CN218864823U - Stable in structure's gaseous phase heat medium collecting vat - Google Patents

Abstract

The utility model discloses a stable in structure's gaseous phase heat medium collecting vat belongs to industrial heat exchanger technical field, the utility model discloses a jar body that barrel, left head, right side head, saddle are constituteed still includes the condenser pipe subassembly with a jar body fixed connection, the medium input tube subassembly, the top of barrel is provided with drain, the gaseous phase entry, the liquid phase import, the backward flow mouth, the bottom of barrel is provided with the heat medium export, the heat carrier export, the condenser pipe subassembly is on a parallel with the barrel and arranges the direction setting, medium input tube subassembly perpendicular to condenser pipe subassembly setting, the bottom setting of dip pipe is in condenser pipe subassembly below, anti-vortex baffle is installed in the heat carrier exit. The utility model discloses in set up in heat carrier exit and prevent the vortex baffle, prevent that the height of vortex baffle sets up to 1-1.5 times of mouth of pipe internal diameter, strengthen preventing the vortex effect of vortex baffle.

Description

Stable in structure's gaseous phase heat medium collecting vat

Technical Field

The utility model relates to an industrial heat exchanger technical field, concretely relates to stable in structure's gaseous phase heat medium collecting vat.

Background

The gas phase heating medium is widely applied to the heat supply of the equipment jacket and the equipment heat preservation system in the polyester device due to the characteristics of high efficiency, less energy consumption, simple system, convenient control and the like. The gas phase heat medium system can provide a more stable heat source, the unit mass heat exchange quantity of the gas phase heat medium is large, the filling quantity of the heat medium is small, and more stable temperature control can be provided. The bottom in the gas phase heat medium collecting tank is provided with a heat carrier liquid outlet, and eddy current easily occurs at the position, so that the liquid level in the container fluctuates, and the stability of process operation is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stable in structure's gaseous phase heat medium collecting vat.

The technical scheme of the utility model is that: the utility model provides a stable in structure's gaseous phase heat medium collecting vat, include by the barrel, left head, right side head, the jar body that the saddle is constituteed, still include with jar body fixed connection's condenser pipe subassembly, the medium input pipe subassembly, the top of barrel is provided with drain, the gaseous phase entry, the liquid phase import, the backward flow mouth, the bottom of barrel is provided with the liquid phase export, the condenser pipe subassembly is on a parallel with the barrel and arranges the direction setting, medium input pipe subassembly perpendicular to condenser pipe subassembly setting, the bottom setting of dip pipe is in condenser pipe subassembly below, anti-vortex baffle is installed in the liquid phase exit.

In a further technical scheme, the height of the anti-vortex baffle is set to be 1-1.5 times of the inner diameter of the pipe orifice at the heat carrier outlet.

According to a further technical scheme, two ends of the condenser pipe assembly protrude out of the right end socket and are respectively connected with a steam inlet and a condensate outlet, and the medium input pipe assembly comprises an immersion pipe and a supporting assembly, wherein the immersion pipe is fixedly connected with a heat carrier gas-phase inlet, a liquid-phase inlet and a reflux port, and the supporting assembly is used for connecting the bottom of the immersion pipe and the inner wall of the cylinder.

Further technical scheme, arrange direction fixed mounting along the condenser pipe subassembly on the barrel bottom inner wall and have a plurality of support frames, the condenser pipe subassembly includes a plurality of end to end connection's pipeline, and the pipeline passes through the U type pipe to be fixed at the top of support frame.

According to the further technical scheme, the top of the support frame is obliquely arranged, so that the height of the condensate outlet is lower than that of the steam inlet.

The utility model has the advantages that:

because the discharge pipe of container is vertical decurrent, and the geometric dimension of container is far more than the discharge pipe, when liquid was discharged by the discharge pipe, at this moment the container in liquid from all around to the discharge mouth of pipe overflow, the utility model discloses in set up in heat carrier exit and prevent the vortex baffle, the height of preventing the vortex baffle sets up 1-1.5 times of mouth of pipe internal diameter to the vortex prevention effect of vortex baffle is prevented in the reinforcing.

