CN203520201U - Split-type wireless temperature control system - Google Patents

Abstract

The utility model relates to a split-type wireless temperature control system. The split-type wireless temperature control system comprises a remote control part and a heater part. The remote control part and the heater part are communicated through remote control signals. The remote control part comprises a temperature sensor, a temperature analog/digital conversion circuit, a control single-chip microcomputer system and a signal emission circuit, wherein the temperature sensor is used for environment temperature signal collecting and connected with the temperature analog/digital conversion circuit, the temperature analog/digital conversion circuit is connected with the control single-chip microcomputer system, and the control single-chip microcomputer system is connected with the signal emission circuit. The temperature sensor of the split-type wireless temperature control system is individually arranged in the remote control part, and when the heater part works and generates heat, the temperature sensor individually collects the environment temperature signals, so that the temperature sensor is free from the direct influence of the heater part in the environment temperature signal collecting process, and the detected temperature values are closer to the indoor temperature.

Description

A kind of separated wireless temperature-controlling system

Technical field

The utility model relates to a kind of environment temperature and improves device, refers to that especially a kind of temperature sensor is independently arranged on the wireless temperature-controlling system in remote control part.

Background technology

As everyone knows, along with improving constantly of people's living standard, the use of electric heater in work and family life is more and more general.Electric heater is a kind of energy conversion device, and its inside is all provided with heat-generating pipe, in work, is heat energy, and then reaches the effect that improves environment temperature by heat-generating pipe by electric energy or other energy conversion.

But in the temperature controlled processes of electric heater, generally all exist temperature to control coarse shortcoming, because electric heater is the heater members heating by itself, then in whole environment, propagate heat by air, thereby progressively improve environment temperature.Above-mentioned working method has determined electric heater inevitable medial temperature far above whole environment of the temperature of itself in work.If so temperature detection device is directly contained in electric heater, temperature and environment temperature that measures generally all differ greatly, be in fact that the intelligence that cannot realize environment temperature regulates.Yet its temperature detection device is to be all directly contained in electric heater with regard to the electric heater of current appearance, thus temperature sense Effect on Detecting extreme difference, and this is the major defect for conventional art.

Utility model content

The utility model provides a kind of separated wireless temperature-controlling system, its temperature sensor is to be independently arranged in remote control part, so can not be subject to the direct impact of heater section when temperature sensor gathers ambient temperature signal, the temperature value detecting more approaches room temperature, and this is fundamental purpose of the present utility model.

Technical solution adopted in the utility model is: a kind of separated wireless temperature-controlling system, it is characterized in that: comprise remote control part and heater section, this remote control part communicates by remote signal with this heater section, this remote control partly comprises temperature sensor, temperature mould/number conversion circuit, control single chip computer system and signal transmission circuit, wherein, this temperature sensor is in order to gather ambient temperature signal, this temperature sensor is connected with this temperature mould/number conversion circuit, this temperature mould/number conversion circuit is connected with this control single chip computer system, this control single chip computer system is connected with this signal transmission circuit, this remote control part also comprises keyboard, LCDs and power circuit, wherein, this keyboard and this LCDs are connected with this control single chip computer system respectively.

This heater section comprises signal receiving circuit, heating Single Chip Microcomputer (SCM) system, driving circuit, power-switching circuit, heater power source, relay/contactor and electrical heating elements, this signal receiving circuit and this remote control corresponding being arranged in this heater section of this signal transmission circuit partly, this signal receiving circuit is connected with this heating Single Chip Microcomputer (SCM) system, this driving circuit and this power-switching circuit are connected with this heating Single Chip Microcomputer (SCM) system respectively, this heater power source is connected with this power-switching circuit, this relay/contactor is connected with this heater power source and this driving circuit respectively, this electrical heating elements is connected with this relay/contactor.

This remote control part transmitted radio signal, this radio signal that this remote control part of the corresponding reception of this well heater portion is launched.

