CN105068578A - Temperature controller capable of restraining fluctuation of detection temperature - Google Patents
Temperature controller capable of restraining fluctuation of detection temperature Download PDFInfo
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- CN105068578A CN105068578A CN201510428904.9A CN201510428904A CN105068578A CN 105068578 A CN105068578 A CN 105068578A CN 201510428904 A CN201510428904 A CN 201510428904A CN 105068578 A CN105068578 A CN 105068578A
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Abstract
The invention discloses a temperature controller capable of restraining fluctuation of detection temperature, which comprises a power supply module, a processor module, a display module, a communication module, a temperature sensor, a key module and a sensible heat module, wherein the processor module carries out calculation processing on signals from the temperature sensor, the key module and the communication module and then transmits the signals to the display module for display; the processor module transmits control signals acquired after calculation processing to an air conditioning control system; the sensible heat module comprises a tubular measurement part with one end sealed capable of accommodating the temperature sensor and a plate heat integration part, the sealed end of the measurement part passes through and protrudes against the plate heat integration part, and the plate heat integration part is opposite to a temperature measurement part of the temperature sensor arranged in the measurement part. The sensible heat module has a large heat transfer area, is contacted with to-be-measured air, has a large detection area, and is high in heat transfer efficiency, room temperature detection precision is improved, room temperature fluctuation is reduced, and temperature control response delay is further shortened.
Description
Technical field
The present invention relates to a kind of temperature controller, particularly relate to a kind of temperature controller with the fluctuation of suppression detected temperatures, belong to domain of control temperature.
Background technology
The indoor temperature that air-conditioning system maintains usually fluctuates widely, sometimes hot and sometimes cold, allows people feel extremely uncomfortable, sometimes also may affect the health of people.The fluctuating widely of the indoor temperature of air-conditioning system is mainly caused by temperature controller, and the temperature sensor of temperature controller and temperature sampling mode thereof determine the ageing and control accuracy of the control of temperature controller, and then affects the comfort of people to temperature.
In the shell that the temperature sensor of traditional temperature controller is usually arranged on temperature controller or on circuit panel, and arrange convection holes on case body, temperature sensor and tested air contact, the temperature of the tested air of direct-detection.The accurate measurement of traditional temperature controller to temperature also exists problems: temperature detection area is little, because the temperature distributing disproportionation of tested air is even, along with air current flow, and the temperature generation frequent fluctuation that temperature sensor detects; Perforate on housing, enclosure interior air flow property is poor, and temperature-responsive can be caused excessively slow, usually needs within about 10 minutes, above could react true room temperature; The heat of the control circuit generation of temperature controller, is radiated the generation drift of the temperature that temperature sensor makes temperature sensor detect, causes the temperature of tested air too low.
For the many problems of the storage existed in above-mentioned prior art, need the large temperature of exploitation area of detection that is a kind of and tested air badly and control the response time short temperature controller for air-conditioning system being provided with thermal-arrest screen.
Summary of the invention
The object of this invention is to provide a kind of temperature controller with the fluctuation of suppression detected temperatures, for solving problems of the prior art: the temperature sensing area of temperature sensor is little, being subject to the even tested air draught flowing of temperature distributing disproportionation and producing check point temperature fluctuation; On the housing of temperature controller, perforate causes the temperature sensor surrounding air property that flows poorly to cause the temperature-responsive time excessively slow; There is temperature drift and fast accurate measurement cannot be carried out to room temperature in the temperature that the heat that the electronic devices and components on controller internal circuit board produce causes temperature sensor to detect.To achieve these goals, this invention exploits a kind of temperature controller that temperature sensor and sensible heat module are combined.
A kind of temperature controller with the fluctuation of suppression detected temperatures that technical scheme of the present invention provides, its designing points is: comprise power module, processor module, display module, communication module, temperature sensor, key-press module and sensible heat module, and described power module is used for providing electric energy to processor module, display module, communication module, temperature sensor; Described processor module is sent to display module after the received signal from temperature sensor, key-press module and communication module is processed as calculated and shows; Processor module sends air-conditioner control system the control signal obtained after computing to through communication module; Described sensible heat module comprises measurement section and tabular thermal-arrest portion, described measurement section is be provided with the tubular structure that can hold an end-enclosed of temperature sensor similar to temperature sensor shape, described measurement section is through tabular thermal-arrest portion, the blind end of measurement section protrudes from tabular thermal-arrest portion, to make tabular thermal-arrest portion relative with the thermometric portion of the temperature sensor be assemblied in measurement section, described temperature sensor is assemblied in measurement section and with the blind end of described measurement section and fits.
