CN204006254U - A kind of mobile model energy source station - Google Patents

Abstract

The utility model discloses a kind of mobile model energy source station, comprise the first water pump, the second water pump, the 3rd water pump, the first plate-type heat-exchange unit, the second plate-type heat-exchange unit and water source heat pump units; The renewable resource such as employing water, water resource heat pump of suiting measures to local conditions, assembled flexibly, convenient transport, meets the reusing of different geographical, highly integrated, maintenance is convenient and meet the container-type energy source station of refrigeration, heating demand simultaneously.

Description

A kind of mobile model energy source station

Technical field

The utility model relates to a kind of mobile model energy source station.

Background technology

The construction progress of sales office all, early than the exploitation of project housing cluster, cannot freeze or heating along with energy source station in the development progress use cell set of housing cluster carries out room air adjusting.Along with quick, efficient, the standardized trend of housing development, be therefore sales office's cooling, heat supply for the quick assembling of sales office's development, movable container formula energy source station specially, meet the demands such as refrigeration, heating, fresh air dehumidification.

Traditional energy station is arranged at equipment machine room in basement, need follow the development progress of residential quarters, excavates in advance ground, after ground Cush work, just can carry out the in place of equipment and install, the construction period is long, can not meet sales office's requirement of supporting Cooling and Heat Source of opening the set, and cannot move and reuse.And use the equipment such as air-cooled heat pump, VRV as air conditioner cold-heat source, and cost is high, and winter, device efficiency was low, and the situation that exists equipment to start shooting under extreme weather affects security of system.

Utility model content

The utility model object is a kind of mobile model energy source station, the renewable resource such as employing water, water resource heat pump of suiting measures to local conditions, assembled flexibly, convenient transport, meets the reusing of different geographical, highly integrated, maintenance is convenient and meet the container-type energy source station of refrigeration, heating demand simultaneously.

The utility model technical solution problem adopts following technical scheme: a kind of mobile model energy source station, comprises the first water pump, the second water pump, the 3rd water pump, the first plate-type heat-exchange unit, the second plate-type heat-exchange unit and water source heat pump units;

Described the first plate-type heat-exchange unit is provided with the first entrance, the first outlet, the second entrance and the second outlet; Described the second plate-type heat-exchange unit is provided with the 3rd entrance, the 3rd outlet, the 4th entrance and the 4th outlet; Described water source heat pump units is provided with condenser inlet, condensator outlet, evaporator inlet and evaporator outlet;

Described the first entrance is communicated with the outer well in station by the first pipeline, and described the first outlet is communicated with the water inlet of described the first water pump by second pipe, and described the second outlet is communicated with the outer well in station by the 4th pipeline;

The water inlet of described the second water pump is communicated with the first system terminal by the 9th pipeline, on described the 9th pipeline, is communicated with and is provided with the tenth pipeline, and the water inlet of described the second water pump is communicated with the 4th outlet of described the second plate-type heat-exchange unit by the tenth pipeline; On described the tenth pipeline, be communicated with and be provided with the 15 pipeline, the 4th outlet of described the second plate-type heat-exchange unit is communicated with the outer well in station by described the tenth pipeline;

The 3rd entrance of described the second plate-type heat-exchange unit is communicated with the outer well in station by the 11 pipeline, and the 3rd outlet of described the second plate-type heat-exchange unit is communicated with second system terminal by the 12 pipeline; The 4th entrance of described the second plate-type heat-exchange unit is communicated with the delivery port of described the 3rd water pump by the 13 pipeline, and the water inlet of described the 3rd water pump is communicated with second system terminal by the 14 pipeline;

The condenser inlet connection of described water source heat pump units is provided with the 24 pipeline, described the 24 pipeline communication is provided with the first pipe fitting threeway, and be communicated with the first of described the first pipe fitting threeway, second mouthful of connection of described the first pipe fitting threeway is provided with the 16 pipeline, and the 3rd mouthful of connection of described the first pipe fitting threeway is provided with the 17 pipeline; The delivery port connection of described the first water pump is provided with the 5th pipeline, and described the 16 pipeline and described the 5th pipeline communication make the condenser inlet of described water source heat pump units be communicated with the delivery port of described the first water pump by described the 16 pipeline; The delivery port connection of described the second water pump is provided with the 6th pipeline, and described the 17 pipeline and described the 6th pipeline communication make the condenser inlet of described water source heat pump units be communicated with the delivery port of described the second water pump by described the 17 pipeline;

