CN205939687U - Heat exchanger instant heating device is coordinated with sleeve pipe to capillary vortex water conservancy diversion - Google Patents

Abstract

Heat exchanger instant heating device is coordinated with sleeve pipe to capillary vortex water conservancy diversion belongs to high -power high -efficiency heat exchanger device field. Its characterized in that includes a set of above general function group, general function group is including work water heat exchanger group, output water heat exchanger group, vapour and liquid separator and compression pump, work water heat exchanger group is including two sets of above parallelly connected capillary vortex water conservancy diversion heat transfer device, output water heat exchanger group is including two sets of above parallelly connected sleeve pipe heat transfer device, work water heat exchanger group, output water heat exchanger group, vapour and liquid separator and compression pump are established ties to form and are sealed the loop. This device adopts the integrated operations of two kinds of heat transfer device, connect rationally distributed, can be in the short time a large amount of high temperature hot water of output at once, heat exchange efficiency and power are all promoted by a wide margin.

Description

Capillary vortex water conservancy diversion coordinates heat exchanger heating device with sleeve pipe

Technical field

The utility model belongs to large power high efficiency heat exchanger apparatus field and in particular to a kind of capillary vortex water conservancy diversion and set Heat exchanger heating device coordinated by pipe.

Background technology

Traditional heat exchanger typically adopts one to three straight line cooling medium inputs of suit and output body in casing, is used for Transport cooling medium with the underground water contact heat-exchanging entering in casing, the structure of traditional heat exchangers is limited, and heat exchange efficiency is low, and single Group job, thus leading to the heat production water yield low, and hot water temperature is not high.

Inventor has applied for the utility model device of entitled " a kind of novel water heater " on May 26th, 2014, Patent No. 201420268938.7, this patent adopts one group of condenser and one group of evaporimeter, respectively drinking water is heated, And cooling medium is lowered the temperature, because structure is limited, the output capacity of hot water is relatively low.

In consideration of it, applicant devises a kind of capillary vortex water conservancy diversion coordinates heat exchanger heating device with sleeve pipe, using two Kind of heat-exchanger rig integrated operations, connection configuration rationally, can a large amount of high-temperature-hot-water of output, heat exchange efficiency and work(at once at short notice Rate is all improved significantly.

Content of the invention

Technical problem to be solved in the utility model is to provide a kind of capillary vortex water conservancy diversion to coordinate heat exchanger with sleeve pipe Heating device, using two kinds of heat-exchanger rig integrated operations, can a large amount of high-temperature-hot-water of output at once at short notice, heat exchange efficiency and Power is all improved significantly.

Technical problem to be solved in the utility model is to provide a kind of capillary vortex water conservancy diversion to coordinate heat exchanger with sleeve pipe It is characterised in that including more than one group of general function group, described general function group includes working water heat-exchange unit, output to heating device Water heat-exchange unit, gas-liquid separator and compression pump；The capillary that described working water heat-exchange unit includes parallel connection more than two is vortexed Water conservancy diversion heat-exchanger rig；Output water heat-exchange unit includes the sleeve heat exchanger of parallel connection more than two；Working water heat-exchange unit, output Water heat-exchange unit, gas-liquid separator and compression series connection of pumps form closed loop.

Preferably, described capillary vortex water conservancy diversion heat-exchanger rig includes casing, arranges cooling medium circulation pipe in casing Road, is respectively provided with water inlet and delivery port on two side walls of casing, and water inlet is located at the top of delivery port；Described cooling Medium circulation pipeline includes input pipe and efferent duct, is arranged in parallel the arm that some two ends connect input pipe and efferent duct, Pipe is spirally coiled in around input pipe or efferent duct；Described water inlet connects well water water inlet pipe, and described delivery port connects well water and goes out Water pipe.

Preferably, described sleeve pipe heat-exchanger rig includes cooling medium circulation line, and described cooling medium circulation line includes Some cooling mediums circulate capillary brass pipe, and it is solid that every 3-6 root cooling medium circulation capillary brass pipe passes through the fixing endless tube of an one-level It is scheduled on together；Every 2-4 one-level is fixed endless tube and is fixed together by one two grades fixing endless tubes；Every 2-4 two grades of retainer ring Pipe is fixed together by the fixing endless tube of a three-level；Circulate capillary brass pipe outer wrapping house steward in all cooling media, in house steward On open up water inlet and delivery port；Described water inlet connects drinking water water inlet pipe, and described delivery port connects drinking water outlet pipe.

