CN205807897U - A kind of quasiconductor wine cabinet - Google Patents
A kind of quasiconductor wine cabinet Download PDFInfo
- Publication number
- CN205807897U CN205807897U CN201620459641.8U CN201620459641U CN205807897U CN 205807897 U CN205807897 U CN 205807897U CN 201620459641 U CN201620459641 U CN 201620459641U CN 205807897 U CN205807897 U CN 205807897U
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- China
- Prior art keywords
- relay
- semiconductor chilling
- chilling plate
- quasiconductor
- stationary contact
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Abstract
The utility model proposes a kind of quasiconductor wine cabinet, including cabinet, temperature sensor, microprocessor, the first relay, the second relay and semiconductor chilling plate.The temperature of described temperature sensor detecting box external body is also sent to microprocessor temperature information, it is to need to heat up or cooling that described microprocessor is analyzed judgement according to the temperature information received, if desired for cooling, described microprocessor controls described first relay adhesive and the second relay adhesive simultaneously, so that the positive pole of described semiconductor chilling plate connects positive and negative electrode and connects negative, the first side refrigeration of described semiconductor chilling plate;If desired for intensification, described microprocessor controls described first relay simultaneously and arranges and the second relay arranges, so that the positive pole of described semiconductor chilling plate connects negative, negative pole and just connects, the first side of described semiconductor chilling plate heats.It is difunctional that quasiconductor wine cabinet of the present utility model is capable of cooling and warming.
Description
Technical field
This utility model relates to quasiconductor wine cabinet field, the control circuit field of a kind of quasiconductor wine cabinet.
Background technology
At present, along with expanding economy, the raising of living standards of the people, red wine progresses into common man of consumer
In, and its special Conservation environment has promoted rise and the development of wine cabinet industry, at present, many wine cabinet controllers are all
Only refrigerating function, both keep in the environment that temperature is high the temperature of wine cabinet in the lowest storage temperature range, and with
The raising of demand, be also required to the environment that ambient temperature is relatively low improve storage temperature.Although having grasped with regard to people
For technology, the refrigeration of wine cabinet it is implemented separately and heats not so difficult, but in the prior art, being realized by same refrigerating chip
Two functions of above refrigerating/heating then need to design a lot of circuit, have that circuit structure is complicated, relatively costly and performance is the most steady
Fixed shortcoming.
Utility model content
In order to solve the problems referred to above, the utility model proposes one can on same refrigerating chip the double merit of cooling and warming
Can, and the quasiconductor wine cabinet that circuit structure is simple.
This utility model is achieved through the following technical solutions:
The utility model proposes a kind of quasiconductor wine cabinet, including cabinet and semiconductor chilling plate, described semiconductor chilling plate
Including the first side, described first side is inside cabinet, and described quasiconductor wine cabinet also includes microprocessor, the first relay and
Two relays, described microprocessor connects with the first coil of described first relay and the second coil of the second relay respectively
Connecing, the first movable contact of described first relay is connected with the positive electrical of described semiconductor chilling plate, described second relay
Second movable contact is connected with the negative electricity of described semiconductor chilling plate;Described microprocessor control simultaneously the first relay adhesive and
Second relay adhesive, so that the positive pole of described semiconductor chilling plate connects positive and negative electrode and connects negative;Described microprocessor controls institute simultaneously
State the first relay to arrange and the second relay arranges, so that the positive pole of described semiconductor chilling plate connects negative, negative pole and just connects.
Further, described first relay includes the first stationary contact and the second stationary contact, described first stationary contact with just
Power supply connects, and described second contact is connected with negative supply;Described first relay adhesive, described first movable contact and described first
Stationary contact is connected;Described first relay arranges, and described first movable contact is connected with described second stationary contact.
Further, described second relay includes the 3rd stationary contact and the 4th stationary contact, and described 3rd stationary contact is with negative
Power supply connects, and described 4th contact is connected with positive supply;Described second relay adhesive, described second movable contact and the described 3rd
Stationary contact is connected;Described second relay arranges, and described second movable contact is connected with described 4th stationary contact.
