CN204028727U - One incubates beehive temperature-control circuit - Google Patents
One incubates beehive temperature-control circuit Download PDFInfo
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- CN204028727U CN204028727U CN201420394758.3U CN201420394758U CN204028727U CN 204028727 U CN204028727 U CN 204028727U CN 201420394758 U CN201420394758 U CN 201420394758U CN 204028727 U CN204028727 U CN 204028727U
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- relay
- fuse
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- terminal regulator
- electric heater
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Abstract
The utility model relates to a kind of circuit, and particularly one incubates beehive temperature-control circuit.Circuit is by control circuit power switch, far-infrared electric heater power switch, first fuse, second fuse, 3rd fuse, transformer, rectifier bridge, first electric capacity, second electric capacity, three terminal regulator, first relay, second relay, first resistance, second resistance, red light emitting diodes, green LED, fixed electrical contact mercury thermometer and far-infrared electric heater composition, make when incubating the temperature in beehive lower than 33 degrees Celsius, far-infrared electric heater heats, when incubating the temperature in beehive and reaching 35.5 degrees Celsius, far-infrared electric heater stops heating.Owing to adopting technique scheme, the advantage that the utility model has and good effect are: circuit is simple, economical and practical.
Description
Technical field
The utility model relates to a kind of circuit, and particularly one incubates beehive temperature-control circuit.
Background technology
At present, the honeybee great majority of incubating of bee pupa adopt to hatch under physical environment, like this, can not make full use of young honeybee and hive off more, make more queen to lay eggs.Bee pupa is as adopted artificial incubation, if incubate the temperature stabilization of beehive, the larva in bee colony can be made suitable with the ratio of nurture honeybee, group's gesture of bee colony can be controlled, the incubation temperature of pupa is stablized, and the honeybee hatched is healthy, the life-span is long, can make full use of young honeybee and hive off more, make more queen to lay eggs, improve the fertility of bee colony.
Summary of the invention
Technical problem to be solved in the utility model is: provide one to incubate beehive temperature-control circuit, accurately can control the temperature of incubating in beehive.
The utility model solves the technical scheme that its technical matters adopts: the utility model is by control circuit power switch, far-infrared electric heater power switch, first fuse, second fuse, 3rd fuse, transformer, rectifier bridge, first electric capacity, second electric capacity, three terminal regulator, first relay, second relay, first resistance, second resistance, red light emitting diodes, green LED, fixed electrical contact mercury thermometer and far-infrared electric heater composition, design a circuit, make when incubating the temperature in beehive lower than 33 degrees Celsius, far-infrared electric heater heats, when incubating the temperature in beehive and reaching 35.5 degrees Celsius, far-infrared electric heater stops heating.It is characterized in that: the second fuse, first relay second normally closed contact, far-infrared electric heater, first relay first normally closed contact, be connected with 220 volts of power inputs by far-infrared electric heater power switch after 3rd fuse series connection, control circuit power switch, first fuse, be connected with 220 volts of power inputs after transformer series connection, transformer secondary coil is connected with rectifier bridge input end, rectifier bridge output terminal is connected with three terminal regulator input end, first electric capacity is connected with three terminal regulator input end, second electric capacity is connected with three terminal regulator output terminal, first relay first normally opened contact, one end after second relay coil first normally opened contact parallel connection is connected with three terminal regulator output end power positive pole by the first relay coil, the other end is connected with the first electrode of fixed electrical contact mercury thermometer, one end of second relay coil is connected with three terminal regulator output end power positive pole, the other end is connected with the second electrode of fixed electrical contact mercury thermometer, first resistance, second relay coil second normally opened contact, one end after red light emitting diodes series connection is connected with three terminal regulator output end power positive pole, the other end is connected with the public electrode of fixed electrical contact mercury thermometer, second resistance, first relay second normally opened contact, one end after green LED series connection is connected with three terminal regulator output end power positive pole, the other end is connected with the public electrode of fixed electrical contact mercury thermometer, the public electrode of fixed electrical contact mercury thermometer is connected with three terminal regulator output end power negative pole.
