CN104501375A - Energy-saving air-conditioning heat recovery hot water system - Google Patents

Abstract

The invention discloses an energy-saving air-conditioning heat recovery hot water system, which comprises a water-water heat exchange unit, air-conditioning water tanks, hot water tanks, water storage tanks and a steam-water heat exchange unit, wherein the water-water heat exchange unit comprises water-water plate heat exchangers; each water-water plate heat exchanger is provided with a first water inlet, a second water inlet, a first water outlet and a second water outlet; the first water inlets are communicated with the first water outlets; the second water inlets are communicated with the second water outlets; the steam-water heat exchange unit comprises steam-water plate heat exchangers. According to the system, high-temperature air-conditioning water is cooled by the water-water heat exchange unit, and then flows back to an air-conditioning main unit for reuse, and meanwhile, domestic water is heated to provide hot water for a user, so that air-conditioning heat is effectively recovered, heat loss is avoided, and the system is energy-saving and environment-friendly; meanwhile, the hot water is heated to temperature required by the user by virtue of the steam-water heat exchange unit, so that convenience is brought to the use of the user.

Description

Air conditioner heat reclaims energy-saving hot-water system

Technical field

The present invention relates to hot-water heating system art, refer in particular to a kind of air conditioner heat and reclaim energy-saving hot-water system.

Background technology

In today that the energy is more and more deficienter, energy-saving and emission-reduction receive very large attention, particularly have domestic hot-water's demand for some, and the public building that energy consumption is larger, energy-saving and cost-reducing imperative.Heat pump type air conditioning system is widely applied because one machine can realize the advantage such as cooling and warming, energy-conserving and environment-protective.

Heat pump type air conditioning system usually can produce a large amount of high-temperature cooling water in the process of work; these cooling waters are back to air-conditioner host after usually discharging or input to cooling tower cooling; said method does not all effectively reclaim heat, causes heat losses, does not meet energy-conserving and environment-protective.

Summary of the invention

In view of this, the present invention is directed to the disappearance of prior art existence, its main purpose is to provide a kind of air conditioner heat and reclaims energy-saving hot-water system, and it effectively can solve the problem that existing air conditioner heat can not obtain effective recycling.

For achieving the above object, the present invention adopts following technical scheme:

A kind of air conditioner heat reclaims energy-saving hot-water system, includes water water heat-exchange unit, air-conditioning water pot, hot-water cylinder, water tank and steam-water heat exchanging unit;

This water water heat-exchange unit includes water water plate type heat exchanger, this water water plate type heat exchanger has the first water inlet, the second water inlet, the first delivery port and the second delivery port, this first water inlet is communicated with the first delivery port, second water inlet is communicated with the second delivery port, this first water inlet is connected with the first water inlet pipe, second water inlet is connected with the second water inlet pipe, first delivery port is connected with the first outlet pipe, second delivery port connects the second outlet pipe, this first water inlet pipe is provided with the first circulating pump, the second water inlet pipe is provided with the second circulating pump;

This air-conditioning water pot is be communicated with setting successively multiple, the delivery port of air-conditioner host is communicated with first air-conditioning water pot, aforementioned first water inlet pipe is also communicated with first air-conditioning water pot, and the water inlet of air-conditioner host is communicated with last air-conditioning water pot, and aforementioned first outlet pipe is also communicated with last air-conditioning water pot;

This hot-water cylinder is be communicated with setting successively multiple, and first hot-water cylinder is connected with make-up pipe, and aforementioned second water inlet pipe is communicated with first hot-water cylinder, and aforementioned second outlet pipe is communicated with last hot-water cylinder;

This water tank is multiple, each water tank all has the 3rd water inlet, the 3rd delivery port, the 4th water inlet, the 4th delivery port and the 5th delivery port, 3rd water inlet is communicated with last hot-water cylinder aforementioned and make-up pipe, 4th delivery port, by the water inlet of aforementioned first hot-water cylinder of the first pipeline communication, this first pipeline is provided with the 3rd circulating pump;

This steam-water heat exchanging unit includes carbonated drink plate type heat exchanger, this carbonated drink plate type heat exchanger has the 6th water inlet, the 6th delivery port, steam inlet and steam (vapor) outlet, 6th water inlet is communicated with the 6th delivery port, 6th water inlet is communicated with aforementioned 3rd delivery port by the 3rd water inlet pipe, 3rd water inlet pipe is provided with the 4th circulating pump, 6th delivery port is communicated with aforementioned 4th water inlet by the 3rd outlet pipe, this steam inlet is communicated with steam (vapor) outlet, this steam inlet is connected with steam input pipe, and this steam (vapor) outlet is connected with steam output pipe.