Further, described quasiconductor wine cabinet also includes temperature sensor, described temperature sensor and described microprocessor
Electrical connection, described temperature sensor detection temperature outside described cabinet also sends temperature information to microprocessor, described micro-place
Reason device according to temperature information analysis and controls the first relay and the second relay.
Further, described temperature sensor is critesistor.
Further, described quasiconductor wine cabinet also includes that the first radiator and the second radiator, described first radiator set
In the inside of described cabinet and near the first side of described semiconductor chilling plate, described second radiator is located at outside described cabinet
Portion the second side near described semiconductor chilling plate.
The beneficial effects of the utility model:
1. this utility model passes through the first relay and the setting of the second relay so that the work of described semiconductor chilling plate
Can change as the sense of current, so that the chill surface of described semiconductor chilling plate and the face that heats are mutually to switch
, further such that described quasiconductor wine cabinet can cross the temperature environment outside adapting to.The Optimum storage preservation temperature of general red wine
Between 13 DEG C-18 DEG C (different wine product have less difference), when temperature sensor detects that the temperature in the external world is in optimal temperature
On degree scope, then the most described first relay adhesive of microprocessor and the second relay adhesive, so that described quasiconductor
The positive pole of cooling piece connects positive and negative electrode and connects negative, freezes until the temperature in wine cabinet reaches in the first side of described semiconductor chilling plate
Within good temperature range;When temperature sensor detect the external world temperature under optimum temperature range, then microprocessor with
Shi Suoshu the first relay is opened and the second relay arranges, so that the positive pole of described semiconductor chilling plate connects negative, negative pole and just connects, and institute
The first side stating semiconductor chilling plate heats until within temperature in wine cabinet reaches optimum temperature range.So that red wine
Storing and fresh-keeping is carried out in the environment of being directly in a constant temperature.
Accompanying drawing explanation
Fig. 1 is the profile schematic perspective view of quasiconductor wine cabinet of the present utility model;
Fig. 2 is circuit part schematic diagram of the present utility model;
Fig. 3 is the structural representation of the first relay of the present utility model;
Fig. 4 is the structural representation of the second relay of the present utility model;
Fig. 5 is the planar structure schematic diagram of quasiconductor wine cabinet of the present utility model.
Detailed description of the invention
For clearer, complete explanation the technical solution of the utility model, below in conjunction with the accompanying drawings to this utility model
It is described further.
Refer to Fig. 1-Fig. 5, a kind of embodiment of a kind of quasiconductor wine cabinet 10 for the utility model proposes, specifically
A kind of quasiconductor wine cabinet 10 storing red wine.It includes cabinet 1, temperature sensor 3, microprocessor the 4, first relay 5, second
Relay 6 and semiconductor chilling plate 2, described semiconductor chilling plate 2 includes the first side 21 and the second side 22, and described first side 21 is leaned on
Nearly described cabinet 1 is internal.The outside of described cabinet 1 is located in described temperature sensor 3, for detecting the temperature outside described cabinet 1
Degree is also sent to temperature information in microprocessor 4, and described microprocessor 4 is analyzed judging according to the temperature information received
It is to need to heat up or cooling.If desired for cooling, the most described microprocessor 4 controls described first relay 5 adhesive and simultaneously
Two relay 6 adhesives, so that the positive pole of described semiconductor chilling plate 2 connects positive and negative electrode and connects negative, thus described semiconductor chilling plate 2
The first side 21 freeze;If desired for intensification, described microprocessor 4 controls described first relay 5 simultaneously and arranges and the second relay
Device 6 arranges, so that the positive pole of described semiconductor chilling plate 2 connects negative, negative pole and just connects, thus the first of described semiconductor chilling plate 2
Side 21 heats.
In the present embodiment, when the positive pole of described semiconductor chilling plate 2 connect positive and negative electrode connect negative time, described quasiconductor system
First side 21 of cold 2 is the chill surface of described semiconductor chilling plate 2, and the second side 22 of described semiconductor chilling plate 2 is
Described semiconductor chilling plate 2 heats face.Otherwise, connect timing when the positive pole of described semiconductor chilling plate 2 connects negative, negative pole, described half
First side 21 of conductor cooling piece 2 is the face that heats of described semiconductor chilling plate 2, the second side of described semiconductor chilling plate 2
22 are described semiconductor chilling plate 2 chill surface.Wherein, the particular location of the first side 21 and the second side 22 refer to Fig. 5.
