CN1219178C - Energy-saving instant heat hot-pump shower - Google Patents
Energy-saving instant heat hot-pump shower Download PDFInfo
- Publication number
- CN1219178C CN1219178C CN 03116980 CN03116980A CN1219178C CN 1219178 C CN1219178 C CN 1219178C CN 03116980 CN03116980 CN 03116980 CN 03116980 A CN03116980 A CN 03116980A CN 1219178 C CN1219178 C CN 1219178C
- Authority
- CN
- China
- Prior art keywords
- water
- valve
- links
- tube
- inlet
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Bathtubs, Showers, And Their Attachments (AREA)
Abstract
The present invention relates to an energy-saving instant heat hot-pump shower. A compressor outlet is orderly connected with a sleeve type condenser, a condensing pressure controlling valve, a reservoir, a throttling device, a snake type evaporation coil, a gas-liquid segregator and a compressor inlet. A pressure-gradient controlling valve is connected with the sleeve type condenser and the condensing pressure controlling valve in parallel. The snake type evaporation coil is flatly placed in a water collector, and the tap water pipeline is connected with a water mixer respectively through a sleeve type condenser, a hot water valve and a tap water valve. The water mixer is connected with a shower head, and the water collector is connected with a discharge pipeline through a water level controlling valve. The present invention uses the pressure-gradient controlling valve and the condensing pressure controlling valve for controlling the temperature and the heat of refrigerant for heating tap water in the sleeve type condenser, uses the tap water valve and the hot water valve for adjusting the temperature and the flow rate of bathing water and uses the water level controlling valve and a water level sensor for controlling the discharge of waste water after bathing. The present invention has the advantages of reasonable structure, energy saving and high efficiency and can meet the showering requirements in families, apartment blocks, hotels, dormitories, etc.
Description
Technical field:
The present invention relates to a kind of shower, specifically a kind of energy-saving instant heating type heat pump shower belongs to the heat-pump apparatus technical field.
Background technology:
Along with the raising of living standards of the people, more and more stronger to the demand of health hot water, people wish can obtain health hot water easily throughout the year.The supply mode of existing shower hot water mainly contains five kinds: the one, the electrical heating water heater is installed, and directly utilize electric energy to add hot water, though convenient, healthy, power consumption is big, waits for that the time of bathing is long; The 2nd, be connected with city hot water net, though can use immediately, the installation fee height, during use, because the inevitable heat loss that exists of hot water net, business company can all impute to the user with financial loss, user's cost of use height; The 3rd, gas water heater is installed, can instantly open, but gas water heater need be installed in draughty place, otherwise during fuel gas buring, if the oxygen that consumes can not in time replenish, the people of bathing will be in peril of one's life; The 4th, solar water heater is installed, health, convenience, energy-conservation, but the volume of its heat collector is big, and performance is subjected to the influence rain or shine of season and weather very big, and high building room (except that attic) is difficult to find installing space; The 5th, Teat pump boiler is installed, coefficient of heat supply height, energy-conservation, health, convenience.Teat pump boiler has two kinds of forms: be thermal source with the air and be thermal source with water.The evaporator with heat pump volume that with the air is thermal source is big, and the supply water temperature of condenser is influenced by ambient temperature, and greatly in the winter time, when environment temperature was lower than-5 ℃, heating efficiency was extremely low, needs to increase the auxiliary electrical thermal source.Have in the prior art with the waste water of bathing Teat pump boiler technology as thermal source, for example: Hu Guangnan (application number: 99121448.x) and Li Fan (application number: 00239867) Shen Qing Chinese patent, during the work of its heat pump, exist the supply water temperature shakiness, do not reach the defective of bathing temperature.Therefore, improve the device of heat pump shower, make it that enough, the stable bathing temperature and water yield can be provided at all seasons, give full play to the advantage of heat pump shower, just become the key that the heat pump shower comes into the market.