In the application, the present invention also has following preferred technical scheme further.
Further, at least one side in described tabular thermal-arrest portion is provided with the thermal-arrest screen for increasing heat exchange area, and the part thermal-arrest screen interfered with test section in it and the outside surface of test section fix.The height of thermal-arrest screen is higher than the height of outstanding blind end, and it also can be less than or equal to.
Further, described thermal-arrest screen is dull and stereotyped, arranged in parallel.
Further, described thermal-arrest screen is curved with the intersection of the plane being parallel to tabular thermal-arrest portion, and it is symmetrically distributed in the periphery of tubulose measurement section.
Further, described curve is made up of circular arc, or described curve is made up of para-curve, or described curve connects in turn by least two and the mutually circumscribed circular arc in tie point place is formed, or described curve is connected and composed successively by least two straight-line segments.
Further, the gap-fill heat-conducting silicone grease between described temperature sensor and measurement section.
Further, described measurement section, thermal-arrest screen and tabular thermal-arrest portion are formed in one.
Further, described temperature sensor adopts DS18B20 digital temperature sensor, described measurement section for its end face be semicircular tubular, tabular thermal-arrest portion is square plate.
Further, the material of described sensible heat module is aluminium, copper or the silver that thermal conductivity is high.
Further, the spacing between two of described thermal-arrest screen adjacent heat collection gate plates is equal.
DS18B20 temperature sensor adopts " one-wire bus " structure, eliminate the secondary treating of signal, save electronic devices and components, decrease consumption heating, the impact that the heat reducing control circuit detects room temperature temperature sensor, further increases the precision that room temperature detects.
Temperature sensor is assemblied in the measurement section of sensible heat module, and fit with the inside surface of the blind end of measurement section, fill part in gap between temperature sensor and the measurement section of sensible heat module and fill heat-conducting silicone grease, reduce the thermal resistance of temperature sensor and sensible heat intermodule, improve effective transmission of the heat of temperature sensor and sensible heat intermodule, guarantee that temperature sensor accurately can measure the temperature of tested air, the thermometric response time is less.
The measurement section of sensible heat module is through tabular thermal-arrest portion, the blind end of measurement section protrudes from tabular thermal-arrest portion, tabular thermal-arrest portion is relative with the thermometric portion of the temperature sensor be assemblied in measurement section, such layout, make the thermal resistance of the thermometric portion of temperature sensor and sensible heat intermodule minimum, temperature sensor more directly can measure the temperature in the tabular thermal-arrest portion representing detected fluid temperature effectively, to improve the precision of temperature detection further, reduce to realize the time that tested air themperature reaches controlled object temperature.
Temperature sensor and sensible heat module with the use of, sensible heat module contacts with tested air, exchange heat is carried out between sensible heat module and tested air, sensible heat module serves as heat catalysis simultaneously, the heat of the tested air making the temperature distributing disproportionation of surveyed area even is delivered to low temperature place from high temperature, this regional temperature is made to be tending towards identical, until the temperature of sensible heat module is identical with the temperature of tested air, now the temperature of sensible heat module is the medial temperature of this surveyed area air, the temperature of temperature sensor measurement sensible heat module, namely measures the medial temperature of tested air.Sensible heat module has measurement section, tabular thermal-arrest portion, thermal-arrest screen, makes to have larger contact heat-exchanging area between sensible heat module and tested air, the medial temperature of the tested air section that the temperature measured by temperature sensor contacts for sensible heat module.When the tested air flowing that temperature distributing disproportionation is even, what namely have a high-temperature region with the tested air of sensible heat module contact also has low-temperature space, part is offset the impact of sensible heat module by high-temperature region and low-temperature space even completely, the fluctuation of the temperature of sensible heat module is very little, with sensible heat module with the use of the temperature fluctuation amplitude that detects of temperature sensor very little, the fluctuating range of the temperature that such temperature sensor detects is little more stable.Tested air is generally the poor conductor of heat, heat is delivered to another place from one needs the longer time, if the temperature of the tested air of temperature sensor direct-detection, the temperature detected is fluctuated, fluctuating range is large, about 4 degree, cause temperature Ore-controlling Role frequent movement, then what need to grow very much just can make (on average) temperature of tested air reach the target temperature of control to (the control about 8-10 minute of room temperature) between seasonable; And sensible heat module adopts the high material (as copper, aluminium, silver or carbon fiber) of thermal conductivity to make, the heat of the tested air contacted with sensible heat module is delivered to temperature lower region by sensible heat module from areas of higher temperature, the thermal conductivity of sensible heat module is large, area of detection is large, the fluctuating range of the temperature detected after adopting sensible heat module is little, greatly reduce the time that the medial temperature realizing tested air reaches control objectives temperature, about need 1-3 minute.
