A kind of novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box
Technical field: the utility model relates to the household electrical appliance that a kind of semiconductor refrigerating heats, particularly a kind of novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box and be applied to a kind of novel cold and hot complementary comprehensive heat exchanger on this multifunction semiconductor cold-storage and warm-storage two-purpose box.
Background technology: at present, the household electrical appliance that the multi-chamber's semiconductor refrigerating that does not also have on the market to freeze simultaneously and to heat heats, let alone this household electrical appliance and also have the heat that can take the semiconductor refrigerating heat-producing machine to refrigerating chamber refrigeration out of and semiconductor refrigerating heat-producing machine warm keeping chamber is heated the cold of taking out of utilizations that mutually neutralize, thus the characteristics of the heating efficiency of the refrigerating efficiency of raising semiconductor refrigerating heat-producing machine and semiconductor refrigerating heat-producing machine.
Goal of the invention: the purpose of this utility model provides a kind of so novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box, it has chamber between two, the chamber can freeze arbitrarily or heat between two, also have the heat that can take the semiconductor refrigerating heat-producing machine to refrigerating chamber refrigeration out of and semiconductor refrigerating heat-producing machine warm keeping chamber is heated the cold of taking out of utilizations that mutually neutralize, thus the characteristics of the heating efficiency of the refrigerating efficiency of raising semiconductor refrigerating heat-producing machine and semiconductor refrigerating heat-producing machine.
The purpose of this utility model is to realize by following technical scheme: makes one have suitable upper chamber and time between chamber and be positioned at the semiconductor cold-storage and warm-storage two-purpose box casing of the machine chamber of outer bottom, with the good metal material of heat conductivility be made into suitable upper indoor heat exchanger and lower between indoor heat exchanger, with suitable material be made into liquid coolant can upper outdoor heat exchanger of internal flow and lower between outdoor heat exchanger, make suitable upper chamber semiconductor refrigerating heat-producing machine and lower between chamber semiconductor refrigerating heat-producing machine, the one side of chamber semiconductor refrigerating heat-producing machine and upper indoor heat exchanger phase close contact between upper, the interior positive phase close contact of the another side of chamber semiconductor refrigerating heat-producing machine and upper outdoor heat exchanger between upper, should interior front be to make with the good metal material of heat conductivility, the inside of outdoor heat exchanger has the flow passage of the mobile S shape of liquid coolant between upper, chamber inflow/flow export between outdoor heat exchanger has on the liquid coolant that the flow passage of the S shape that the liquid coolant of the same outdoor heat exchanger inside flows is connected between upper, have the fluid infusion exhaust outlet on the outdoor heat exchanger between upper, discharge air when the fluid infusion exhaust outlet is used for system's liquid feeding and replenish liquid feeding, between lower the one side of chamber semiconductor refrigerating heat-producing machine with lower between indoor heat exchanger phase close contact, between lower the another side of chamber semiconductor refrigerating heat-producing machine with time between the interior positive phase close contact of outdoor heat exchanger, should interior front be to make with the good metal material of heat conductivility, the inside of outdoor heat exchanger has the flow passage of the mobile S shape of liquid coolant between lower, chamber inflow/flow export between under the liquid coolant that the flow passage of the S shape that the liquid coolant of outdoor heat exchanger inside flows between under outdoor heat exchanger has together between lower is connected, make special-purpose electronic control panel, electronic control panel is electrically connected mutually with upper chamber semiconductor refrigerating heat-producing machine, electronic control panel with lower between chamber semiconductor refrigerating heat-producing machine be electrically connected mutually, the metal material good with heat conductivility is made into composite condenser, select suitable infusion pump, outdoor heat exchanger between upper, outdoor heat exchanger between lower, composite condenser and infusion pump are interconnected to constitute the circulation flow passage that liquid coolant flows, it is characterized in that: composite condenser is by horizontal composite condenser and vertically be interconnected combination and consisting of of composite condenser, horizontal composite condenser is interconnected combination by one or more horizontal individual layer condenser and consists of, vertically composite condenser is interconnected combination by one or more vertical individual layer condenser and consists of, vertically composite condenser is placed in the outer back side of novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box, and horizontal composite condenser and infusion pump are placed in the machine chamber of novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box outer bottom.
Operation principle of the present utility model is such, here heat with upper the chamber of the multifunction semiconductor cold-storage and warm-storage two-purpose box of two chambers and lower between the chamber freeze to illustrate, start working after the multifunction semiconductor cold-storage and warm-storage two-purpose box energising, chamber semiconductor refrigerating heat-producing machine is by the indoor draw heat between lower constantly of indoor heat exchanger between lower between lower, outdoor heat exchanger between heat passed to down, indoor temperature reduces between lower, reach the purpose of refrigeration, between upper chamber semiconductor refrigerating heat-producing machine constantly clump upper between the outdoor heat exchanger draw heat, indoor heat exchanger between heat passed to continuously, again dissipation of heat to upper indoor, indoor temperature raises between upper, reach the purpose that heats, because the work of infusion pump, liquid coolant circulates in a kind of so cold and hot complementary comprehensive heat exchanger, so that between upper cold on the outdoor heat exchanger and lower between the utilization that mutually neutralizes of heat on the outdoor heat exchanger, temperature between under reducing on the outdoor heat exchanger, temperature between in the raising on the outdoor heat exchanger, following between the refrigerating efficiency of chamber semiconductor refrigerating heat-producing machine improve, the heating efficiency of chamber semiconductor refrigerating heat-producing machine improves between upper, composite condenser then is used for dissipating after the cold and hot neutralization still so that the liquid coolant temperature is higher than the waste heat of environment temperature or is used for absorbing after the cold and hot neutralization so that the liquid coolant temperature is lower than the not enough heat of environment temperature, owing to being interconnected to make up by horizontal composite condenser and vertical composite condenser, composite condenser consists of, with the effective heat exchange area of external environment condition much larger than common condenser, so with the heat exchange efficiency of external environment condition much larger than common condenser, because the effect of machine chamber can also be installed at horizontal composite condenser side place blower fan to improve the heat exchange efficiency of composite condenser and air.
Description of drawings: description of drawings of the present utility model is as follows:
Fig. 1 is the sectional structure schematic diagram of embodiment of the present utility model;
Fig. 2 is the syndeton schematic diagram of outer loop heat-exchange system embodiment of the present utility model;
Fig. 3 be upper among the utility model embodiment between the front section view of one of outdoor heat exchanger;
Fig. 4 be lower among the utility model embodiment between the front section view of one of outdoor heat exchanger;
Among the figure: 1. chamber between going up; 2. chamber between descending; 3. machine chamber; 4. indoor heat exchanger between going up; 5. semiconductor refrigerating heat-producing machine in chamber between going up; 6. outdoor heat exchanger between going up; 7. indoor heat exchanger between descending; 8. chamber semiconductor refrigerating heat-producing machine between descending; 9. outdoor heat exchanger between descending; 10. composite condenser; 11. horizontal composite condenser; 12. vertical composite condenser; 13. infusion pump; 14. outer heat exchange blower fan; 15. fluid infusion exhaust outlet; 16. chamber inflow/flow export between upper; 17. flow passage; 18. chamber inflow/flow export between lower; 19. flow passage.
The specific embodiment: the utility model is described further below in conjunction with drawings and Examples:
Such as Fig. 1, Fig. 2 and shown in Figure 3, make one have suitable upper chamber 1 and lower between chamber 2 and be positioned at the semiconductor cold-storage and warm-storage two-purpose box casing of the machine chamber 3 of outer bottom, with the good metal material of heat conductivility be made into suitable upper indoor heat exchanger 4 and lower between indoor heat exchanger 7, with suitable material be made into liquid coolant can upper outdoor heat exchanger 6 of internal flow and lower between outdoor heat exchanger 9, make suitable upper chamber semiconductor refrigerating heat-producing machine 5 and lower between chamber semiconductor refrigerating heat-producing machine 8, the one side of chamber semiconductor refrigerating heat-producing machine 5 and upper indoor heat exchanger 4 phase close contacts between upper, the interior positive phase close contact of the another side of chamber semiconductor refrigerating heat-producing machine 5 and upper outdoor heat exchanger 6 between upper, should interior front be to make with the good metal material of heat conductivility, the inside of outdoor heat exchanger 6 has the flow passage 17 of the mobile S shape of liquid coolant between upper, chamber inflow/flow export 16 between outdoor heat exchanger 6 has on the liquid coolant that the flow passage 17 of the S shape that the liquid coolant of the same outdoor heat exchanger 6 inside flows is connected between upper, have fluid infusion exhaust outlet 15 on the outdoor heat exchanger between upper, between lower the one side of chamber semiconductor refrigerating heat-producing machine 8 with lower between indoor heat exchanger 7 phase close contacts, between lower the another side of chamber semiconductor refrigerating heat-producing machine 8 with time between the interior positive phase close contact of outdoor heat exchanger 9, should interior front be to make with the good metal material of heat conductivility, the inside of outdoor heat exchanger 9 has the flow passage 19 of the mobile S shape of liquid coolant between lower, chamber inflow/flow export 18 between under the liquid coolant that the flow passage 19 of the S shape that the liquid coolant of outdoor heat exchanger 9 inside flows between under outdoor heat exchanger 9 has together between lower is connected, make special-purpose electronic control panel, electronic control panel is electrically connected mutually with upper chamber semiconductor refrigerating heat-producing machine 5, electronic control panel with lower between chamber semiconductor refrigerating heat-producing machine 8 be electrically connected mutually, be made into composite condenser 10 with the good metal material of heat conductivility, select suitable infusion pump 13, outdoor heat exchanger 6 between upper, outdoor heat exchanger 9 between lower, composite condenser 10 and infusion pump 13 are interconnected to constitute the circulation flow passage that liquid coolant flows, it is characterized in that: composite condenser 10 is by horizontal composite condenser 11 and vertically be interconnected combination and consisting of of composite condenser 12, horizontal composite condenser 11 is interconnected combination by one or more horizontal individual layer condenser and consists of, vertically composite condenser 12 is interconnected combination by one or more vertical individual layer condenser and consists of, horizontal composite condenser 12 and infusion pump 13 are placed in the machine chamber 3 of novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box outer bottom, and vertically composite condenser 12 is placed in the outer back side of novel simple high-efficiency multi-function semiconductor cold-storage and warm-storage two-purpose box.
Operation principle of the present utility model is such, here heat with upper the chamber 1 of the multifunction semiconductor cold-storage and warm-storage two-purpose box of two chambers and lower between chamber 2 refrigeration illustrate, start working after the multifunction semiconductor cold-storage and warm-storage two-purpose box energising, chamber semiconductor refrigerating heat-producing machine 8 is by the chamber 2 interior draw heats between lower constantly of indoor heat exchanger 7 between lower between lower, outdoor heat exchanger 9 between heat passed to down, chamber 2 interior temperature reduce between lower, reach the purpose of refrigeration, between upper chamber semiconductor refrigerating heat-producing machine 5 constantly clump upper between outdoor heat exchanger 6 draw heats, indoor heat exchanger 4 between heat passed to continuously, again dissipation of heat in upper chamber 1, chamber 1 interior temperature raises between upper, reach the purpose that heats, because the work of infusion pump 13, liquid coolant circulates in a kind of so cold and hot complementary comprehensive heat exchanger, so that between upper cold on the outdoor heat exchanger 6 and lower between the utilization that mutually neutralizes of heat on the outdoor heat exchanger 9, temperature between under reducing on the outdoor heat exchanger 9, temperature between in the raising on the outdoor heat exchanger 6, following between the refrigerating efficiency of chamber semiconductor refrigerating heat-producing machine 8 improve, the heating efficiency of chamber semiconductor refrigerating heat-producing machine 5 improves between upper, 10 of composite condensers are used for dissipating after the cold and hot neutralization still so that the liquid coolant temperature is higher than the waste heat of environment temperature or is used for absorbing after the cold and hot neutralization so that the liquid coolant temperature is lower than the not enough heat of environment temperature, owing to being interconnected to make up by horizontal composite condenser 11 and vertical composite condenser 12, composite condenser 10 consists of, with the effective heat exchange area of external environment condition much larger than common condenser, so with the heat exchange efficiency of external environment condition much larger than common condenser, outer heat exchange blower fan 14 can also be installed at horizontal composite condenser 11 side places to improve the heat exchange efficiency of composite condenser 10 and air.
As shown in Figure 2, in the technical solution of the utility model, outdoor heat exchanger 9 between lower, upper between outdoor heat exchanger 6, vertically composite condenser 12, horizontal composite condenser 11, and infusion pump 13 be that successively serial circulation is communicated with, consist of the circulation flow passage of liquid coolant.