CN208817716U - A kind of industrial hot water energy conservation feeding mechanism - Google Patents

Abstract

The utility model relates to industrial hot water supply equipment field more particularly to a kind of industrial hot water energy conservation feeding mechanisms.Adopt the following technical scheme that a kind of industrial hot water energy conservation feeding mechanism, including air energy heat pump, heat-exchanging water tank and aqueduct, heat exchanger tube is provided in heat-exchanging water tank, the heat transferring medium of air energy heat pump flows through the heat exchanger tube of heat-exchanging water tank, aqueduct includes water inlet pipe and outlet pipe, water inlet pipe connection water source and the water inlet for being connected to heat-exchanging water tank, outlet pipe, which connects the water outlet of heat-exchanging water tank and is connected to hot water, uses equipment, branch's outlet pipe is also connected on outlet pipe, heat exchange pipeline is provided in heat-preserving equipment, branch's outlet pipe is connected to the input port of the heat exchange pipeline of heat-preserving equipment.Advantage is: being heated using air energy heat pump to water, hot water is used for hot water using equipment and heat-preserving equipment simultaneously, carries out heating and thermal insulation by using the heat exchanger tube of the warm equipment of hot water stream, without frequently opening and closing electrothermal tube, play energy-saving and environment-friendly effect.

Description

A kind of industrial hot water energy conservation feeding mechanism

Technical field

The utility model relates to industrial hot water supply equipment field more particularly to a kind of energy saving water supply devices.

Background technique

In industrial processes, need to carry out heating and thermal insulation to some liquid, and maintain in some temperature range, one As be to be heated using electrothermal tube by the way of, under some pairs of higher occasions of temperature control requirement, using electrothermal tube Carrying out heating needs frequent starting to close electrothermal tube, can not only accelerate the aging of electrothermal tube, be easy to appear safety failure, while It is easy to cause temperature control, causes unnecessary loss.

Summary of the invention

The purpose of this utility model is to provide a kind of industrial hot water energy conservation feeding mechanisms, are characterized in particular in and provide a kind of utilization Air can be carried out hot water supply while carry out the device of Heat preservation.

In order to achieve the above objectives, the utility model adopts the following technical solution: a kind of industrial hot water energy conservation feeding mechanism, packet Air energy heat pump, heat-exchanging water tank and aqueduct are included, heat exchanger tube is provided in heat-exchanging water tank, the heat transferring medium of air energy heat pump is defeated The input port of outlet connection heat exchanger tube, the heat transferring medium input port of the delivery outlet connection air energy heat pump of heat exchanger tube, aqueduct Including water inlet pipe and outlet pipe, water inlet pipe connection water source and the water inlet for being connected to heat-exchanging water tank, outlet pipe connect heat-exchanging water tank Water outlet and be connected to hot water using equipment, branch's outlet pipe is also connected on outlet pipe, the connection heat preservation of branch's outlet pipe is set It is standby, heat exchange pipeline is provided in heat-preserving equipment, branch's outlet pipe is connected to the input port of the heat exchange pipeline of heat-preserving equipment.

Further, solenoid valve is provided on branch's outlet pipe, the control terminal of the solenoid valve is connected with a temperature detect switch (TDS) The temperature sensor of connection, temperature detect switch (TDS) is arranged inside heat-preserving equipment.

Further, the delivery outlet of the heat exchange pipeline of heat-preserving equipment passes through the water inlet pipe one of return pipe and the aqueduct With the water inlet of connection heat-exchanging water tank.

Further, circulating pump is connected on return pipe.

Further, the delivery outlet of the heat exchange pipeline of heat-preserving equipment is also connected to warm water by warm water tube and uses equipment.

Further, the delivery outlet of the heat exchange pipeline of heat-preserving equipment also passes through water supply pipe and is connected to hot water together with outlet pipe Use equipment.

Further, outlet pipe and hot water are connected using between equipment by the first water valve, branch's outlet pipe and guarantor It is connected between the input port of the heat exchange pipeline of warm equipment by the second water valve.

Further, warm water tube and warm water are connected using between equipment by third water valve.