Beneficial effect
Temperature detection has higher precision, the blind end of measurement section protrudes from tabular thermal-arrest portion, tabular thermal-arrest portion is relative with the thermometric portion of the temperature sensor being assemblied in measurement section, make the thermal resistance of the thermometric portion of temperature sensor and sensible heat intermodule minimum, temperature sensor more directly can measure the temperature of detected fluid, make temperature detection have higher precision, it is shorter that the temperature of tested air reaches controlled object temperature required time.
Temperature sensor detects the medial temperature of target area, the fluctuating range of measured temperature is little, by the measurement section of sensible heat module, tabular thermal-arrest portion, thermal-arrest screen, make, between sensible heat module and tested air, there is larger contact area, the medial temperature of the tested air section that the temperature measured by temperature sensor contacts for sensible heat module.When the tested air flowing that temperature distributing disproportionation is even, what namely have a higher temperatures with the tested air of sensible heat module contact also has compared with low temperature, part being offset by the impact of sensible heat module even completely with the tested air of low temperature of higher temperatures, the temperature fluctuation of sensible heat module is little, with sensible heat module with the use of the temperature fluctuation amplitude that detects of temperature sensor very little.
Reduce the response time that tested air themperature reaches control objectives temperature, tested air is generally the poor conductor of heat, heat is delivered to another place from one needs the longer time, if the temperature of the tested air of temperature sensor direct-detection, the temperature detected is fluctuated, and fluctuating range is large, about 4 degree, cause temperature Ore-controlling Role frequent movement, then need the longer response time that the temperature of tested air just can be made to reach control objectives temperature.Sensible heat module adopts the material of high heat conductance to make, the heat of the tested air contacted with sensible heat module is delivered to temperature lower region by sensible heat module from areas of higher temperature, the thermal conductivity of sensible heat module is high, area of detection is large, the fluctuating range of the temperature detected after adopting sensible heat module is little, greatly reduces the time that the temperature realizing tested air reaches control objectives temperature.
DS18B20 temperature sensor adopts " one-wire bus " structure, eliminate the secondary treating of signal, save electronic devices and components, decrease consumption heating, the impact that the heat reducing control circuit detects room temperature temperature sensor, further increases the precision that room temperature detects.
Accompanying drawing explanation
The structural representation of Fig. 1 temperature controller of the present invention.
The control principle block diagram of Fig. 2 temperature controller of the present invention.
The schematic front view of Fig. 3 sensible heat module.
A kind of thermal-arrest of Fig. 4 screen is the vertical view of the sensible heat module of single circular arc.
A kind of thermal-arrest of Fig. 5 screen is the vertical view of parabola shaped sensible heat module.
A kind of thermal-arrest of Fig. 6 screen is the vertical view of the sensible heat module of many circular curves.
A kind of thermal-arrest screen of Fig. 7 is the vertical view of the sensible heat module of fold-line-shaped.
A kind of control circuit schematic diagram in Fig. 8 embodiment.
Wherein: 1-sensible heat module, 11-tabular thermal-arrest portion, 12-thermal-arrest screen, 13-measurement section, 2-temperature sensor, 3-heat-conducting silicone grease, 5-shell, 6-control circuit board.
Embodiment
In order to can illustrate better and understand technical scheme of the present invention, below in conjunction with specific embodiments and the drawings, the technical program is described further.
