CN208253778U - Integrated energy-saving air conditioner - Google Patents

Integrated energy-saving air conditioner Download PDF

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Publication number
CN208253778U
CN208253778U CN201820672340.2U CN201820672340U CN208253778U CN 208253778 U CN208253778 U CN 208253778U CN 201820672340 U CN201820672340 U CN 201820672340U CN 208253778 U CN208253778 U CN 208253778U
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China
Prior art keywords
water tank
coil pipe
pipe case
constant temperature
blower
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Expired - Fee Related
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CN201820672340.2U
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Chinese (zh)
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何顺利
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何顺利
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Abstract

The utility model discloses a kind of integrated energy-saving air conditioners, including cabinet, refrigeration system, heating system, water circulation system and controller;The water circulation system includes constant temperature water tank, the first blower, coil pipe case and water pump;The coil pipe case is installed on the top of the cabinet and opposite with the air outlet before cabinet, and the air outlet or air intake of first blower are opposite with coil pipe case, is blown out the cold air of coil pipe case from air outlet by the first blower;Connection is connected with coil pipe case by the water pump in the constant temperature water tank, and then recycles thermal conducting agent between constant temperature water tank and coil pipe case;The refrigeration system includes compressor, cooling water tank, heat dissipation pipeline and refrigeration pipeline;The cooling water tank is installed on the lower box and opposite with the subsequent thermovent of cabinet.The utility model reduces the consumption of electric energy, alleviates the pressure of electric power resource, while improving refrigeration effect, avoids complicated installation operation.

