CN205226736U - Energy dissipation device - Google Patents

Abstract

The utility model relates to an energy dissipation device. At present common energy dissipation device is direct increases the toper delivery port in order to increase flow area at hydrophobic pipe end, perhaps in hydrophobic pipe end trompil, perhaps increase the branch pipe and on the branch pipe several kinds of forms such as trompil, to the lower operating mode of hydrophobic parameter to several kind last energy dissipation device can both play fine efficiency effect, and nevertheless to the higher operating mode of hydrophobic parameter, several kind above energy dissipation device can not play fine effect. The utility model discloses the constitution includes: energy dissipation device (2), the energy dissipation cavity all around with the one end welding of a set of floor (1), the inboard welding in the other end and equipment barrel (4) of floor, energy dissipation cavity one side the circular port has, the circular port in has worn hydrophobic inlet tube (3) and has passed through welded fastening. The utility model is used for energy dissipation device.

Description

Energy dissipator

technical field:

The utility model relates to a kind of energy dissipator.

background technique:

Current common energy dissipator directly to increase conical water outlet to increase circulation area at hydrophobic pipe end, or in hydrophobic pipe end perforate, or increase arm and on arm several form such as perforate, for the operating mode that hydrophobic parameter is lower, several energy dissipator can play good usefulness effect above, but for the operating mode that hydrophobic parameter is higher, above several energy dissipator can not play good effect.Therefore a kind of novel energy dissipator of design is needed to deal with, fixed row, the equipment such as platoon and hydrophobic development unit is open to atmosphere owing to being company, design parameter is lower under normal circumstances, but these equipment generally have multiple hydrophobic entrance, the pressure of some hydrophobic entrance and temperature are very high, as hydrophobic mother's pipe of boiler starting hydrophobic expanding container, under degree expansion operating mode, hydrophobic parameter is very high, hydrophobic parameter can not be made to drop to the design conditions of equipment even if increase outside throttling arrangement, therefore energy dissipator must be increased to reduce the hydrophobic destruction to equipment for this kind of mouth of pipe, energy dissipator can by increasing the circulation area of fluid, the flow direction of alter, the method of dispersing fluid energy realizes.

model utility content:

The purpose of this utility model is to provide a kind of energy dissipator.

Above-mentioned object is realized by following technological scheme:

A kind of energy dissipator, its composition comprises: energy dissipating cavity, described energy dissipating cavity surrounding is welded with one end of one group of floor, the other end of described floor welds with inside equipment barrel, described energy dissipating cavity side has circular port, is installed with hydrophobic inlet duct and by being welded and fixed in described circular port.

Described energy dissipator, described floor and described equipment barrel welding ends are plane, and be circular arc with described energy dissipating cavity welding end, described energy dissipating cavity is formed by two 180 ° of elbows or multiple elbow pipe welding.

Described energy dissipator, described elbow or described bend pipe internal diameter are greater than hydrophobic inlet duct internal diameter, it is described that energy dissipating cavity top has exhaust hole, bottom has osculum, described hydrophobic inlet duct front end is bend pipe, rear end is straight tube, and described hydrophobic entrance is inserted in described energy dissipating cavity by the circular port of described energy dissipating cavity side.

beneficial effect:

1. the utility model is a kind of energy dissipator, traditional energy dissipator structure is optimized, on the one hand High Temperature High Pressure is hydrophobic enter energy dissipating cavity after can carry out flash distillation, dilatation, reduce hydrophobic parameter, this product have employed energy dissipating cavity body structure, on the other hand hydrophobicly tangentially to enter after energy dissipating cavity due to the change of flow direction and the increase of circulation area, reaches the object of energy dissipating, the setting of energy dissipating cavity makes hydrophobicly can trickle down in equipment uniformly in addition, avoids washing away local.

Hydrophobic inlet duct of the present utility model is made up of two-part, namely elbow and pipe composition, elbow can make hydrophobic tangentially enter into energy dissipating cavity and along cavity inner wall flowing, change hydrophobic flow direction, increase energy loss.

accompanying drawing illustrates:

Accompanying drawing 1 is structural representation of the present utility model.

Accompanying drawing 2 is plan views of accompanying drawing 1.

Accompanying drawing 3 is the A-A sectional views in accompanying drawing 2.

embodiment:

Embodiment 1:

A kind of energy dissipator, its composition comprises: energy dissipating cavity 2, described energy dissipating cavity surrounding is welded with one end of one group of floor 1, the other end of described floor welds with inside equipment barrel 4, described energy dissipating cavity side has circular port, is installed with hydrophobic inlet duct 3 and by being welded and fixed in described circular port.

embodiment 2:

Energy dissipator according to embodiment 1, described floor and described equipment barrel welding ends are plane, and be circular arc with described energy dissipating cavity welding end, described energy dissipating cavity is formed by two 180 ° of elbows or multiple elbow pipe welding.

embodiment 3:

Energy dissipator according to embodiment 1-2, described elbow or described bend pipe internal diameter are greater than hydrophobic inlet duct internal diameter, it is described that energy dissipating cavity top has exhaust hole, bottom has osculum, described hydrophobic inlet duct front end is bend pipe, rear end is straight tube, and described hydrophobic entrance is inserted in described energy dissipating cavity by the circular port of described energy dissipating cavity side.

Claims (3)

1. an energy dissipator, its composition comprises: energy dissipating cavity, it is characterized in that: described energy dissipating cavity surrounding is welded with one end of one group of floor, the other end of described floor welds with inside equipment barrel, described energy dissipating cavity side has circular port, is installed with hydrophobic inlet duct and by being welded and fixed in described circular port.

2. energy dissipator according to claim 1, it is characterized in that: described floor and described equipment barrel welding ends are plane, be circular arc with described energy dissipating cavity welding end, described energy dissipating cavity is formed by two 180 ° of elbows or multiple elbow pipe welding.

3. energy dissipator according to claim 2, it is characterized in that: described elbow or described bend pipe internal diameter are greater than hydrophobic inlet duct internal diameter, it is described that energy dissipating cavity top has exhaust hole, bottom has osculum, described hydrophobic inlet duct front end is bend pipe, rear end is straight tube, and described hydrophobic entrance is inserted in described energy dissipating cavity by the circular port of described energy dissipating cavity side.