A kind of temperature controller with the fluctuation of suppression detected temperatures of the present invention, as depicted in figs. 1 and 2, comprise power module, processor module, display module, communication module, temperature sensor, key-press module and sensible heat module 1, it also comprises shell 5 and control circuit board 6.Described control circuit board 6 is provided with power module, processor module and communication module, and control circuit board 6 is fixed in shell 5; Sensible heat module 1 to be fixed on shell 5 and partial denudation in the outside of shell 2, exposed part and tested air contact.Described power module is used for providing electric energy to processor module, display module, communication module, temperature sensor.Described processor module is sent to display module after the received signal from temperature sensor, key-press module and communication module is processed as calculated and shows, and wherein processor module is made up of microprocessor, clock circuit and power supply unit.Processor module sends air-conditioner control system the control signal obtained after computing to through communication module.Described sensible heat module 1 comprises measurement section 13 and tabular thermal-arrest portion 11, described measurement section 13 is for being provided with the tubular structure that can hold an end-enclosed of temperature sensor 2 similar to temperature sensor 2 shape, namely described measurement section 13 is the cylinder of hollow, and one end is closed; Described measurement section 13 is through tabular thermal-arrest portion 11, the blind end of measurement section 13 protrudes from tabular thermal-arrest portion 11, to make tabular thermal-arrest portion 11 relative with the thermometric portion of the temperature sensor 2 be assemblied in measurement section 13, described temperature sensor 2 is assemblied in measurement section 13 and also fits with the inside surface of the blind end of described measurement section 13.Gap-fill heat-conducting silicone grease 3 between temperature sensor 2 and measurement section 13, to reduce the thermal resistance between temperature sensor 2 and sensible heat module 1, guarantee fully to conduct heat between temperature sensor 2 and sensible heat module 1, make temperature sensor 2 can measure the temperature of tested air more accurately, less with the response time making tested air reach needed for control temperature.
The surface being positioned at measurement section 13 blind end side in described tabular thermal-arrest portion 11 is fixed with multiple thermal-arrest screen 12 for increasing heat interchanging area, the outside surface of the part thermal-arrest screen 12 interfered with the blind end of measurement section 13 in it and the blind end of measurement section 13 matches, and fix with the outside surface of the blind end of measurement section 13, and fully contact.Thermal-arrest screen 12, for contacting with tested air, to strengthen between tested air and heat conduction between tested air and measurement section 13.Thermal-arrest screen 12 is dull and stereotyped, arranged in parallel, preferentially, and the spacing between two adjacent heat collection gate plates equal (also can be unequal).Preferably, thermal-arrest screen 12 is perpendicular to tabular thermal-arrest portion 11 (it also can favour tabular thermal-arrest portion 11); The thickness in described tabular thermal-arrest portion 11 is 2mm, and the thickness of thermal-arrest screen 12 is 1.2mm, also can select other thickness as required, owing to not being the technology point that the present invention needs to protect, lists no longer one by one at this.Described measurement section 13, thermal-arrest screen 12 and tabular thermal-arrest portion 11 are formed in one, and avoid welding to produce thermal resistance, guarantee good thermal conductivity, material is the aluminium that thermal conductivity is high, also can be copper, silver or carbon fiber.Wherein, the height that height and the blind end of test section 13 of described thermal-arrest screen 12 protrude from tabular thermal-arrest portion 11 is identical, as shown in Figure 1, Figure 3, also can protrude from the height in tabular thermal-arrest portion 11 higher or lower than the blind end of test section 13.The contact area of above-mentioned sensible heat module 1 and tested air is large, heat exchange efficiency is high, adopts the sensible heat module of said structure, and the dynamic property when measuring tested air themperature of temperature controller is excellent, to the control of room temperature, only need within about 2.5 minutes, room temperature can be made to reach target control temperature.
The surface being positioned at measurement section 13 side in described tabular thermal-arrest portion 11 also can be fixed with multiple thermal-arrest screen 12 for increasing heat interchanging area, the part thermal-arrest screen 12 interfered with measurement section 13 in it and the outside surface of test section 13 match, and fix with the outside surface of test section 13, for increasing the heat interchanging area of sensible heat module further, strengthen the heat of the tested air of conduction, improve the precision of temperature sensor detected temperatures, and reduce the fluctuating range of institute's detected temperatures, for people provide more comfortable temperature environment.
