The heater control device of ice machine
Technical field
The present invention relates to a kind of heater control device of ice machine.
Background technology
Fig. 1 and Fig. 2 are the structural representations of general refrigerating ice making machine.Ice machine is fixed on the wall of refrigerating chamber by its top Connection Card 2a, 2b, and its ice build-up tank 12 is made by aluminium, and its cross sectional shape is a semilune, and supplying water in ice build-up tank 12 is to be undertaken by a plurality of feed pipes that are installed in a side.The top of ice build-up tank 12 is provided with ice shifting rod 14, takes out the ice cube that freezes fully by being installed in the motor-driven rotation in the casing 20 from ice build-up tank 12.The below of ice build-up tank 12 is provided with a heater 15, can start heater 15 and produce a spot of heat after the ice making operation finishes, so that the ice cube of being close on ice build-up tank 12 cell walls forces to melt and separate, facilitates the use the rotation of ice shifting rod and shifts out from ice build-up tank 12.The ice cube that is moved out of will fall into the storage chamber (not shown) of below, for the ice cube that prevents to shift out slips in the ice build-up tank 12 again, be provided with from scraping ice device 6 at the front upper side of ice build-up tank 12.Shift out from ice build-up tank 12 before the ice cube, should utilize inspection to ice in the storage chamber of bar 16 its belows of detection whether be filled with ice cube, inspection ice bar 16 can the rotation up and down in certain angular range with the rotation of casing 20 interior motors.Scrape ice device 6 and extend back and form a plurality of poles, respectively scrape between the ice device 6 and form certain intervals, so that ice shifting rod 14 is rotated from the front panel 18 of ice build-up tank 12.The front panel 18 of ice build-up tank 12 should have certain altitude, is in contact with one another to prevent ice cube and ice build-up tank 12 in the storage chamber.This is because in case be in contact with one another, ice cube promptly may bond together with ice build-up tank 12; Perhaps, the heating because of heater 15 in moving the ice process is partly melted ice cube, after heater 15 disconnects, and the water regelation after the thawing and the ice cube coagulation is bonded together.As mentioned above, the ice machine worker that is arranged on refrigerating chamber inside itself cold air provide in refrigerating chamber is provided and makes the water in the ice build-up tank 12 form ice cube.Provide cold air as the direction of arrow in Fig. 1, then cold air will contact with ice build-up tank 12 through the rear of front panel 18, thereby reduces the temperature in the ice build-up tank 12 and make water freezing.In moving the ice process, heater 15 will start heating; But through after the certain hour, heater 15 must stop heating, will bring adverse influence to the refrigeration of refrigerating chamber because continue heating.The ice action that moves of above-mentioned ice machine is to control by the temperature that detects ice build-up tank 12, though not expression among the figure, but in fact above-mentioned ice build-up tank 12 is provided with the temperature sensor that can detect its temperature, whether can detect ice-making process by temperature sensor finishes, limit control heater 15 heating then, limit control ice shifting rod 4 moves ice.But, utilize the temperature sensor detected temperatures to be easy to produce error, this is more because influence the environmental factor of temperature sensor, as whether providing cold air to refrigerating chamber, whether flabellum rotates and switch refrigerating chamber door etc.In general, determine that in detected temperatures ice-making process finishes and start heater and when beginning to move the ice process, even temperature sensor error occurs because of environmental factor, also only can delay the startup of heater, and unlikelyly bringing adverse influence to refrigerating chamber, this is because the ice making time is grown the cause of (being generally 1 hour).But finishing to move in the process of ice, disconnection heater, owing to moving the ice time very short (general about 3 minutes), so the detection error of temperature sensor can not be ignored; As too early disconnection heater, can not normally move ice; On the contrary, as disconnecting heater too late, then the heat of heater generation will influence the refrigeration of refrigerating chamber.
In a word, in traditional ice machine, the action of heater utilizes temperature sensor to detect the ice build-up tank temperature and controls with moving the ice action, because the influence of surrounding environment, temperature sensor is accurate sensing ice build-up tank temperature often, thereby causes the accurately action of control heater.
Summary of the invention
Purpose of the present invention promptly is to provide a kind of heater control device of ice machine, with the action of accurate control heater, and the especially accurately disconnection of control heater.
To achieve these goals, the present invention utilizes shadow shield, optical sensor and control part to constitute a kind of ice machine heater control device and moves the ice maker structure with ice machine and work in coordination.Shadow shield is installed in the axle head of ice shifting rod drive motors and drives rotation synchronously by drive motors with ice shifting rod is coaxial, shadow shield is provided with the first identical loophole of the radius of gyration and second loophole, and the angle between first loophole and second loophole equals the angle of rotation of ice shifting rod in ice build-up tank; Optical sensor is made up of illuminating part and light accepting part, also can work in coordination by first loophole and second loophole in the both sides that are oppositely arranged on shadow shield; On the shadow shield position of first loophole and second loophole respectively corresponding ice shifting rod initial position and shift out the ice build-up tank position, ice shifting rod begins to rotate when moving ice, shadow shield begins to rotate simultaneously, and the light that illuminating part sends arrives light accepting part and induced signal is sent into control part by first loophole; When move the ice time finish, be ice shifting rod when arriving the position of the second loophole correspondence, light accepting part will receive the light that illuminating part sends by second loophole produce induced signal; Control part promptly disconnects heater by heater-driven portion after receiving this induced signal.
