CN105546644A - Accurate temperature control air-conditioner for small plant - Google Patents

Abstract

The invention relates to an accurate temperature control air-conditioner for a small plant. An indoor unit of the air-conditioner comprises a plurality of left-and-right air guide blades and a plurality of up-and-down air guide blades; and each air guide blade in the multiple left-and-right air guide blades and the multiple up-and-down air guide blades is connected with an independent direction controller, and the direction controllers are controlled through a controller so that the direction of air guided out by each air guide blade in the multiple left-and-right air guide blades and the multiple up-and-down air guide blades can point to position information of a wireless temperature sensor with the maximum difference value. The small plant is divided into nine zones, accurate temperatures of the nine zones can be measured through nine wireless temperature sensors, calculation can be carried out, the deviation deviating from the needed temperature is judged, and therefore a certain zone in the nine zones is adjusted in a targeted manner according to the deviation. According to the accurate temperature control air-conditioner, during temperature regulation and control, different from overall movement of left-and-right air guide blades and up-and-down air guide blades of a vertical cabinet type or wall mounting type air-conditioner at present, the angle of each blade in the left-and-right air guide blades and the up-and-down air guide blades can be accurately calculated through calculation, and cold air can be blown to the zone needing to be regulated and controlled more accurately.

Description

Little factory building accurate temperature controller air-conditioning

Technical field

The present invention relates to indoor environment and regulate field, particularly carry out the air-conditioning that indoor environment temperature accurately controls.

Background technology

At present, increasing need of production controls with becoming more meticulous, and as industries such as chemical industry, biology, medicine, food, under the control of product needs the production of product and preservation to be in accurate temperature, otherwise there will be distortion, the damaged condition such as rotten.The temperature of the air-conditioning of the wall-hanging or cabinet-type that current little factory building uses controls not too accurate, can not meet the demand of control of product quality.The temperature sensor of the air-conditioning of the wall-hanging or cabinet-type that current little factory building uses is built-in, the indoor temperature sensed is temperature among a small circle, and this has also been away from placing the temperature in product place among a small circle, accurately cannot show that the accurate temperature on ground is placed by product institute; And product takes up an area comparatively wide when placing, the temperature being in each different spaces in little factory building is inconsistent, probably cause same batch due to temperature inconsistent, some product is qualified, and some product is defective.

Summary of the invention

The invention provides a kind of air-conditioning with external temperature sensor, air-conditioning can be passed to by needing the temperature of carrying out thermoregulator position, and accurately can control according to the temperature of signal to each space of little factory building transmitted, effectively can solve each local temperature of little factory building and control uneven problem, reach the effect that accurate temperature controls.

The technical solution used in the present invention is as follows:

A kind of little factory building accurate temperature controller air-conditioning, described air-conditioning is split-type air conditioner, comprises indoor set and off-premises station, and described indoor set is connected with off-premises station; Described off-premises station comprises shell, compressor, outdoor heat are changed planes, the outdoor draft fan of expansion gear and air-supply of changing planes to described outdoor heat; The indoor blower that described indoor set comprises shell, air-supply is changed planes and changed planes to described Indoor Thermal to air inlet, air outlet, Indoor Thermal; Described compressor, outdoor heat are changed planes, crash device and Indoor Thermal are changed planes is connected and composed refrigerant loop successively by refrigerant piping; Described indoor set also comprises multi-disc left and right impeller inducers, the upper and lower wind blade of multi-disc, controller, temperature sensor radio receiver, remote control device; Described air-conditioning also comprises nine radio temperature sensors, described radio temperature sensor primarily of MCU, temperature sensor, wireless module, power supply, power circuit and shockproof jamproof shell composition, described wireless module adopt WIFI, 433 or the mode of Zigbee carry out Wireless Data Transmission; Described controller connects described temperature sensor radio receiver and described remote control device, and described temperature sensor radio receiver receives the signal of each described radio temperature sensor;

Described air-conditioning also comprises remote controller, described remote controller comprises accurate temperature control button, after operating personnel press described accurate temperature control button, described controller proceeds to the second state of a control of the signal receiving described temperature sensor radio receiver from the first state of a control of the signal receiving described remote control device; After operating personnel press described accurate temperature control button again, described controller proceeds to the first state of a control of the signal receiving described remote control device from the second state of a control of the signal receiving temperature sensor radio receiver;