The condensator outlet connection of described water source heat pump units is provided with the 25 pipeline, described the 25 pipeline communication is provided with the second pipe fitting threeway, and be communicated with the first of described the second pipe fitting threeway, second mouthful of connection of described the second pipe fitting threeway is provided with the 18 pipeline, and the 3rd mouthful of connection of described the second pipe fitting threeway is provided with the 19 pipeline; On described the 11 pipeline, be communicated with and be provided with the 7th pipeline, described the 18 pipeline and described the 7th pipeline communication, make the condensator outlet of described water source heat pump units be communicated with the 3rd entrance of described the second plate-type heat-exchange unit by described the 18 pipeline; On described the 7th pipeline, be communicated with and be provided with the 8th pipeline, the condensator outlet of described water source heat pump units is communicated with described second system terminal by the 8th pipeline being arranged on the 7th pipeline; The second entrance connection of described the first plate-type heat-exchange unit is provided with the 3rd pipeline, and described the 19 pipeline and described the 3rd pipeline communication, make the condensator outlet of described water source heat pump units be communicated with the second entrance of described the first plate-type heat-exchange unit;

The evaporator inlet connection of described water source heat pump units is provided with the 26 pipeline, described the 26 pipeline communication is provided with the 3rd pipe fitting threeway, and with shown in the first of the 3rd pipe fitting threeway be communicated with, second mouthful of connection of described the 3rd pipe fitting threeway is provided with the 20 pipeline, shown in the 3rd mouthful of connection of the 3rd pipe fitting threeway be provided with the 21 pipeline, the delivery port connection of described the first water pump is provided with the 5th pipeline, described the 20 pipeline and described the 5th pipeline communication, the evaporator inlet of described water source heat pump units is communicated with the delivery port of described the first water pump by the 20 pipeline, described the 21 pipeline and described the 6th pipeline communication, make the evaporator inlet of described water source heat pump units be communicated with by the delivery port of the 21 pipeline the second water pump,

The evaporator outlet connection of described water source heat pump units is provided with the 27 pipeline, shown in the 27 pipeline communication be provided with the 4th pipe fitting threeway, and with shown in the first of the 4th pipe fitting threeway be communicated with, second mouthful of connection of described the 4th pipe fitting threeway is provided with the 22 pipeline, the 3rd mouthful of connection of described the 4th pipe fitting threeway is provided with the 23 pipeline, described the 22 pipeline and described the 3rd pipeline communication, make the evaporator outlet of described water source heat pump units be communicated with the second entrance of described the first plate-type heat-exchange unit; Described the 23 pipeline and described the 7th pipeline communication, the evaporator outlet that makes described water source heat pump units is communicated with the 3rd entrance of described the second plate-type heat-exchange unit by the 23 pipeline, and the evaporator outlet that makes described water source heat pump units is communicated with described the first system terminal by the 23 pipeline and the 8th pipeline that is arranged on described the 7th pipeline;

On described the 16 pipeline, be provided with the first switching valve, on described the 17 pipeline, be provided with the second switching valve, on described the 18 pipeline, be provided with the 3rd switching valve, on described the 19 pipeline, be provided with the 4th switching valve, on described the 20 pipeline, be provided with the 5th switching valve, on described the 21 pipeline, be provided with the 6th switching valve, on described the 22 pipeline, be provided with the 7th switching valve, on described the 23 pipeline, be provided with the 8th switching valve.

Preferably, also comprise scummer, described the first pipeline with shown in the 11 pipeline communication, described scummer is arranged on described the first pipeline, and the scummer connectivity part that is arranged on the first pipeline and the 11 pipeline with stand between outer well.

Preferably, also comprise vacuum constant pressure water replenishing degassing machine group, described vacuum constant pressure water replenishing degassing machine group is provided with voltage-stabiliser tube and filling pipe, described voltage-stabiliser tube and filling pipe respectively with described the tenth pipeline communication, and near the porch of the second water pump;

On described voltage-stabiliser tube, be provided with the first check-valves; On described filling pipe, be provided with the second check-valves.

Preferably, also comprise the first electronic scale remover, the second electronic scale remover and the 3rd electronic scale remover, described the first electronic scale remover is arranged on described the 3rd pipeline; Described the second electronic scale remover is arranged on described seven pipelines; Described the 3rd electronic scale remover is arranged on described the 13 pipeline.

Preferably, also comprise differential pressure by-passing valve, described differential pressure by-passing valve is arranged between described the 7th pipeline and described the 9th pipeline.

