CN203928781U - A kind of energy-conservation condenser - Google Patents

Abstract

The utility model belongs to condenser field, relate in particular to a kind of energy-conservation condenser, it is characterized in that: the top of described casing is provided with heat conduction chamber, the outside of described casing is fixed with heating tank, the upper end of described heat conduction chamber communicates with described entrance, one end of described heat pipe is fixed on indoor and its other end of described heat conduction and is fixed in described heating tank, described distributor is communicated with the lower end of described heat conduction chamber, described cooling tube is positioned at the below of described distributor, described cooling tube comprises outer wall from outside to inside successively, interlayer, inwall, the interlayer of adjacent described cooling tube is connected, the middle part of described inwall offers inwall passage, described inverter respectively with described cold-trap, circulating pump is connected, described battery, inverter is fixed on the outer wall of described casing, described circulating pump respectively with described cold-trap, the interlayer of head end cooling tube is communicated with, the interlayer of described end cooling tube is connected with described cold-trap.

Description

A kind of energy-conservation condenser

Technical field

The utility model belongs to condenser field, relates in particular to a kind of energy-conservation condenser.

Background technology

Condenser is a kind of heat exchanger that turbine discharge is condensed into water, is mainly used in steam turbine power plant, the steam discharge of steam turbine is condensed into water boiler of feeding and reuses.Condenser can be divided into surface-type and hybrid two classes by steam condensation mode difference, in surface condenser, the steam separating with cooling medium is condensed into liquid on cooling wall, and in direct-contact type condenser, steam is in the situation that mixing with cooling medium, to be condensed into liquid.But, no matter be the problem which kind of gas trap all exists high energy consumption.

Summary of the invention

The utility model, for above-mentioned technical problem, provides a kind of energy-conservation condenser of low energy consumption.

The technical scheme that the utility model adopts is: a kind of energy-conservation condenser, comprise casing, the inside of described casing is fixed with cooling tube, it is characterized in that: also comprise heat pipe, distributor, solar panel, controller for solar, battery, inverter, cold-trap, circulating pump, the top of described casing offers entrance, the bottom of described casing offers outlet, the top of described casing is provided with heat conduction chamber, the outside of described casing is fixed with heating tank, the upper end of described heat conduction chamber communicates with described entrance, one end of described heat pipe is fixed on indoor and its other end of described heat conduction and is fixed in described heating tank, described distributor is communicated with the lower end of described heat conduction chamber, described cooling tube is positioned at the below of described distributor, described cooling tube comprises outer wall from outside to inside successively, interlayer, inwall, the interlayer of adjacent described cooling tube is connected, the middle part of described inwall offers inwall passage, one end of described controller for solar is connected with solar panel and its other end is connected with battery, described battery and described inverter join, described inverter respectively with described cold-trap, circulating pump is connected, described battery, inverter is fixed on the outer wall of described casing, described circulating pump respectively with described cold-trap, the interlayer of head end cooling tube is communicated with, the interlayer of described end cooling tube is connected with described cold-trap.

Also comprise moisture trap, described moisture trap is fixed on the below of described casing, the entrance of described moisture trap communicates with the outlet of described casing, the gas vent of described moisture trap communicates with the entrance of described casing, on the pipeline that the gas vent of described moisture trap communicates with the entrance of casing, is connected with control valve.

Described inwall convexes to form bur to inwall passage.

Described controller for solar, battery, inverter are all fixed on the top of described casing.

Described cold-trap, circulating pump are fixed on the lower outside of described casing.