As a kind of preferred version, described water water plate type heat exchanger is two, has all been arranged in parallel two first circulating pumps and has been arranged in parallel two second circulating pumps for each water water plate type heat exchanger.

As a kind of preferred version, between described first water inlet pipe and the first outlet pipe, be provided with the first temperature adjustment pipe, between the second water inlet pipe and the second outlet pipe, be provided with the second temperature adjustment pipe, this first temperature adjustment pipe and the second temperature adjustment pipe are provided with control valve.

As a kind of preferred version, described 3rd circulating pump is two that are arranged in parallel.

As a kind of preferred version, described 4th circulating pump is two that are arranged in parallel.

As a kind of preferred version, described carbonated drink plate type heat exchanger is two that are arranged in parallel.

As a kind of preferred version, described steam input pipe is provided with Desuperheating device, this Desuperheating device includes shell and is arranged at the steam pipe coil in shell, the two ends of this shell are respectively arranged with the 7th water inlet and the 7th delivery port, 7th water inlet is communicated with the 3rd water inlet pipe, 7th delivery port is communicated with the 3rd outlet pipe, and steam pipe coil and steam input pipe are connected in series.

As a kind of preferred version, include control cabinet further, this steam input pipe is provided with electric control valve, this electric control valve is connected with Desuperheating device, 3rd outlet pipe is provided with temperature sensor, this temperature sensor and the equal connection control case of electric control valve.

As a kind of preferred version, described first air-conditioning water pot, the first water inlet pipe, the second water inlet pipe, the second outlet pipe, first hot-water cylinder, water tank and the 3rd outlet pipe are provided with temperature sensor.

As a kind of preferred version, described air-conditioning water pot, hot-water cylinder and water tank are vertical bearing tank, and this air-conditioning water pot is five, and hot-water cylinder is four, and water tank is eight.

The present invention compared with prior art has obvious advantage and beneficial effect, specifically, as shown from the above technical solution:

Air-conditioner host recycling is back to after making the air conditioner water of high temperature reduce temperature by utilizing water water heat-exchange unit, make domestic water raise simultaneously, use to user to provide hot water, effectively achieve the recovery of air conditioner heat, avoid heat losses, meet energy-conserving and environment-protective, simultaneously, utilize steam-water heat exchanging unit hot water to be increased to the temperature needed for user, for the use of user is provided convenience.

For more clearly setting forth architectural feature of the present invention and effect, below in conjunction with accompanying drawing and specific embodiment, the present invention is described in detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of the preferred embodiment of the present invention;

Fig. 2 is the enlarged diagram of water water heat-exchange unit in the preferred embodiment of the present invention;

Fig. 3 is the first close-up schematic view of the preferred embodiment of the present invention;

Fig. 4 is the second close-up schematic view of the preferred embodiment of the present invention;

Fig. 5 is the 3rd close-up schematic view of the preferred embodiment of the present invention;

Fig. 6 is the enlarged diagram of steam-water heat exchanging unit in the preferred embodiment of the present invention.

Accompanying drawing identifier declaration:

10, water water heat-exchange unit 11, water water plate type heat exchanger

111, the first water inlet 112, second water inlet

113, the first delivery port 114, second delivery port

12, the first water inlet pipe 13, second water inlet pipe

14, the first outlet pipe 15, second outlet pipe

16, the first circulating pump 17, second circulating pump

18, the first temperature adjustment pipe 19, second temperature adjustment pipe

101, control valve 102, make-up pipe

103, temperature sensor 20, air-conditioning water pot

30, hot-water cylinder 40, water tank

41, the 3rd water inlet 42, the 3rd delivery port

43, the 4th water inlet 44, the 4th delivery port

45, the 5th delivery port 46, first pipeline

47, the 3rd circulating pump 50, steam-water heat exchanging unit

51, carbonated drink plate type heat exchanger 511, the 6th water inlet

512, the 6th delivery port 513, steam inlet

514, steam (vapor) outlet 52, the 3rd water inlet pipe

53, the 4th circulating pump 54, the 3rd outlet pipe

55, steam input pipe 56, steam output pipe

57, Desuperheating device 571, shell

572, steam pipe coil 58, control cabinet

59, electric control valve 501, the 7th water inlet

502, the 7th delivery port 503, temperature sensor

60, air-conditioner host.

Detailed description of the invention

Please refer to shown in Fig. 1 to Fig. 6, that show the concrete structure of the preferred embodiment of the present invention, include water water heat-exchange unit 10, air-conditioning water pot 20, hot-water cylinder 30, water tank 40 and steam-water heat exchanging unit 50.