Further, water supply pipe and hot water are using being provided with the 4th water valve between equipment.

Utility model has the advantages that being heated by using air energy heat pump to water, and hot water is used for simultaneously Hot water uses equipment and heat-preserving equipment, heating and thermal insulation is carried out by using the heat exchanger tube of the warm equipment of hot water stream, without frequent Electrothermal tube is opened and closed, energy-saving and environment-friendly effect is played, and the hot water for flowing through heat-preserving equipment is recycled, to further mention High energy-saving effect.

Detailed description of the invention

Attached drawing 1 is a kind of overall construction drawing of the industrial hot water energy conservation feeding mechanism of embodiment 1；

Attached drawing 2 only passes through structural representation of the return line flow to heat-exchanging water tank to flow through the warm water of heat-preserving equipment in embodiment 1 Figure；

Attached drawing 3 only passes through the structure that warm water tube flows to warm water using equipment to flow through the warm water of heat-preserving equipment in embodiment 1 Schematic diagram；

Attached drawing 4 only passes through the structure that water supply pipe flows to hot water using equipment to flow through the warm water of heat-preserving equipment in embodiment 1 Schematic diagram.

Specific embodiment

Embodiment 1: referring to Fig.1-4, a kind of industrial hot water energy conservation feeding mechanism, including air energy heat pump 1, heat-exchanging water tank 2 And aqueduct, heat exchanger tube 20 is provided in heat-exchanging water tank 2, the heat transferring medium delivery outlet 11 of air energy heat pump 1 connects heat exchanger tube Input port 21, heat exchanger tube delivery outlet 22 connect the heat transferring medium input port 12 of air energy heat pump 1, and aqueduct includes water inlet pipe 31 With outlet pipe 32, water inlet pipe 31 connects water source and is connected to the water inlet of heat-exchanging water tank 2, and outlet pipe 32 connects heat-exchanging water tank 2 Water outlet is simultaneously connected to hot water using equipment 4, and branch's outlet pipe 33 is also connected on outlet pipe 32, and the connection of branch's outlet pipe 33 is protected Warm equipment 5, heat exchange pipeline 51 is provided in heat-preserving equipment 5, and branch's outlet pipe 33 is connected to the defeated of the heat exchange pipeline 51 of heat-preserving equipment 5 Entrance.

In the present embodiment, the water flowed through in heat-exchanging water tank 2 is heated by using air energy heat pump 1, specifically, Air energy heat pump 1 is heated by exchange thermal medium and flows through the heat exchanger tube 20 in heat-exchanging water tank 2, so that heat exchanger tube 20 be made to send out Heat, and then heat to the water for flowing through heat-exchanging water tank 2 returns after heat transferring medium is flowed through from the heat exchanger tube 20 in heat-exchanging water tank 2 Circulating-heating is carried out into air energy heat pump 1, wherein air energy heat pump 1, which heats the cold air generated after heat transferring medium, can pass through pipe Road arrange to need cool down or freeze place, as the return air inlet of central air-conditioning or other need the position of cold air；In addition, from heat exchange The hot water flowed out in water tank 2 is that hot water is supplied water using equipment 4 by outlet pipe 32, at the same time, is flowed out from heat-exchanging water tank 2 Hot water can also flow to heat-preserving equipment 5 by branch's outlet pipe 33, specifically, the heat exchange pipeline in the warm equipment 5 of hot water stream 51, so that in the present embodiment by taking supersonic wave cleaning machine as an example, hot water is used to the liquid progress heating and thermal insulation in heat-preserving equipment 5 Equipment 4 is slow kerve and potcher, and according to the actual situation or other need the equipment using hot water, meanwhile, in order to control Coolant-temperature gage is heated, hot water can be connected using cold water pipe 6 is connected simultaneously at equipment 4 in outlet pipe 32, cold water is adjusted by water valve The cold water flow of pipe 6 come control flow to hot water use equipment 4 hot water temperature, heat-preserving equipment 5 then be supersonic wave cleaning machine medicine Sink, the liquid medicine in processing solution tank flow through liquid medicine pair slot by circulating pump and carry out circulating-heating, and the heat exchange pipeline 51 of heat-preserving equipment 5 is set It sets in liquid medicine pair slot, the hot water flowed out from branch's outlet pipe 33 flows through the heat exchange pipeline 51 of liquid medicine pair slot thus to liquid medicine is flowed through The liquid medicine of secondary slot is heated, to keep the temperature of liquid medicine in processing solution tank.The heat exchanger tube of heat-preserving equipment 5 is flowed through using hot water Road passes through the stream of heat exchange pipeline 51 in the control warm equipment 5 of hot water stream to keep the temperature to the liquid in heat-preserving equipment 5 Amount closes without frequently control electric heating tube starting to control the degree of heat to heat-preserving equipment 5, not only reduces cost, also rise To energy saving effect.