The beneficial effects of the utility model are:

1, the top of casing is provided with heat conduction chamber, the outside of casing is fixed with heating tank, the upper end of heat conduction chamber communicates with entrance, one end of heat pipe is fixed on indoor and its other end of heat conduction and is fixed in heating tank, first steam pass through heat conduction chamber after entering casing, heat pipe is conducted into the heat of high-temperature steam in heating tank, utilize the heat of high-temperature steam to carry out heating operation to the fluid in heating tank, can play the effect that reduces high-temperature steam temperature, can make full use of again the latent heat in high-temperature steam, save the energy, reduce energy consumption;

2, distributor is communicated with the lower end of heat conduction chamber, and cooling tube is positioned at the below of distributor, and distributor carries out distribution effect to steam and the condensed water of heat conduction chamber output, makes steam be uniformly distributed in the top of cooling tube, avoids the concentrations of steam;

3, cooling tube comprises outer wall, interlayer, inwall from outside to inside successively, the interlayer of adjacent cooling tube is connected, and the middle part of inwall offers inwall passage, the gap of steam between cooling tube or inwall passage, passes through, increased the contact area of cooling tube and steam, condensation effect strengthens;

4, set up solar panel, controller for solar, battery, inverter, inverter has been connected to form a set of solar electric power supply system with cold-trap, circulating pump respectively, is cold-trap, circulating pump power supply, saves electric energy, reduces energy consumption;

5, circulating pump is communicated with the interlayer of cold-trap, head end cooling tube respectively, and the interlayer of end cooling tube is connected with cold-trap, by cold-trap, the cooling medium in interlayer is carried out to circularly cooling, without a large amount of cooling mediums, good refrigeration effect;

6, moisture trap is fixed on the below of casing, the entrance of moisture trap communicates with the outlet of casing, the gas vent of moisture trap communicates with the entrance of casing, on the pipeline that the gas vent of moisture trap communicates with the entrance of casing, be connected with control valve, by moisture trap, condensation water and steam is separated, condensed water enters boiler tubing and again recycles, residual fraction steam again enters casing inside by the entrance of casing and carries out condensation, and steam can not adulterate in condensed water;

7, inwall convexes to form bur to inwall passage, increases the contact area of cooling tube and steam, strengthens condensation effect.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of cooling tube in the utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

In figure, 1-casing, 2-cooling tube, 3-heat conduction chamber, 4-heat pipe, 5-distributor, 6-solar panel, 7-controller for solar, 8-battery, 9-inverter, 10-cold-trap, 11-circulating pump, 12-entrance, 13-outlet, 14-heating tank, 15-outer wall, 16-interlayer, 17-inwall, 18-inwall passage, 19-moisture trap, 20-bur, 21-control valve.

Embodiment

As shown in Figure 1-2, a kind of energy-conservation condenser, comprises casing 1, heat pipe 4, distributor 5, solar panel 6, controller for solar 7, battery 8, inverter 9, cold-trap 10, circulating pump 11, the inside of casing 1 is fixed with cooling tube 2, the top of casing 1 offers entrance 12, and the bottom of casing 1 offers outlet 13, and the top of casing 1 is provided with heat conduction chamber 3, the outside of casing 1 is fixed with heating tank 14, the upper end of heat conduction chamber 3 communicates with entrance 12, and one end of heat pipe 4 is fixed in heat conduction chamber 3 and its other end is fixed in heating tank 14, and distributor 5 is communicated with the lower end of heat conduction chamber 3, cooling tube 2 is positioned at the below of distributor 5, and cooling tube 2 comprises outer wall 15 from outside to inside successively, interlayer 16, inwall 17, the interlayer 16 of adjacent cooling tube 2 is connected, and the middle part of inwall 17 offers inwall passage 18, and one end of controller for solar 7 is connected with solar panel 6 and its other end is connected with battery 8, battery 8 joins with inverter 9, inverter 9 respectively with cold-trap 10, circulating pump 11 is connected, battery 8, inverter 9 is fixed on the outer wall of casing 1, circulating pump 11 respectively with cold-trap 10, the interlayer 16 of head end cooling tube 2 is communicated with, and the interlayer 16 of end cooling tube 2 is connected with cold-trap 10.

