) is welded on strap (5).

5. the cooling tube for temperature controlling groove according to claim 1, is characterized in that: described body (6) is titanium matter pipe.

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