Summary of the invention:
The objective of the invention is to overcome above-mentioned the deficiencies in the prior art, provide a kind of rational in infrastructure, novel, move quietly, energy-conservation, comfortable, economical and efficient is easy to installation administration, annual energy-saving instant heating type heat pump shower easy to use.
For achieving the above object, the present invention can reach by following measure: a kind of energy-saving instant heating type heat pump shower comprises the refrigerant-cycle systems of bathing water system, discharge of wastewater system and heat pump assembly.The refrigerant-cycle systems of heat pump assembly is made up of compressor, tube-in-tube condenser, differential pressure control valve, condensing pressure control valve, reservoir, throttling arrangement, snake type evaporation coil, gas-liquid separator and pipeline; The bathing water system is made up of running water valve, hot-water valve, tube-in-tube condenser, water-water jet, shower head and pipeline; The discharge of wastewater system is made up of water collector, snake type evaporation coil, altitude valve, level sensor, drainage pipeline and pipeline.
In the refrigerant-cycle systems of heat pump assembly, the outlet of compressor links to each other with the refrigerant inlet of tube-in-tube condenser, the refrigerant outlet of tube-in-tube condenser links to each other with the inlet of condensing pressure control valve, the outlet of condensing pressure control valve links to each other with the inlet of reservoir, the outlet of reservoir links to each other through the inlet of throttling arrangement with snake type evaporation coil, the outlet of snake type evaporation coil links to each other with the inlet of compressor through gas-liquid separator, the inlet of differential pressure control valve links to each other with the refrigerant inlet of tube-in-tube condenser, the outlet of differential pressure control valve links to each other with the inlet of reservoir, and snake type evaporation coil lies in the water collector; Tap water pipe line in the bathing water system is divided into two branch roads, and one the tunnel links to each other with water-water jet through tube-in-tube condenser, hot-water valve, and another road links to each other with water-water jet through running water valve, and the outlet of water-water jet links to each other with shower head; In the discharge of wastewater system, the outlet of water collector connects drainage pipeline through altitude valve, and level sensor is installed in the water collector, links to each other with altitude valve by holding wire.
Operation principle of the present invention is: when people need bathing, open the refrigerant-cycle systems of bathing water system, discharge of wastewater system and heat pump assembly in turn, be in the heat pump assembly that heats mode of operation, by the waste heat in the discharge of wastewater system after the snake type evaporation coil absorption shower, by refrigerant-cycle systems heat is discharged in tube-in-tube condenser to the bathing water system, make the running water heat temperature raising, satisfy the needs of bathing.The refrigerant temperature and the heat that add hot tap-water in the tube-in-tube condenser are controlled by differential pressure control valve, condensing pressure control valve and throttling arrangement, the temperature of bathing water and flow are adjusted by running water valve and hot-water valve, for guaranteeing that snake type evaporation coil can fully absorb the waste heat of bathing back waste water, is controlled the discharging of bathing back waste water by altitude valve and level sensor.
The present invention is owing to adopted said structure and technical measures, have rational in infrastructurely, novel, move quiet, energy-conservation, comfortable, economical and efficient is easy to installation administration, advantages such as the whole year is easy to use, can satisfy occasion shower needs throughout the year such as family, apartment, hotel, dormitory, the instant heating type heat pump shower can be come into the market veritably, enter huge numbers of families.
Description of drawings:
Accompanying drawing 1 is a system architecture schematic diagram of the present invention.
Mark among the figure: compressor 1, tube-in-tube condenser 2, differential pressure control valve 3, condensing pressure control valve 4, reservoir 5, throttling arrangement 6, gas-liquid separator 7, snake type evaporation coil 8, water collector 9, drainage pipeline 10, altitude valve 11, level sensor 12, shower head 13, water-water jet 14, running water valve 15, hot-water valve 16.
The specific embodiment:
Below in conjunction with accompanying drawing technical scheme of the present invention is further described.