Also comprise moisture trap 19, moisture trap 19 is fixed on the below of casing 1, the entrance of moisture trap 19 communicates with the outlet 13 of casing 1, the gas vent of moisture trap 19 communicates with the entrance 12 of casing 1, on the pipeline that the gas vent of moisture trap 19 communicates with the entrance 12 of casing 1, is connected with control valve 21.

Inwall 17 convexes to form bur 20 to inwall passage 18.

Controller for solar 7, battery 8, inverter 9 are all fixed on the top of casing 1.

Cold-trap 10, circulating pump 11 are fixed on the lower outside of casing 1.

Operation principle

As shown in Figure 1-2, high-temperature steam enters in heat conduction chamber 3 by the entrance 12 on casing 1, heat pipe 4 divides heat to be transmitted to that heating tank 14 is interior to be heated the fluid in heating tank 14 step of high-temperature steam, and the temperature of high-temperature steam reduces and a part of high-temperature steam condenses into condensed water; The steam of condensed water of adulterating moves to the top of cooling tube 2 through the distribution effect of distributor 5, this part steam part enters inwall passage 18, another part enters the gap between cooling tube 2, after the cooling effect of cooling tube 2, the steam-condensation Cheng Shui of the overwhelming majority, only residual fraction steam, adulterating the condensed water of steam through the centrifugation of moisture trap 19, condensed water enters boiler tubing and again recycles, and residual fraction steam again enters casing 1 inside by the entrance 12 of casing 1 and carries out condensation; Solar panel 6, controller for solar 7, battery 8, inverter 9 have formed a set of solar energy for system, power for cold-trap 10, circulating pump 11, and cold-trap 10 carries out circularly cooling to the cooling medium in interlayer 16.

Above 1 embodiment of the present utility model is had been described in detail, but described content is only preferred embodiment of the present utility model, can not be considered to for limiting practical range of the present utility model.All equalization variation and improvement etc. of doing according to the utility model application range, within all should still belonging to patent covering scope of the present utility model.

Claims (5)

1. an energy-conservation condenser, comprise casing, the inside of described casing is fixed with cooling tube, it is characterized in that: also comprise heat pipe, distributor, solar panel, controller for solar, battery, inverter, cold-trap, circulating pump, the top of described casing offers entrance, the bottom of described casing offers outlet, the top of described casing is provided with heat conduction chamber, the outside of described casing is fixed with heating tank, the upper end of described heat conduction chamber communicates with described entrance, one end of described heat pipe is fixed on indoor and its other end of described heat conduction and is fixed in described heating tank, described distributor is communicated with the lower end of described heat conduction chamber, described cooling tube is positioned at the below of described distributor, described cooling tube comprises outer wall from outside to inside successively, interlayer, inwall, the interlayer of adjacent described cooling tube is connected, the middle part of described inwall offers inwall passage, one end of described controller for solar is connected with solar panel and its other end is connected with battery, described battery and described inverter join, described inverter respectively with described cold-trap, circulating pump is connected, described battery, inverter is fixed on the outer wall of described casing, described circulating pump respectively with described cold-trap, the interlayer of head end cooling tube is communicated with, the interlayer of described end cooling tube is connected with described cold-trap.

2. the energy-conservation condenser of one according to claim 1, it is characterized in that: also comprise moisture trap, described moisture trap is fixed on the below of described casing, the entrance of described moisture trap communicates with the outlet of described casing, the gas vent of described moisture trap communicates with the entrance of described casing, on the pipeline that the gas vent of described moisture trap communicates with the entrance of casing, is connected with control valve.

3. the energy-conservation condenser of one according to claim 1, is characterized in that: described inwall convexes to form bur to inwall passage.

4. the energy-conservation condenser of one according to claim 1, is characterized in that: described controller for solar, battery, inverter are all fixed on the top of described casing.

5. the energy-conservation condenser of one according to claim 1, is characterized in that: described cold-trap, circulating pump are fixed on the lower outside of described casing.