The measurement section of sensible heat module is through tabular thermal-arrest portion, the blind end of measurement section protrudes from tabular thermal-arrest portion, tabular thermal-arrest portion is relative with the thermometric portion of the temperature sensor be assemblied in measurement section, preferably just relative, such layout, make the thermal resistance of the thermometric portion of temperature sensor and sensible heat intermodule minimum, temperature sensor more directly can measure the temperature in the tabular thermal-arrest portion representing detected fluid temperature effectively, to improve the precision of temperature detection further, reduce to realize the time that tested air themperature reaches controlled object temperature.
In order to improve the heat exchange efficiency of sensible heat module, when its constancy of volume, adopting the thermal-arrest screen of curve form, effectively can increase heat interchanging area.Described thermal-arrest screen 12 is curved with the intersection of the plane being parallel to tabular thermal-arrest portion 11, it is symmetrically distributed in the periphery of measurement section 13, as the left and right sides or surrounding (not shown in FIG.), for increasing heat interchanging area, improve the precision of temperature sensor detected temperatures, and reduce the fluctuating range of institute's detected temperatures.Described curve is made up of circular arc, or described curve is made up of para-curve, or described curve connects in turn by least two and the mutually circumscribed circular arc in tie point place is formed, or described curve is connected and composed successively by least two straight-line segments.Described 4 kinds of application structure forms of thermal-arrest screen 12 specifically describe as follows respectively.
Application form 1, described curve is made up of single circular arc, and as shown in Figure 4, described circular arc is symmetrically distributed in the left and right sides of measurement section 13, and left side circular arc is convex in measurement section 13, and right side circular arc is convex in measurement section 13; Between described left side circular arc and right side circular arc, one, two or more flat thermal-arrest screen are set without thermal-arrest screen region, or one, thermal-arrest screen that two or more and described circular arc curvature is close are set, increase and change area, improve heat exchange efficiency.The i.e. twisted plate of thermal-arrest screen 12 in arc-shaped, in order to increase the contact area of sensible heat module 1 and tested air, strengthen heat exchange efficiency, when adopting the sensible heat module of this structure, the dynamic property of temperature control equipment when measuring tested air themperature is excellent, to the control of room temperature, only need within about 2 minutes, room temperature can be made to reach target control temperature.
Application form 2, described curve is made up of wall scroll para-curve, and as shown in Figure 5, described para-curve is symmetrically distributed in the left and right sides of measurement section 13, and left side para-curve is convex in measurement section 13, and right side para-curve is convex in measurement section 13; Between described left side para-curve and right side para-curve, one, two or more flat thermal-arrest screen are set without thermal-arrest screen region, or one, thermal-arrest screen that two or more and described parabolic curvature is close are set, increase and change area, improve heat exchange efficiency.The i.e. twisted plate of thermal-arrest screen 12 parabolically shape, in order to increase the surface of contact of sensible heat module 1 and tested air, strengthen heat exchange efficiency, when adopting the sensible heat module of this structure, the dynamic property of temperature control equipment when measuring tested air themperature is excellent, to the control of room temperature, only need within about 2 minutes, room temperature can be made to reach target control temperature.
Application form 3, described curve is connected in turn by least two its free ends and the tangent circular arc in tie point place is formed, namely thermal-arrest screen 12 is in wavy curved sheets, as shown in Figure 6, the center of circle of adjacent circular arc is distributed in the not homonymy of described circular arc, make adjacent circular arc mutually circumscribed, and form smooth curve.Be described for ease of understanding the curve formed for two circular arcs, as shown in Figure 6, described curve is made up of two mutually circumscribed circular arcs, the homonymy of the center of circle of described two circular arcs not arbitrary circular arc wherein, to make two circular arcs mutually circumscribed, and formation smooth curve.It is in order to increase the surface of contact of sensible heat module 1 and tested air, strengthen heat exchange efficiency, when adopting the sensible heat module of this structure, the dynamic property of temperature controller when measuring tested air themperature is excellent, to the control of room temperature, only need within about 1.8 minutes, room temperature can be made to reach target control temperature.