In addition, in order to control respectively outlet pipe 32 and branch water pipe 33, outlet pipe 32 and hot water using equipment 4 it Between connected by the first water valve 61, pass through second between the input port of the heat exchange pipeline 51 of branch's outlet pipe 33 and heat-preserving equipment 5 Water valve 62 connects.

By controlling the opening and closing of the first water valve 61, can control whether to hot water using 4 supplying hot water of equipment, pass through Whether the opening and closing for controlling the second water valve 62 can control to 5 hot-water supply of heat-preserving equipment.

Further, solenoid valve 331, the control terminal and a temperature control of the solenoid valve 331 are provided on branch's outlet pipe 33 Switch is connected in series, and the temperature sensor of temperature detect switch (TDS) is arranged inside heat-preserving equipment 5.

In a further embodiment, it can be automatically stopped when reaching requirement for the temperature in heat-preserving equipment 5 to heat preservation Solenoid valve 331, unlatching and pass by temperature switch to solenoid valve 331 is arranged in 5 hot-water supply of equipment on branch's outlet pipe 33 It closes and is controlled, when the temperature sensor of temperature switch detects that the temperature in heat-preserving equipment 5 reaches requirement, i.e., controllable temperature Degree switch is closed, so that solenoid valve 331 be made to close, makes hot water stop flowing to the heat exchange pipeline 51 in heat-preserving equipment 5, to stop Heating and thermal insulation.

Further, the delivery outlet of the heat exchange pipeline 51 of heat-preserving equipment 5 passes through the water inlet pipe of return pipe 52 and aqueduct 31 connect the water inlet of heat-exchanging water tank 2 together.

In a further embodiment, the hot water for flowing through heat-preserving equipment 5 becomes after carrying out heating and thermal insulation to heat-preserving equipment 5 Warm water, warm water are delivered in heat-exchanging water tank 2 by return pipe 52 and are further heated, so as to so that waste heat in warm water It is recycled, to reach further energy-efficient effect.

Preferably, circulating pump 521 is connected on return pipe 52.Circulating pump 521 can be improved water in return pipe 52 and return The pressure of stream, to guarantee that the water energy in return pipe 52 is flowed back into time in heat-exchanging water tank 2.

In a further embodiment, the delivery outlet of the heat exchange pipeline 51 of heat-preserving equipment 5 can also be connected by warm water tube 53 Logical warm water uses equipment 7.The warm water flowed out from the heat exchange pipeline 51 of heat-preserving equipment 5 can also be connected to warm water using equipment 7, use In the equipment of less demanding to water temperature.Warm water after flowing through the heat exchange pipeline 51 of heat-preserving equipment 5 can individually be set to warm water use Standby 7 supply water, and according to the actual situation, while can also be supplied water to warm water using equipment 7 and are back to by return pipe 52 Heat-exchanging water tank 2 is heated, and can be specifically adjusted using equipment 7 to the demand of warm water according to warm water.

Specifically, warm water tube 53 and warm water are using third water valve 63 is connected between equipment 7, third water valve 63 is for controlling Whether warm water tube 53 to warm water supplies warm water using equipment 7, can be carried out using equipment 7 to the service condition of warm water according to warm water It adjusts.