Utilize above-mentioned control device can cooperate ice making and move the ice process and the accurately break-make, the particularly accurately disconnection of control heater of control heater.
Be described in further detail below in conjunction with the technical characterictic of specific embodiment the heater control device of ice machine of the present invention.
Description of drawings
Fig. 1 and Fig. 2 are the structural representations of general ice machine.
Fig. 3 a and Fig. 3 b are the schematic diagrames of the heater control device of ice machine of the present invention.
Fig. 4 is the flow chart that utilizes control heater break-make of the present invention.
The specific embodiment
As previously mentioned, the startup of heater 15 finishes, moves and carry out when the ice process begins at ice-making process, that is to say that the startup of heater 15 means the beginning of moving process, and the disconnection of heater 15 means that then moving ice finishes.Therefore, must carry out in conjunction with moving the ice process the control of heater in the present invention.
Shown in Fig. 3 a, Fig. 3 b, the heater control device of ice machine of the present invention mainly is made up of shadow shield 52, optical sensor and control part 58.Shadow shield 52 and ice shifting rod 14 coaxial rotating shaft 54 axle heads that are installed in ice shifting rod drive motors 56, thereby can drive rotation synchronously by motor 56, shadow shield 52 is provided with first loophole 62 and second loophole 63 that matches with optical sensor, first loophole 62 is identical with the radius of gyration of second loophole 63, angle between the two equals the angle of rotation of ice shifting rod 14 in ice build-up tank 12, also promptly, the initial position of first loophole 62 and the corresponding respectively ice shifting rod 14 of second loophole 63 and the position of shifting out ice build-up tank 12.Optical sensor is made up of illuminating part 60 and light accepting part 64, be oppositely arranged on the both sides of shadow shield 52 and cooperatively interact by first air-vent 62 and second air-vent 63, promptly the light that sends of illuminating part 60 can see through first loophole 62 and second loophole 63 arrives light accepting parts 64 and induce signal.Control part 58 is controlled motor 56 and illuminating part 60 on/offs and is passed through the signal that holding wire L3 receives light accepting part 64 inductions by power line L1 and L2 respectively, and then passes through 59 control heaters, 15 actions of heater-driven portion.
Utilize the present invention to control the process of ice machine heater action below in conjunction with moving the ice procedure declaration.
Ice build-up tank 12 is filled with water and is promptly build-up ice through behind the certain hour, and moving the ice process is to begin after the temperature that detects ice build-up tank 12.Though expression among the figure, in fact ice build-up tank 12 is provided with the temperature sensor of detected temperatures, and the temperature of the ice build-up tank 12 that detects according to temperature sensor is finished, moved the ice process and begin can determine ice-making process.
As shown in Figure 4, move after the ice process begins, control part 58 by heater-driven portion 59 to heater 15 energising heating (200 step); Make built-in time initialization simultaneously and pick up counting (203 step), the heating of heater 15 makes the ice of ice build-up tank 12 bottoms begin to melt; Whether control part 58 monitoring heaters reach the time (206 step) that the ice that makes ice build-up tank 12 bottoms all melts defined 15 heat time heating times; After heater 15 heating reached the stipulated time, 56 energisings of control part 58 control motors started and make ice shifting rod 14 begin to rotate to move ice (209 step); Control part 58 makes illuminating part 60 electrified light emittings (212 step) simultaneously; Ice shifting rod 14 begins to rotate when moving ice, shadow shield 52 begins to rotate simultaneously, at this moment, illuminating part 60, first loophole 62 and light accepting part 64 in line, the light that illuminating part 60 sends can arrive light accepting parts 64 and induced signal is sent into control part 58 (215 step) by first loophole 62; Along with the uniform rotation of ice shifting rod 14 from initial position, ice in the ice build-up tank 12 is moved out of ice build-up tank 12 gradually, when move the ice time finish (218 step), be ice shifting rod 14 when arriving the position of second loophole, 63 correspondences, light accepting part 64 will receive the light that illuminating parts 60 send by second loophole 63 produce induced signal (221 step); Control part 58 promptly disconnects heater 15 (224 step) by heater-driven portion 59 after receiving this induced signal; When ice shifting rod 14 is rotated further when being returned to initial position, control part 59 makes motor 56 disconnect (step 227) by heater-driven portion 59 to finish to move the ice process.Move after the ice process finishes water filling and begin new ice-making process again in the ice build-up tank 12.
In sum, utilize the present invention and to move the action that the ice process is accurately controlled the ice machine heater, guarantee to move normally carrying out of ice and ice-making process according to ice making.