Preferably, also comprise the first butterfly valve, the second butterfly valve, the 3rd butterfly valve, the 4th butterfly valve, the 5th butterfly valve, the 6th butterfly valve, the 7th butterfly valve, the 8th butterfly valve, the 9th butterfly valve and the tenth butterfly valve, described the first butterfly valve is arranged on described the first pipeline, and near described the first entrance, be communicated with the first entrance; Described the second butterfly valve is arranged on described second pipe, and near described the first outlet, is communicated with the first outlet; Described the 3rd butterfly valve is arranged on described the 3rd pipeline, and near described the second entrance, is communicated with the second entrance; Described the 4th butterfly valve is arranged on described the 4th pipeline, and near described the second outlet, is communicated with after second goes out; Described the 5th butterfly valve is arranged on described the 7th pipeline, and near described the 3rd entrance, is communicated with the 3rd entrance; Described the 6th butterfly valve is arranged on the tenth pipeline, and near described the 4th outlet, is communicated with the 4th outlet; Described the 7th butterfly valve is arranged on described the 12 pipeline, and is communicated with described the 3rd outlet; Described the 8th butterfly valve is arranged on described the 13 pipeline, and near the 4th entrance, is communicated with the 4th entrance;

Described the 9th butterfly valve is arranged on described the 9th pipeline, and near the first system terminal;

Described the tenth butterfly valve is arranged on described the 8th pipeline, and near the first system terminal.

Preferably, also comprise that control system, the first Pressure gauge, the second Pressure gauge, the 3rd Pressure gauge, the 4th Pressure gauge, the 5th Pressure gauge, the 6th Pressure gauge, the 7th Pressure gauge, the first thermometer, the second thermometer, the 3rd temperature take into account the 4th thermometer, described the first thermometer and the first Pressure gauge are arranged on described the first pipeline, and described control system is connected with the first thermometer and the first Pressure gauge signal; Described the second thermometer and the second Pressure gauge are arranged on described the 11 pipeline, and described control system is connected with described the second thermometer and the second Pressure gauge signal; Described the 3rd Pressure gauge is arranged on described second pipe, and described the 3rd Pressure gauge is connected with described control system signal; Described the 4th Pressure gauge is arranged on described the 6th pipeline, shown in the 4th Pressure gauge be connected with described control system signal; Described the 5th Pressure gauge is arranged on described the 13 pipeline, and described the 5th Pressure gauge is connected with described control system signal;

Described the 3rd thermometer and the 6th Pressure gauge are arranged on the 8th pipeline, and described the 3rd thermometer divides level signal to be connected with the 6th Pressure gauge with described control system;

Described the 4th thermometer and the 7th Pressure gauge are arranged on the 12 pipeline, and described the 4th thermometer divides level signal to be connected with the 7th Pressure gauge with described control system.

The utlity model has following beneficial effect: a kind of mobile model energy source station, because being provided with the first water pump, the second water pump, the 3rd water pump, the first plate-type heat-exchange unit, the second plate-type heat-exchange unit and water source heat pump units; The employing water resource that can suit measures to local conditions, standardization, modularization, container-type system terminal is heated or is freezed, assembled flexibly, recycling; Solved traditional energy station and arranged and basement equipment machine room, the development progress that need follow residential quarters carries out, and the construction period is long, can not move, and the problem such as can not reuse.

Brief description of the drawings

Fig. 1 is the overall schematic of mobile model energy source station.

In figure, mark is illustrated as: 1-the first entrance; 2-first exports; 3-the second entrance; 4-second exports; 5-the 3rd entrance; 6-the 3rd outlet; 7-the 4th entrance; 8-the 4th outlet; 9-condenser inlet; 10-condensator outlet; 11-evaporator inlet; 12-evaporator outlet; 13-differential pressure by-passing valve; 14-the first water pump; 15-the second water pump; 16-the 3rd water pump; 17-the first plate-type heat-exchange unit; 18-the second plate-type heat-exchange unit; 19-water source heat pump units; 20-scummer; 21-vacuum constant pressure water replenishing degassing machine group; 22-the first electronic scale remover; 23-the second electronic scale remover; 24-the 3rd electronic scale remover; 101-the first pipeline; 102-second pipe; 103-the 3rd pipeline; 104-the 4th pipeline; 105-the 5th pipeline; 106-the 6th pipeline; 107-the 7th pipeline; 108-the 8th pipeline; 109-the 9th pipeline; 110-the tenth pipeline; 111-the 11 pipeline; 112-the 12 pipeline; 113-the 13 pipeline; 114-the 14 pipeline; 115-the 15 pipeline; 116-the 16 pipeline; 117-the 17 pipeline; 118-the 18 pipeline; 119-the 19 pipeline; 120-the 20 pipeline; 121-the 21 pipeline; 122-the 22 pipeline; 123-the 23 pipeline; 124-the 24 pipeline; 125-the 25 pipeline; 126-the 26 pipeline; 127-the 27 pipeline.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the technical solution of the utility model is further elaborated.

