CN110199712A - A kind of automatic cooling system based on integral shroud temperature - Google Patents

Abstract

The present invention relates to a kind of automatic cooling systems based on integral shroud temperature, automatic cooling system based on integral shroud temperature includes bracket, non-contact temperature sensor, water injector, controller and water supply control valve, bracket is for being arranged in corresponding potting side, non-contact temperature sensor is arranged on bracket, for monitoring the temperature of potting integral shroud, controller is connect with non-contact temperature sensor signal, the temperature signal transmitted for receiving non-contact temperature sensor, water injector includes water supply pipe and spray head, water supply control valve is supplied water by water supply pipe to spray head for controlling water source, controller and water supply control valve control connect, control water supply control valve is opened when with the temperature signal that receives in controller being more than set temperature value, and then it is sprayed water by spray head to the potting.Non-contact temperature sensor directly monitors the temperature on integral shroud, just cools down to it before so that potting is generated damage, can protect potting in time, avoids the hysteresis quality of potting cooling.

Description

A kind of automatic cooling system based on integral shroud temperature

Technical field

The present invention relates to a kind of automatic cooling systems based on integral shroud temperature.

Background technique

A kind of green plants of the potting as health, can remove the dust and harmful substance in air, and can be effective Reduction electromagnetic radiation be conducive to eliminate healthy hidden danger so as to improve local air quality.In daily life, potting is sometimes Cannot can nurse in time, temperature it is higher or when under burning sun direct projection potting can be damaged to the tender place of plant, interfere potting Normal growth and development, it is possible to lead to the withered or even dead of potting.

In the prior art, higher or be in temperature mainly to detect soil moisture as according to carrying out automation pouring When under burning sun direct projection, potting, which has begun, to be damaged, at this time soil moisture do not arrive also setting humidity value therefore will not be to basin Cultivation is poured, and cannot damage preceding just pour in time to protect potting, with hysteresis quality in higher generate to potting of temperature.

Summary of the invention

The purpose of the present invention is to provide a kind of automatic cooling system based on integral shroud temperature, with solve in the prior art with Detection soil moisture, which carries out automation pouring for foundation, has the technical issues of hysteresis quality.

To achieve the above object, the present invention is based on the technical solutions of the automatic cooling system of integral shroud temperature is:

Based on the automatic cooling system of integral shroud temperature, including bracket, non-contact temperature sensor, water injector, controller with And water supply control valve, for being arranged in corresponding potting side, the non-contact temperature sensor is arranged in bracket the bracket On, for monitoring the temperature of potting integral shroud, the controller is connect with non-contact temperature sensor signal, for receiving non-connect The temperature signal that touch temperature sensor transmits, the water injector include the water supply pipe and and water supplying pipe for connecting water source The spray head that road connects, the water supply control valve are supplied water by water supply pipe to spray head for controlling water source, the controller and confession Control water supply control valve is beaten when water control valve control connection with the temperature signal that receives in controller is more than set temperature value It opens, and then is sprayed water by spray head to the potting.

Beneficial effect is: non-contact temperature sensor on bracket can temperature on real-time monitoring integral shroud, and will prison The temperature signal measured passes to controller, and controller is opened according to the temperature signal control water supply control valve received, with logical It crosses spray head to spray water to potting, and then potting is made to cool down, realize automation；Non-contact temperature sensor directly monitors leaf simultaneously The temperature labeled just cools down to it before so that potting is generated damage, can protect potting in time, avoids the lag of potting cooling Property.

The bracket is the rotating bracket turned round around vertical axis, and the non-contact temperature sensor, which is securely fitted in, to be turned On dynamic bracket.So that a non-contact temperature sensor is monitored at least two pottings simultaneously, it is contactless to reduce installation The cost of temperature sensor.

The bracket is fixed bracket, and the non-contact temperature sensor is around vertical axis rolling assembling in fixed bracket On.So that a non-contact temperature sensor is monitored at least two pottings simultaneously, reduces installation non-contact temperature and pass The cost of sensor.

The spray head is atomizer.Guarantee that the water sprayed is uniformly fallen in potting.

The non-contact temperature sensor is infrared temperature sensor.It is more common, and cost is relatively low.