This remote control part also can be launched infrared signal, this remote control partly comprises horizontal infrared emission head and vertical infrared emission head, wherein, this horizontal infrared emission head is arranged on this remote control part end, the direction of the infrared signal that this horizontal infrared emission head is launched and this keyboard plane parallel of living in, the direction of the infrared signal that this vertical infrared emission head is launched is vertical with this keyboard plane of living in, and this heater section has infrared receiving terminal.

This remote control partial fixing is on the wall on this heater section opposite, and this vertical infrared emission head is aimed at this infrared receiving terminal of this heater section.

This temperature sensor, this temperature mould/number conversion circuit, this control single chip computer system and this signal transmission circuit are co-located on the inside of this remote control part, and this keyboard and this LCDs are arranged on the outside surface of this remote control part.

The beneficial effects of the utility model are: because this temperature sensor of the present utility model is to be independently arranged in this remote control part, this temperature sensor is away from this heater section, when this heater section work and when producing heat, this temperature sensor is independent to be gathered ambient temperature signal, when gathering ambient temperature signal, this temperature sensor can not be subject to the direct impact of this heater section, so the temperature value detecting more approaches room temperature.

Accompanying drawing explanation

Fig. 1 is square frame principle schematic diagram of the present utility model.

Fig. 2 is control position of the present utility model schematic diagram.

Embodiment

As shown in Fig. 1 to 2, a kind of separated wireless temperature-controlling system, it comprises remote control part 10 and heater section 20.

This remote control part 10 communicates by remote signal with this heater section 20, and this remote signal can be radio wave signal, can be also infrared signal.

In specific works, user controls by 10 pairs of these heater sections 20 of this remote control part, thereby determines the duty of this heater section 20.

This remote control part 10 comprises temperature sensor 11, temperature mould/number conversion circuit 12, control single chip computer system 13 and signal transmission circuit 14, and wherein, this temperature sensor 11 is in order to gather ambient temperature signal.

This temperature sensor 11 is connected with this temperature mould/number conversion circuit 12, and this temperature mould/number conversion circuit 12 is connected with this control single chip computer system 13.

This control single chip computer system 13 is connected with this signal transmission circuit 14.

That is to say, this temperature sensor 11 is independently arranged in this remote control part 10, this temperature sensor 11 is away from this heater section 20, when this heater section 20 is worked and produces heat, this temperature sensor 11 independently gathers ambient temperature signal, when gathering ambient temperature signal, this temperature sensor 11 can not be subject to the direct impact of this heater section 20, so the temperature value detecting more approaches room temperature.

This remote control part 10 also comprises keyboard 15, LCDs 16 and power circuit 17, and wherein, this keyboard 15 and this LCDs 16 are connected with this control single chip computer system 13 respectively, and this power circuit 17 is partly powered for whole remote control.

This temperature sensor 11, this temperature mould/number conversion circuit 12, this control single chip computer system 13, this signal transmission circuit 14 and this power circuit 17 are co-located on the inside of this remote control part 10.

This keyboard 15 and this LCDs 16 are arranged on the outside surface of this remote control part 10.

This heater section 20 comprises signal receiving circuit 21, heating Single Chip Microcomputer (SCM) system 22, driving circuit 23, power-switching circuit 24, heater power source 25, relay/contactor 26 and electrical heating elements 27.

Corresponding being arranged in this heater section 20 of this signal transmission circuit 14 of this signal receiving circuit 21 and this remote control part 10.

This signal receiving circuit 21 is connected with this heating Single Chip Microcomputer (SCM) system 22, this driving circuit 23 and this power-switching circuit 24 are connected with this heating Single Chip Microcomputer (SCM) system 22 respectively, this heater power source 25 is connected with this power-switching circuit 24, this relay/contactor 26 is connected with this heater power source 25 and this driving circuit 23 respectively, and this electrical heating elements 27 is connected with this relay/contactor 26.