Wherein, as shown in Figure 2, this water water heat-exchange unit 10 includes water water plate type heat exchanger 11, this water water plate type heat exchanger 11 has the first water inlet 111, second water inlet 112, first delivery port 113 and the second delivery port 114, this first water inlet 111 is communicated with the first delivery port 113, second water inlet 112 is communicated with the second delivery port 114, this first water inlet 111 is connected with the first water inlet pipe 12, second water inlet 112 is connected with the second water inlet pipe 13, first delivery port 113 is connected with the first outlet pipe 14, second delivery port 114 connects the second outlet pipe 15, this first water inlet pipe 12 is provided with the first circulating pump 16, second water inlet pipe 13 is provided with the second circulating pump 17.In the present embodiment, this water water plate type heat exchanger 11 is two, one of them water water plate type heat exchanger 11 is for subsequent use, two water water plate type heat exchangers 11 can use individually or simultaneously, all be arranged in parallel two first circulating pumps 16 for each water water plate type heat exchanger and be arranged in parallel two second circulating pumps 17, one of them first circulating pump 16 of first circulating pump 16 of two parallel connections is for subsequent use, and one of them second circulating pump 17 of the second circulating pump 17 of two parallel connections is for subsequent use.And, the first temperature adjustment pipe 18 is provided with between this first water inlet pipe 12 and first outlet pipe 14, the second temperature adjustment pipe 19 is provided with between second water inlet pipe 13 and the second outlet pipe 15, this the first temperature adjustment pipe 18 and the second temperature adjustment pipe 19 are provided with control valve 101, so as required the water in the first water inlet pipe 12 can directly be introduced the first outlet pipe 14, the water of the second water inlet pipe 13 is directly introduced the second outlet pipe 15, to realize lower water temperature.

This air-conditioning water pot 20, hot-water cylinder 30 and water tank 40 are vertical bearing tank; As shown in Figure 3, this air-conditioning water pot 20 is for be communicated with the multiple of setting successively, in the present embodiment, this air-conditioning water pot 20 is five, and the quantity of air-conditioning water pot 20 is not limit, and can carry out increasing or reducing according to actual needs, the delivery port of air-conditioner host 60 is communicated with first air-conditioning water pot 20, aforementioned first water inlet pipe 12 is also communicated with first air-conditioning water pot 20, and the water inlet of air-conditioner host 60 is communicated with last air-conditioning water pot 20, and aforementioned first outlet pipe 14 is also communicated with last air-conditioning water pot 20.

As shown in Figure 4, this hot-water cylinder 30 is for be communicated with the multiple of setting successively, in the present embodiment, hot-water cylinder 30 is four, the quantity of hot-water cylinder 30 is not limit, and can carry out increasing or reducing according to actual needs, first hot-water cylinder 30 is connected with make-up pipe 102, aforementioned second water inlet pipe 13 is communicated with first hot-water cylinder 30, and aforementioned second outlet pipe 15 is communicated with last hot-water cylinder 30.

As shown in Figure 5, this water tank 40 is multiple, in the present embodiment, water tank 40 is eight, the quantity of water tank 40 is not limit, can carry out increasing or reducing according to actual needs, each water tank 40 all has the 3rd water inlet 41, 3rd delivery port 42, 4th water inlet 43, 4th delivery port 44 and the 5th delivery port 45, 3rd water inlet 41 is communicated with last hot-water cylinder 30 aforementioned and make-up pipe 102, 4th delivery port 44 is communicated with the water inlet of aforementioned first hot-water cylinder 30 by the first pipeline 46, this first pipeline 46 is provided with the 3rd circulating pump 47, in the present embodiment, 3rd circulating pump 47 is two of being arranged in parallel, one of them the 3rd circulating pump 47 is for subsequent use, two the 3rd circulating pumps 47 can or work independently simultaneously.

As shown in Figure 6, this steam-water heat exchanging unit 50 includes carbonated drink plate type heat exchanger 51, this carbonated drink plate type heat exchanger 51 has the 6th water inlet 511, 6th delivery port 512, steam inlet 513 and steam (vapor) outlet 514, 6th water inlet 511 is communicated with the 6th delivery port 512, 6th water inlet 511 is communicated with aforementioned 3rd delivery port 42 by the 3rd water inlet pipe 52, 3rd water inlet pipe 52 is provided with the 4th circulating pump 53, in the present embodiment, 4th circulating pump 53 is two of being arranged in parallel, one of them the 4th circulating pump 53 is for subsequent use, two the 4th circulating pumps 53 can or work independently simultaneously, 6th delivery port 512 is communicated with aforementioned 4th water inlet 43 by the 3rd outlet pipe 54, this steam inlet 513 is communicated with steam (vapor) outlet 514, this steam inlet 513 is connected with steam input pipe 55, this steam (vapor) outlet 514 is connected with steam output pipe 56.In the present embodiment, this carbonated drink plate type heat exchanger 51 is two of being arranged in parallel, and one of them carbonated drink plate type heat exchanger 51 is for subsequent use, and two carbonated drink plate type heat exchangers 51 can or work independently simultaneously.