System architecture of the present invention comprises the refrigerant-cycle systems of bathing water system, discharge of wastewater system and heat pump assembly as shown in Figure 1.The annexation of the refrigerant-cycle systems of heat pump assembly is: the outlet of compressor 1 links to each other by the refrigerant inlet of pipeline with tube-in-tube condenser 2, the refrigerant outlet of tube-in-tube condenser 2 links to each other by the inlet of pipeline with condensing pressure control valve 4, the outlet of condensing pressure control valve 4 links to each other by the inlet of pipeline with reservoir 5, the outlet of reservoir 5 links to each other by the inlet of pipeline with throttling arrangement 6, the outlet of throttling arrangement 6 links to each other by the inlet of pipeline with snake type evaporation coil 8, the outlet of snake type evaporation coil 8 links to each other by the inlet of pipeline with gas-liquid separator 7, the outlet of gas-liquid separator 7 links to each other by the inlet of pipeline with compressor 1, the inlet of differential pressure control valve 3 links to each other with the pipeline at the refrigerant inlet place of tube-in-tube condenser 2, the outlet of differential pressure control valve 3 links to each other with the pipeline of the porch of reservoir 5, and snake type evaporation coil 8 lies in the water collector 9.The annexation of bathing water system is: the running water of main pipe rail is divided into two branch roads, the running water of a branch road links to each other by the water inlet of pipeline with tube-in-tube condenser 2, the water out of tube-in-tube condenser 2 links to each other by the inlet of pipeline with hot-water valve 16, the outlet of hot-water valve 16 links to each other with an inlet of water-water jet 14 by pipeline, the running water of another branch road links to each other by the inlet of pipeline with running water valve 15, the outlet of running water valve 15 links to each other with another inlet of water-water jet 14 by pipeline, and the outlet of water-water jet 14 links to each other by the inlet of pipeline with shower head 13.The annexation of discharge of wastewater system is: the waste water after the bathing flows into from the inlet of water collector 9, the outlet of water collector 9 links to each other by the inlet of pipeline with altitude valve 11, the outlet of altitude valve 11 feeds in the drainage pipeline 10 by pipeline, level sensor 12 is installed in the water collector 9, link to each other with altitude valve 11 by holding wire, holding the snake type evaporation coil 8 that keeps flat in the water collector 9.
The course of work of the present invention is: when people need bathing, open the refrigerant-cycle systems of bathing water system, discharge of wastewater system and heat pump assembly in turn.
The course of work of the refrigerant-cycle systems of heat pump assembly is: compressor 1 consumes the gaseous refrigerant that certain electric energy is compressed into the gaseous refrigerant of low-temp low-pressure HTHP, when flowing through tube-in-tube condenser 2, emit heat, the running water that the cold-producing medium liberated heat is flow through absorbs, itself undergo phase transition and be condensed into liquid state, liquid refrigerant is when flowing through throttling arrangement 6, make cold-producing medium step-down cooling, when flowing through snake type evaporation coil 8, absorb the waste heat of the waste water that flows through in the water collector 9, itself undergo phase transition and flash to gaseous state, the gaseous refrigerant of low-temp low-pressure is compressed into the gaseous refrigerant of HTHP again by compressor 1, so periodic duty.Gas-liquid separator 7 is to prevent that compressor 1 is by the auxiliary protection parts of liquid hammer; Reservoir 5 can be when working conditions change, holds or emit to participate in the refrigerant amount that circulates, guarantees the refrigerant flow that operating mode needs; Condensing pressure in the condensing pressure control valve 4 control tube-in-tube condensers 2, it is exothermic temperature, when the running water temperature of tube-in-tube condenser 2 inflows is higher (as summer), its condensing pressure is also higher, if condensing pressure is higher than the setting value of condensing pressure control valve 4, valve port will be opened greatly, when the running water temperature of tube-in-tube condenser 2 inflows is hanged down (as winter), its condensing pressure is also lower, and the action of condensing pressure control valve 4 turns down trend; Differential pressure control valve 3 is controlled pressure in the reservoir 5 by the pressure reduction of control tube-in-tube condenser 2, thereby guarantees the inlet pressure of throttling arrangement 6, makes the refrigerant flow that throttling arrangement 6 is kept to be needed; Use the heat pump assembly of different cold-producing mediums, the setting value adjustable extent of differential pressure control valve 3 and condensing pressure control valve 4 is different, but all should require the cold-producing medium in the heat pump to have the ability that 35-50 ℃ of exothermic temperature is provided, differential pressure control valve 3 and condensing pressure control valve 4 jointly control, and can guarantee to have in the tube-in-tube condenser 2 the cold-producing medium exothermic temperature and the throttling arrangement 6 that need and have the refrigerant flow that needs.