Embodiment 1

Referring to Fig. 1, the present embodiment provides a kind of mobile model energy source station, comprises the first water pump 14, the second water pump 15, the 3rd water pump 16, the first plate-type heat-exchange unit 17, the second plate-type heat-exchange unit 18 and water source heat pump units 19;

Described the first plate-type heat-exchange unit 17 is provided with the first entrance 1, the first outlet 2, the second entrance 3 and the second outlet 4; Described the second plate-type heat-exchange unit 18 is provided with the 3rd entrance 5, the 3rd outlet 6, the 4th entrance 7 and the 4th outlet 8; Described water source heat pump units 19 is provided with condenser inlet 9, condensator outlet 10, evaporator inlet 11 and evaporator outlet 12;

Described the first entrance 1 is communicated with the outer well in station by the first pipeline 101, and described the first outlet 2 is communicated with the water inlet of described the first water pump 14 by second pipe 102, and described the second outlet 4 is communicated with the outer well in station by the 4th pipeline 104;

The water inlet of described the second water pump 15 is communicated with the first system terminal by the 9th pipeline 109, on described the 9th pipeline 109, be communicated with and be provided with the tenth pipeline 110, the water inlet of described the second water pump 15 is communicated with the 4th outlet 7 of described the second plate-type heat-exchange unit 18 by the tenth pipeline 110; On described the tenth pipeline 110, be communicated with and be provided with the 15 pipeline 115, the 4th outlet 7 of described the second plate-type heat-exchange unit 18 is communicated with the outer well in station by described the tenth pipeline 110;

The 3rd entrance 5 of described the second plate-type heat-exchange unit 18 is communicated with the outer well in station by the 11 pipeline 111, and the 3rd outlet 6 of described the second plate-type heat-exchange unit 18 is communicated with second system terminal by the 12 pipeline 112; The 4th entrance 7 of described the second plate-type heat-exchange unit 18 is communicated with the delivery port of described the 3rd water pump 16 by the 13 pipeline 113, and the water inlet of described the 3rd water pump 16 is communicated with second system terminal by the 14 pipeline 114;

Condenser inlet 9 connections of described water source heat pump units 19 are provided with the 24 pipeline 124, described the 24 pipeline 124 connections are provided with the first pipe fitting threeway, and be communicated with the first of described the first pipe fitting threeway, second mouthful of connection of described the first pipe fitting threeway is provided with the 16 pipeline 116, and the 3rd mouthful of connection of described the first pipe fitting threeway is provided with the 17 pipeline 117; The delivery port connection of described the first water pump 14 is provided with the 5th pipeline 105, described the 16 pipeline 116 is communicated with described the 5th pipeline 105, and the condenser inlet 9 of described water source heat pump units 19 is communicated with the delivery port of described the first water pump 14 by described the 16 pipeline 116; The delivery port connection of described the second water pump 15 is provided with the 6th pipeline 106, described the 17 pipeline 117 is communicated with described the 6th pipeline 106, and the condenser inlet 9 of described water source heat pump units 19 is communicated with the delivery port of described the second water pump 15 by described the 17 pipeline 117;

Condensator outlet 10 connections of described water source heat pump units 19 are provided with the 25 pipeline 125, described the 25 pipeline 125 connections are provided with the second pipe fitting threeway, and be communicated with the first of described the second pipe fitting threeway, second mouthful of connection of described the second pipe fitting threeway is provided with the 18 pipeline 118, and the 3rd mouthful of connection of described the second pipe fitting threeway is provided with the 19 pipeline 119; On described the 11 pipeline 111, be communicated with and be provided with the 7th pipeline 107, described the 18 pipeline 118 is communicated with described the 7th pipeline 107, and the condensator outlet 10 of described water source heat pump units 19 is communicated with the 3rd entrance of described the second plate-type heat-exchange unit 19 by described the 18 pipeline 118; And on described the 7th pipeline 107, be communicated with and be provided with the 8th pipeline 108, the condensator outlet 10 of described water source heat pump units 19 is communicated with described second system terminal by the 8th pipeline 108 being arranged on the 7th pipeline 107; The second entrance 3 connections of described the first plate-type heat-exchange unit 17 are provided with the 3rd pipeline 103, described the 19 pipeline 119 is communicated with described the 3rd pipeline 103, and the condensator outlet 10 of described water source heat pump units 19 and the second entrance 3 of described the first plate-type heat-exchange unit 17 are communicated with;