The inner space of little factory building is divided into nine regions of " well " font at the vertical plane of the distance of the 2-5 rice of the air outlet apart from described air-conditioning, each region in described nine regions puts into one of described nine radio temperature sensors;

Described air-conditioning also comprises the computing module connecting described controller, described computing module can receive the temperature signal of each described radio temperature sensor and the positional information in little factory building of each described radio temperature sensor of the described controller reception that described controller transmits, after described computing module calculates described temperature signal and positional information, the temperature signal that the more each radio temperature sensor of described computing module transmits and the difference of design temperature being stored in controller, the positional information of radio temperature sensor maximum for described difference is fed back to described controller,

It is characterized in that: the every a slice wind blade in described multi-disc left and right impeller inducers all connects independently first direction controller, the every a slice wind blade in the upper and lower wind blade of described multi-disc all connects independently second direction controller; Described controller controls each described first direction controller and each described second direction controller, and the wind direction that the every a slice wind blade in described multi-disc left and right impeller inducers and the upper and lower wind blade of described multi-disc is derived all points to the positional information of the maximum radio temperature sensor of difference; The time T that the temperature that described computing module can also calculate the space at the radio temperature sensor place making described difference maximum and the design temperature being stored in controller reach unanimity required, and described time T is fed back to described controller, described controller makes the air outlet of described air-conditioning to the described time T of space blowing at the maximum radio temperature sensor place of described difference; After described time T, described computing module can receive the temperature signal of each described radio temperature sensor and the positional information in little factory building of each described radio temperature sensor again, and again carries out difference comparsion calculating and the positional information of the maximum difference radio temperature sensor had is fed back to described controller;

Each described first direction controller includes screw rod, nut, enchasing plate, the first decelerator and the first servomotor, and described nut coordinates with screw rod, and screw rod is rotatable, and nut does not only rotate at the axially reciprocating of screw rod, described enchasing plate to be fixed on nut and to have the groove that can hold wind blade, and this groove can move along with nut after holding wind blade, and this groove has the width that wind blade can be made to swing at this groove, when described controller is in described second state of a control, described screw rod is controlled obtain to wind blade close until wind blade to be extend into away from one end of the air outlet of described indoor set in the groove of described enchasing plate and at described bolt rotary time described nut on the motion of enchasing plate wind blade can be driven to swing, described first servomotor connects the screw shaft of described screw rod by the output shaft after the first decelerator, described first servomotor connects described controller, described controller is by the rotating speed of control first servomotor and turn to, the wind direction that every a slice wind blade in described multi-disc left and right impeller inducers is derived all points to the positional information of the maximum radio temperature sensor of difference,

Each described second direction controller includes the second decelerator and the second servomotor, one end of the length direction of the every a slice wind blade in the upper and lower wind blade of described multi-disc is extended with quarter butt, described quarter butt is connected with described second decelerator, described second servomotor connects described quarter butt by the output shaft of the second decelerator, described second servomotor connects described controller, described controller is by the rotating speed of control second servomotor and turn to, the wind direction that every a slice wind blade in the upper and lower wind blade of described multi-disc is derived all points to the positional information of the maximum radio temperature sensor of difference.

Beneficial effect of the present invention is:

1, the present invention is the radio temperature sensor that cabinet-type or wall-hanging air conditioner relate to special external, the temperature in the place of the placement product of indoor can be passed to air-conditioning thus controls, only monitor cabinet-type or the on-site thermometric temperature of wall mounting type air conditioner shell more can reflect environment residing for product reality than existing temperature sensor is arranged in air-conditioning, thus can regulate more targetedly and more effectively.

2, little factory building is divided into nine regions by the present invention, the accurate temperature in nine regions can be recorded respectively by nine radio temperature sensors, and can calculate, judge to depart from temperature required deviation, thus have more deviation and go to regulate the some regions in nine regions targetedly.

3, the present invention is different from the integrated moveable of current cabinet-type or wall-hanging air conditioner left and right impeller inducers and upper and lower wind blade when temperature adjusting, by calculating the angle accurately calculating every a slice blade in left and right impeller inducers and upper and lower wind blade, cold wind is enable to blow to the region needing regulation and control more accurately.