The course of work of bathing water system is: from the next running water of total pipeline, be divided into two branch roads, the running water of a branch road at first flows into tube-in-tube condenser 2, the condensation heat that absorption refrigeration agent is therein emitted and rising temperature are adjusted hot water flows by hot-water valve 16, and running water valve 15 is adjusted the running water of another branch roads, hot water and running water flow into water-water jet 14 jointly, be mixed into the bathing water of suitable temperature and flow therein,, use for shower by shower head 13 ejections.
The course of work of discharge of wastewater system is: the waste water after the shower confluxes into water collector 9, is absorbed waste heat by the cold-producing medium in the snake type evaporation coil 8 therein and lowers the temperature, and flows in the drainage pipelines 10 by altitude valve 11 then and drains.Water level in the level sensor 12 control water collectors 9 makes the shower water all the time can submergence snake type evaporation coil 8, and when the water level in the water collector 9 surpassed setting value, level sensor 12 just sent signal, and altitude valve 11 is opened and draining.
Claims (1)
1, a kind of energy-saving instant heating type heat pump shower, the refrigerant-cycle systems that comprises bathing water system, discharge of wastewater system and heat pump assembly is characterized in that the refrigerant-cycle systems of heat pump assembly is made up of compressor (1), tube-in-tube condenser (2), differential pressure control valve (3), condensing pressure control valve (4), reservoir (5), throttling arrangement (6), snake type evaporation coil (8), gas-liquid separator (7) and pipeline; The bathing water system is made up of running water valve (15), hot-water valve (16), water-water jet (14), shower head (13) and pipeline; The discharge of wastewater system is made up of water collector (9), snake type evaporation coil (8), altitude valve (11), level sensor (12), drainage pipeline (10) and pipeline; The outlet of compressor (1) links to each other with the refrigerant inlet of tube-in-tube condenser (2), the refrigerant outlet of tube-in-tube condenser (2) links to each other with the inlet of condensing pressure control valve (4), the outlet of condensing pressure control valve (4) links to each other with the inlet of reservoir (5), the outlet of reservoir (5) links to each other through the inlet of throttling arrangement (6) with snake type evaporation coil (8), the outlet of snake type evaporation coil (8) links to each other through the inlet of gas-liquid separator (7) with compressor (1), the inlet of differential pressure control valve (3) links to each other with the refrigerant inlet of tube-in-tube condenser (2), the outlet of differential pressure control valve (3) links to each other with the inlet of reservoir (5), and snake type evaporation coil (8) lies in the water collector (9); Tap water pipe line in the bathing water system is divided into two branch roads, one the tunnel links to each other with water-water jet (14) through tube-in-tube condenser (2), hot-water valve (16), another road links to each other with water-water jet (14) through running water valve (15), and the outlet of water-water jet (14) links to each other with shower head (13); In the discharge of wastewater system, the outlet of water collector (9) connects drainage pipeline (10) through altitude valve (11), and level sensor (12) is installed in the water collector (9), links to each other with altitude valve (11) by holding wire.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03116980 CN1219178C (en) | 2003-05-16 | 2003-05-16 | Energy-saving instant heat hot-pump shower |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03116980 CN1219178C (en) | 2003-05-16 | 2003-05-16 | Energy-saving instant heat hot-pump shower |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1472483A CN1472483A (en) | 2004-02-04 |
