CN108120086A - Heat pump unit flow-disturbing dual system dry type heat exchanger - Google Patents

Abstract

Heat pump unit flow-disturbing dual system dry type heat exchanger, including shell, copper pipe, drive end bearing bracket, rear end cap and spoiler；Inlet and outlet are arranged in the middle part of the same side of shell and positioned at same horizontal lines, and position farthest positioned at the front-end and back-end of shell respectively；The internal face of copper pipe is smooth, and outside wall surface is screw thread；Copper pipe is divided into two systems as medium channel；The excircle of rear end cap is plugged in the rear end of shell by bolt installation, and gasket is provided between rear end cap and shell；Spoiler is the discount vibram outlet more than semicircle, and the discount vibram outlet of adjacent spoiler is located at vertical both sides up and down respectively；Shell of the present invention occupies all spaces of entire evaporator, therefore the intake-outlet for pre-setting water and medium on the shell can save big quantity space, optimize the design of host；The inlet and outlet are arranged at the side of evaporator shell, are easier maintenance, and disengaging host is facilitated to carry out trouble shooting and installation.

Description

Heat pump unit flow-disturbing dual system dry type heat exchanger

Technical field

The present invention relates to technical field of central air more particularly to heat pump unit flow-disturbing dual system dry type heat exchangers.

Background technology

Central air-conditioning provides cold water using the form of centralized cooling for whole building, is then changed again by fan coil etc. Cold is sent to each room by hot component step by step.Although building structure has generally reserved certain space to central air conditioning Group, but the form of the evaporator of the handpiece Water Chilling Units of central air-conditioning is varied, including knots such as shell-and-tube heat exchanger, plate heat exchangers Structure is required for occupying very big space., it is necessary to which multiple handpiece Water Chilling Units work at the same time when especially refrigeration requirement is especially huge , it is necessary to arrange enough evaporators in same space as far as possible when could meet cold requirement.

Dry evaporator referred in the coolant channel of evaporator, and refrigerant is in exit evaporating completely, no There are liquid refrigerant, such evaporator is exclusively used in air-cooled handpiece Water Chilling Units, is not suitable for cooling tower, therefore in condenser end segment Space is saved.But evaporator end also needs to save space the structure design, it is necessary to more meticulous.

The content of the invention

It is an object of the invention to propose a kind of heat pump unit flow-disturbing dual system dry type heat exchanger.

For this purpose, the present invention uses following technical scheme：

Heat pump unit flow-disturbing dual system dry type heat exchanger, including shell, copper pipe, drive end bearing bracket, rear end cap and spoiler；The shell For cylindrical shell, water inlet, water outlet, gas vent and osculum are provided with；The inlet and outlet are arranged in institute State the middle part of the same side of shell and positioned at same horizontal line, and position farthest positioned at the front-end and back-end of the shell respectively It puts；The gas vent is located at the top of the shell, and the osculum is located at the bottom of the shell；The copper pipe is by before described The lower half of end cap enters in the shell, is turned back again to the drive end bearing bracket in the rear end that the shell is extended in the shell The first half；The internal face of the copper pipe is smooth, and outside wall surface is screw thread；The excircle of the drive end bearing bracket is connected to described The front end of shell, the drive end bearing bracket are provided with medium inlet and media outlet, and the medium inlet is located at lower half, the medium Outlet is located at the first half；The middle of the inside of the drive end bearing bracket is provided with the lagging of right-angled intersection and perpendicular baffle, thus will The inner space of the drive end bearing bracket is divided into upper left quarter, lower left quarter, upper right quarter and right lower quadrant；The copper pipe is as medium channel point For two systems, a system is that medium enters copper pipe from lower left quarter, is gone out copper pipe from upper left quarter, another system be medium from Right lower quadrant enters copper pipe, goes out copper pipe from upper right quarter；The rear end cap is welded in the rear end of the shell, and the rear end cap is by justifying Column shell and spherical calotte are welded, and the cylindrical shell is connected with the rear end of the shell；The spoiler is more than semicircle Discount vibram outlet, arrangement arranges for part along the enclosure proportional spacing, the discount vibram outlet of adjacent spoiler difference position In vertical both sides up and down, the runner in the shell is made to form the passage for the turbulent flow that teeters.