Evaporator inlet 11 connections of described water source heat pump units 19 are provided with the 26 pipeline 126, described the 26 pipeline 126 connections are provided with the 3rd pipe fitting threeway, and with shown in the first of the 3rd pipe fitting threeway be communicated with, second mouthful of connection of described the 3rd pipe fitting threeway is provided with the 20 pipeline 120, shown in the 3rd mouthful of connection of the 3rd pipe fitting threeway be provided with the 21 pipeline 121; Described the 20 pipeline 120 is communicated with described the 5th pipeline 105, and the evaporator inlet 11 of described water source heat pump units 19 is communicated with the delivery port of described the first water pump 14 by the 20 pipeline 120; Described the 21 pipeline 121 is communicated with described the 6th pipeline 106, and the evaporator inlet 11 of described water source heat pump units 19 is communicated with by the delivery port of the 21 pipeline 121 second water pumps 15;

Evaporator outlet 12 connections of described water source heat pump units 19 are provided with the 27 pipeline 127, shown in the 27 pipeline 127 be communicated with and be provided with the 4th pipe fitting threeway, and with shown in the first of the 4th pipe fitting threeway be communicated with, second mouthful of connection of described the 4th pipe fitting threeway is provided with the 22 pipeline 122, the 3rd mouthful of connection of described the 4th pipe fitting threeway is provided with the 23 pipeline 123, described the 22 pipeline 122 and described the 3rd pipeline communication, makes the evaporator outlet 12 of described water source heat pump units 19 be communicated with the second entrance of described the first plate-type heat-exchange unit 17; Described the 23 pipeline 123 is communicated with described the 7th pipeline 107, the evaporator outlet 12 of described water source heat pump units 19 is communicated with the 3rd entrance 5 of described the second plate-type heat-exchange unit 18 by the 23 pipeline 123, and the evaporator outlet 12 that makes described water source heat pump units 19 is communicated with described the first system terminal by the 23 pipeline 123 and the 8th pipeline 108 that is arranged on described the 7th pipeline 107;

On described the 16 pipeline 116, be provided with the first switching valve, on described the 17 pipeline 117, be provided with the second switching valve, on described the 18 pipeline 118, be provided with the 3rd switching valve, on described the 19 pipeline 119, be provided with the 4th switching valve, on described the 20 pipeline 120, be provided with the 5th switching valve, on described the 21 pipeline 121, be provided with the 6th switching valve, on described the 22 pipeline 122, be provided with the 7th switching valve, on described the 23 pipeline 123, be provided with the 8th switching valve.

When needs are during to the first system terminal and/or second system terminal refrigeration, under the effect of the first water pump 14, well water enters first water source of producing the required different temperatures of refrigeration of the first plate-type heat-exchange unit 17, the first plate-type heat-exchange unit 17 Automatic continuous by the first pipeline 101 as low-temperature receiver, now, the first switching valve being arranged on the 16 pipeline 116 is opened, pipeline is unimpeded, the 4th switching valve being arranged on the 19 pipeline 119 is opened, pipeline is unimpeded, and the 6th switching valve being arranged on described the 21 pipeline 121 is opened, and pipeline is unimpeded, the 8th switching valve being arranged on the 23 pipeline 123 is opened, and pipeline is unimpeded, relative, the second switching valve being arranged on described the 17 pipeline 117 cuts out, the 3rd switching valve being arranged on described the 18 pipeline 118 cuts out, and the 5th switching valve being arranged on the 20 pipeline 120 cuts out, and the 7th switching valve being arranged on the 22 pipeline 122 cuts out, the first water source from the first outlet 2 of the first plate-type heat-exchange unit 17 by second pipe 102 through the first water pump 14 the 5th pipeline 105 of flowing through, because the first switching valve is opened, so enter the condenser inlet 9 of water source heat pump units 19 by the 5th pipeline the 105 and the 16 pipeline 116, because the 8th switching valve is opened, so the first water source is freezed through water source heat pump units 19, and the first water source flows out from evaporator outlet 12, through the 7th pipeline 107, a part enters the second plate-type heat-exchange unit 18, another part provides required low-temperature receiver directly to the first system terminal by the 8th pipeline 108, under the effect of the 3rd water pump 16, by the 11 pipeline 111, the second plate-type heat-exchange unit 18 directly obtains second water source from well, and the part at above-mentioned the first water source, enter the second plate-type heat-exchange unit 18 from the 3rd entrance 5 of the second plate-type heat-exchange unit 18, the second plate-type heat-exchange unit 18 is produced the water source of the required different temperatures of refrigeration, provides required low-temperature receiver by the 12 pipeline 112 to second system terminal.