Description

Integrated energy-saving air conditioner
Technical field
The utility model relates to air-conditioning technical fields, and in particular to a kind of integrated energy-saving air conditioner.
Background technique
Air-conditioning, that is, air regulator, adjusting temperature, humidity, hanging air conditioner is a kind of for (generally close to area of space Close) unit of processing air temperature variations is provided.Its function is the temperature to room (or enclosure space, region) the interior air The parameters such as degree, humidity, cleanliness and air velocity are adjusted, to meet the requirement of human comfort or technical process.
Air-conditioning is roughly divided into following a few classes: monomer-type (i.e. window machine), wall-hanging, cabinet-type air conditioner, embedded (in insertion ceiling), Suitable air-conditioning type is selected according to actual spatial distribution and space size.These air-conditionings are mainly used for confined space at present Perhaps its refrigeration of heating or heating effect are good for refrigeration, but corresponding power consumption is also relatively high.
In early summer, cooling effect season of less demanding or some areas, are not able to satisfy using fan for cooling effect, And use above-mentioned air-conditioning and special power consumption.In addition, above-mentioned air-conditioning is required to complicated installation.A kind of small-sized air cooler is thus It is born, air cooler is divided into two kinds, and one is only fans and water circulation system, and under the air blast effect of fan, air-flow passes through water Certain cooling effect is obtained after grid, the temperature for the wind for making fan produce by boasting is lower than ambient air temperature, to reach refrigeration Effect.Another is equipped with compressor, is really above-mentioned integrated air container (i.e. window machine), operating mode and integrated air container It is closely similar.
In place of current air cooler comes with some shortcomings, the air cooler of only fan and water circulation system is recycled by water Cool down, but constantly evaporated with dampening, timing is needed to supplement water, once water is in low level, the water pump in water circulation will It can burn out.In addition, this air cooler cooling effect is excessively poor, it is only slightly better than the cooling effect of fan.Another is equipped with The air cooler of compressor, operating mode and window machine are quite similar, and power consumption is high, and energy-saving effect is bad, can only realize partial cooling.
Utility model content
For the defects in the prior art, the utility model provides a kind of integrated energy-saving air conditioner, to reduce disappearing for electric energy Consumption, alleviates the pressure of electric power resource, while improving refrigeration effect, avoids complicated installation operation.
The utility model provides a kind of integrated energy-saving air conditioner, including cabinet, refrigeration system, heating system, water cyclic system System and controller;
The water circulation system includes constant temperature water tank, the first blower, coil pipe case and water pump;The coil pipe case is installed on described The top of cabinet and, air outlet or air intake and the coil pipe case phase of first blower opposite with the air outlet before cabinet It is right, the cold air of coil pipe case or hot gas are blown out from air outlet by the first blower;The constant temperature water tank passes through the water Connection is connected with coil pipe case in pump, and then recycles thermal conducting agent between constant temperature water tank and coil pipe case;
The refrigeration system includes compressor, cooling water tank, heat dissipation pipeline and refrigeration pipeline;The cooling water tank is installed on The lower box and opposite with the subsequent thermovent of cabinet;The heat dissipation pipeline is installed in the cooling water tank, described Refrigeration pipeline is installed in the constant temperature water tank;The outlet of the compressor, heat dissipation pipeline, refrigeration pipeline and compressor into Entrance sequentially turns on connection;
The underface that drip tray and drip tray are located at coil pipe case is equipped between the coil pipe case and cooling water tank, it is described to connect Connection is connected with the cooling water tank in water pond;
The heating system includes the first electric heating tube and the second electric heating tube, and first electric heating tube is installed on described The dead astern of coil pipe case, for being heated to coil pipe case;Second electric heating tube is installed in the constant temperature water tank;
The controller is installed in the cabinet, and controller adds with the water pump, the first blower, the first electricity respectively Heat pipe, the second electric heating tube and compression mechatronics.
Preferably, the inside of the cooling water tank is equipped with baffle, and the inside of cooling water tank is divided into feed liquor by institute's baffle Chamber and exhaust chamber;The side wall of the cooling water tank is equipped with water draining beak, and water draining beak is connected to the exhaust chamber.Admission chamber and row Sap cavity forms linker, since hot water is always positioned above cold water, when the cold water of drip tray constantly flows into admission chamber and sinks To the bottom of cooling water tank, superposed hot water will be constantly discharged from water draining beak.It is this to design the thermal diffusivity for making cooling water tank It can greatly promote, effectively the heat of heat dissipation pipeline is taken away, improves heat dissipation effect.