And, this steam input pipe 55 is provided with Desuperheating device 57, this Desuperheating device 57 includes shell 571 and is arranged at the steam pipe coil 572 in shell 571, the two ends of this shell 571 are respectively arranged with the 7th water inlet 501 and the 7th delivery port 502, 7th water inlet 501 is communicated with the 3rd water inlet pipe 52, 7th delivery port 502 is communicated with the 3rd outlet pipe 54, steam pipe coil 572 and steam input pipe 55 are connected in series, so when steam input pipe 55 temperature is too high, water lower for temperature in 3rd water inlet pipe 52 can be introduced in shell 571, vapor (steam) temperature is reduced, the steam avoiding temperature too high inputs in carbonated drink plate type heat exchanger 51 and causes damage to carbonated drink plate type heat exchanger 51, water after temperature raises exports in the 3rd outlet pipe 54 from the 7th delivery port 502.In addition, include control cabinet 58 further, this steam input pipe 55 is provided with electric control valve 59, this electric control valve 59 is connected with Desuperheating device 57,3rd outlet pipe 54 is provided with temperature sensor 503, this temperature sensor 503 and electric control valve 59 all connection control casees 58, so, automatically open electric control valve 59 as required steam is inputed in carbonated drink plate type heat exchanger 51, utilize high-temperature steam to carry out heat temperature raising to water.

In addition, this first air-conditioning water pot 20, first water inlet pipe 12, second water inlet pipe 13, second outlet pipe 15, first hot-water cylinder 30, water tank 40 and the 3rd outlet pipe 54 are provided with temperature sensor 103, with the temperature of each position of detecting real-time.

The course of work that the present embodiment is described in detail in detail is as follows:

During work, the high-temperature air conditioner water that air-conditioner host 60 produces inputs to first air-conditioning water pot 20, when air conditioner water overfill in first air-conditioning water pot 20, air conditioner water overflow is in each air-conditioning water pot 20, air conditioner water in first air-conditioning water pot 20 exports and enters in water water plate type heat exchanger 11 through the first water inlet pipe 12 under the effect of the first circulating pump 16, its temperature of air conditioner water of first air-conditioning water pot 20 output is generally 60 DEG C, then, in water water plate type heat exchanger 11, air conditioner water exports through cooling and inputs in last air-conditioning water pot 20, air conditioner water temperature is now down to 16 DEG C, can input in air-conditioner host 60 and recycle.

Meanwhile, the water of first hot-water cylinder 30 is generally from make-up pipe 102, its temperature is lower, generally only have 15 DEG C, the water of first hot-water cylinder 30 exports and enters in water water plate type heat exchanger 11 through the second water inlet pipe 13 under the effect of the second circulating pump 17, then, in water water plate type heat exchanger 11, water exports through heating up and inputs in last hot-water cylinder 30, its temperature of water in last hot-water cylinder 30 generally can reach 59 DEG C, be available for users to use, after last hot-water cylinder 30 is filled, hot water successively overflow in each hot-water cylinder 30.

And, the hot water of last hot-water cylinder 30 can input in each water tank 40, when the hot water in water tank 40 needs again to heat up, hot water in water tank 40 can be inputed in steam-water heat exchanging unit 50, utilize high-temperature steam to heat up further to hot water, the water after again heating up can export for user from the 5th delivery port 45.If when the hot water demand's temperature rising number of degrees in water tank 40 are little, can be extracted out by water in water tank 40 under the effect of the 3rd circulating pump 47 inputs in first hot-water cylinder 30, then, inputing in water water plate type heat exchanger 11 makes water temperature raise again, and the water after intensification can be back in water tank 40.

Design focal point of the present invention is: be back to air-conditioner host recycling after making the air conditioner water of high temperature reduce temperature by utilizing water water heat-exchange unit, make domestic water raise simultaneously, use to user to provide hot water, effectively achieve the recovery of air conditioner heat, avoid heat losses, meet energy-conserving and environment-protective, simultaneously, utilize steam-water heat exchanging unit hot water to be increased to the temperature needed for user, for the use of user is provided convenience.