When second system terminal refrigeration finishes, water source cycles through the 14 pipeline 114 second water pump 15 of flowing through from second system terminal and enters the second plate-type heat-exchange unit 18 from described the 4th entrance 7, water source carries out thermal energy exchange at the second plate-type heat-exchange unit 18, reach described temperature, form the 2nd S water source from the 4th outlet 8 parts of the second plate-type heat-exchange unit 18 and flow back to well station by the 15 pipeline 115, the another part flowing out from the 4th outlet 8 forms a S water source and flows to the tenth pipeline 110, flows to the second water pump 15, the water source that now the first system terminal refrigeration end loop is returned enters the second water pump 15 by the 9th pipeline 109,, flows out by the outlet of the second water pump 15 simultaneously through the second water pump 15 with a described S water source, because the 6th switching valve being arranged on the 21 pipeline 121 is opened, the 4th switching valve being arranged on the 19 pipeline 119 is opened, so water source enters water source heat pump units 19 by flow out the evaporator inlet 11 that enters water source heat pump units 19 by the 21 pipeline 121 from the second water pump 15, produce the water source of required backwater different temperatures by water source heat pump units 19, flow out from condensator outlet 10, enter the second entrance 3 of the first plate-type heat-exchange unit 17 by the 19 pipeline 119 and the 3rd pipeline 103, by the first plate-type heat-exchange unit 17, water source is processed again, flow out from the second outlet 2 of the first plate-type heat-exchange unit 17, flow back to the outer well in station by the 4th pipeline 104.Said process completes kind of refrigeration cycle one time.

When needs are during to the heating of the first system terminal and/or second system terminal, under the effect of the first water pump 14, well water enters the 3rd water source of producing the required different temperatures of refrigeration of the first plate-type heat-exchange unit 17, the first plate-type heat-exchange unit 17 Automatic continuous by the first pipeline 101 as low-temperature receiver, now, the second switching valve being arranged on the 17 pipeline 117 is opened, pipeline is unimpeded, the 3rd switching valve being arranged on the 18 pipeline 118 is opened, pipeline is unimpeded, and the 5th switching valve being arranged on described the 20 pipeline 120 is opened, and pipeline is unimpeded, the 7th switching valve being arranged on the 22 pipeline 122 is opened, and pipeline is unimpeded, relative, the first switching valve being arranged on described the 16 pipeline 116 cuts out, the 4th switching valve being arranged on described the 19 pipeline 119 cuts out, and the 6th switching valve being arranged on the 21 pipeline 121 cuts out, and the 8th switching valve being arranged on the 23 pipeline 123 cuts out, the 3rd water source from the first outlet 2 of the first plate-type heat-exchange unit 17 by second pipe 102 through the first water pump 14 the 5th pipeline 105 of flowing through, because the 5th switching valve is opened, so enter the evaporator inlet 11 of water source heat pump units 19 by the 5th pipeline the 105 and the 20 pipeline 120, because the 3rd switching valve is opened, so process water source heat pump units 19 is to the 3rd water source heat supply, and the 3rd water source flows out from condensator outlet 10, through the 7th pipeline 107, a part enters the second plate-type heat-exchange unit 18, another part is directly given the heating of the first system terminal by the 8th pipeline 108, under the effect of the 3rd water pump 16, by the 11 pipeline 111, the second plate-type heat-exchange unit 18 directly obtains the 4th water source from well, and the part at above-mentioned the first water source, enter the second plate-type heat-exchange unit 18 from the 3rd entrance 5 of the second plate-type heat-exchange unit 18, the second plate-type heat-exchange unit 18 is produced the water source of the required different temperatures of heating, provides required water source by the 12 pipeline 112 to second system terminal.