Preferably, connection is connected with the cooling water tank in the drip tray.
Preferably, the bottom wall of the constant temperature water tank and the bottom wall of cooling water tank are equipped with blowdown penstock.In maintenance, lead to Blowdown penstock is crossed conveniently to discharge the dirt that left behind for a long time.
Preferably, the air outlet of the cabinet and the inside of constant temperature water tank are equipped with temperature sensor, and two temperature Sensor is electrically connected with the controller respectively.When refrigeration, controller is monitored in real time in constant temperature water tank by temperature sensor Temperature, when temperature is lower than set temperature, controller control compressor stops working;Conversely, when temperature is higher than set temperature, Controller controls compressor operating.When heating, controller monitors the temperature of air outlet in real time by temperature sensor, when temperature height When set temperature, controller controls the first electric heating tube and the second electric heating tube stops working;Conversely, when temperature is lower than setting When temperature, controller controls the first electric heating tube and the work of the second electric heating tube.Cooling and warming is fed back by temperature sensor Temperature, automatically adjust temperature, so that this equipment is not freezed always and is wasted electric energy, will not continuous heating and lose components.
Preferably, the thermal conducting agent is anti-icing fluid.It uses anti-icing fluid for thermal conducting agent, avoids thermal conducting agent and pipeline and thermostatted water Case chemically reacts, and prevents from corroding, and prevents foam etc., can also influence to recycle to avoid scale is generated.
Preferably, the surface of the constant temperature water tank is equipped with insulating layer.Insulating layer reduces constant temperature water tank and extraneous ring significantly Heat transmitting occurs for border, improves the heat insulation effect of constant temperature water tank.
Preferably, it is equipped between the water pump and coil pipe case and is set between check valve and the coil pipe case and constant temperature water tank There is pressure valve.The setting of check valve makes thermal conducting agent that can only enter coil pipe case from water pump, prevents from flowing backwards.Only pump working when, disk Hydraulic pressure can be just generated in bobbin carriage, hydraulic pressure opens pressure valve and recycled.When repairing water circulation system, check valve and pressure valve have Effect the thermal conducting agent in water circulation system is prevented to flow out, facilitates maintenance.
Preferably, between the cooling water tank and thermovent be equipped with the second blower, and the air outlet of the second blower and dissipate Hot mouth is opposite.Cooling water tank, compressor and other intracorporal heat generating components of case can generate least a portion of heat, pass through second Even if this least a portion of heat is discharged blower, reduce the influence to the refrigeration effect of this equipment.
Preferably, the roof of the cabinet and side wall are equipped with air inlet, and the thermovent and air inlet are equipped with Filter screen.Filter screen can be dismantled, and the dust on periodic cleaning filter screen improves the dust-proof effect of this equipment.
The beneficial effects of the utility model are embodied in:
The utility model includes cabinet, refrigeration system, heating system, water circulation system and controller, and heating system provides Refrigeration effect makes the thermal conducting agent in constant temperature water tank remain at the temperature of setting, will be in constant temperature water tank by water circulation system Water at low temperature is blown out by coil pipe case and the first blower.Compared to the air cooler of only fan and water circulation system, this equipment it is big Refrigeration effect is improved greatly, meets cooling effect requirement.Because thermal conducting agent recycles in the constant temperature water tank and coil pipe case of sealing, because This in a short time, water circulation system is insufficient there is no thermal conducting agent and makes water pump idle running damage.
Since coil pipe box temperature degree is lower than the temperature of surrounding air, the vapor in air will be in the outer surface liquid of coil pipe case Change, generates a large amount of cold water.Be equipped between coil pipe case and cooling water tank drip tray and drip tray be located at coil pipe case just under These cold water are collected and are flowed into cooling water tank by side, drip tray, and cold water will be flowed into constantly, become hot water after being heated It will be constantly discharged from cooling water tank, heat dissipation pipeline carries out heat exchange in cooling water tank, cools, instead of air-conditioning tradition Condenser radiating mode, avoid using high-power blower to heat dissipation pipeline carry out wind cooling temperature lowering, by cooling water tank Heat is taken away and is discharged in sewer by water, while this heat extraction mode avoids wind-cooling heat dissipating mode and heat is discharged to sky around In gas, constantly increase the temperature of surrounding, influence ambient temperature.For being equipped with the air cooler of compressor, this equipment exists While promoting refrigerating capacity, the electric energy of consumption is lower, alleviates the pressure of electric power resource, is more advantageous to energy conservation.