In the present embodiment, described temperature sensor 3 is critesistor.
This utility model passes through the first relay 5 and setting of the second relay 6 so that described semiconductor chilling plate 2
Operating current direction can change, so that the chill surface of described semiconductor chilling plate 2 and the face that heats are can be mutual
Switching so that described quasiconductor wine cabinet 10 can on same refrigerating chip cooling and warming difunctional, further such that institute
State quasiconductor wine cabinet 10 and can cross the temperature environment outside adapting to.The Optimum storage preservation temperature of general red wine 13 DEG C-18 DEG C it
Between (different wine product have less difference), when temperature sensor 3 detect the external world temperature on optimum temperature range,
Then the most described first relay 5 adhesive of microprocessor 4 and the second relay 6 adhesive, so that described semiconductor chilling plate 2 is just
Pole connects positive and negative electrode and connects negative, and the first side 21 refrigeration of described semiconductor chilling plate 2 is until the temperature in wine cabinet reaches optimum temperature model
Within enclosing;When temperature sensor 3 detect the temperature in the external world under optimum temperature range, then microprocessor 4 is simultaneously described
First relay 5 is opened and the second relay 6 arranges, so that the positive pole of described semiconductor chilling plate 2 connects negative, negative pole and just connects, described
Second side 22 of semiconductor chilling plate 2 heat until wine cabinet in temperature reach optimum temperature range within.So that red wine
Storing and fresh-keeping is carried out in the environment of being constantly in a constant temperature.
Concrete, please also refer to Fig. 2, Fig. 3, the input of described microprocessor 4 is connected with described critesistor, described
First relay 5 includes that first coil 51 and the first Magnet, described first coil 51 are sheathed on described first Magnet, described first
One end of coil 51 is connected with described microprocessor 4, the other end ground connection of described first coil 51;When microprocessor 4 receives
The temperature information of described critesistor also applies positive voltage so that described first coil 51 produces positive current to first coil 51, produces
Raw galvanomagnetic-effect, so that the first Magnet and armature adhesive;When microprocessor 4 receives the temperature information of described critesistor
And apply negative voltage so that described first coil 51 produces negative current to first coil 51, so that the first Magnet is arranged with armature
Open.
Concrete, please also refer to Fig. 2, Fig. 3, described first relay 5 includes first movable contact the 52, first stationary contact 53
And second stationary contact 54, described first movable contact 52 is connected with the positive electrical of described semiconductor chilling plate 2, described first stationary contact
53 are connected with positive supply, and described second contact is connected with negative supply.When described microprocessor 4 controls the first relay 5 adhesive,
Described first movable contact 52 is connected with described first stationary contact 53, and the positive pole of the most described semiconductor chilling plate 2 is connected with positive supply;
When described microprocessor 4 control the first relay 5 arrange time, described first movable contact 52 connects with described second stationary contact 54,
The positive pole of the most described semiconductor chilling plate 2 is connected with negative supply.
Concrete, in the present embodiment, please also refer to Fig. 2, Fig. 4, described second relay 6 includes the second coil
61, the second Magnet, the second movable contact the 62, the 3rd stationary contact 63 and the 4th stationary contact 64, one end of described second coil 61 is with micro-
Processor 4 connects, described second coil 61 other end ground connection, and described second movable contact 62 is negative with described semiconductor chilling plate 2
Pole electrically connects, and described 3rd stationary contact 63 is connected with negative supply, and described 4th stationary contact 64 is connected with positive supply.When described micro-place
Reason device 4 is when controlling the second relay 6 adhesive, and described second movable contact 62 is connected with described 3rd stationary contact 63, the most described partly leads
The negative pole of body cooling piece 2 is connected with negative supply;When described microprocessor 4 control the second relay 6 arrange time, described second dynamic touches
Point 62 is connected with described 4th stationary contact 64, and the negative pole of the most described semiconductor chilling plate 2 is connected with positive supply.
