CN103697560B - A kind of temperature control method of air-conditioning - Google Patents

Abstract

A temperature control method for air-conditioning, comprises the following steps: (1) uses the temperature of each position in infrared temperature probe sensing chamber; (2) temperature value of detection is sent to controller; (3) controller sends regulating command to guider; (4) guider extended in the direction time of staying towards the lower region of temperature value, until temperature is even. Advantage of the present invention is: can utilize infrared temperature probe to detect the temperature value of each corner or any direction, and maybe need air-out direction to be adjusted to according to this temperature value any region of needs, the temperature homogeneity of indoor regional is significantly improved, and has greatly improved indoor comfort level.

Description

A kind of temperature control method of air-conditioning

Technical field

The present invention relates to a kind of temperature control method of air-conditioning.

Background technology

The general employing at the air outlet of indoor apparatus of air conditioner of existing air-conditioning temperature control method installed wind direction guide plate, can automatically swing up and down, and left and right directions do not controlled automatically, by manual adjustment, once after regulating, left and right wind direction just immobilizes. The shortcoming that above-mentioned wind direction control method exists is: the air-out direction of air-conditioning only has a direction adjustable, causes indoor temperature very inhomogeneous; Manual adjustment left and right wind direction, very inconvenient.

Summary of the invention

The object of the invention be to provide a kind of can be towards the air-conditioning of any direction blowing, only have a direction adjustable with the air-out direction that solves the air-conditioning that prior art exists, cause indoor temperature very inhomogeneous; Manual adjustment left and right wind direction, very inconvenient problem.

Technical scheme of the present invention is: a kind of temperature control method of air-conditioning, it is characterized in that, and comprise the following steps:

(1) temperature of each position in use infrared temperature probe sensing chamber;

(2) temperature value of detection is sent to controller;

(3) controller sends regulating command to guider;

(4) guider extended in the direction time of staying towards the lower region of temperature value, until temperature is even.

Described infrared temperature probe is driven by oscillatory gearing mechanism, can detect indoor temperature around detecting or scanning in length and breadth.

In step (3) and (4), described guider comprises transverse guide fence, swings up and down drive unit and longitudinally guiding plate, swings up and down the controller control of drive unit by air-conditioning, and by its action of remote controller remote control; Described longitudinally guiding plate is equipped with the drive unit that swings, and it moves by described controller control, and by remote controller remote control.

The described drive unit that swings comprises motor, crank, first connecting rod and second connecting rod, second connecting rod is hinged on one side by bearing pin and each longitudinally guiding plate, one end of second connecting rod is hinged by one end of first connecting rod and crank, and the other end of crank is fixedly connected on the output shaft of motor; The rotation of motor is by described controller control, and the rotation of motor drives second connecting rod to do reciprocating linear motion by crank and first connecting rod, and second connecting rod drives each longitudinally guiding plate to swing, and realizes swinging of wind direction.

Described oscillatory gearing mechanism comprises motor, fork and crank, and described infrared temperature probe is arranged in a spherical shell, and the end of probe of infrared temperature probe is exposed the front end of spherical shell; On air-conditioning panel, be provided with sphere hole, this spherical shell can be arranged in this sphere hole rotationally, the rear end of this spherical shell is connected to the front end of fork, and the rear end of fork is connected to by spheroid in the sphere hole of crank one end, and the other end of crank is radially connected with the output shaft of motor; This motor is by described controller control.

Advantage of the present invention is: can utilize infrared temperature probe to detect the temperature value of each corner or any direction, and maybe need air-out direction to be adjusted to according to this temperature value any region of needs, the temperature homogeneity of indoor regional is significantly improved, and has greatly improved indoor comfort level.

Brief description of the drawings

Fig. 1 is control flow chart of the present invention;

Fig. 2 is the Facad structure schematic diagram of air-conditioning of the present invention;

Fig. 3 is longitudinally guiding plate and the structural representation (A-A direction) of drive unit of swinging in Fig. 2;

Fig. 4 is the example structure figure of the oscillatory gearing mechanism of infrared temperature probe in the present invention.

Detailed description of the invention

Referring to Fig. 1-Fig. 4, the temperature control method of a kind of air-conditioning of the present invention, is characterized in that, comprises the following steps:

(1) temperature of each position in use infrared temperature probe 12 sensing chamber;

(2) temperature value of detection is sent to controller;

(3) controller sends regulating command to guider;

(4) guider extended in the direction time of staying towards the lower region of temperature value, until temperature is even.

Described infrared temperature probe 12 is driven by oscillatory gearing mechanism, can detect indoor temperature around detecting or scanning in length and breadth.