In addition, this equipment is integral type equipment, avoids the high-altitude that traditional air conditioner is complicated, dangerous and operation is installed.Originally it sets Standby structure is relatively easy, and the difficulty of later period maintenance is low, to reduce maintenance difficulty and reduce maintenance cost.
Detailed description of the invention
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described.In all the appended drawings, similar Element or part are generally identified by similar appended drawing reference.In attached drawing, each element or part might not be according to actual ratios It draws.
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is right view shown in FIG. 1;
Fig. 3 is left view shown in FIG. 1;
Fig. 4 is top view shown in FIG. 1;
Fig. 5 is the structural schematic diagram of cooling water tank and heat dissipation pipeline in the utility model.
In attached drawing, 1- cabinet, 2- controller, 3- air outlet, 4- thermovent, 5- constant temperature water tank, the first blower of 6-, 7- coil pipe Case, 8- water pump, 9- insulating layer, 10- check valve, 11- pressure valve, 12- compressor, 13- cooling water tank, 14- heat dissipation pipeline, 15- Refrigeration pipeline, 16- drip tray, 17- baffle, 18- blowdown penstock, 19- water draining beak, the second blower of 20-, the first electric heating of 21- Pipe, 22- filter screen, 23- capillary, 24- air inlet, the second electric heating tube of 25-
Specific embodiment
It is described in detail below in conjunction with embodiment of the attached drawing to technical solutions of the utility model.Following embodiment is only For clearly illustrating the technical solution of the utility model, therefore it is only used as example, and it is originally practical to cannot be used as a limitation limitation Novel protection scope.
It should be noted that unless otherwise indicated, technical term or scientific term used in this application should be this reality The ordinary meaning understood with novel one of ordinary skill in the art.
As shown in Figure 1, this embodiment provides a kind of integrated energy-saving air conditioner, including cabinet 1, refrigeration system, heating System, water circulation system and controller 2.Top before cabinet 1 is equipped with air outlet 3, and subsequent lower part is equipped with thermovent 4. Water circulation system includes constant temperature water tank 5, the first blower 6, coil pipe case 7 and water pump 8, and coil pipe case 7 here includes thermally conductive grid and leads Hot copper pipe, heat-conducting copper pipe are bent back and forth and are embedded in thermally conductive grid.Thermally conductive grid include the heat conduction copper sheet of muti-piece marshalling, thermally conductive Copper sheet increases the heat-conducting effect of heat-conducting copper pipe.Coil pipe case 7 is installed on the top of cabinet 1 and the air outlet 3 with 1 front of cabinet Relatively, the air outlet of the first blower or air intake are opposite with coil pipe case.First blower is there are two types of mounting means, the first is by the One blower 6 is mounted on behind coil pipe case 7, and the air outlet of the first blower 6 and coil pipe case 7 are opposite.Another is by first Blower 6 is mounted on before coil pipe case 7, and the air intake of the first blower 6 and coil pipe case 7 are opposite.Pass through the first blower 6 The cold air of coil pipe case 7 or hot gas are blown out from air outlet 3.Water pump 8 is mounted between constant temperature water tank 5 and coil pipe case 7, thermostatted water Case 5 is connected by water pump 8 and the conducting of coil pipe case 7, and then recycles thermal conducting agent between constant temperature water tank 5 and coil pipe case 7.
In order to improve the heat insulation effect of constant temperature water tank 5, the surface of constant temperature water tank 5 be equipped with insulating layer 9, insulating layer 9 be every Thermal foam, insulating layer 9 wrap up constant temperature water tank 5, reduce constant temperature water tank 5 significantly and heat transmitting occurs for external environment, improve permanent The constant temperature effect of reservoir 5.
It causes to waste in order to avoid in maintenance process, the thermal conducting agent in coil pipe case 7 is flowed out, in water pump 8 and coil pipe case 7 Between be equipped with check valve 10, while between coil pipe case 7 and constant temperature water tank 5 be equipped with pressure valve 11.The setting of check valve 10 makes to lead Thermit powder can only enter coil pipe case 7 from water pump 8, prevent from flowing backwards.When only water pump 8 works, hydraulic pressure, water can be just generated in coil pipe case 7 Pressure valve of bearing down on one out 11 is recycled.When repairing water circulation system, 11 check valve 10 of pressure valve and pressure valve 11 are effectively prevented The thermal conducting agent for having stopped coil pipe case 7 flows out, and facilitates maintenance.