In the present embodiment, refer to Fig. 5, described quasiconductor wine cabinet 10 also includes the first radiator 7 and the second heat radiation
Device 8, described first radiator 7 is located at the inside of described cabinet 1 and near the first side 21 of described semiconductor chilling plate 2, described
Second radiator 8 is located at the outside of described cabinet 1 and near the second side 22 of described semiconductor chilling plate 2.Described first heat radiation
Device 7 and the design of the second radiator 8 so that when first side 21 or the second side 22 adstante febre, its heat of semiconductor chilling plate 2
Can emit timely, thus ensure that the isoperibol of red wine.
Certainly, this utility model also can have other numerous embodiments, based on present embodiment, the ordinary skill of this area
Personnel are obtained other embodiments on the premise of not making any creative work, broadly fall into this utility model and are protected
Scope.
Claims (6)
1. a quasiconductor wine cabinet, including cabinet and semiconductor chilling plate, described semiconductor chilling plate includes the first side, described
Side is inside cabinet, it is characterised in that described quasiconductor wine cabinet also includes microprocessor, the first relay and the second relay
Device, described microprocessor is connected with the first coil of described first relay and the second coil of the second relay respectively, described
First movable contact of the first relay is connected with the positive electrical of described semiconductor chilling plate, and the second of described second relay is dynamic to be touched
Point is connected with the negative electricity of described semiconductor chilling plate;Described microprocessor controls the first relay adhesive and the second relay simultaneously
Device adhesive, so that the positive pole of described semiconductor chilling plate connects positive and negative electrode and connects negative, described first side refrigeration;Described microprocessor is same
Time control described first relay and arrange and the second relay arranges, so that the positive pole of described semiconductor chilling plate connects negative, negative pole
Just connecing, described first side heats.
Quasiconductor wine cabinet the most according to claim 1, it is characterised in that described first relay include the first stationary contact and
Second stationary contact, described first stationary contact is connected with positive supply, and described second stationary contact is connected with negative supply;Described first relay
Device adhesive, described first movable contact is connected with described first stationary contact;Described first relay arranges, described first movable contact with
Described second stationary contact is connected.
Quasiconductor wine cabinet the most according to claim 1, it is characterised in that described second relay include the 3rd stationary contact and
4th stationary contact, described 3rd stationary contact is connected with negative supply, and described 4th stationary contact is connected with positive supply;Described second relay
Device adhesive, described second movable contact is connected with described 3rd stationary contact;Described second relay arranges, described second movable contact with
Described 4th stationary contact is connected.
Quasiconductor wine cabinet the most according to claim 1, it is characterised in that described quasiconductor wine cabinet also includes temperature sensing
Device, described temperature sensor electrically connects with described microprocessor, and described temperature sensor detection temperature outside described cabinet is also
Transmission temperature information is to microprocessor, and described microprocessor is according to temperature information analysis and controls the first relay and the second relay
Device.
Quasiconductor wine cabinet the most according to claim 4, it is characterised in that described temperature sensor is critesistor.
Quasiconductor wine cabinet the most according to claim 1, it is characterised in that described quasiconductor wine cabinet also includes the first radiator
And second radiator, described first radiator is located at the inside of described cabinet and near the first side of described semiconductor chilling plate,
Described second radiator is located at the outside of described cabinet and near the second side of described semiconductor chilling plate.
Priority Applications (1)
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CN201620459641.8U CN205807897U (en) | 2016-05-18 | 2016-05-18 | A kind of quasiconductor wine cabinet |
Applications Claiming Priority (1)
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CN201620459641.8U CN205807897U (en) | 2016-05-18 | 2016-05-18 | A kind of quasiconductor wine cabinet |
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CN205807897U true CN205807897U (en) | 2016-12-14 |
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CN201620459641.8U Expired - Fee Related CN205807897U (en) | 2016-05-18 | 2016-05-18 | A kind of quasiconductor wine cabinet |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114000990A (en) * | 2021-09-16 | 2022-02-01 | 普若泰克科技发展(北京)有限公司 | Wind power tower cylinder landing control system |
-
2016
- 2016-05-18 CN CN201620459641.8U patent/CN205807897U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114000990A (en) * | 2021-09-16 | 2022-02-01 | 普若泰克科技发展(北京)有限公司 | Wind power tower cylinder landing control system |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161214 Termination date: 20210518 |