Accompanying drawing explanation

Fig. 1 is the adjustment schematic diagram of the left and right impeller inducers of prior art, and wherein a is unadjusted view, and b is the schematic diagram after low-angle regulates;

Fig. 2 is the adjustment schematic diagram of the left and right impeller inducers of the little factory building accurate temperature controller air-conditioning of the application, and wherein, a is unadjusted view, and b is the adjustment schematic diagram that wind direction points to the centre of factory building left and right directions;

Fig. 3 is the schematic diagram that first direction controller controls every sheet left and right impeller inducers, is also the schematic top plan view of Fig. 2 b;

Fig. 4 is the partial view of I in Fig. 3, is also the structural representation of first direction controller;

Fig. 5 is the schematic diagram that second direction controller controls the upper and lower wind blade of every sheet;

Wherein, the left and right impeller inducers do not moved of 1-; The left and right impeller inducers of 2-low-angle left avertence; The left and right impeller inducers of 3-wide-angle left avertence; The left and right impeller inducers of 4-low-angle right avertence; The left and right impeller inducers of 5-wide-angle right avertence; 6-enchasing plate; 7-screw rod; 8-nut; The 9-nut direction of motion; The upper and lower wind blade of 10-; 11-quarter butt; 12-second decelerator; 13-second reducing motor.

Detailed description of the invention

Fig. 1 is the regulative mode of the left and right impeller inducers of prior art, and when laterally sweeping wind, all left and right impeller inducers all keep same angle.

Little factory building accurate temperature controller air-conditioning of the present invention, when regulating, accurately controls the angle of every sheet wind blade, can blow accurately to the region of temperature control that needs in room, be specially:

A kind of little factory building accurate temperature controller air-conditioning, described air-conditioning is split-type air conditioner, comprises indoor set and off-premises station, and described indoor set is connected with off-premises station; Described off-premises station comprises shell, compressor, outdoor heat are changed planes, the outdoor draft fan of expansion gear and air-supply of changing planes to described outdoor heat; The indoor blower that described indoor set comprises shell, air-supply is changed planes and changed planes to described Indoor Thermal to air inlet, air outlet, Indoor Thermal; Described compressor, outdoor heat are changed planes, crash device and Indoor Thermal are changed planes is connected and composed refrigerant loop successively by refrigerant piping; Described indoor set also comprises multi-disc left and right impeller inducers (accompanying drawing 2), the upper and lower wind blade (not shown) of multi-disc, controller, temperature sensor radio receiver, remote control device; Described air-conditioning also comprises nine radio temperature sensors, described radio temperature sensor primarily of MCU, temperature sensor, wireless module, power supply, power circuit and shockproof jamproof shell composition, described wireless module adopt WIFI, 433 or the mode of Zigbee carry out Wireless Data Transmission; Described controller connects described temperature sensor radio receiver and described remote control device, and described temperature sensor radio receiver receives the signal of each described radio temperature sensor.

Described air-conditioning also comprises remote controller, described remote controller comprises accurate temperature control button, after operating personnel press described accurate temperature control button, described controller proceeds to the second state of a control of the signal receiving described temperature sensor radio receiver from the first state of a control of the signal receiving described remote control device; After operating personnel press described accurate temperature control button again, described controller proceeds to the first state of a control of the signal receiving described remote control device from the second state of a control of the signal receiving temperature sensor radio receiver.

The inner space of little factory building is divided into nine regions of " well " font at the vertical plane of the distance of the 2-5 rice of the air outlet apart from described air-conditioning, each region in described nine regions puts into one of described nine radio temperature sensors.

Described air-conditioning also comprises the computing module connecting described controller, described computing module can receive the temperature signal of each described radio temperature sensor and the positional information in little factory building of each described radio temperature sensor of the described controller reception that described controller transmits, after described computing module calculates described temperature signal and positional information, the temperature signal that the more each radio temperature sensor of described computing module transmits and the difference of design temperature being stored in controller, the positional information of radio temperature sensor maximum for described difference is fed back to described controller.

As shown in Figures 2 and 3, every a slice wind blade in described multi-disc left and right impeller inducers all connects independently first direction controller, and the every a slice wind blade in described multi-disc left and right impeller inducers and the upper and lower wind blade of described multi-disc all can rotate around their support component independently; Described controller controls each described first direction controller, and the wind direction that the every a slice wind blade in described multi-disc left and right impeller inducers is derived all points to the positional information of the maximum radio temperature sensor of difference; The time T that the temperature that described computing module can also calculate the space at the radio temperature sensor place making described difference maximum and the design temperature being stored in controller reach unanimity required, and described time T is fed back to described controller, described controller makes the air outlet of described air-conditioning to the described time T of space blowing at the maximum radio temperature sensor place of described difference; After described time T, described computing module can receive the temperature signal of each described radio temperature sensor and the positional information in little factory building of each described radio temperature sensor again, and again carries out difference comparsion calculating and the positional information of the maximum difference radio temperature sensor had is fed back to described controller.