Refrigeration system includes compressor 12, cooling water tank 13, heat dissipation pipeline 14 and refrigeration pipeline 15, and cooling water tank 13 is installed In 1 lower part of cabinet and with the subsequent thermovent 4 of cabinet 1 it is opposite.Heat dissipation pipeline 14 is installed in cooling water tank 13, and is radiated Pipeline 14 is bent repeatedly back and forth in cooling water tank 13, increases the contact area in cooling water tank 13.Refrigeration pipeline 15 is installed on In constant temperature water tank 5, and bending repeatedly, increases the contact surface in constant temperature water tank 5 to refrigeration pipeline 15 back and forth in constant temperature water tank 5 Product.The outlet of compressor 12, heat dissipation pipeline 14, refrigeration pipeline 15 and compressor 12 inlet port sequentially turn on connection, dissipating Capillary 23 is additionally provided between pipe line 14 and refrigeration pipeline 15.The refrigerant of high temperature and pressure is pressed into heat dissipation pipeline by compressor 12 14, cool down in cooling water tank 13, after capillary 23, absorbs heat in refrigeration pipeline 15, and then make thermally conductive in constant temperature water tank 5 Agent cooling, achievees the effect that refrigeration, last refrigerant is flowed back into compressor 12, recycled down with this.The bottom wall of constant temperature water tank 5 Equipped with blowdown penstock 18.
In order to avoid using high-power blower to carry out wind cooling temperature lowering to heat dissipation pipeline 14, in 7 He of coil pipe case in the present embodiment The underface that drip tray 16 and drip tray 16 are located at coil pipe case 7, drip tray 16 and cooling water tank are equipped between cooling water tank 13 13 conducting connections.Here drip tray and cooling water tank is there are two types of connection type, and one kind being designed as one, another is to set It counts into split type.Since 7 temperature of coil pipe case is lower than the temperature of surrounding air, the vapor in air will be in the appearance of coil pipe case 7 Face liquefaction, generates a large amount of cold water.These cold water are collected and are flowed into cooling water tank 13 by drip tray 16, and cold water will be continuous Ground flows into, and becoming hot water after being heated will constantly be discharged from cooling water tank 13, and heat dissipation pipeline 14 is carried out in cooling water tank 13 Heat exchange cools.To the condenser radiating mode traditional instead of air-conditioning, high-power blower is not used, consumption Electric energy is lower, alleviates the pressure of electric power resource, is more advantageous to energy conservation.
As shown in Figure 1 and Figure 5, in order to improve the heat-sinking capability of cooling water tank 13,13 internal structure of cooling water tank is as follows:
The inside of cooling water tank 13 be equipped with baffle 17, by institute's baffle 17 by the inside of cooling water tank 13 be divided into admission chamber and Exhaust chamber.Connection is connected with drip tray for cooling water tank 13, and the side wall of cooling water tank 13 is equipped with water draining beak 19.Admission chamber and exhaust chamber Linker is formed, and then drip tray 16 and water draining beak 19 is made also to form linker, since hot water is always positioned above cold water, when connecing The cold water of water pond 16 constantly flows into admission chamber and sinks down into the bottom of cooling water tank 13, and superposed hot water will be constantly from row Water nozzle 19 is discharged.This design greatly promotes the heat dissipation performance of cooling water tank 13, effectively by the heat band of heat dissipation pipeline 14 It walks, improves heat dissipation effect.The bottom wall of cooling water tank 13 is equipped with blowdown penstock 18.
Thermal conducting agent in the present embodiment uses anti-icing fluid, and thermal conducting agent is avoided to chemically react with pipeline and constant temperature water tank 5, It prevents from corroding, prevents foam etc., can also influence to recycle to avoid scale is generated.
Since other heat generating components in cooling water tank 13, compressor 12 and cabinet 1 can generate least a portion of heat, The second blower 20 is equipped between cooling water tank 13 and thermovent 4, and the air outlet of the second blower 20 and thermovent 4 are opposite. Even if this least a portion of heat is discharged by the second blower 20, reduce the influence to the refrigeration effect of this equipment.Due to generating Heat it is less, the second blower 20 here is not higher than the blower of 20W using power, and power is more than traditional wind cooling blower function Rate is low.
Integrated energy-saving air conditioner provided in this embodiment not only plays the role of refrigeration, while being also equipped with the function of heating.System Hot systems include the first electric heating tube 21 and the second electric heating tube 26, and the first electric heating tube 21 is installed on the dead astern of coil pipe case, For being heated to coil pipe case.Here rear refers to the direction far from air outlet, hereinafter behind each mean the same direction. If the first blower 6 is mounted on behind coil pipe case 7, the first electric heating tube 21 be located at the first blower 6 and coil pipe case 7 it Between.Second electric heating tube 26 is installed in constant temperature water tank 5.When opening heat-production functions, refrigeration system is closed, water circulation system, First electric heating tube 21, the second electric heating tube 26 and the work of the first blower 6, the first blower 6 blow out hot wind from air outlet 3.