Gear eaves is equipped in the top of non-contact temperature sensor on the bracket.The water for avoiding spray head from spraying is sprayed onto non- On contact type temperature sensor.

The water supply pipe is connected with closed water storage box, and water storage box is connected in oriented water storage box and inflated to add to water storage box The air charging system of pressure, the air charging system and controller control connect, and water storage box constitutes the water source.Water storage box structure is simple, Convenient for being supplied water by water supply pipe to spray head.

The air charging system is air pump.It can be inflated at any time into water storage box, and can guarantee that pressure is kept constant.

The water storage box is connected with inlet pipeline, and the water storage box or inlet pipeline are equipped with water inlet control valve, the storage The bottom of water tank is equipped with the pressure sensor for monitoring hydraulic pressure, and pressure sensor is connect with controller signals, the water inlet control Valve processed and controller control connect.When water level is lower, the pressure of pressure sensor induction reduces, and pressure sensor is to controller Signal is issued, controller controls water inlet control valve and opens to intake into water storage box, guarantees that the water in water storage box is always maintained at and fills Sufficient state.

The water supply pipe and/or inlet pipeline are equipped with hand control valve.In water supply control valve and/or water inlet control valve When failure, the on-off of respective line is controlled, by hand control valve to guarantee to work normally.

Detailed description of the invention

Fig. 1 is that the present invention is based on the structural schematic diagrams of the specific embodiment of the automatic cooling system of integral shroud temperature；

In figure: 1- potting；2- spray head；3- keeps off eaves；4- non-contact temperature sensor；5- bracket；6- water supply pipe；7- air pump； 8- water inlet control valve；9- air inlet pipeline；10- hand control valve；11- inlet pipeline；12- display screen；13- water storage box；14- pressure Sensor；15- water supply control valve；16- immobilizing foundation；17- controller.

Specific embodiment

Embodiments of the present invention are described further with reference to the accompanying drawing.

The specific embodiment of automatic cooling system based on integral shroud temperature of the invention, as shown in Figure 1, including setting solid Bracket 5 and potting 1 on fixed basis 16, the setting of bracket 5 are provided with non-contact temperature sensor on 1 side of potting, bracket 5 4, for monitoring the temperature of 1 integral shroud of potting, 4 signal of non-contact temperature sensor is connected with controller 17, and controller 17 is used for Receive the temperature signal that non-contact temperature sensor 4 transmits；1 side of potting is additionally provided with water injector, and water injector includes connecting The water supply pipe 6 in water receiving source and the spray head 2 connecting with water supply pipe 6, spray head 2 are used to spray water to potting 1.

In the present embodiment, bracket 5 is the rotating bracket turned round around vertical axis, the fixed dress of non-contact temperature sensor 4 It fits in rotating bracket, so that a non-contact temperature sensor 4 is monitored at least two pottings 1 simultaneously, reduce installation Motor driven support rotation can be specifically arranged in the cost of non-contact temperature sensor 4 below bracket.In other implementations In example, in order to enable a non-contact temperature sensor to monitor at least two pottings simultaneously, bracket is fixed bracket, non-to connect For touch temperature sensor through bearing rolling assembling on fixed bracket, non-contact temperature sensor is fixed on the outer of bearing Circle, the outer ring of bearing are additionally provided with teeth, on fixed bracket with driving motor, the output shaft of driving motor are fixed with below bearing Upward and it is provided with gear, gear is engaged with teeth to be rotated with band dynamic bearing, and then drives non-contact temperature sensor rotation. In other embodiments, bracket is fixed bracket, is equipped at least two non-contact temperatures along its circumferential direction on fixed bracket and passes Sensor, at this time higher cost.

Water source in the present embodiment is the water storage box 13 connecting with water supply pipe 6, and water storage box 13 is placed on immobilizing foundation 16 On, higher hydraulic pressure has not been obtained, usually aloft by the setting of water storage box 13.Water storage box 13 is closed box, and water storage box 13 is connected with Air inlet pipeline 9, air inlet pipeline 9 are equipped with the air charging system to pressurize into water storage box 13, and air charging system and the control of controller 17 connect It connects, wherein airintake direction is as shown by the arrows in Figure 1.In other embodiments, water supply pipe directly can be connected to water pump On, controller and water pump control connect at this time, to control water pump to water supply pipe internal pump water, and then are sprayed by spray head to potting Water.