Shell of the present invention occupies all spaces of entire evaporator, thus pre-set on the shell water and medium into Water outlet can save big quantity space, optimize the design of host；The inlet and outlet are arranged at evaporator shell Side is easier maintenance, and disengaging host is facilitated to carry out trouble shooting and installation.

Description of the drawings

Fig. 1 is the positive structure schematic of one embodiment of the present of invention；

Fig. 2 is the overlooking the structure diagram of one embodiment of the present of invention；

Fig. 3 is the left side structure schematic diagram of one embodiment of the present of invention.

Reference numeral：

Shell 1, copper pipe 2, drive end bearing bracket 3, rear end cap 4, spoiler 5, water inlet 11, water outlet 12, gas vent 13, osculum 14, Noseplate 15, rear bottom plate 16, medium inlet 31, media outlet 32, venting plug 321, fixed link 51.

Specific embodiment

Technical solution to further illustrate the present invention below with reference to the accompanying drawings and specific embodiments.

Heat pump unit flow-disturbing dual system dry type heat exchanger, including shell 1, copper pipe 2, drive end bearing bracket 3, rear end cap 4 and spoiler 5；The shell 1 is cylindrical shell, is provided with water inlet 11, water outlet 12, gas vent 13 and osculum 14；The water inlet 11 and water outlet 12 be arranged in the shell 1 same side middle part and positioned at same horizontal line, and be located at respectively described The farthest position in the front-end and back-end of shell 1；The gas vent 13 is located at the top of the shell 1, and the osculum 14 is located at The bottom of the shell 1；Shell 1 occupies all spaces of entire evaporator, therefore pre-sets water and medium on shell 1 Intake-outlet can save big quantity space, optimize the design of host；The water inlet 11 and water outlet 12 are arranged at evaporation The side of device shell 1, is easier maintenance, and disengaging host is facilitated to carry out trouble shooting and installation.The copper pipe 2 is by described The lower half of drive end bearing bracket 3 enters in the shell 1, is turned back again to described in the rear end that the shell 1 is extended in the shell 1 The first half of drive end bearing bracket 3；The internal face of the copper pipe 2 is smooth, and outside wall surface is screw thread；The inner wall smooth of the copper pipe 2 Then the flow resistance of fluid media (medium) is smaller, and can improve efficiency reduces energy consumption；The outer wall is both easily installed copper for thread surface Pipe 2, and fabricate copper pipe and also reduce cost；The excircle of the drive end bearing bracket 3 is connected to the front end of the shell 1, institute It states drive end bearing bracket 3 and is provided with medium inlet 31 and media outlet 32, the medium inlet 31 is located at lower half, the media outlet 32 Positioned at the first half；The middle of the inside of the drive end bearing bracket 3 is provided with the lagging of right-angled intersection and perpendicular baffle, so as to by described in The inner space of drive end bearing bracket 3 is divided into upper left quarter, lower left quarter, upper right quarter and right lower quadrant；The copper pipe 2 is divided into as medium channel Two systems, a system are that medium enters copper pipe 2 from lower left quarter, are gone out copper pipe 2 from upper left quarter, another system be medium from Right lower quadrant enters copper pipe 2, goes out copper pipe 2 from upper right quarter；When needing to increase the refrigeration work consumption of host, the power of simple system has Certain limiting value, it is impossible to it is unlimited to increase, therefore left and right two systems are set in same evaporator shell 1, so that same There is the refrigerating capacity of bigger in the volume of one evaporator.