In Fig. 2 and Fig. 3, when needing wind direction to point to factory building left and right directions middle, the wind blade 1 due to centre has pointed to the centre of factory building left and right directions, therefore, does not need to regulate, and the first direction controller of controller control wind blade 1 is motionless; The wind blade 2 and 4 being positioned at wind blade 1 left side needs deflection clockwise, and therefore, controller controls the first direction controller of wind blade 2 and 4, realizes the clockwise deflection of wind blade 2 and 4; The wind blade 3 and 5 be positioned on the right of wind blade 1 needs deflection clockwise, and therefore, controller controls the first direction controller of wind blade 3 and 5, realizes the clockwise deflection of wind blade 3 and 5; After above-mentioned deflection all occurs wind blade 2,3,4 and 5, wind all can be directed at the zone line of specifying of little factory building by all wind blades.

See accompanying drawing 4, each described first direction controller comprises screw rod 7, nut 8, enchasing plate 6, first decelerator and the first servomotor, and described nut 8 coordinates with screw rod 7, and screw rod 7 is rotatable, and nut 8 does not only rotate at the axially reciprocating of screw rod 7, described enchasing plate 6 to be fixed on nut 8 and to have the groove that can hold wind blade, and this groove can move along with nut 8 after holding wind blade, and this groove has the width that wind blade can be made to swing at this groove, when described controller is in described second state of a control, described screw rod 7 is controlled obtain to wind blade close until make wind blade to extend in the groove of described enchasing plate away from one end of the air outlet of described indoor set and the motion of enchasing plate when described screw rod 7 rotates on described nut 8 can drive wind blade to swing, described first servomotor connects the screw shaft of described screw rod by transmission mechanism by the output shaft after the first decelerator, described first servomotor connects described controller, described controller is by the rotating speed of control first servomotor and turn to, the wind direction that every a slice wind blade in described multi-disc left and right impeller inducers is derived all points to the positional information of the maximum radio temperature sensor of difference.

See accompanying drawing 5, each described second direction controller includes the second decelerator 12 and the second servomotor 13, one end of the length direction of the every a slice wind blade 10 in the upper and lower wind blade of described multi-disc is extended with quarter butt 11, described quarter butt is connected with described second decelerator 12, described second servomotor 13 connects described quarter butt 11 by the output shaft of the second decelerator 12, described second servomotor 13 connects described controller, described controller is by the rotating speed of control second servomotor 13 and turn to, the wind direction that every a slice wind blade in the upper and lower wind blade of described multi-disc is derived all points to the positional information of the maximum radio temperature sensor of difference.

Every a slice wind blade in described multi-disc left and right impeller inducers and the upper and lower wind blade of described multi-disc all can rotate around their support component independently.

The present invention is the radio temperature sensor that cabinet-type or wall-hanging air conditioner relate to special external, the temperature in the place of the placement product of indoor can be passed to air-conditioning thus controls, only monitor cabinet-type or the on-site thermometric temperature of wall mounting type air conditioner shell more can reflect environment residing for product reality than existing temperature sensor is arranged in air-conditioning, thus can regulate more targetedly and more effectively.

Little factory building is divided into nine regions by the present invention, the accurate temperature in nine regions can be recorded respectively by nine radio temperature sensors, and can calculate, judge to depart from temperature required deviation, thus have more deviation and go to regulate the some regions in nine regions targetedly.

The present invention is different from the integrated moveable of current cabinet-type or wall-hanging air conditioner left and right impeller inducers and upper and lower wind blade when temperature adjusting, by calculating the angle accurately calculating every a slice blade in left and right impeller inducers and upper and lower wind blade, cold wind is enable to blow to the region needing regulation and control more accurately.