Controller 2 includes remote control reception display circuit board and master control circuit board, and wherein master control circuit board is mounted on case The medial surface of the rear wall of body 1, remote control reception display circuit board are forward-mounted the lower part of plate air outlet.Controller 2 respectively with Water pump 8, the first blower 6, the second blower 20, the first electric heating tube 21, the second electric heating tube 26 and compressor 12 are electrically connected.Control Device 2 is PLC controller 2.In order to carry out automatically controlling to temperature, in constant temperature water tank 5 and air outlet is equipped with temperature sensor, and two A temperature sensor is electrically connected with controller 2 respectively.When refrigeration, controller 2 monitors constant temperature water tank 5 in real time by temperature sensor Interior and air outlet temperature, when temperature is lower than set temperature, controller 2 controls compressor 12 and stops working.When heating, control Device 2 is monitored in real time in constant temperature water tank 5 by temperature sensor and the temperature of air outlet, and when the temperature is excessively high, controller 2 controls electricity Heating net 21 stops working.Cooling and warming passes through temperature sensor feedback temperature, automatically adjusts temperature, makes this equipment will not one Straight refrigeration and waste electric energy, will not continuous heating and lose components.
As shown in Figures 2 to 4, roof, left side wall and the right side wall of the cabinet 1 in the present embodiment are equipped with air inlet 24, And thermovent 4 and air inlet 24 are equipped with filter screen 22.Filter screen 22 can be dismantled, the ash on periodic cleaning filter screen 22 Dirt improves the dust-proof effect of this equipment.The air-flow of air outlet 3 and thermovent 4 enters from air inlet 24.
The refrigeration work mode of integrated energy-saving air conditioner provided in this embodiment is as follows:
Water is filled in cooling water tank, controller makes refrigeration system and water circulation system work, and heating system does not work.Pressure Heat in constant temperature water tank is shifted cooling water tank by refrigeration pipeline and heat dissipation pipeline, the water in cooling water tank by the work of contracting machine Heat is absorbed to achieve the purpose that heat dissipation.First blower blows out the cold air of coil pipe case, and the vapor in air will be in disk The outer surface of bobbin carriage is liquefied, and a large amount of cold water is generated.Cold water is collected by drip tray and is flowed into cooling water tank, simultaneously Hot water in cooling water tank is constantly discharged, to reach the demand of heating system.
When the temperature that the temperature sensor of air outlet detects is lower than the sensor inspection in set temperature or constant temperature water tank The temperature measured is lower than set temperature, and controller makes compressor stop working, and refrigeration system stops refrigeration, water circulation system, the One blower and the second blower work always.When the temperature that the temperature sensor of air outlet detects is higher than set temperature, Huo Zheheng The temperature that sensor in reservoir detects is higher than set temperature, and controller makes compressor start work, and refrigeration system starts Refrigeration.Thus circulation is gone down, to achieve the purpose that cooling, in addition, if the temperature one that the temperature sensor of air outlet detects Directly it is higher than set temperature, but the temperature that the sensor in constant temperature water tank detects in this case, is compressed lower than set temperature Machine can also stop working, energy-saving to prevent compressor from working always, also play the effect of protection compressor.
The heating operating mode of integrated energy-saving air conditioner provided in this embodiment is as follows:
Controller makes water circulation system and heating system works, and refrigeration system does not work.First electric heating tube and the second electricity Heating tube work makes the coolant liquid in constant temperature water tank heat up, and is blown out the hot gas of coil pipe case by the first blower.When the temperature of air outlet The temperature that degree sensor detects is higher than the temperature that the sensor in set temperature or constant temperature water tank detects and is higher than setting temperature Degree, controller makes the first electric heating tube and the second electric heating tube stop working, since the specific heat capacity of coolant liquid is larger, even if first Electric heating tube and the second electric heating tube stop working, and heat will maintain a period of time, and the first blower will persistently blow out hot wind.When The temperature that the temperature sensor of air outlet detects is lower than the temperature that the sensor in set temperature or constant temperature water tank detects Lower than set temperature, controller makes the first electric heating tube and the second electric heating tube work.Thus circulation is gone down, to reach heating Purpose.In addition, the second electric heating tube is main electric heating tube, the first electric heating tube is auxiliary electrical heater pipe, when heated, controller First make the second electric heating tube work a period of time, when the temperature that the first temperature sensor detects is still reached to less than set temperature, Controller then starts the first electric heating tube, further heats, to reach set temperature.
Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System;Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced;And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type, should all cover in the claim of the utility model and the range of specification.

