CN203629164U - Throttling device for hot pump water heater - Google Patents

Abstract

The utility model relates to a throttling device for a hot pump water heater. The hot pump water heater in the prior art has one throttling flow path, needs of different flows of a unit cannot be met easily under different work conditions, overhigh system pressure is possibly caused when the hot pump water heater with one throttling flow path performs heating in summer, and poor defrosting effect is possibly caused when the hot pump water heater with one throttling flow path performs defrosting in winter. The throttling device for the hot pump water heater comprises a heating throttling branch path, wherein heating capillary pipes are arranged on the heating throttling branch path. The throttling device for the hot pump water heater is characterized by further comprising a defrosting throttling branch path and an overload throttling branch path, wherein the heating throttling branch path, the defrosting throttling branch path and the overload throttling branch path are arranged in parallel. The throttling device for the hot pump water heater is simple in structure and reasonable in design, and can react differently to normal heating operation, overload heating operation and defrosting operation of the hot pump water heater to ensure normal operation of the system.

Description

For the throttling arrangement of Teat pump boiler

Technical field

The utility model relates to a kind of throttling arrangement for Teat pump boiler.

Background technology

Teat pump boiler is that a kind of efficient heat energy promotes and transfer device, and it utilizes a small amount of electric energy as power, can, by the transfer of heat of low-temperature heat source in the water of needs heating, realize the heating function to water.Throttling stream of Teat pump boiler of the prior art, the demand of unit different flow while being difficult to meet different operating mode, the Teat pump boiler of a throttling stream heats and likely cause system pressure too high summer, and winter frost removing likely causes defrosting effect poor.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art, and a kind of reasonable in design is provided, and can guarantee the throttling arrangement for Teat pump boiler of normal operation.

The technical scheme in the invention for solving the above technical problem is: this is used for the throttling arrangement of Teat pump boiler, comprise and heat throttling branch road, the described throttling branch road that heats is provided with and heats capillary, it is characterized in that: also comprise defrosting throttling branch road and excess load throttling branch road, described in heat throttling branch road, defrosting throttling branch road and excess load throttling branch road three and be arranged in parallel.In the time of the normal heating operation of Teat pump boiler, cold-producing medium heats the throttling of throttling branch road by throttling arrangement, and defrosting throttling branch road and excess load throttling branch road are closed not conducting; In the time of Teat pump boiler excess load in summer heating operation, because system pressure rises, while reaching unloader opening pressure, the conducting of excess load throttling branch road, cold-producing medium can heat throttling branch road and excess load throttling branch road passes through, and effectively increases circulation, has reduced system pressure, avoided compressor overload operation, the throttling branch road that now defrosts is closed not conducting; In the time that defrosting heat pump water heater moves, the conducting of defrosting throttling branch road, cold-producing medium can pass through with defrosting throttling branch road heating throttling branch road, effectively increases circulation, while having avoided defrosting, refrigerant flow deficiency, now excess load throttling branch road is closed not conducting.

On defrosting throttling branch road described in the utility model, series connection is provided with defrosting capillary and check valve.Defrosting throttling branch road is one-way conduction, i.e. only conducting in the time that defrosting heat pump water heater moves.

On excess load throttling branch road described in the utility model, series connection is provided with unloader and off-load capillary.In the time that system pressure reaches setting value, unloader will be opened automatically, thereby makes the conducting of excess load throttling branch road, reduces system pressure.

The utility model compared with prior art, have the following advantages and effect: simple in structure, reasonable in design, the setting of throttling arrangement can be made different reactions to the normal heating operation of Teat pump boiler, excess load heating operation and Defrost operation, and assurance system is normally moved.

Accompanying drawing explanation

Fig. 1 is the structural representation for the throttling arrangement of Teat pump boiler in the utility model embodiment.

Fig. 2 is the structural representation of throttling arrangement.

Structure flow chart when Fig. 3 is normal heating operation.

Structure flow chart when Fig. 4 is excess load heating operation.

Fig. 5 is the structure flow chart of Defrost operation.

The specific embodiment

Below in conjunction with accompanying drawing and by embodiment, the utility model is described in further detail, and following examples are to explanation of the present utility model and the utility model is not limited to following examples.

Embodiment.

Referring to Fig. 1 to Fig. 5, the throttling arrangement for Teat pump boiler in the present embodiment comprises compressor 1, cross valve 2, heat exchanger 3, reservoir 4, No. two heat exchangers 5, gas-liquid separator 6, throttling arrangement 7, blower fan 8.A heat exchanger 3 in the present embodiment is finned heat exchanger, is provided with blower fan 8 on finned heat exchanger.In the present embodiment, the flow direction that the arrow in Fig. 3, Fig. 4 and Fig. 5 is cold-producing medium.

Throttling arrangement 7 in the present embodiment comprises and heats throttling branch road 71, defrosting throttling branch road 72 and excess load throttling branch road 73.Wherein heat throttling branch road 71 and be provided with and heat capillary 711, heat throttling branch road 71 and be always conducting state; Defrosting throttling branch road 72 is provided with defrosting capillary 721 and check valve 722, and defrosting throttling branch road 72 is one-way conduction, i.e. only conducting in the time that defrosting heat pump water heater moves; On excess load throttling branch road 73, be provided with unloader 731 and off-load capillary 732, when excess load heating operation, in the time that system pressure reaches setting value, unloader 731 will be opened automatically, thereby makes 73 conductings of excess load throttling branch road, reduces system pressure.