The utility model is in specific works, in this remote control part 10, user can be by controlling " ON/OFF " key in this keyboard 15, make this control single chip computer system 13 outwards launch " starting temperature automatically controlled remote control code value " by this signal transmission circuit 14, whole automatic temperature control system of the present utility model is started working.

Under temperature automatically controlled state, user can be by a set temperature value of these keyboard 15 inputs, and this control single chip computer system 13 shows this temperature value in this LCDs 16.This temperature sensor 11 detects environment temperature, by this temperature mould/number conversion circuit 12, convert digital signal to, give this control single chip computer system 13, this control single chip computer system 13 compares the temperature value detecting and set temperature value: when detected temperatures does not reach design temperature, this control single chip computer system 13 outwards sends " starting well heater remote control code value " by this signal transmission circuit 14; When detected temperatures has reached design temperature, this control single chip computer system 13 outwards sends " stopping well heater remote control code value " by this signal transmission circuit 14.Thereby realize the start and stop of auto controlled heater.

User is by pressing " ON/OFF " key in this keyboard 15, make this control single chip computer system 13 outwards launch " starting temperature automatically controlled remote control code value " or " stopping temperature automatically controlled remote control code value " by this signal transmission circuit 14, make whole automatic temperature control system open or quit work.

In heater section 20, when this signal receiving circuit 21 receives " starting temperature automatically controlled remote control code value ", make this heater section 20 in accepting temperature automatically controlled state.

Under temperature automatically controlled state, in remote control part 10, when the environment temperature detecting is during lower than design temperature, remote control part 10 can transmitting " start well heater remote control code value "; When the environment temperature detecting is during higher than design temperature, remote control part 10 can transmitting " stopping well heater remote control code value ".

Under temperature automatically controlled state, when this signal receiving circuit 21 receives " starting well heater remote control code value ", by this signal, give this heating Single Chip Microcomputer (SCM) system 22, this heating Single Chip Microcomputer (SCM) system 22 makes this relay/contactor 26 closings of contact by this driving circuit 23, thereby this heater power source 25 is connected with this electrical heating elements 27, heat, to improve environment temperature.When this signal receiving circuit 21 receives " stopping well heater remote control code value ", by this signal, give this heating Single Chip Microcomputer (SCM) system 22, this heating Single Chip Microcomputer (SCM) system 22 disconnects these relay/contactor 26 contacts by this driving circuit 23, thereby this heater power source 25 and this electrical heating elements 27 are disconnected, stop heating.By automatically controlling starting or stoping of this heater section 20, reach environment temperature and substantially equate with design temperature, realize temperature automatically controlled effect.

When this signal receiving circuit 21 receives " stopping temperature automatically controlled remote control code value ", make this heater section 20 exit temperature automatically controlled state, this heater section 20 stops heating.

Because this heater power source 25 is all generally high-voltage ac power, so must change out and be applicable to the low-voltage dc power supply that this heating Single Chip Microcomputer (SCM) system 22 is used by this power-switching circuit 24, for this heating Single Chip Microcomputer (SCM) system 22 and this signal receiving circuit 21.

Remote signal in system of the present utility model can be radio wave signal, can be also infrared signal, and radio wave signal is to launch towards periphery, can get around barrier, does not have directivity, so telepilot can be placed on well heater any position around.And there is directivity in infrared signal, between transmitting and receiving, there is barrier, will affect the reception of signal, thereby affect the normal work of whole system.For Infrared remote controller, can address this problem with following methods.

These remote control part 10 transmitting infrared signals, this remote control part 10 comprises horizontal infrared emission head 31 and vertical infrared emission head 32, wherein, this horizontal infrared emission head 31 is arranged on this remote control part 10 ends, the direction of the infrared signal that this horizontal infrared emission head 31 is launched and this keyboard 15 plane parallel of living in.The direction of the infrared signal that this vertical infrared emission head 32 is launched is vertical with this keyboard 15 plane of living in.