Preferably, the water inlet direction of water inlet and casing are in 0-45 degree angle；Water inlet direction of rotation and the stream of cooling medium Dynamic in opposite direction；Also include deflector, deflector and the parallel coiled coil of arm；Open up on the inner side helicoid of described deflector Some guiding gutters.

Preferably, also include gap stable bracing frame, between each cooling medium circulation capillary brass pipe in house steward is set with Gap stable bracing frame, house steward and each cooling medium circulate and keep fixing gap between capillary brass pipe.

Preferably, described gap stable bracing frame includes outer ring stand, and described outer ring stand supports the inwall of house steward；If also including Dry capillary brass pipe retainer ring, cooling medium circulation capillary brass pipe passes through capillary brass pipe retainer ring；Each capillary brass pipe retainer ring Linked together by gap fix bar.

The beneficial effects of the utility model are：

1st, this device adopts two kinds of heat-exchanger rig integrated operations, and cooling medium, after compressor compresses, enters output water Heat-exchange unit, carries out heat exchange with drinking water, and drinking water is heated rapidly rear output and uses；The cooling medium that temperature is lowered enters Working water heat-exchange unit, well water carries out heat exchange to cooling medium, cooling medium be warmed after after gas-liquid separator, by compressing Machine is compressed again.Due to the presence of working water heat-exchange unit, tentatively improve the initial temperature of cooling medium, save pressure Contracting machine consumes energy, and has thereby served to energy-saving effect.Working water heat-exchange unit and output water heat-exchange unit all using multigroup simultaneously The mode of connection connects, rationally distributed, can a large amount of high-temperature-hot-water of output at once at short notice, heat exchange efficiency and power all obtain greatly Amplitude is lifted.

2nd, the water circulation of capillary vortex water conservancy diversion heat-exchanger rig is circulated with cooling medium and flows to contrary, current upper entering and lower leaving, Heat exchange is more abundant.The guiding device of capillary vortex water conservancy diversion heat-exchanger rig can make to be protected between arm, input pipe and efferent duct Hold rational gap, and the effect of water conservancy diversion can be played, strengthen heat transfer effect.

The 3rd, some spiral raised lines are arranged on the outer helical face of deflector, spiral raised line can be enclosed in by clamping The arm of outer ring, makes deflector be difficult to glide.Several are set in guiding gutter and filter horizontal net, water inlet is by guiding gutter spiral During water conservancy diversion, impurity therein can be filtered horizontal net and be intercepted, and plays high efficiency filter effect, only need to be at interval of a period of time Deflector is taken out and cleans.

4th, sleeve heat exchanger passes through to arrange some cooling mediums circulation capillary brass pipe, makes its effective and reasonable combination arrange Be listed in house steward, and by gap stable bracing frame make cooling medium circulate capillary brass pipe between, cooling medium circulate capillary copper Rational gap is kept between pipe and house steward, thus improving heat exchanging efficiency.

5th, the utility model structural refinement, is suitable to practicality, produces and use cost is relatively low, suitably in the industry cycle popularize.

Brief description

Fig. 1 is structural representation of the present utility model（Two groups of general function groups）；

Fig. 2 is the structural representation of capillary vortex water conservancy diversion heat-exchanger rig；

Fig. 3 is the A-A of Fig. 2 to structural representation；

Fig. 4 is the structural representation of deflector；

Fig. 5 is the structural representation of sleeve heat exchanger；

Fig. 6 is the internal structure schematic diagram of sleeve heat exchanger；

Fig. 7 is the structural representation of gap stable bracing frame；

In figure：1st, capillary vortex water conservancy diversion heat-exchanger rig；2nd, sleeve heat exchanger；3rd, compression pump；4th, gas-liquid separator；5、 Well water water inlet pipe；6th, well water outlet pipe；7th, drinking water water inlet pipe；8th, drinking water outlet pipe；

Capillary vortex water conservancy diversion heat-exchanger rig：1.1st, arm；1.2nd, casing；1.3rd, input pipe；1.4th, efferent duct；1.5th, enter The mouth of a river；1.6th, delivery port；1.7th, deflector；1.8th, guiding gutter；

Sleeve heat exchanger：2.1st, house steward；2.2, cooling medium circulation capillary brass pipe；2.3rd, one-level fixes endless tube；2.4、 Two grades of fixing endless tubes；2.5th, three-level fixes endless tube；2.6th, outer ring stand；2.7th, capillary brass pipe retainer ring；2.8th, gap fix bar.

