CN201348456Y - Cooled conveying sleeve tube suitable for medium easy to be crystallized - Google Patents

Abstract

The utility model belongs to the pipeline conveying field, a cooled conveying sleeve tube suitable for medium easy to be crystallized comprises a cooling water tube and a medium conveying tube, characterized in that, the left end of the cooling water tube is welded with a left closed ring, the right end of the cooling water tube is welded with a right closed ring; the medium conveying tube passes through the cooling water tube, the left closed ring and the right closed ring are respectively welded with the medium conveying tube, the cooling water tube and the medium conveying tube are composed to a cooling water cavity; the left end of the cooling water tube is welded with a cooling water output joint, a channel in the cooling water output joint is communicated with the cooling water cavity, the right end of the cooling water tube is welded with a cooling water input joint, a channel in the cooling water input joint is communicated with the cooling water cavity; the left end of the medium conveying tube is a medium inlet, the right end of the medium conveying tube is a medium outlet; the left end of the medium conveying tube is welded with a left connecting flange, the right end of the medium conveying tube is equipped with a right connecting flange. The utility model has characteristics of good cooling effect, energy conservation and minor occupation space.

Description

A kind of cooling delivery cannula of suitable easy crystal medium

Technical field

The utility model belongs to the pipeline transportation art, and being specifically related to the medium carried need be with freezing water-cooled pipeline.

Background technology

When the medium that pipeline is carried need cool off with chilled water, the pipeline of common use chilled water pipe and pumped (conveying) medium bundles the mode of outsourcing insulation material and cools off (as shown in Figure 1), this type of cooling has more shortcoming: construction quality is not easy up to standard, and two pipelines are not easy in conjunction with getting fine; Two pipelines take up room bigger; The most important thing is that cooling effect is poor, be difficult for the refrigerating effect that reaches desirable from chilled water pipe pipe end medium far away; Big with the contact area in the external world, waste energy; Because it is bigger that pipeline takes up room, need to use more insulation material.

Summary of the invention

The purpose of this utility model is to provide a kind of cooling delivery cannula of suitable easy crystal medium of good cooling results.

To achieve these goals, the technical solution of the utility model is: a kind of cooling delivery cannula of suitable easy crystal medium, it comprises cooling water pipe, pumped (conveying) medium pipe, it is characterized in that: the left end of cooling water pipe is welded with left closed-loop, and the right-hand member of cooling water pipe is welded with right closed-loop; The pumped (conveying) medium pipe passes cooling water pipe, and left closed-loop, right closed-loop are welded with the pumped (conveying) medium pipe respectively, constitute cooling water cavity between cooling water pipe and the pumped (conveying) medium pipe; The left part of cooling water pipe is welded with the cooling water out splice going splice, and the passage in the cooling water out splice going splice communicates with cooling water cavity, and the right part of cooling water pipe is welded with the cooling water input adapter, and the passage in the cooling water input adapter communicates with cooling water cavity; The left end of pumped (conveying) medium pipe is the medium inlet, and the right-hand member of pumped (conveying) medium pipe is a media outlet; The left end of pumped (conveying) medium pipe is welded with left adpting flange, and the right-hand member of pumped (conveying) medium pipe is provided with right adpting flange.

The beneficial effects of the utility model are: adopt the pumped (conveying) medium pipe to pass cooling water pipe, constitute cooling water cavity between cooling water pipe and the pumped (conveying) medium pipe; Easily the medium of crystallization is cooled and surrounds around the water, so good cooling results; Little with the contact area in the external world, reduced wasting energy; Pipeline takes up room less, has saved insulation material.

Description of drawings

Fig. 1 is the freezing schematic diagram of traditional pumped (conveying) medium;

Fig. 2 is a structural representation of the present utility model;

Fig. 3 is the left view of Fig. 2;

Fig. 4 is that Fig. 2 is along A-A line view;

Fig. 5 is that Fig. 2 is along B-B line view;

Fig. 6 is cooling delivery cannula and cooling delivery cannula connection diagram;

Number in the figure: 1-cooling water pipe, 2-pumped (conveying) medium pipe, 3-left side adpting flange, 4-left side closed-loop, the 5-cooling water cavity, the right closed-loop of 6-, the right adpting flange of 7-, 8-cooling water out splice going splice, 9-cooling water input adapter, 10-medium channel, 11-tube connector, 12-articulation.

The specific embodiment

Further describe the utility model below in conjunction with accompanying drawing:

As Fig. 2, Fig. 3, Fig. 4, shown in Figure 5, a kind of cooling delivery cannula of suitable easy crystal medium, it comprises cooling water pipe 1, pumped (conveying) medium pipe 2, and the left end of cooling water pipe 1 is welded with left closed-loop 4, and the right-hand member of cooling water pipe 1 is welded with right closed-loop 6; Pumped (conveying) medium pipe 2 passes cooling water pipe 1, and left closed-loop 4, right closed-loop 6 are welded (sealing) with pumped (conveying) medium pipe 2 respectively, constitutes cooling water cavity 5 between cooling water pipe 1 and the pumped (conveying) medium pipe 2; The left part of cooling water pipe 1 is welded with cooling water out splice going splice 8, and the passage in the cooling water out splice going splice 8 communicates with cooling water cavity 5, and the right part of cooling water pipe 1 is welded with cooling water input adapter 9, and the passage in the cooling water input adapter 9 communicates with cooling water cavity 5; The left end of pumped (conveying) medium pipe 2 is the medium inlet, and the right-hand member of pumped (conveying) medium pipe 2 is media outlet (be medium channel 10 in the pumped (conveying) medium pipe 2, pumped (conveying) medium is opposite with the cooling water trend, shown in the arrow among the figure); The left end of pumped (conveying) medium pipe 2 is welded with left adpting flange 3, and the right-hand member of pumped (conveying) medium pipe 2 is provided with right adpting flange 7.

Cooling water out splice going splice 8 be positioned at the left part of cooling water pipe 1 the front side (left side of Fig. 1 be right for a left side, the right, towards the onlooker be before, be afterwards in the paper), cooling water input adapter 9 is positioned at the rear side of the right part of cooling water pipe 1.The cooling water trend is the S type, and to guarantee not stagnant water of cooling water, insulation evenly.

As shown in Figure 6, the cooling delivery cannula is connected employing tube connector 11 with the cooling delivery cannula, articulation 12 connects.To maintain easily and to overhaul.

Claims (1)

1. the cooling delivery cannula of a suitable easy crystal medium, it comprises cooling water pipe, pumped (conveying) medium pipe, it is characterized in that: the left end of cooling water pipe (1) is welded with left closed-loop (4), and the right-hand member of cooling water pipe (1) is welded with right closed-loop (6); Pumped (conveying) medium pipe (2) passes cooling water pipe (1), and left closed-loop (4), right closed-loop (6) are welded with pumped (conveying) medium pipe (2) respectively, constitute cooling water cavity (5) between cooling water pipe (1) and the pumped (conveying) medium pipe (2); The left part of cooling water pipe (1) is welded with cooling water out splice going splice (8), passage in the cooling water out splice going splice (8) communicates with cooling water cavity (5), the right part of cooling water pipe (1) is welded with cooling water input adapter (9), and the passage in the cooling water input adapter (9) communicates with cooling water cavity (5); The left end of pumped (conveying) medium pipe (2) is the medium inlet, and the right-hand member of pumped (conveying) medium pipe (2) is a media outlet; The left end of pumped (conveying) medium pipe (2) is welded with left adpting flange (3), and the right-hand member of pumped (conveying) medium pipe (2) is provided with right adpting flange (7).

Images