Drawings

FIG. 1 is a schematic structural view of the present invention,

figure 2 is a schematic cross-sectional view of the present invention,

the device comprises a cylinder body 1, a cylinder body 11, a vent hole 12, a gas phase inlet 13, a liquid phase inlet 14, a return port 15, a heat medium outlet 16, a heat carrier outlet 2, a left end socket 3, a right end socket 4, a saddle 5, a condensation pipe assembly 51, a steam inlet 52, a condensation liquid outlet 53, a pipeline 54, a U-shaped pipe 6, a medium input pipe assembly 61, an immersion pipe 62, a supporting assembly 7, an anti-vortex baffle 8 and a supporting frame.

Detailed Description

The invention will be further elucidated below by means of non-limiting examples, with the understanding that the invention is not limited thereto.

As shown in fig. 1-2, the utility model provides a stable in structure's gaseous phase heat medium collecting vat, include the jar body of compriseing barrel 1, left head 2, right head 3, saddle 4, still include with jar body fixed connection's condenser pipe subassembly 5, medium input pipe subassembly 6, the top of barrel 1 is provided with drain 11, gaseous phase entry 12, liquid phase import 13, return port 14, the bottom of barrel 1 is provided with heat medium export 15, heat carrier export 16, condenser pipe subassembly 5 is on a parallel with barrel 1 and arranges the direction setting, medium input pipe subassembly 6 perpendicular to condenser pipe subassembly 5 sets up, the bottom of dip pipe 61 sets up in condenser pipe subassembly 5 below, and heat carrier export 16 department installs anti-vortex baffle 7, and anti-vortex baffle 7's height sets up 1-1.5 times for 16 department mouth of pipe internal diameters of heat carrier export.

Two ends of the condensing pipe assembly 5 are protruded out of the right end enclosure 3 and are respectively connected with a steam inlet 51 and a condensate outlet 52, and the medium input pipe assembly 6 comprises an immersion pipe 61 and a support assembly 62, wherein the immersion pipe 61 is fixedly connected with a heat carrier gas phase inlet 12, a liquid phase inlet 13 and a reflux port 14, and the support assembly 62 is used for connecting the bottom of the immersion pipe 61 and the inner wall of the cylinder 1. A plurality of support frames 8 are fixedly installed on the inner wall of the bottom of the barrel body 1 along the arrangement direction of the condenser pipe assembly 5, the condenser pipe assembly 5 comprises a plurality of pipelines 53 connected end to end, and the pipelines 53 are fixed to the tops of the support frames 8 through U-shaped pipes 54.

Because the discharge pipe of container is vertical decurrent, and the geometric dimension of container is far greater than the discharge pipe, when liquid was discharged by the discharge pipe, at this moment in the container liquid from around to the discharge mouth of pipe overflow, the utility model discloses in 16 departments of heat carrier export set up vortex-proof baffle 7, vortex-proof baffle 7 highly set up to 1-1.5 times of mouth of pipe internal diameter to the vortex-proof effect of vortex-proof baffle 7 is prevented in the reinforcing.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. The utility model provides a stable in structure's gaseous phase heat medium collecting vat, includes the jar body of compriseing barrel, left head, right head, saddle, still include with jar body fixed connection's condenser pipe subassembly, medium input pipe subassembly, its characterized in that: the top of barrel is provided with drain, gaseous phase entry, liquid phase import, backward flow mouth, the bottom of barrel is provided with heat medium export, heat carrier export, the condenser pipe subassembly is on a parallel with the barrel and arranges the direction setting, medium input tube subassembly perpendicular to condenser pipe subassembly setting, the both ends of condenser pipe subassembly are outstanding in right head setting and are connected with steam inlet, condensate export respectively, the medium input tube subassembly including respectively with heat carrier gaseous phase entry, liquid phase import, backward flow mouth fixed connection's dip pipe, connect the supporting component of dip pipe bottom and barrel inner wall, the bottom of dip pipe sets up in condenser pipe subassembly below, the anti-vortex baffle is installed in the heat carrier exit.

2. The gas-phase heat medium collecting tank with the stable structure as set forth in claim 1, wherein: the height of the anti-vortex baffle is set to be 1-1.5 times of the inner diameter of the pipe orifice at the heat carrier outlet.

3. The gas-phase heat medium collecting tank with the stable structure as set forth in claim 1, wherein: a plurality of support frames are fixedly installed on the inner wall of the bottom of the cylinder body along the arrangement direction of the condensation pipe assembly, the condensation pipe assembly comprises a plurality of pipelines which are connected end to end, and the pipelines are fixed to the tops of the support frames through U-shaped pipes.

Images