The rear end cap 4 is welded in the rear end of the shell 1, and the rear end cap 4 is welded by cylindrical shell and spherical calotte It forms, the cylindrical shell is connected with the rear end of the shell 1；

Welding back shroud 4 reduces manufacture cost, while also ensures the seal of container；

The spoiler 5 is the discount vibram outlet more than semicircle, and arrangement is arranged for part along the 1 inner homogeneous spacing of shell Row, the discount vibram outlet of adjacent spoiler 5 are located at vertical both sides up and down, the formation of the runner in the shell 1 are made to teeter disorderly respectively The passage of stream.

Snakelike flow-disturbing improves heat exchange efficiency, can increase the turbulence factor of current under upper and lower installation condition, and raising is changed The thermal efficiency；

Distance of the edge of the water inlet 11 and water outlet 12 apart from the front-end and back-end of the shell 1 is between 5 and 10cm.

The thickness of copper pipe is not less than 0.8mm.

The width of the lagging and perpendicular baffle is not less than 8mm.

Solder thickness is not less than 5mm.

5 spacing of spoiler is between 20cm-30cm.

The technical principle of the present invention is described above in association with specific embodiment.These descriptions are intended merely to explain the present invention's Principle, and limiting the scope of the invention cannot be construed in any way.Based on explanation herein, the technology of this field Personnel would not require any inventive effort the other specific embodiments that can associate the present invention, these modes are fallen within Within protection scope of the present invention.

Claims (6)

1. heat pump unit flow-disturbing dual system dry type heat exchanger, including shell, copper pipe, drive end bearing bracket, rear end cap and spoiler, feature It is：The shell is cylindrical shell, is provided with water inlet, water outlet, gas vent and osculum；The water inlet and water outlet Mouth is arranged in the middle part of the same side of the shell and positioned at same horizontal line, and respectively positioned at the front end of the shell and The farthest position in rear end；The gas vent is located at the top of the shell, and the osculum is located at the bottom of the shell；It is described Copper pipe is entered by the lower half of the drive end bearing bracket in the shell, is turned back again in the rear end that the shell is extended in the shell To the first half of the drive end bearing bracket；The internal face of the copper pipe is smooth, and outside wall surface is screw thread；The outer circle of the drive end bearing bracket It is connected to the front end of the shell week, the drive end bearing bracket is provided with medium inlet and media outlet, under the medium inlet is located at Half portion, the media outlet are located at the first half；The middle of the inside of the drive end bearing bracket be provided with right-angled intersection lagging and Perpendicular baffle, so as to which the inner space of the drive end bearing bracket is divided into upper left quarter, lower left quarter, upper right quarter and right lower quadrant；The copper pipe It is divided into two systems as medium channel, a system is that medium enters copper pipe from lower left quarter, is gone out copper pipe from upper left quarter, another A system is that medium enters copper pipe from right lower quadrant, is gone out copper pipe from upper right quarter；The rear end cap is welded in the rear end of the shell, The rear end cap is welded by cylindrical shell and spherical calotte, and the cylindrical shell is connected with the rear end of the shell；It is described to disturb Flowing plate is the discount vibram outlet more than semicircle, and arrangement arranges for part along the enclosure proportional spacing, adjacent flow-disturbing The discount vibram outlet of plate is located at vertical both sides up and down respectively, and the runner in the shell is made to form the passage of upper and lower snake-like swing.

2. heat pump unit flow-disturbing dual system dry type heat exchanger as described in claim 1, it is characterised in that：The water inlet and go out Distance of the edge at the mouth of a river apart from the front-end and back-end of the shell is between 5 and 10cm.

3. heat pump unit flow-disturbing dual system dry type heat exchanger as described in claim 1, it is characterised in that：The thickness of copper pipe is not low In 0.8mm.

4. heat pump unit flow-disturbing dual system dry type heat exchanger as described in claim 1, it is characterised in that：The lagging and perpendicular The width of baffle is not less than 8mm.

5. heat pump unit flow-disturbing dual system dry type heat exchanger as described in claim 1, it is characterised in that：Solder thickness is not less than 5mm。

6. heat pump unit flow-disturbing dual system dry type heat exchanger as described in claim 1, it is characterised in that：Flow-disturbing plate spacing exists Between 20cm-30cm.