The air-conditioning of implementing said method comprises the air inlet 2 on panel 1 top and the air outlet 3 of bottom, transverse guide fence 4 being housed and swinging up and down drive unit at air outlet 3 (is routine techniques, not shown), multiple longitudinally guiding plate 5(being housed in transverse guide fence 4 inner sides and being supported in air outlet 3 by rotating shaft 6, is also prior art). Described longitudinally guiding plate 5 is equipped with the drive unit that swings, and this swings up and down drive unit and the action of the drive unit that swings is controlled by the controller of air-conditioning, and by remote controller remote control. Controller and remote controller are routine techniques, not shown.

Described swings drive unit as shown in Figure 3, comprise motor 7, crank 8, first connecting rod 9 and second connecting rod 10, second connecting rod 10 is hinged on one side with each longitudinally guiding plate 5 by bearing pin 11, one end of second connecting rod 10 is hinged with one end of crank 8 by first connecting rod 9, and the other end of crank 8 is fixedly connected on the output shaft of motor 7. The rotation of motor 7 is by described controller control, the rotation of motor 7 drives second connecting rod 10 to do reciprocating linear motion (as shown by the arrows in Figure 2) by crank 8 and first connecting rod 9, second connecting rod 10 drives each longitudinally guiding plate 5 taking rotating shaft 6 as axis swing, realizes swinging of wind direction. Control as required motor 7 continuous operations or longitudinally guiding plate 5 is adjusted to the position needing.

Referring to Fig. 4, the oscillatory gearing mechanism of infrared temperature probe 12 of the present invention comprises motor 14, fork 16 and crank 15, and described infrared temperature probe 12 is arranged in a spherical shell 19, and the end of probe of infrared temperature probe 12 is exposed the front end of spherical shell 19. On air-conditioning panel 1, be provided with sphere hole 13, this spherical shell 19 can be arranged in this sphere hole 13 (similar to spherical bearing) rotationally, the rear end of this spherical shell 19 is connected to the front end of fork 16, the rear end of fork 16 is connected to by spheroid 18 in the sphere hole 17 of crank 15 one end, and the other end of crank 15 is radially connected with the output shaft of motor 14. This motor 14 is by the controller control of air-conditioning.

The control of wind direction realizes by the inclined degree that regulates transverse guide fence 4 and longitudinally guiding plate 5, the position at crank 15 places of the location of direction by oscillatory gearing mechanism is (relatively with the angle of a reference point, reference point is located with position sensor, not shown) realize. The motor 14 of oscillatory gearing mechanism turns to a position, infrared temperature probe 12 can detect the temperature at indication target place, whether the temperature that controller calculates this target place is minimum, if so, regulates transverse guide fence 4 and longitudinally guiding plate 5 to make it towards the low direction of temperature. Regulate the driving location of transverse guide fence 4 and longitudinally guiding plate 5 also can adopt position sensor to determine reference point.

Described oscillatory gearing mechanism also can adopt the horizontal and vertical flat scanning of existing techniques in realizing. Infrared temperature probe 12 also can adopt laser temperature-measuring probe.

Claims (3)

1. a temperature control method for air-conditioning, is characterized in that, comprises the following steps:

(1) temperature of each position in use infrared temperature probe sensing chamber;

(2) temperature value of detection is sent to controller;

(3) controller sends regulating command to guider;

(4) guider extended in the direction time of staying towards the lower region of temperature value, until temperature is even;

In step (1), described infrared temperature probe is driven by oscillatory gearing mechanism, can detect indoor temperature around detecting or scanning in length and breadth; Described oscillatory gearing mechanism comprises motor, fork and crank, and described infrared temperature probe is arranged in a spherical shell, and the end of probe of infrared temperature probe is exposed the front end of spherical shell; On air-conditioning panel, be provided with sphere hole, this spherical shell can be arranged in this sphere hole rotationally, the rear end of this spherical shell is connected to the front end of fork, and the rear end of fork is connected to by spheroid in the sphere hole of crank one end, and the other end of crank is radially connected with the output shaft of motor; This motor is by described controller control.

2. the temperature control method of air-conditioning according to claim 1, it is characterized in that, in step (3) and (4), described guider comprises transverse guide fence, swings up and down drive unit and longitudinally guiding plate, swing up and down the controller control of drive unit by air-conditioning, and by its action of remote controller remote control; Described longitudinally guiding plate is equipped with the drive unit that swings, and it moves also by described controller control, and by remote controller remote control.

3. the temperature control method of air-conditioning according to claim 1, it is characterized in that, the described drive unit that swings comprises motor, crank, first connecting rod and second connecting rod, second connecting rod is hinged on one side by bearing pin and each longitudinally guiding plate, one end of second connecting rod is hinged by one end of first connecting rod and crank, and the other end of crank is fixedly connected on the output shaft of motor; The rotation of motor is by described controller control, and the rotation of motor drives second connecting rod to do reciprocating linear motion by crank and first connecting rod, and second connecting rod drives each longitudinally guiding plate to swing, and realizes swinging of wind direction.