Specific embodiment

With specific embodiment, the utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in figure 1, a kind of capillary vortex water conservancy diversion described in the utility model coordinates heat exchanger heating device with sleeve pipe, Including more than one group of general function group, described general function group includes working water heat-exchange unit, output water heat-exchange unit, gas-liquid separation Device 4 and compression pump 3；Described working water heat-exchange unit includes the capillary vortex water conservancy diversion heat-exchanger rig 1 of parallel connection more than two；Output Water heat-exchange unit includes the sleeve heat exchanger 2 of parallel connection more than two；Working water heat-exchange unit, output water heat-exchange unit, gas-liquid Separator 4 and compression pump 3 series connection form closed loop.

As shown in Fig. 2 described capillary vortex water conservancy diversion heat-exchanger rig 1 includes casing 1.2, setting cooling in casing 1.2 Medium circulation pipeline, is respectively provided with water inlet 1.5 and delivery port 1.6 on two side walls of casing 1.2, and water inlet 1.5 is located at The top of delivery port 1.6；Described cooling medium circulation line includes input pipe 1.3 and efferent duct 1.4, is arranged in parallel some Two ends connect the arm 1.1 of input pipe 1.3 and efferent duct 1.4, and arm 1.1 is spirally coiled in input pipe 1.3 or efferent duct 1.4 weeks Enclose；Described water inlet 1.5 connects well water water inlet pipe, and described delivery port 1.6 connects well water outlet pipe 6.As shown in Figures 3 and 4, intake The water inlet direction of mouth 1.5 and casing 1.2 are in 0-45 degree angle；Water inlet direction of rotation is contrary with the flow direction of cooling medium；Also Including deflector 1.7, deflector 1.7 and the parallel coiled coil of arm 1.1；Open up on the inner side helicoid of described deflector 1.7 Some guiding gutters 1.8.

As seen in figs. 5-6, described sleeve pipe heat-exchanger rig 2 includes cooling medium circulation line, described cooling medium circulation pipe Road includes some cooling medium circulation capillary brass pipe 2.2, and every 3-6 root cooling medium circulation capillary brass pipe 2.2 passes through one one The fixing endless tube 2.3 of level is fixed together；Every 2-4 one-level is fixed endless tube 2.3 and is fixed on one by one two grades fixing endless tubes 2.4 Rise；Every 2-4 two grades of fixing endless tubes 2.4 pass through the fixing endless tube 2.5 of a three-level and are fixed together；In all cooling media circulation Capillary brass pipe 2.2 outer wrapping house steward 2.1, opens up water inlet 1.5 and delivery port 1.6 on house steward 2.1；Described water inlet 1.5 is even Connect drinking water water inlet pipe 7, described delivery port 1.6 connects drinking water outlet pipe 8.Also include gap stable bracing frame, in house steward 2.1 Packaging clearance stable bracing frame in interior each cooling medium circulation capillary brass pipe 2.2, house steward 2.1 circulates capillary with each cooling medium Fixing gap is kept between copper pipe 2.2.

As shown in fig. 7, described gap stable bracing frame includes outer ring stand 2.6, described outer ring stand 2.6 supports house steward's 2.1 Inwall；Also include several capillary brass pipe retainer ring 2.7, cooling medium circulation capillary brass pipe 2.2 passes through capillary brass pipe retainer ring 2.7；Each capillary brass pipe retainer ring 2.7 is linked together by gap fix bar 2.8.