This heater section 20 has infrared receiving terminal 33.

When user takes this remote control part 10, this horizontal infrared emission head 31 can be aimed to this infrared receiving terminal 33 of well heater, by carry out starting or stoping of control heater by button.Temperature automatically controlled in order to realize, this remote control part 10 can be fixed on the wall on these heater section 20 opposites, make this vertical infrared emission head 32 aim at this infrared receiving terminal 33 of this heater section 20, this control single chip computer system 13 compares according to environment temperature and the design temperature of test, these infrared receiving terminal 33 transmitting remote signals by from this vertical infrared emission head 32 to this heater section 20, thereby starting or stoping of auto controlled heater, reach environment temperature and substantially equate with design temperature, realize temperature automatically controlled effect.

A kind of simple power-economizing method of this temperature-controlling system of the present utility model, for determining the environment temperature of test when this control single chip computer system 13 when identical with design temperature, is launched " stopping well heater remote control code value " immediately, makes well heater stop heating; The environment temperature that determines test when this control single chip computer system 13 is during than low 2-5 degree (this value can be determined according to actual conditions) of design temperature, then launches " starting well heater remote control code value ", makes well heater start heating.Thereby avoided the frequent starting of well heater, reached energy-conservation effect simultaneously.

Claims (5)

1. a separated wireless temperature-controlling system, it is characterized in that: comprise remote control part and heater section, this remote control part communicates by remote signal with this heater section, this remote control partly comprises temperature sensor, temperature mould/number conversion circuit, control single chip computer system and signal transmission circuit, wherein, this temperature sensor is in order to gather ambient temperature signal, this temperature sensor is connected with this temperature mould/number conversion circuit, this temperature mould/number conversion circuit is connected with this control single chip computer system, this control single chip computer system is connected with this signal transmission circuit, this remote control part also comprises keyboard, LCDs and power circuit, wherein, this keyboard and this LCDs are connected with this control single chip computer system respectively,

This heater section comprises signal receiving circuit, heating Single Chip Microcomputer (SCM) system, driving circuit, power-switching circuit, heater power source, relay/contactor and electrical heating elements, this signal receiving circuit and this remote control corresponding being arranged in this heater section of this signal transmission circuit partly, this signal receiving circuit is connected with this heating Single Chip Microcomputer (SCM) system, this driving circuit and this power-switching circuit are connected with this heating Single Chip Microcomputer (SCM) system respectively, this heater power source is connected with this power-switching circuit, this relay/contactor is connected with this heater power source and this driving circuit respectively, this electrical heating elements is connected with this relay/contactor.

2. a kind of separated wireless temperature-controlling system as claimed in claim 1, is characterized in that: this remote control part transmitted radio signal, this radio signal that this remote control part of the corresponding reception of this well heater portion is launched.

3. a kind of separated wireless temperature-controlling system as claimed in claim 1, it is characterized in that: infrared signal is partly launched in this remote control, this remote control partly comprises horizontal infrared emission head and vertical infrared emission head, wherein, this horizontal infrared emission head is arranged on this remote control part end, the direction of the infrared signal that this horizontal infrared emission head is launched and this keyboard plane parallel of living in, the direction of the infrared signal that this vertical infrared emission head is launched is vertical with this keyboard plane of living in, and this heater section has infrared receiving terminal.

4. a kind of separated wireless temperature-controlling system as claimed in claim 3, is characterized in that: this remote control partial fixing is on the wall on this heater section opposite, and this vertical infrared emission head is aimed at this infrared receiving terminal of this heater section.

5. a kind of separated wireless temperature-controlling system as claimed in claim 1, it is characterized in that: this temperature sensor, this temperature mould/number conversion circuit, this control single chip computer system and this signal transmission circuit are co-located on the inside of this remote control part, this keyboard and this LCDs are arranged on the outside surface of this remote control part.

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