Application form 4, described curve is connected and composed successively by least two straight-line segments, the i.e. curved sheets of thermal-arrest screen 12 in polyline shaped, as shown in Figure 7, for convenience, in turn serial number is carried out to aforesaid rectilinear section, from one end, straight-line segment is numbered in turn, as, 1, 2, 3 ... n, wherein the straight-line segment of odd-numbered is parallel to each other, the straight-line segment of even-numbered is parallel to each other, wherein the straight-line segment of the odd-numbered of numbering consecutive numbers is connected with one end of the straight-line segment of even-numbered, and carry out fillet process (not shown in FIG.) at tie point, to form the smooth curve of polyline shaped.Lift for ease of understanding, be described for the curve that three straight-line segments are formed, as shown in Figure 7, described broken line is connected and composed successively by three straight-line segments.In turn straight-line segment is numbered from bottom to top: 1,2,3; Wherein No. 1, No. 3 straight-line segment is parallel, and Line 1 section is connected with No. 2 line segments, and No. 2 line segments are connected with No. 3 line segments, and carry out fillet process to junction.In order to increase the surface of contact of sensible heat module 1 and tested air, strengthen heat exchange efficiency, when adopting the sensible heat module of this structure, the dynamic property of temperature controller when measuring tested air themperature is excellent, to the control of room temperature, only need within about 1.8 minutes, room temperature can be made to reach target control temperature.
The measurement section of sensible heat module, tabular thermal-arrest portion, thermal-arrest screen, sensible heat module is contacted with the tested air in certain body territory, it has larger contact area, temperature detection area is larger, the medial temperature of tested air in the body territory that temperature measured by temperature sensor contacts for sensible heat module, measure the medial temperature in body territory, more can react tested air themperature level.When the tested air flowing that temperature distributing disproportionation is even, what namely have a higher temperatures with the tested air of sensible heat module contact also has compared with low temperature, part being offset by the impact of sensible heat module even completely with the tested air of low temperature of higher temperatures, the temperature fluctuation amplitude of sensible heat module is very little, with sensible heat module with the use of the temperature fluctuation amplitude that detects of temperature sensor very little, the temperature fluctuation amplitude of the tested air that temperature control system controls is very little, its temperature fluctuation range is reduced to less than 1 degree by about original 4 degree, complete imperceptible sometimes hot and sometimes cold sensation.
Tested air is generally the poor conductor of heat, heat is delivered to another place from one needs the longer time, if the temperature of the tested air of temperature sensor direct-detection, the temperature detected is fluctuated, fluctuating range is large, about 4 degree, cause temperature Ore-controlling Role frequent movement, then need the longer response time that the temperature of tested air just can be made to reach control objectives temperature.Sensible heat module adopts the material (as copper, aluminium, silver or carbon fiber) of high heat conductance to make, the heat of the tested air contacted with sensible heat module is delivered to temperature lower region by sensible heat module from areas of higher temperature, the temperature of the tested air in this region is made to be tending towards identical, because the thermal conductivity of sensible heat module is high, area of detection is large, the fluctuating range of the temperature detected after adopting sensible heat module is little, greatly reduces the time that the temperature realizing tested air reaches control objectives temperature.Prior art about needs within 8 minutes, just to make room temperature reach control objectives temperature, and the present invention only needed to make room temperature reach control objectives temperature less than 3 minutes, namely greatly reduced the response time that tested air themperature reaches control objectives temperature.
Wherein, described temperature sensor preferably adopts DS18B20 digital temperature sensor, also can adopt other model temperature sensor, is not protection of the present invention point, will not enumerate at this.The end face of the measurement section of described temperature sensor is semicircle, tabular thermal-arrest portion 11 for temperature controller profile adapt square.
DS18B20 digital temperature sensor system " one-wire bus " structure, eliminate the secondary treating of signal, save the application of electronic devices and components, decrease heating power consumption, reduce the impact of circuit spontaneous heating on room temperature accuracy of detection, improve the precision that temperature sensor detects room temperature.Not only save design space, saved human cost, shorten the production cycle.