No. two heat exchangers 5 in the present embodiment are provided with water inlet pipe 51, outlet pipe 52, refrigerant inlet 53 and refrigerant outlet 54, reservoir 4 is provided with inlet 41 and liquid outlet 42, cross valve 2 is provided with D interface, C interface, E interface and S interface, when heating operation, D interface is communicated with C interface, S interface is communicated with E interface, compressor 1 is connected with the D interface of cross valve 2, the C joint of cross valve 2 is connected with the refrigerant inlet 53 of No. two heat exchangers 5, the inlet 41 of reservoir 4 is connected with the refrigerant outlet 54 of No. two heat exchangers 5, the liquid outlet 42 of reservoir 4 is connected with throttling arrangement 6, throttling arrangement 6 is connected with a heat exchanger 3, No. one heat exchanger 3 is connected with the E interface of cross valve 2, the S interface of cross valve 2 is connected with gas-liquid separator 6, gas-liquid separator 6 is connected with compressor 1, between above-mentioned interconnected structure, all connect by pipeline, form whole cold-producing medium flow process loop, throttling arrangement 7 is arranged on the pipeline that connects reservoir 4 and a heat exchanger 3, and throttling arrangement 7 comprises and heats throttling branch road 71, defrosting throttling branch road 72 and excess load throttling branch road 73.

The operation principle of throttling arrangement 7: in the time of the normal heating operation of Teat pump boiler, cold-producing medium heats 71 throttlings of throttling branch road by throttling arrangement 7, defrosting throttling branch road 72 is closed not conducting with excess load throttling branch road 73; In the time of Teat pump boiler excess load in summer heating operation, because system pressure rises, while reaching unloader opening pressure, 73 conductings of excess load throttling branch road, cold-producing medium can pass through with excess load throttling branch road 73 heating throttling branch road 71, effectively increases circulation, has reduced system pressure, avoided compressor 1 overload operation, the throttling branch road 72 that now defrosts is closed not conducting; In the time that defrosting heat pump water heater moves, 72 conductings of defrosting throttling branch road, cold-producing medium can pass through with defrosting throttling branch road 72 heating throttling branch road 71, effectively increase circulation, while having avoided defrosting, refrigerant flow deficiency, now excess load throttling branch road 73 is closed not conducting.

When normal heating operation and excess load heating operation, the operation principle of refrigerant circulation flow process: 1, compressor 1 sucks low-temperature low-pressure refrigerant gas from gas-liquid separator 6, discharges high-temperature high-pressure refrigerant gas through overcompression from compressor 1; 2, high-temperature high-pressure refrigerant gas flow enters cross valve 2 and enters heat exchanger 5 No. two from C joint from D joint, high-temperature high-pressure refrigerant gas is No. two heat exchanger 5 internal condensation Cheng Zhongwen high pressure refrigerant liquid, water enters and flows out from outlet pipe 52 from water inlet pipe 51, and water and No. two exchanger heats 5 exchange during this time; 3, warm high pressure refrigerant liquid flowing out from No. two heat exchangers 5, flows into reservoir 4 inlets 41, then from from the liquid outlet 42 of reservoir 4 flows out, through throttling arrangement 7, becomes low-temperature low-pressure refrigerant liquid; 4, low-temperature low-pressure refrigerant liquid flows into a heat exchanger 3, and now blower fan 8 is in "on" position, and low-temperature low-pressure refrigerant liquid evaporates in a heat exchanger 3, absorbs airborne heat and becomes low-temperature low-pressure refrigerant gas; 5, the low-temperature low-pressure refrigerant gas that heat exchanger 3 flows out, E joint and the S joint of the cross valve 2 of flowing through enter gas-liquid separator 6; Last low-temperature low-pressure refrigerant gas reenters compressor 1, so circulation.

When Defrost operation, the operation principle of refrigerant circulation flow process: 1, compressor 1 sucks low-temperature low-pressure refrigerant gas from gas-liquid separator 6, discharges high-temperature high-pressure refrigerant gas through overcompression from compressor 1; 2, high-temperature high-pressure refrigerant gas flow enters cross valve 2 and enters heat exchanger 3 No. one from E joint from D joint, and high-temperature high-pressure refrigerant gas is heat exchanger 3 internal condensation Cheng Zhongwen high pressure refrigerant liquid; 3, warm high pressure refrigerant liquid flowing out from heat exchanger 3, the throttling arrangement 7 of flowing through, becomes low-temperature low-pressure refrigerant liquid; 4, the low-temperature low-pressure refrigerant liquid reservoir 4 of flowing through, then enter heat exchanger 5 No. two, then entering gas-liquid separator 6 by S joint and the C joint of cross valve 2, last low-temperature low-pressure refrigerant gas reenters compressor 1, so circulation.

In addition, it should be noted that, the specific embodiment described in this description, shape, institute's title of being named etc. of its parts and components can be different, and the above content described in this description is only to the utility model structure and the explanation of accompanying drawing example.All equivalence variation or simple change of doing according to described structure, feature and the principle of the utility model patent design, are included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, all should belong to protection domain of the present utility model.

Claims (3)

1. the throttling arrangement for Teat pump boiler, comprise and heat throttling branch road, the described throttling branch road that heats is provided with and heats capillary, it is characterized in that: also comprise defrosting throttling branch road and excess load throttling branch road, described in heat throttling branch road, defrosting throttling branch road and excess load throttling branch road three and be arranged in parallel.

2. the throttling arrangement for Teat pump boiler according to claim 1, is characterized in that: on described defrosting throttling branch road, series connection is provided with defrosting capillary and check valve.

3. the throttling arrangement for Teat pump boiler according to claim 1, is characterized in that: on described excess load throttling branch road, series connection is provided with unloader and off-load capillary.

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