When the heating of second system terminal finishes, water source cycles through the 14 pipeline 114 second water pump 15 of flowing through from second system terminal and enters the second plate-type heat-exchange unit 18 from described the 4th entrance 7, water source carries out thermal energy exchange at the second plate-type heat-exchange unit 18, reach described temperature, form the 4th S water source from the 4th outlet 8 parts of the second plate-type heat-exchange unit 18 and flow back to well station by the 15 pipeline 115, the another part flowing out from the 4th outlet forms Three S's water source and flows to the tenth pipeline 110, flows to the second water pump 15, the water source that now the first system terminal heating end loop is returned enters the second water pump 15 by the 9th pipeline 109,, flows out by the outlet of the second water pump 15 simultaneously through the second water pump 15 with described the 4th S water source, because the second switching valve being arranged on the 17 pipeline 117 is opened, the 7th switching valve being arranged on the 22 pipeline 122 is opened, so water source enters water source heat pump units 19 by flow out the condenser inlet 9 that enters water source heat pump units 19 by the 17 pipeline 117 from the second water pump 15, produce the water source of required backwater different temperatures by water source heat pump units 19, flow out from evaporator outlet 12, enter the second entrance 3 of the first plate-type heat-exchange unit 17 by the 22 pipeline 122 and the 3rd pipeline 103, by the first plate-type heat-exchange unit 17, water source is processed again, flow out from the second outlet 4 of the first plate-type heat-exchange unit 17, flow back to the outer well in station by the 4th pipeline 104.Said process completes once heating circulation.

The renewable resource such as employing water, water resource heat pump of suiting measures to local conditions, assembled flexibly, convenient transport, standardization, modularization, container-type system terminal is heated or is freezed, assembled flexibly, recycling; Solved traditional energy station and arranged and basement equipment machine room, the development progress that need follow residential quarters carries out, and the construction period is long, can not move, and the problem such as can not reuse.

The present embodiment is preferred, mobile model energy source station also comprises scummer 20, described the first pipeline 101 with shown in the 11 pipeline 111 be communicated with, described scummer 20 is arranged on described the first pipeline 101, and scummer 20 is arranged between the outer well of connectivity part and station of the first pipeline 101 and the 11 pipeline 111.

Arrange like this and can purify the water source that the outer well of slave station obtains, make whole refrigeration or heating system more smooth and easy secure.

The present embodiment is preferred, mobile model energy source station also comprises vacuum constant pressure water replenishing degassing machine group 21, described vacuum constant pressure water replenishing degassing machine group 21 is provided with voltage-stabiliser tube and filling pipe, and described voltage-stabiliser tube and filling pipe are communicated with described the tenth pipeline 110 respectively, and the porch of close the second water pump 15;

On described voltage-stabiliser tube, be provided with the first check-valves; On described filling pipe, be provided with the second check-valves.

Cannot reflux cycle because the water refluxing from system terminal may produce bubble or insufficient pressure or water shortage, so need voltage stabilizing or moisturizing; In the time of needs voltage stabilizing, open the first check-valves, make vacuum constant pressure water replenishing degassing machine group carry out vacuum outgas to ducted water source and stablize air pressure, thereby it is smooth and easy to make to circulate; In the time of needs moisturizing, open the second check-valves, make vacuum constant pressure water replenishing degassing machine group carry out moisturizing to ducted water source, ensure the smooth and easy of water source circulation.

The present embodiment is preferred, and mobile model energy source station also comprises the first electronic scale remover 22, the second electronic scale remover 23 and the 3rd electronic scale remover 24, and described the first electronic scale remover 22 is arranged on described the 3rd pipeline 103; Described the second electronic scale remover 23 is arranged on described seven pipelines 107; Described the 3rd electronic scale remover 24 is arranged on described the 13 pipeline 113.Arrange like this and can constantly carry out scale removal to water at water source circulation time, ensure the happy of water source circulation, ensured the service life of each assembly simultaneously.

The present embodiment is preferred, and mobile model energy source station also comprises differential pressure by-passing valve 13, and described differential pressure by-passing valve 13 is arranged between described the 7th pipeline 107 and described the 9th pipeline 109.In the time that system terminal user capacity of returns reduces, the pressure reduction between the 7th pipeline 107 and the 9th pipeline 109 pipelines is given greatly, makes part water bypass by differential pressure by-passing valve 13, substantially constant to ensure through the flow of water source heat pump units.Arrange like this ensure system terminal confession, return water source constant at ducted pressure reduction, substantially constant to ensure through the flow of water source heat pump units, can effectively keep equipment not damaged.