Claims (9)

1. a kind of integrated energy-saving air conditioner, it is characterised in that: including cabinet, refrigeration system, heating system, water circulation system and control Device processed;
The water circulation system includes constant temperature water tank, the first blower, coil pipe case and water pump;The coil pipe case is installed on the cabinet Top and opposite with the air outlet before cabinet, the air outlet or air intake of first blower are opposite with coil pipe case, The cold air of coil pipe case or hot gas are blown out from air outlet by the first blower;The constant temperature water tank by the water pump with The conducting connection of coil pipe case, and then recycle thermal conducting agent between constant temperature water tank and coil pipe case;
The refrigeration system includes compressor, cooling water tank, heat dissipation pipeline and refrigeration pipeline;The cooling water tank is installed on described Lower box and opposite with the subsequent thermovent of cabinet;The heat dissipation pipeline is installed in the cooling water tank, the refrigeration Pipeline is installed in the constant temperature water tank;The outlet of the compressor, heat dissipation pipeline, refrigeration pipeline and compressor inlet port Sequentially turn on connection;
The underface that drip tray and drip tray are located at coil pipe case, the drip tray are equipped between the coil pipe case and cooling water tank Connection is connected with the cooling water tank;
The heating system includes the first electric heating tube and the second electric heating tube, and first electric heating tube is installed on the coil pipe The dead astern of case, for being heated to coil pipe case;Second electric heating tube is installed in the constant temperature water tank;
The controller is installed in the cabinet, and controller respectively with the water pump, the first blower, the first electric heating Pipe, the second electric heating tube and compression mechatronics.
2. integrated energy-saving air conditioner according to claim 1, it is characterised in that: the inside of the cooling water tank is equipped with gear The inside of cooling water tank is divided into admission chamber and exhaust chamber by institute's baffle by plate;The side wall of the cooling water tank is equipped with water draining beak, And water draining beak is connected to the exhaust chamber.
3. integrated energy-saving air conditioner according to claim 1, it is characterised in that: the bottom wall and water of radiation of the constant temperature water tank The bottom wall of case is equipped with blowdown penstock.
4. integrated energy-saving air conditioner according to claim 1, it is characterised in that: the air outlet and constant temperature water tank of the cabinet Inside be equipped with temperature sensor, and two temperature sensors are electrically connected with the controller respectively.
5. integrated energy-saving air conditioner according to claim 1, it is characterised in that: the thermal conducting agent is anti-icing fluid.
6. according to claim 1 to 5 described in any item integrated energy-saving air conditioners, it is characterised in that: the constant temperature water tank Surface is equipped with insulating layer.
7. according to claim 1 to 5 described in any item integrated energy-saving air conditioners, it is characterised in that: the water pump and coil pipe It is equipped between check valve and the coil pipe case and constant temperature water tank between case and is equipped with pressure valve.
8. integrated energy-saving air conditioner according to claim 7, it is characterised in that: set between the cooling water tank and thermovent There is the second blower, and the air outlet of the second blower is opposite with thermovent.
9. according to claim 1 to 5 described in any item integrated energy-saving air conditioners, it is characterised in that: the roof of the cabinet It is equipped with air inlet with side wall, and the thermovent and air inlet are equipped with filter screen.
CN201820672340.2U 2018-05-07 2018-05-07 Integrated energy-saving air conditioner Expired - Fee Related CN208253778U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201820672340.2U CN208253778U (en) 2018-05-07 2018-05-07 Integrated energy-saving air conditioner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201820672340.2U CN208253778U (en) 2018-05-07 2018-05-07 Integrated energy-saving air conditioner

Publications (1)

Publication Number Publication Date
CN208253778U true CN208253778U (en) 2018-12-18

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201820672340.2U Expired - Fee Related CN208253778U (en) 2018-05-07 2018-05-07 Integrated energy-saving air conditioner

Country Status (1)

Country Link
CN (1) CN208253778U (en)

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Granted publication date: 20181218

Termination date: 20200507