In the present embodiment, air charging system is air pump 7, to inflate at any time into water storage box 13, and can guarantee that pressure is kept It is constant.In other embodiments, air charging system is air accumulator, and as gas is exported to water tank in air accumulator, pressure gradually subtracts It is small, pressure transient, while needing the periodically tonifying Qi into air accumulator.

In the present embodiment, water storage box 13 is equipped with water supply control valve 15, and water supply control valve 15 is for controlling in water storage box 13 Water through water supply pipe 6 to spray head 2 supply water, controller 17 and water supply control valve 15 control connect, to be received in controller 17 Temperature signal be more than set temperature value when control water supply control valve 15 open, and then by spray head 2 to potting 1 spray water, specifically , one end of water supply pipe 6 penetrates in water storage box 13, and water supply control valve 15 is fixed on the inner wall of water storage box 13, for water management The water outlet of valve 15 is connect with the penetrating end of water supply pipe 6, and the water inlet of water supply control valve 15 is when water supply control valve 15 is opened Water in water storage box 13 is introduced.In other embodiments, water supply control valve can be set on water supply pipe, and for water management Valve and controller control connect.

In the present embodiment, water storage box 13 is connected with inlet pipeline 11, and inlet pipeline 11 is connected with water source (not shown), water storage Case 13 is equipped with water inlet control valve 8, and the bottom of water storage box 13 is equipped with the pressure sensor 14 for monitoring hydraulic pressure, pressure sensor 14 connect with 17 signal of controller, and water inlet control valve 8 and the control of controller 17 connect, when water level is lower, pressure sensor 14 The pressure of induction reduces, and pressure sensor 14 issues signal to controller 17, controller 17 control water inlet control valve 8 open with to Water inlet in water storage box 13 guarantees that the water in water storage box 13 is always maintained at sufficient state, specifically, one end of inlet pipeline 11 penetrates In water storage box 13, water inlet control valve 8 is fixed on the inner wall of water storage box 13, the water inlet and inlet pipeline 11 of water inlet control valve 8 Penetrating end connection, the water outlet of water inlet control valve 8 fills the water when water inlet control valve 8 is opened into water storage box 13.In other realities It applies in example, water inlet control valve is arranged on inlet pipeline.In other embodiments, it can be not provided with inlet pipeline, in water storage box Upper setting chamber door is opened chamber door, after discharge reduction in water storage box by manually filling the water into water storage box.

In the present embodiment, hand control valve 10 is equipped on water supply pipe and inlet pipeline, water supply control valve 15 and into When water control valve 8 breaks down, the on-off of respective line is controlled, by hand control valve 10 to guarantee to work normally.At other In embodiment, hand control valve only can be set on water supply pipe or inlet pipeline；Or in water supply pipe and inlet pipeline On be respectively provided with hand control valve.

In the present embodiment, spray head 2 is atomizer, guarantees that the water sprayed is uniformly fallen in potting 1.In other embodiments In, spray head is spraying head type spray head.

In the present embodiment, non-contact temperature sensor 4 is infrared temperature sensor, more common, and cost is relatively low. In other embodiments, non-contact temperature sensor can be existing laser temperature sensor, ultrasonic temperature sensor Deng.

In the present embodiment, it is equipped with gear eaves 3 in the top of non-contact temperature sensor 4 on bracket 5, spray head is avoided to spray Water is sprayed on non-contact temperature sensor.In other embodiments, preferable feelings are sealed in non-contact temperature sensor Under condition, gear eaves can be not provided with.

In the present embodiment, display screen 12 is additionally provided on water storage box 13, display screen 12 is connect with controller signals, display screen 12 It is equipped with the flow regulation button that control water supply control valve 15 opens size, after integral shroud temperature is higher than set temperature, according to temperature Degree gradually increases, the corresponding open degree for increasing water supply control valve.Meanwhile display screen 12 is equipped with timing button, so as to supply water 6 timing of pipeline is supplied water to potting 1, avoids the soil drought of potting.

When specifically used, bracket 5 keeps rotary state, 4 real-time monitoring of non-contact temperature sensor, 1 leaf of potting around it The temperature of hat and to controller 17 transmit temperature signal, controller 17 by the temperature signal received compared with set temperature, when When received temperature is greater than set temperature, controller 17 controlled the starting of air pump 7 before this, inflated air pump 7 into water storage box 13, with Increase by 13 chamber pressure of water storage box；Then controller 17 controls water supply control valve 15 and opens, and the water in inner cavity water storage box 13 is in gas Under the effect of body pressure, sprayed through water supply pipe 6, spray head 2 to potting 1, to reduce the temperature of potting 1；After spraying a period of time, The temperature of potting 1 is reduced to set temperature hereinafter, the temperature monitored is transferred to control by non-contact temperature sensor 4 at this time Device 17, controller 17 control water supply control valve 15 and close, and complete temperature-fall period.

After long-time use, the water in water storage box 13 is gradually decreased, and pressure signal is sent to control by pressure sensor 14 Device 17, controller 17 control water inlet control valve 8 and open, and to intake by water inlet line 11 to water storage box 13, guarantee water storage box 13 Interior water is sufficient.

Automatic cooling system based on integral shroud temperature of the invention overcomes the uncertainty and unevenness of artificial nursing potting Even property, while non-contact temperature sensor directly monitors the temperature on integral shroud, just cools down to it before so that potting is generated damage, energy Enough protection pottings in time avoid the hysteresis quality of potting cooling, and can be prevented in unmanned situation for a long time because of sunlight calcination or Potting caused by temperature is excessively high is withered, even dead, provides adaptation environment for the growth and development of potting.

Claims (10)

1. the automatic cooling system based on integral shroud temperature, it is characterised in that: including bracket, non-contact temperature sensor, water spray Device, controller and water supply control valve；

The bracket is for being arranged in corresponding potting side；

The non-contact temperature sensor is arranged on bracket, for monitoring the temperature of potting integral shroud；

The controller is connect with non-contact temperature sensor signal, the temperature transmitted for receiving non-contact temperature sensor Spend signal；

The water injector includes water supply pipe for connecting water source and the spray head connecting with water supply pipe；

The water supply control valve is supplied water by water supply pipe to spray head for controlling water source；

The controller and water supply control valve control connect, when being more than set temperature value with the temperature signal received in controller It controls water supply control valve to open, and then is sprayed water by spray head to the potting.

2. the automatic cooling system according to claim 1 based on integral shroud temperature, it is characterised in that: the bracket is around perpendicular The rotating bracket turned round to axis, the non-contact temperature sensor are securely fitted in rotating bracket.

3. the automatic cooling system according to claim 1 based on integral shroud temperature, it is characterised in that: the bracket is to fix Bracket, the non-contact temperature sensor is around vertical axis rolling assembling on fixed bracket.

4. the automatic cooling system according to any one of claim 1-3 based on integral shroud temperature, it is characterised in that: described Spray head is atomizer.

5. the automatic cooling system according to any one of claim 1-3 based on integral shroud temperature, it is characterised in that: described Non-contact temperature sensor is infrared temperature sensor.

6. the automatic cooling system according to any one of claim 1-3 based on integral shroud temperature, it is characterised in that: described Gear eaves is equipped in the top of non-contact temperature sensor on bracket.

7. the automatic cooling system according to any one of claim 1-3 based on integral shroud temperature, it is characterised in that: described Water supply pipe is connected with closed water storage box, and water storage box connects inflation dress of the inflation to pressurize to water storage box in oriented water storage box It sets, the air charging system and controller control connect, and water storage box constitutes the water source.

8. the automatic cooling system according to claim 7 based on integral shroud temperature, it is characterised in that: the air charging system is Air pump.

9. the automatic cooling system according to claim 7 based on integral shroud temperature, it is characterised in that: the water storage box connection There is inlet pipeline, the water storage box or inlet pipeline are equipped with water inlet control valve, and the bottom of the water storage box is equipped with for monitoring The pressure sensor of hydraulic pressure, pressure sensor are connect with controller signals, and the water inlet control valve and controller control connect.

10. the automatic cooling system according to claim 9 based on integral shroud temperature, it is characterised in that: the water supply pipe And/or inlet pipeline is equipped with hand control valve.