Claims (1)

1. a little factory building accurate temperature controller air-conditioning, described air-conditioning is split-type air conditioner, comprises indoor set and off-premises station, and described indoor set is connected with off-premises station; Described off-premises station comprises described shell, compressor, outdoor heat are changed planes, the outdoor draft fan of expansion gear and air-supply of changing planes to described outdoor heat; The indoor blower that described indoor set comprises shell, air-supply is changed planes and changed planes to described Indoor Thermal to air inlet, air outlet, Indoor Thermal; Described compressor, outdoor heat are changed planes, crash device and Indoor Thermal are changed planes is connected and composed refrigerant loop successively by refrigerant piping; Described indoor set also comprises multi-disc left and right impeller inducers, the upper and lower wind blade of multi-disc, controller, temperature sensor radio receiver, remote control device; Described air-conditioning also comprises nine radio temperature sensors, and described radio temperature sensor is primarily of MCU, temperature sensor, wireless module, power supply, power circuit and shockproof jamproof shell composition; Described controller connects described temperature sensor radio receiver and described remote control device, and described temp sensor device receives the signal of each described radio temperature sensor;

Described air-conditioning also comprises remote controller, described remote controller comprises accurate temperature control button, after operating personnel press described accurate temperature control button, described controller proceeds to the second state of a control of the signal receiving described temperature sensor radio receiver from the first state of a control of the signal receiving described remote control device; After operating personnel press described accurate temperature control button again, described controller proceeds to the first state of a control of the signal receiving described remote control device from the second state of a control of the signal receiving temperature sensor radio receiver;

The inner space of little factory building is divided into nine regions of " well " font at the vertical plane of the distance of the 2-5 rice of the air outlet apart from described air-conditioning, each region in described nine regions puts into one of described nine radio temperature sensors;

Described air-conditioning also comprises the computing module connecting described controller, described computing module can receive the temperature signal of each described radio temperature sensor and the positional information in little factory building of each described radio temperature sensor of the described controller reception that described controller transmits, after described computing module calculates described temperature signal and positional information, the temperature signal that the more each radio temperature sensor of described computing module transmits and the difference of design temperature being stored in controller, the positional information of radio temperature sensor maximum for described difference is fed back to described controller,

It is characterized in that: the every a slice wind blade in described multi-disc left and right impeller inducers all connects independently first direction controller, the every a slice wind blade in the upper and lower wind blade of described multi-disc all connects independently second direction controller; Described controller controls each described first direction controller and each described second direction controller, and the wind direction that the every a slice wind blade in described multi-disc left and right impeller inducers and the upper and lower wind blade of described multi-disc is derived all points to the positional information of the maximum radio temperature sensor of difference; The time T that the temperature that described computing module can also calculate the space at the radio temperature sensor place making described difference maximum and the design temperature being stored in controller reach unanimity required, and described time T is fed back to described controller, described controller makes the air outlet of described air-conditioning to the described time T of space blowing at the maximum radio temperature sensor place of described difference; After described time T, described computing module can receive the temperature signal of each described radio temperature sensor and the positional information in little factory building of each described radio temperature sensor again, and again carries out difference comparsion calculating and the positional information of the maximum difference radio temperature sensor had is fed back to described controller;

Each described first direction controller includes screw rod, nut, enchasing plate, the first decelerator and the first servomotor, and described nut coordinates with screw rod, and screw rod is rotatable, and nut does not only rotate at the axially reciprocating of screw rod, described enchasing plate to be fixed on nut and to have the groove that can hold wind blade, and this groove can move along with nut after holding wind blade, and this groove has the width that wind blade can be made to swing at this groove, when described controller is in described second state of a control, described screw rod is controlled obtain to wind blade close until wind blade to be extend into away from one end of the air outlet of described indoor set in the groove of described enchasing plate and at described bolt rotary time described nut on the motion of enchasing plate wind blade can be driven to swing, described first servomotor connects the screw shaft of described screw rod by the output shaft after the first decelerator, described first servomotor connects described controller, described controller is by the rotating speed of control first servomotor and turn to, the wind direction that every a slice wind blade in described multi-disc left and right impeller inducers is derived all points to the positional information of the maximum radio temperature sensor of difference,

Each described second direction controller includes the second decelerator and the second servomotor, one end of the length direction of the every a slice wind blade in the upper and lower wind blade of described multi-disc is extended with quarter butt, described quarter butt is connected with described second decelerator, described second servomotor connects described quarter butt by the output shaft of the second decelerator, described second servomotor connects described controller, described controller is by the rotating speed of control second servomotor and turn to, the wind direction that every a slice wind blade in the upper and lower wind blade of described multi-disc is derived all points to the position of the wireless humidity sensor with described maximum difference.