Described processor module receive carry out computing from the signal of temperature sensor, button and communication module after the signal that obtains send display module display to; Processor passes to communication module the control signal after computing, then by communication module, described signal is sent to air-conditioner control system, for the controlling run of air conditioner, maintains environment temperature and reaches control objectives temperature.
Wherein, described power module, as shown in Figure 8, comprises the rectifier bridge D1, the three-terminal voltage-stabilizing chip U1 that are electrically connected in turn and for the 1st capacitor C1 of filtering and the 2nd capacitor C2.Power module is used for the direct current direct current of high voltage being converted to low voltage, for providing reliable and stable electric energy to temperature sensor and processor module.Described temperature sensor is DS18B20 digital temperature sensor, and DS18B20 digital temperature sensor is electrically connected with pull-up resistor R1, and resistance R1 can work more reliably.Described processor module U2 comprises microprocessor and clock circuit.Described microprocessor adopts the single-chip microcomputer that price is lower, as C51 single-chip microcomputer, main collection is from the signal of temperature sensor, key-press module and communication module, and calculation process is carried out to the signal gathered, the signal transmission again computing obtained is to display module and communication module, and communication module sends air-conditioner control system the signal received to by communication channel.3rd electric capacity C3 is the filtering circuit of the power unit of single-chip microcomputer, and brilliant shake Y1, electric capacity C4 and C5 form the clock circuit of single-chip microcomputer, for providing clock signal to single-chip microcomputer.
Relative to traditional temperature sensor, adopt DS18B20 digital temperature sensor, eliminate the secondary treating of signal, save electronic devices and components application, decrease trouble spot, decrease control circuit heating, reduce the impact of circuit spontaneous heating on room temperature accuracy of detection, improve the precision that temperature sensor detects room temperature; Not only save design space, human cost, also shorten the production cycle.
Compared to the prior art, the present invention has following technical progress.
The measurement section of sensible heat module is through tabular thermal-arrest portion, the blind end of measurement section protrudes from tabular thermal-arrest portion, tabular thermal-arrest portion is relative with the thermometric portion of the temperature sensor being assemblied in measurement section, make the thermal resistance of the thermometric portion of temperature sensor and sensible heat intermodule minimum, temperature sensor more directly can measure the temperature in the tabular thermal-arrest portion representing detected fluid temperature effectively, to improve the precision of temperature detection further, reduce to realize the time that tested air themperature reaches controlled object temperature.
Temperature sensor detects the medial temperature of target area, the fluctuating range of measured temperature is little, by the measurement section of sensible heat module, tabular thermal-arrest portion, thermal-arrest screen, make, between sensible heat module and tested air, there is larger contact area, the medial temperature of the tested air section that the temperature measured by temperature sensor contacts for sensible heat module.When the tested air flowing that temperature distributing disproportionation is even, what namely have a higher temperatures with the tested air of sensible heat module contact also has compared with low temperature, part being offset by the impact of sensible heat module even completely with the tested air of low temperature of higher temperatures, the temperature fluctuation amplitude of sensible heat module is little, with sensible heat module with the use of the temperature fluctuation amplitude that detects of temperature sensor very little.
Reduce the response time that tested air themperature reaches control objectives temperature, tested air is generally the poor conductor of heat, heat is delivered to another place from one needs the longer time, if the temperature of the tested air of temperature sensor direct-detection, the temperature detected is fluctuated, and fluctuating range is large, about 4 degree, cause temperature Ore-controlling Role frequent movement, then need the longer response time that the temperature of tested air just can be made to reach control objectives temperature.Sensible heat module adopts the material of high heat conductance to make, the heat of the tested air contacted with sensible heat module is delivered to temperature lower region by sensible heat module from areas of higher temperature, because the thermal conductivity of sensible heat module is high, area of detection is large, the fluctuating range of the temperature detected after adopting sensible heat module is little, greatly reduces the time that the temperature realizing tested air reaches control objectives temperature.
DS18B20 temperature sensor adopts " one-wire bus " structure, eliminate the secondary treating of signal, save electronic devices and components, decrease consumption heating, the impact that the heat reducing control circuit detects room temperature temperature sensor, further increases the precision that room temperature detects.
Above embodiment is only do explanatory elaboration for the present invention, is not limited to this kind of embodiment, can realize other any equivalents modes of the object of the invention and all belong to protection scope of the present invention.