CN1219178C true CN1219178C (en) | 2005-09-14 |
Family
ID=34152640
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 03116980 Expired - Fee Related CN1219178C (en) | 2003-05-16 | 2003-05-16 | Energy-saving instant heat hot-pump shower |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1219178C (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1731041B (en) * | 2004-08-05 | 2010-07-28 | 罗响 | Compression type refrigerating, heating apparatus and heat pump water heater combined set |
CN102980299A (en) * | 2012-04-01 | 2013-03-20 | 区耀林 | Waste-water waste-heat recycling water-heater |
CN102721174A (en) * | 2012-06-14 | 2012-10-10 | 华南理工大学 | Household variable-capacitance stepless regulation instant heat-pump water heater |
CN103900251B (en) * | 2012-12-25 | 2016-03-30 | 福州斯狄渢电热水器有限公司 | Immediately heating water heater |
CN103727662A (en) * | 2013-12-09 | 2014-04-16 | 镇江新区科力迪机电科技有限公司 | Condensation heating cavity for instant-heating-type air energy water heater |
-
2003
- 2003-05-16 CN CN 03116980 patent/CN1219178C/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
CN1472483A (en) | 2004-02-04 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101240949B (en) | Cascade energy usable variable capacity family energy resource system | |
CN102313326B (en) | Simple, high-efficiency and reliable cold-warm air-conditioning water heater | |
CN1235007C (en) | Unit solar energy heat pump air conditioner and hot water system | |
CN201476406U (en) | Low-temperature quasi-two-stage air source heat pump unit | |
CN101464058B (en) | Large energy accumulation type air source heat pump hot water units | |
CN103423917B (en) | Air-source central air-conditioning hot water triple-generation heat pump unit | |
CN1125299C (en) | Directly expanding solar heat-pump water heater | |
CN201764749U (en) | Simple, efficient and reliable air conditioner water heater | |
CN103047802A (en) | Air source heat pump defrosting system used in winter | |
CN109520052B (en) | Renewable energy source heat pump system suitable for energy-saving reconstruction of existing residential building | |
CN2854403Y (en) | Building warm air conditioner using solar-low temp cold/heat source combined circulation heat pump | |
CN201318799Y (en) | Air source heat water heater | |
CN103032999B (en) | Dual-heat source heat pump water heating all-in-one machine employing dual four-way valves for switching | |
CN1219178C (en) | Energy-saving instant heat hot-pump shower | |
CN201803419U (en) | Integrated type multi-connected cold and hot source central air-conditioning system | |
CN108731156A (en) | A kind of cold and hot alliance intelligence system based on energy-storage module | |
CN105318396A (en) | Solar energy, air source and low-freezing-point energy storage solution tower three heat source frostless heat pump system | |
CN202613855U (en) | Double heat source heat pump hot water all-in-one machine switched through double four-way valves | |
CN101949618A (en) | Refrigerant switching sewage-source heat pump system | |
CN201779922U (en) | Indoor triple-generation ground source heat pump (GSHP) unit based on air-conditioning cooling, air-conditioning heating and sanitary hot water | |
CN201382506Y (en) | Central air-conditioning system | |
CN203572093U (en) | Hot water CCHP heat pump unit of air-source central air conditioner | |
CN101251318A (en) | Heat-exchanging apparatus of water well earth source air conditioner | |
CN211177515U (en) | CO with multi-end low-temperature heat energy efficiently utilized2Transcritical air source heat pump system | |
CN103884067A (en) | Water air conditioner system capable of providing indoor heating and refrigerating |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |