CN204987180U - Indoor heating system of air source heat pump - Google Patents

Abstract

The utility model discloses an indoor heating system of air source heat pump, including condenser, first outlet pipe, evaporimeter and first cold water return pipe, first outlet pipe is connected to the upper end of evaporator, one side of evaporimeter is equipped with first fan, first outlet pipe from left to right connects gradually vapour and liquid separator, compressor and condenser, first cold water return pipe's one end is connected to the lower extreme of evaporimeter, the lower extreme of condenser is connected to first cold water return pipe's the other end, first cold water return pipe follows a dextrad left side and connects gradually the liquid storage pot, filter and governing valve, the second hot -water line is connected in the upper end left side of condenser, the 2nd hot water pipe connected holding water box, holding water box's lower extreme leads to pipe connects slim heating installation fin group, one side of slim heating installation fin group is equipped with second gentle breeze machine. The utility model has the advantages of simple structure, convenient to use, the multilayer tubulation of setting has increased the condensation tube side, has improved cooling efficiency to make full use of heat energy more.

Description

A kind of air source heat pump indoor heating device

Technical field

The utility model relates to air source heat pump field, specifically a kind of air source heat pump indoor heating device.

Background technology

Current, air source heat pump utilizes inverse Carnot's principle exactly, and with few electric energy, absorbing low temperature heat energies a large amount of in air, by the boil down to high temperature heat of compressor, is a kind of heat pump techniques of efficient energy-saving.Have in the family at existing air source heat pump and apply comparatively widely, in more existing heat pump apparatus of air source, the condenser of small volume, due to its heat exchanger tube degree system, causes the heat exchange efficiency of condenser not to be too high.

Utility model content

The purpose of this utility model is the air source heat pump indoor heating device providing a kind of structure simple, easy to use, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

A kind of air source heat pump indoor heating device, comprise condenser, first outlet pipe, evaporimeter and the first cold water return pipe, described upper end of evaporator connects the first outlet pipe, the side of evaporimeter is provided with the first blower fan, first outlet pipe from left to right connects gas-liquid separator successively, compressor and condenser, the lower end of evaporimeter connects one end of the first cold water return pipe, the other end of the first cold water return pipe connects the lower end of condenser, first cold water return pipe connects fluid reservoir from right to left successively, filter and control valve, the second hot-water line is connected on the left of the upper end of condenser, second hot-water line connects attemperater, the lower end of attemperater connects slim heating radiator group by water pipe, the side of slim heating radiator group is provided with the second breeze machine, the right-hand member of slim heating radiator group connects water circulating pump by the second cold water return pipe, water circulating pump is connected to condenser, cooling tank body is provided with in described condenser, longitudinal baffle, tubulation and upper end cover, four groups of tubulations are interval with along horizontal cross in cooling tank body, longitudinal baffle is provided with between two groups of often adjacent tubulations, first longitudinal baffle is arranged between first group of tubulation and second group of tubulation, second longitudinal baffle is arranged between second group of tubulation and the 3rd group of tubulation, 3rd longitudinal baffle is arranged between the 3rd group of tubulation and the 4th group of tubulation, the openend of two adjacent longitudinal baffles is separately positioned on two end opposite, the openend of the first longitudinal baffle and the 3rd longitudinal baffle is arranged on below, the openend of the second longitudinal baffle is arranged on top, in addition, the top of described cooling tank body is provided with upper end cover, and the below of cooling tank body is provided with bottom end cover, is fixedly connected with between upper end cover with cooling tank body by upper cover, is fixedly connected with between bottom end cover with cooling tank body by lower capping, two groups of dividing plates are provided with in described upper end cover, upper end cover chamber is divided into three chambers by two groups of dividing plates, each chamber communicates with the upper end of tubulation, wherein the first chamber of upper end cover communicates with first group of tubulation, second chamber of upper end cover communicates with second group of tubulation and the 3rd group of tubulation, 3rd chamber of upper end cover communicates with the 4th group of tubulation, one group of dividing plate is provided with in bottom end cover, bottom end cover chamber is divided into two chambers in left and right by dividing plate, chamber wherein on the left of bottom end cover communicates with the lower end of first group of tubulation and second group of tubulation, chamber on the right side of bottom end cover communicates with the lower end of the 3rd group of tubulation and the 4th group of tubulation, be provided with shell-side outlet above the right side of described cooling tank body, be provided with shell side inlet above the left side of cooling tank body, be provided with tube side outlet on the left of the first chamber of upper end cover, the right side of the 3rd chamber of upper end cover is provided with tube-side inlet.

Further: described slim heating radiator group is located at indoor.

Further: the cross section of described cooling tank body is square.

Further: the support frame being interval with two levels in described cooling tank body along vertical mode.

Further: described upper cover and lower capping are respectively equipped with through hole and lower through-hole, upper through hole is corresponding with lower through-hole to be arranged, and the two ends of tubulation are separately positioned in through hole and lower through-hole.

Compared with prior art, structure of the present utility model is simple, easy to use, and the multilayer tubulation of setting adds condensation tube side, improves cooling effectiveness, thus more can make full use of heat energy.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of air source heat pump indoor heating device.

Fig. 2 is the structural representation of condenser in a kind of air source heat pump indoor heating device.

Fig. 3 is the schematic cross-section of tubulation in a kind of air source heat pump indoor heating device.

Detailed description of the invention

Be described in more detail below in conjunction with the technical scheme of detailed description of the invention to this patent.

Refer to Fig. 1-3, a kind of air source heat pump indoor heating device, comprise condenser 6, first outlet pipe 3, evaporimeter 1 and the first cold water return pipe 13, the upper end of described evaporimeter 1 connects the first outlet pipe 3, the side of evaporimeter 1 is provided with the first blower fan 2, first outlet pipe 3 from left to right connects gas-liquid separator 4 successively, compressor 5 and condenser 6, the lower end of evaporimeter 1 connects one end of the first cold water return pipe 13, the other end of the first cold water return pipe 13 connects the lower end of condenser, first cold water return pipe 13 connects fluid reservoir 14 from right to left successively, filter 15 and control valve 16, the second hot-water line 7 is connected on the left of the upper end of condenser 6, second hot-water line 7 connects attemperater 8, the lower end of attemperater 8 connects slim heating radiator group 10 by water pipe, the side of slim heating radiator group 10 is provided with the second breeze machine 9, slim heating radiator group 10 is located at indoor, slim heating radiator group 10 can by the heat radiation in connection attemperater 8 water pipe out, thus change indoor temperature, second breeze machine 9 can regulate the heat radiation rate of irradiation of slim heating radiator group 10, the right-hand member of slim heating radiator group 10 connects water circulating pump 12 by the second cold water return pipe 11, water circulating pump 12 is connected to condenser 6, cooling tank body 61 is provided with in described condenser 6, longitudinal baffle, tubulation and upper end cover 619, the cross section of cooling tank body 61 is square, four groups of tubulations are interval with along horizontal cross in cooling tank body 61, often organize tubulation and be longitudinally at least provided with two along level, longitudinal baffle is provided with between two groups of often adjacent tubulations, first longitudinal baffle 63 is arranged between first group of tubulation 62 and second group of tubulation 65, second longitudinal baffle 612 is arranged between second group of tubulation 65 and the 3rd group of tubulation 614, 3rd longitudinal baffle 615 is arranged between the 3rd group of tubulation 614 and the 4th group of tubulation 616, the openend of two adjacent longitudinal baffles is separately positioned on two end opposite, the openend of the first longitudinal baffle 63 and the 3rd longitudinal baffle 615 is arranged on below, the openend of the second longitudinal baffle 612 is arranged on top, refrigerant is made to form turbulent flow in cooling tank body 61 by longitudinal baffle, condensation effect is good, in addition, the top of described cooling tank body 61 is provided with upper end cover 619, the below of cooling tank body 61 is provided with bottom end cover 69, be fixedly connected with by upper cover 617 between upper end cover 619 with cooling tank body 61, be fixedly connected with by lower capping 67 between bottom end cover 69 with cooling tank body 61, upper cover 617 and lower capping 67 are respectively equipped with through hole and lower through-hole, and upper through hole is corresponding with lower through-hole to be arranged, and the two ends of tubulation are separately positioned in through hole and lower through-hole, two groups of dividing plates 610 are provided with in described upper end cover 619, upper end cover chamber is divided into three chambers 68 by two groups of dividing plates 610, each chamber 68 communicates with the upper end of tubulation, wherein the first chamber 68 of upper end cover 619 communicates with first group of tubulation 62, second chamber 68 of upper end cover 619 communicates with second group of tubulation 65 and the 3rd group of tubulation 614, 3rd chamber 68 of upper end cover 619 communicates with the 4th group of tubulation 616, one group of dividing plate 610 is provided with in bottom end cover 69, bottom end cover chamber is divided into two chambers 68 in left and right by dividing plate 610, chamber 68 wherein on the left of bottom end cover 69 communicates with the lower end of first group of tubulation 62 and second group of tubulation 65, chamber 68 on the right side of bottom end cover 69 communicates with the lower end of the 3rd group of tubulation 614 and the 4th group of tubulation 616, shell-side outlet 613 is provided with above the right side of described cooling tank body 61, shell side inlet 66 is provided with above the left side of cooling tank body 61, be provided with tube side outlet 620 on the left of first chamber 68 of upper end cover 619, the right side of the 3rd chamber 68 of upper end cover 619 is provided with tube-side inlet 618, in addition, be interval with the support frame 64 of two levels in described cooling tank body 61 along vertical mode, support frame 64 can be fixed support to longitudinal baffle, in work, after evaporator 1 and compressor 5 process, the hot water of heating enters the 4th group of tubulation 616 from tube-side inlet 618, right chamber 68 through bottom end cover 69 enters the 3rd group of tubulation 614, and then entered the left chamber 68 of bottom end cover 69 by second group of tubulation 65 by the second chamber 68 of upper end cover 619, thereafter enter in the first chamber 68 of upper end cover 619 by first group of tubulation 62 again, final hot water flows out from tube side outlet 620, now, the cold water flowed out in slim heating radiator group 10 enters in cooling tank body 61 from the shell side inlet 66 of cooling tank body 61, cold water is through the baffling of three groups of longitudinal baffles, final refrigerant flows out from shell-side outlet 613, then backflow enters in attemperater 8 again, move in circles thus make slim heating radiator group 10 can radiations heat energy all the time, thus reaching the object toward indoor heating.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned embodiment, in the ken that one skilled in the relevant art possesses, various change can also be made under the prerequisite not departing from this patent aim.

Claims (5)

1. an air source heat pump indoor heating device, comprise condenser (6), first outlet pipe (3), evaporimeter (1) and the first cold water return pipe (13), it is characterized in that, the upper end of described evaporimeter (1) connects the first outlet pipe (3), the side of evaporimeter (1) is provided with the first blower fan (2), first outlet pipe (3) from left to right connects gas-liquid separator (4) successively, compressor (5) and condenser (6), the lower end of evaporimeter (1) connects one end of the first cold water return pipe (13), the other end of the first cold water return pipe (13) connects the lower end of condenser, first cold water return pipe (13) connects fluid reservoir (14) from right to left successively, filter (15) and control valve (16), the second hot-water line (7) is connected on the left of the upper end of condenser (6), second hot-water line (7) connects attemperater (8), the lower end of attemperater (8) connects slim heating radiator group (10) by water pipe, the side of slim heating radiator group (10) is provided with the second breeze machine (9), the right-hand member of slim heating radiator group (10) connects water circulating pump (12) by the second cold water return pipe (11), water circulating pump (12) is connected to condenser (6), cooling tank body (61) is provided with in described condenser (6), longitudinal baffle, tubulation and upper end cover (619), four groups of tubulations are interval with along horizontal cross in cooling tank body (61), longitudinal baffle is provided with between two groups of often adjacent tubulations, first longitudinal baffle (63) is arranged between first group of tubulation (62) and second group of tubulation (65), second longitudinal baffle (612) is arranged between second group of tubulation (65) and the 3rd group of tubulation (614), 3rd longitudinal baffle (615) is arranged between the 3rd group of tubulation (614) and the 4th group of tubulation (616), the openend of two adjacent longitudinal baffles is separately positioned on two end opposite, the openend of the first longitudinal baffle (63) and the 3rd longitudinal baffle (615) is arranged on below, the openend of the second longitudinal baffle (612) is arranged on top, in addition, the top of described cooling tank body (61) is provided with upper end cover (619), the below of cooling tank body (61) is provided with bottom end cover (69), be fixedly connected with by upper cover (617) between upper end cover (619) with cooling tank body (61), be fixedly connected with by lower capping (67) between bottom end cover (69) with cooling tank body (61), two groups of dividing plates (610) are provided with in described upper end cover (619), upper end cover chamber is divided into three chambers (68) by two groups of dividing plates (610), each chamber (68) communicates with the upper end of tubulation, wherein first chamber (68) of upper end cover (619) communicates with first group of tubulation (62), second chamber (68) of upper end cover (619) communicates with second group of tubulation (65) and the 3rd group of tubulation (614), 3rd chamber (68) of upper end cover (619) communicates with the 4th group of tubulation (616), one group of dividing plate (610) is provided with in bottom end cover (69), bottom end cover chamber is divided into two chambers (68) in left and right by dividing plate (610), wherein the chamber (68) in bottom end cover (69) left side communicates with the lower end of first group of tubulation (62) and second group of tubulation (65), the chamber (68) on bottom end cover (69) right side communicates with the lower end of the 3rd group of tubulation (614) and the 4th group of tubulation (616), shell-side outlet (613) is provided with above the right side of described cooling tank body (61), shell side inlet (66) is provided with above the left side of cooling tank body (61), first chamber (68) left side of upper end cover (619) is provided with tube side outlet (620), and the right side of the 3rd chamber (68) of upper end cover (619) is provided with tube-side inlet (618).

2. a kind of air source heat pump indoor heating device according to claim 1, is characterized in that, described slim heating radiator group (10) is located at indoor.

3. a kind of air source heat pump indoor heating device according to claim 1, is characterized in that, the cross section of described cooling tank body (61) is square.

4. a kind of air source heat pump indoor heating device according to claim 1, is characterized in that, is interval with the support frame (64) of two levels in described cooling tank body (61) along vertical mode.

5. a kind of air source heat pump indoor heating device according to claim 1, it is characterized in that, described upper cover (617) and lower capping (67) are respectively equipped with through hole and lower through-hole, upper through hole is corresponding with lower through-hole to be arranged, and the two ends of tubulation are separately positioned in through hole and lower through-hole.