The above, it is only preferred embodiment of the present invention, not technical scope of the present invention is imposed any restrictions, thus every above embodiment is done according to technical spirit of the present invention any trickle amendment, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (10)

1. air conditioner heat reclaims an energy-saving hot-water system, it is characterized in that: include water water heat-exchange unit, air-conditioning water pot, hot-water cylinder, water tank and steam-water heat exchanging unit;

This water water heat-exchange unit includes water water plate type heat exchanger, this water water plate type heat exchanger has the first water inlet, the second water inlet, the first delivery port and the second delivery port, this first water inlet is communicated with the first delivery port, second water inlet is communicated with the second delivery port, this first water inlet is connected with the first water inlet pipe, second water inlet is connected with the second water inlet pipe, first delivery port is connected with the first outlet pipe, second delivery port connects the second outlet pipe, this first water inlet pipe is provided with the first circulating pump, the second water inlet pipe is provided with the second circulating pump;

This air-conditioning water pot is be communicated with setting successively multiple, the delivery port of air-conditioner host is communicated with first air-conditioning water pot, aforementioned first water inlet pipe is also communicated with first air-conditioning water pot, and the water inlet of air-conditioner host is communicated with last air-conditioning water pot, and aforementioned first outlet pipe is also communicated with last air-conditioning water pot;

This hot-water cylinder is be communicated with setting successively multiple, and first hot-water cylinder is connected with make-up pipe, and aforementioned second water inlet pipe is communicated with first hot-water cylinder, and aforementioned second outlet pipe is communicated with last hot-water cylinder;

This water tank is multiple, each water tank all has the 3rd water inlet, the 3rd delivery port, the 4th water inlet, the 4th delivery port and the 5th delivery port, 3rd water inlet is communicated with last hot-water cylinder aforementioned and make-up pipe, 4th delivery port, by the water inlet of aforementioned first hot-water cylinder of the first pipeline communication, this first pipeline is provided with the 3rd circulating pump;

This steam-water heat exchanging unit includes carbonated drink plate type heat exchanger, this carbonated drink plate type heat exchanger has the 6th water inlet, the 6th delivery port, steam inlet and steam (vapor) outlet, 6th water inlet is communicated with the 6th delivery port, 6th water inlet is communicated with aforementioned 3rd delivery port by the 3rd water inlet pipe, 3rd water inlet pipe is provided with the 4th circulating pump, 6th delivery port is communicated with aforementioned 4th water inlet by the 3rd outlet pipe, this steam inlet is communicated with steam (vapor) outlet, this steam inlet is connected with steam input pipe, and this steam (vapor) outlet is connected with steam output pipe.

2. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: described water water plate type heat exchanger is two, has all been arranged in parallel two first circulating pumps and has been arranged in parallel two second circulating pumps for each water water plate type heat exchanger.

3. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: between described first water inlet pipe and the first outlet pipe, be provided with the first temperature adjustment pipe, be provided with the second temperature adjustment pipe between second water inlet pipe and the second outlet pipe, this first temperature adjustment pipe and the second temperature adjustment pipe are provided with control valve.

4. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: described 3rd circulating pump is two that are arranged in parallel.

5. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: described 4th circulating pump is two that are arranged in parallel.

6. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: described carbonated drink plate type heat exchanger is two that are arranged in parallel.

7. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: described steam input pipe is provided with Desuperheating device, this Desuperheating device includes shell and is arranged at the steam pipe coil in shell, the two ends of this shell are respectively arranged with the 7th water inlet and the 7th delivery port, 7th water inlet is communicated with the 3rd water inlet pipe, 7th delivery port is communicated with the 3rd outlet pipe, and steam pipe coil and steam input pipe are connected in series.

8. air conditioner heat according to claim 7 reclaims energy-saving hot-water system, it is characterized in that: include control cabinet further, this steam input pipe is provided with electric control valve, this electric control valve is connected with Desuperheating device, 3rd outlet pipe is provided with temperature sensor, this temperature sensor and the equal connection control case of electric control valve.

9. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, it is characterized in that: described first air-conditioning water pot, the first water inlet pipe, the second water inlet pipe, the second outlet pipe, first hot-water cylinder, water tank and the 3rd outlet pipe are provided with temperature sensor.

10. air conditioner heat according to claim 1 reclaims energy-saving hot-water system, and it is characterized in that: described air-conditioning water pot, hot-water cylinder and water tank are vertical bearing tank, this air-conditioning water pot is five, and hot-water cylinder is four, and water tank is eight.