This device adopts two kinds of heat-exchanger rig integrated operations, and cooling medium, after compressor compresses, enters output water and changes Heat engine group, carries out heat exchange with drinking water, and drinking water is heated rapidly rear output and uses；The cooling medium that temperature is lowered enters work Make water heat-exchange unit, well water carries out heat exchange to cooling medium, cooling medium be warmed after by after gas-liquid separator 4, by compressing Machine is compressed again.Due to the presence of working water heat-exchange unit, tentatively improve the initial temperature of cooling medium, save pressure Contracting machine consumes energy, and has thereby served to energy-saving effect.Working water heat-exchange unit and output water heat-exchange unit all using multigroup simultaneously The mode of connection connects, rationally distributed, can a large amount of high-temperature-hot-water of output at once at short notice, heat exchange efficiency and power all obtain greatly Amplitude is lifted.

It is pointed out that above-mentioned embodiment is only the utility model preferred embodiment, for the art For those of ordinary skill, on the premise of meeting utility model works principle, any equivalent or similar replacement each falls within In protection domain of the present utility model.

Claims (6)

1. a kind of capillary vortex water conservancy diversion coordinates heat exchanger heating device with sleeve pipe it is characterised in that including more than one group of total work Energy group, described general function group includes working water heat-exchange unit, output water heat-exchange unit, gas-liquid separator and compression pump；Described work Make the capillary vortex water conservancy diversion heat-exchanger rig that water heat-exchange unit includes parallel connection more than two；Output water heat-exchange unit include two groups with Upper sleeve heat exchanger in parallel；Working water heat-exchange unit, output water heat-exchange unit, gas-liquid separator and compression series connection of pumps are formed Closed loop.

2. capillary vortex water conservancy diversion according to claim 1 and sleeve pipe coordinate heat exchanger heating device it is characterised in that institute State capillary vortex water conservancy diversion heat-exchanger rig and include casing, cooling medium circulation line is set in casing, in two sides of casing Water inlet and delivery port are respectively provided with wall, water inlet is located at the top of delivery port；Described cooling medium circulation line includes Input pipe and efferent duct, are arranged in parallel the arm that some two ends connect input pipe and efferent duct, and arm is spirally coiled in input Around pipe or efferent duct；Described water inlet connects well water water inlet pipe, and described delivery port connects well water outlet pipe.

3. capillary vortex water conservancy diversion according to claim 1 and sleeve pipe coordinate heat exchanger heating device it is characterised in that institute State sleeve heat exchanger and include cooling medium circulation line, described cooling medium circulation line includes some cooling medium circulations Capillary brass pipe, every 3-6 root cooling medium circulation capillary brass pipe is fixed together by the fixing endless tube of an one-level；Every 2-4 one The fixing endless tube of level is fixed together by one two grades fixing endless tubes；Every 2-4 two grades of fixing endless tubes are fixed by a three-level Endless tube is fixed together；Circulate capillary brass pipe outer wrapping house steward in all cooling media, water inlet and water outlet are opened up on house steward Mouthful；Described water inlet connects drinking water water inlet pipe, and described delivery port connects drinking water outlet pipe.

4. capillary vortex water conservancy diversion according to claim 2 and sleeve pipe coordinate heat exchanger heating device it is characterised in that entering The water inlet direction at the mouth of a river and casing are in 0-45 degree angle；Water inlet direction of rotation is contrary with the flow direction of cooling medium；Also include Deflector, deflector and the parallel coiled coil of arm；Some guiding gutters are opened up on the inner side helicoid of described deflector.

5. capillary vortex water conservancy diversion according to claim 3 coordinates heat exchanger heating device with sleeve pipe it is characterised in that going back Including gap stable bracing frame, packaging clearance stable bracing frame in each cooling medium circulation capillary brass pipe in house steward, house steward And each cooling medium circulates and keeps fixing gap between capillary brass pipe.

6. capillary vortex water conservancy diversion according to claim 5 and sleeve pipe coordinate heat exchanger heating device it is characterised in that institute State gap stable bracing frame and include outer ring stand, described outer ring stand supports the inwall of house steward；Also include several capillary brass pipe to fix Ring, cooling medium circulation capillary brass pipe passes through capillary brass pipe retainer ring；Each capillary brass pipe retainer ring passes through gap fix bar even It is connected together.