Owing to adopting technique scheme, the advantage that the utility model has and good effect are: circuit is simple, economical and practical.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Figure of description is circuit theory diagrams of the present utility model
V.220 power input is lied prostrate in figure, S1. control circuit power switch, S2. far-infrared electric heater power switch, F1. the first fuse, F2. the second fuse, F3. the 3rd fuse, B. transformer, Q. rectifier bridge, C1. the first electric capacity, C2. the second electric capacity, I. three terminal regulator, K1. the first relay coil, K1-1. the first relay first normally opened contact, K1-2. the first relay second normally opened contact, K1-3. the first relay first normally closed contact, K1-4. the first relay second normally closed contact, K2. the second relay coil, K2-1. the second relay coil first normally opened contact, K2-2. the second relay coil second normally opened contact, R1. the first resistance, R2. the second resistance, D1. red light emitting diodes, D2. green LED, T. fixed electrical contact mercury thermometer, A. public electrode, B. the first electrode, C. the second electrode, Rf. far-infrared electric heater.
Embodiment
In Figure of description, second fuse (F2), first relay second normally closed contact (K1-4), far-infrared electric heater (Rf), first relay first normally closed contact (K1-3), be connected with 220 volts of power inputs (V) by far-infrared electric heater power switch (S2) after 3rd fuse (F3) series connection, control circuit power switch (S1), first fuse (F1), be connected with 220 volts of power inputs (V) after the series connection of transformer (B) primary coil, transformer (B) secondary coil is connected with rectifier bridge (Q) input end, rectifier bridge (Q) output terminal is connected with three terminal regulator (I) input end, first electric capacity (C1) is connected with three terminal regulator (I) input end, second electric capacity (C2) is connected with three terminal regulator (I) output terminal, first relay first normally opened contact (K1-1), one end after second relay coil first normally opened contact (K2-1) parallel connection is connected with three terminal regulator (I) output end power positive pole by the first relay coil (K1), the other end is connected with first electrode (B) of fixed electrical contact mercury thermometer (T), one end of second relay coil (K2) is connected with three terminal regulator (I) output end power positive pole, the other end is connected with second electrode (C) of fixed electrical contact mercury thermometer (T), first resistance (R1), second relay coil second normally opened contact (K2-2), one end after red light emitting diodes (D1) series connection is connected with three terminal regulator (I) output end power positive pole, the other end is connected with the public electrode (A) of fixed electrical contact mercury thermometer (T), second resistance (R2), first relay second normally opened contact (K1-2), one end after green LED (D2) series connection is connected with three terminal regulator (I) output end power positive pole, the other end is connected with the public electrode (A) of fixed electrical contact mercury thermometer (T), the public electrode (A) of fixed electrical contact mercury thermometer (T) is connected with three terminal regulator (I) output end power negative pole.
Circuit original paper function of the present utility model is: far-infrared electric heater (Rf) is a kind of electric heater by electrical heating to space radiation far infrared, the temperature that first electrode (B) of fixed electrical contact mercury thermometer (T) and mercury are connected is 33 degrees Celsius, the temperature that second electrode (C) and mercury are connected is 35.5 degrees Celsius, namely when environment temperature is 33 degrees Celsius, the first electrode (B) conducting; When environment temperature is upgraded to 35.5 degrees Celsius, the second electrode (C) conducting; Other circuit original paper is Common parts.During use, far-infrared electric heater (Rf) is placed in the bottom of incubating in beehive, fixed electrical contact mercury thermometer (T) is suspended on the centre of incubating in beehive, and the welding of other circuit original paper in the circuit board.
Circuit working principle of the present utility model is: after 220 volts of power inputs (V) connect 220 volts of power supplys, open far-infrared electric heater power switch (S2) and control circuit power switch (S1), far-infrared electric heater (Rf) heats, the temperature of incubating in beehive starts to rise, when temperature rises to 33 degrees Celsius, first electrode (B) of fixed electrical contact mercury thermometer (T) is by mercury conducting, when temperature rises to 35.5 degrees Celsius, second electrode (C) of fixed electrical contact mercury thermometer (T) is by mercury conducting, second relay coil (K2) obtains electric adhesive, second relay coil first normally opened contact (K2-1), second relay coil second normally opened contact (K2-2) closes, first relay coil (K1) is energized adhesive self-locking, make the first relay first normally closed contact (K1-3), first relay second normally closed contact (K1-4) disconnects, far-infrared electric heater (Rf) stops heating, when incubating the temperature in beehive lower than 35.5 degrees Celsius, second electrode (C) of fixed electrical contact mercury thermometer (T) disconnects, second relay coil (K2) dead electricity discharges, when incubating the temperature in beehive lower than 33 degrees Celsius, first electrode (B) of fixed electrical contact mercury thermometer (T) disconnects, first relay coil (K1) dead electricity discharges, first relay first normally closed contact (K1-3), first relay second normally closed contact (K1-4) resets, far-infrared electric heater (Rf) electrified regulation, so go round and begin again, the temperature of incubating in beehive is controlled in 33 degrees Celsius to 35.5 degrees Celsius intervals.