Claims (10)
1. one kind has the temperature controller suppressing detected temperatures fluctuation, it is characterized in that: comprise power module, processor module, display module, communication module, temperature sensor, key-press module and sensible heat module, described power module is used for providing electric energy to processor module, display module, communication module, temperature sensor; Described processor module is sent to display module after the received signal from temperature sensor, key-press module and communication module is processed as calculated and shows; Processor module sends air-conditioner control system the control signal obtained after computing to through communication module; Described sensible heat module comprises measurement section and tabular thermal-arrest portion, described measurement section is be provided with the tubular structure that can hold an end-enclosed of temperature sensor similar to temperature sensor shape, described measurement section is through tabular thermal-arrest portion, the blind end of measurement section protrudes from tabular thermal-arrest portion, to make tabular thermal-arrest portion relative with the thermometric portion of the temperature sensor be assemblied in measurement section, described temperature sensor is assemblied in measurement section and with the blind end of described measurement section and fits.
2. based on a kind of temperature controller with the fluctuation of suppression detected temperatures according to claim 1, it is characterized in that: at least one side in described tabular thermal-arrest portion is provided with the thermal-arrest screen for increasing heat exchange area, and the outside surface of the thermal-arrest screen that interferes of test section and test section fixes.
3., based on a kind of temperature controller with the fluctuation of suppression detected temperatures according to claim 2, it is characterized in that: described thermal-arrest screen is for dull and stereotyped.
4., based on a kind of temperature controller with the fluctuation of suppression detected temperatures according to claim 2, it is characterized in that: described thermal-arrest screen is curved with the intersection of the plane being parallel to tabular thermal-arrest portion, and it is symmetrically distributed in the periphery of measurement section.
5. based on a kind of temperature controller with the fluctuation of suppression detected temperatures according to claim 4, it is characterized in that: described curve is made up of circular arc, or described curve is made up of para-curve, or described curve connects in turn by least two and the mutually circumscribed circular arc in tie point place is formed, or described curve is connected and composed successively by least two straight-line segments.
6., based on a kind of temperature controller with the fluctuation of suppression detected temperatures described in the arbitrary claim of claim 1-5, it is characterized in that, the gap-fill heat-conducting silicone grease between described temperature sensor and measurement section.
7., based on a kind of temperature controller with the fluctuation of suppression detected temperatures according to claim 6, it is characterized in that, described measurement section, thermal-arrest screen and tabular thermal-arrest portion are formed in one.
8. based on a kind of temperature controller with the fluctuation of suppression detected temperatures according to claim 7, it is characterized in that, described temperature sensor adopts DS18B20 digital temperature sensor, described measurement section for its end face be semicircular tubular, tabular thermal-arrest portion is square.
9., based on a kind of temperature controller with the fluctuation of suppression detected temperatures described in the arbitrary right of claim 8, it is characterized in that, the material of described sensible heat module is aluminium, copper or silver that thermal conductivity is high.
10., based on the arbitrary described a kind of temperature controller with the fluctuation of suppression detected temperatures of claim 1-5, it is characterized in that, the spacing between two adjacent heat collection gate plates of described thermal-arrest screen is equal.
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| CN105068578B (en) | 2017-05-17 |
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Effective date of registration: 20190411 Address after: 210 000 No. 70 Shuanggao Road, Gubai Town, Gaochun District, Nanjing City, Jiangsu Province Patentee after: Nanjing Xidi Electrical Appliances Co., Ltd. Address before: 232170 Chen Lane Village, new town, Fengtai County, Huainan, Anhui, 112 Patentee before: Chen Ge |
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Denomination of invention: A temperature controller with restraining detection temperature fluctuation Effective date of registration: 20210923 Granted publication date: 20170517 Pledgee: China Construction Bank Co.,Ltd. Nanjing Gaochun sub branch Pledgor: NANJING XIDI ELECTRIC APPLIANCE Co.,Ltd. Registration number: Y2021980009742 |
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Date of cancellation: 20220111 Granted publication date: 20170517 Pledgee: China Construction Bank Co.,Ltd. Nanjing Gaochun sub branch Pledgor: NANJING XIDI ELECTRIC APPLIANCE Co.,Ltd. Registration number: Y2021980009742 |