In a further embodiment, the delivery outlet of the heat exchange pipeline 51 of heat-preserving equipment 5 can also by water supply pipe 54 with Outlet pipe 32 is connected to hot water together and uses equipment 4.The warm water flowed through from the heat exchange pipeline 51 of heat-preserving equipment 5 can also be connected to Hot water uses equipment 4, the hot water that temperature is suitble to hot water to use using equipment 4 is mixed to get by warm water and hot water, compared with direct It is mixed using cold water with hot water, it is possible to reduce the usage amount of hot water reaches energy-efficient effect.Flow through the heat exchanger tube of heat-preserving equipment 5 Warm water behind road 51 can individually be supplied water to warm water using equipment 7, individually can also use 4 auxiliary water supply of equipment to hot water, Can both carry out simultaneously, while in the case where warm water amount abundance, can also be back to by return pipe 52 heat-exchanging water tank 2 into Row heating.

Specifically, water supply pipe 54 and hot water are using being provided with the 4th water valve 64 between equipment 4.4th water valve 64 is for adjusting Water supply pipe 54 flows to hot water using the water of the warm water of equipment 4, cooperates with the first water valve 61, uses equipment to adjust to hot water 4 provide the temperature of hot water.

Certainly, the above is only the preferred embodiment of the utility model, and the use scope of the utility model is not limited with this, Therefore it is all made in the utility model principle it is equivalent change should be included in the protection scope of utility model.

Claims (9)

1. a kind of industrial hot water energy conservation feeding mechanism, including air energy heat pump, heat-exchanging water tank and aqueduct, set in heat-exchanging water tank It is equipped with heat exchanger tube, the input port of the heat transferring medium delivery outlet connection heat exchanger tube of air energy heat pump, the delivery outlet of heat exchanger tube connects empty The heat transferring medium input port of gas energy heat pump, it is characterised in that: the aqueduct includes water inlet pipe and outlet pipe, water inlet pipe connection Water source and the water inlet for being connected to heat-exchanging water tank, the outlet pipe connect the water outlet of heat-exchanging water tank and are connected to hot water use and set It is standby, branch's outlet pipe is also connected on the outlet pipe, branch's outlet pipe connects heat-preserving equipment, is provided in heat-preserving equipment Heat exchange pipeline, the input port of the heat exchange pipeline of branch's outlet pipe connection heat-preserving equipment.

2. a kind of industrial hot water energy conservation feeding mechanism according to claim 1, it is characterised in that: on branch's outlet pipe It is provided with solenoid valve, the control terminal of the solenoid valve and a temperature detect switch (TDS) are connected in series, the temperature sensor of the temperature detect switch (TDS) It is arranged inside heat-preserving equipment.

3. a kind of industrial hot water energy conservation feeding mechanism according to claim 2, it is characterised in that: the heat-preserving equipment changes The delivery outlet of heat pipeline connects the water inlet of heat-exchanging water tank by return pipe together with the water inlet pipe of the aqueduct.

4. a kind of industrial hot water energy conservation feeding mechanism according to claim 3, it is characterised in that: connected on the return pipe It is provided with circulating pump.

5. a kind of industrial hot water energy conservation feeding mechanism according to claim 2, it is characterised in that: the heat-preserving equipment changes The delivery outlet of heat pipeline is also connected to warm water by warm water tube and uses equipment.

6. a kind of industrial hot water energy conservation feeding mechanism according to claim 5, it is characterised in that: the heat-preserving equipment changes The delivery outlet of heat pipeline also passes through water supply pipe and is connected to hot water together with outlet pipe using equipment.

7. a kind of industrial hot water energy conservation feeding mechanism according to claim 1-6, it is characterised in that: the water outlet Pipe and hot water are connected using between equipment by the first water valve, the input of the heat exchange pipeline of branch's outlet pipe and heat-preserving equipment It is connected between mouthful by the second water valve.

8. according to a kind of described in any item industrial hot water energy conservation feeding mechanisms of claim 5-6, it is characterised in that: the warm water Pipe and warm water are connected using between equipment by third water valve.

9. a kind of industrial hot water energy conservation feeding mechanism according to claim 6, it is characterised in that: the water supply pipe and hot water Using being provided with the 4th water valve between equipment.