Claims (1)
1. incubate a beehive temperature-control circuit, by control circuit power switch, far-infrared electric heater power switch, first fuse, second fuse, 3rd fuse, transformer, rectifier bridge, first electric capacity, second electric capacity, three terminal regulator, first relay, second relay, first resistance, second resistance, red light emitting diodes, green LED, fixed electrical contact mercury thermometer and far-infrared electric heater composition, is characterized in that: the second fuse (F2), first relay second normally closed contact (K1-4), far-infrared electric heater (Rf), first relay first normally closed contact (K1-3), be connected with 220 volts of power inputs (V) by far-infrared electric heater power switch (S2) after 3rd fuse (F3) series connection, control circuit power switch (S1), first fuse (F1), be connected with 220 volts of power inputs (V) after the series connection of transformer (B) primary coil, transformer (B) secondary coil is connected with rectifier bridge (Q) input end, rectifier bridge (Q) output terminal is connected with three terminal regulator (I) input end, first electric capacity (C1) is connected with three terminal regulator (I) input end, second electric capacity (C2) is connected with three terminal regulator (I) output terminal, the first relay first normally opened contact (K1-1), one end after second relay coil first normally opened contact (K2-1) parallel connection is connected with three terminal regulator (I) output end power positive pole by the first relay coil (K1), the other end is connected with first electrode (B) of fixed electrical contact mercury thermometer (T), one end of second relay coil (K2) is connected with three terminal regulator (I) output end power positive pole, the other end is connected with second electrode (C) of fixed electrical contact mercury thermometer (T), the first resistance (R1), second relay coil second normally opened contact (K2-2), one end after red light emitting diodes (D1) series connection is connected with three terminal regulator (I) output end power positive pole, the other end is connected with the public electrode (A) of fixed electrical contact mercury thermometer (T), the second resistance (R2), first relay second normally opened contact (K1-2), one end after green LED (D2) series connection is connected with three terminal regulator (I) output end power positive pole, the other end is connected with the public electrode (A) of fixed electrical contact mercury thermometer (T), and the public electrode (A) of fixed electrical contact mercury thermometer (T) is connected with three terminal regulator (I) output end power negative pole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420394758.3U CN204028727U (en) | 2014-07-07 | 2014-07-07 | One incubates beehive temperature-control circuit |
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CN201420394758.3U CN204028727U (en) | 2014-07-07 | 2014-07-07 | One incubates beehive temperature-control circuit |
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CN204028727U true CN204028727U (en) | 2014-12-17 |
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CN201420394758.3U Expired - Fee Related CN204028727U (en) | 2014-07-07 | 2014-07-07 | One incubates beehive temperature-control circuit |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106681394A (en) * | 2017-01-05 | 2017-05-17 | 成都芯禾粮油食品有限公司 | Drying temperature control system used for prepackaged vegetable food |
CN106774513A (en) * | 2017-01-05 | 2017-05-31 | 成都芯禾粮油食品有限公司 | A kind of rape drying plant temperature control system |
-
2014
- 2014-07-07 CN CN201420394758.3U patent/CN204028727U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106681394A (en) * | 2017-01-05 | 2017-05-17 | 成都芯禾粮油食品有限公司 | Drying temperature control system used for prepackaged vegetable food |
CN106774513A (en) * | 2017-01-05 | 2017-05-31 | 成都芯禾粮油食品有限公司 | A kind of rape drying plant temperature control system |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141217 Termination date: 20150707 |
|
EXPY | Termination of patent right or utility model |