The present embodiment is preferred, mobile model energy source station also comprises the first butterfly valve, the second butterfly valve, the 3rd butterfly valve, the 4th butterfly valve, the 5th butterfly valve, the 6th butterfly valve, the 7th butterfly valve, the 8th butterfly valve, the 9th butterfly valve and the tenth butterfly valve, described the first butterfly valve is arranged on described the first pipeline 101, and near described the first entrance 1, be communicated with the first entrance 1; Described the second butterfly valve is arranged on described second pipe 102, and near described the first outlet 2, is communicated with the first outlet 2; Described the 3rd butterfly valve is arranged on described the 3rd pipeline 103, and near described the second entrance 3, is communicated with the second entrance 3; Described the 4th butterfly valve is arranged on described the 4th pipeline 104, and near described the second outlet 4, is communicated with the second outlet 4; Described the 5th butterfly valve is arranged on described the 7th pipeline 107, and near described the 3rd entrance 6, is communicated with the 3rd entrance 6; Described the 6th butterfly valve is arranged on the tenth pipeline 110, and near described the 4th outlet 8, is communicated with the 4th outlet 8; Described the 7th butterfly valve is arranged on described the 12 pipeline 112, and is communicated with described the 3rd outlet 6; Described the 8th butterfly valve is arranged on described the 13 pipeline 113, and near the 4th entrance 7, is communicated with 7 with the 4th entrance;

Described the 9th butterfly valve is arranged on described the 9th pipeline 109, and near the first system terminal;

Described the tenth butterfly valve is arranged on described the 8th pipeline 108, and near the first system terminal.

Above-mentioned setting, can open described valve as required, makes like this use of whole mobile model energy source station more flexible.

The present embodiment is preferred, mobile model energy source station also comprises that control system, the first Pressure gauge, the second Pressure gauge, the 3rd Pressure gauge, the 4th Pressure gauge, the 5th Pressure gauge, the 6th Pressure gauge, the 7th Pressure gauge, the first thermometer, the second thermometer, the 3rd temperature take into account the 4th thermometer, described the first thermometer and the first Pressure gauge are arranged on described the first pipeline 101, and described control system is connected with the first thermometer and the first Pressure gauge signal; Described the second thermometer and the second Pressure gauge are arranged on described the 11 pipeline 111, and described control system is connected with described the second thermometer and the second Pressure gauge signal; Described the 3rd Pressure gauge is arranged on described second pipe 102, and described the 3rd Pressure gauge is connected with described control system signal; Described the 4th Pressure gauge is arranged on described the 6th pipeline 106, shown in the 4th Pressure gauge be connected with described control system signal; Described the 5th Pressure gauge is arranged on described the 13 pipeline 113, and described the 5th Pressure gauge is connected with described control system signal;

Described the 3rd thermometer and the 6th Pressure gauge are arranged on the 8th pipeline 108, and described the 3rd thermometer divides level signal to be connected with the 6th Pressure gauge with described control system;

Described the 4th thermometer and the 7th Pressure gauge are arranged on the 12 pipeline 112, and described the 4th thermometer divides level signal to be connected with the 7th Pressure gauge with described control system.

Arrange like this, make mobile model energy source station by control system control, convenient directly, can monitor easily at any time the aperture control feedback of running status, malfunction, frequency and the valve of temperature, pressure, the water pump of various piece etc. simultaneously.

The sequencing of above embodiment only, for ease of describing, does not represent the quality of embodiment.

Finally it should be noted that: above embodiment only, in order to the technical solution of the utility model to be described, is not intended to limit; Although the utility model is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or part technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the spirit and scope of the each embodiment technical scheme of the utility model.

Claims (7)

1. a mobile model energy source station, is characterized in that, comprises the first water pump, the second water pump, the 3rd water pump, the first plate-type heat-exchange unit, the second plate-type heat-exchange unit and water source heat pump units;

Described the first plate-type heat-exchange unit is provided with the first entrance, the first outlet, the second entrance and the second outlet; Described the second plate-type heat-exchange unit is provided with the 3rd entrance, the 3rd outlet, the 4th entrance and the 4th outlet; Described water source heat pump units is provided with condenser inlet, condensator outlet, evaporator inlet and evaporator outlet;

Described the first entrance is communicated with the outer well in station by the first pipeline, and described the first outlet is communicated with the water inlet of described the first water pump by second pipe, and described the second outlet is communicated with the outer well in station by the 4th pipeline;

The water inlet of described the second water pump is communicated with the first system terminal by the 9th pipeline, on described the 9th pipeline, is communicated with and is provided with the tenth pipeline, and the water inlet of described the second water pump is communicated with the 4th outlet of described the second plate-type heat-exchange unit by the tenth pipeline; On described the tenth pipeline, be communicated with and be provided with the 15 pipeline, the 4th outlet of described the second plate-type heat-exchange unit is communicated with the outer well in station by described the tenth pipeline;

The 3rd entrance of described the second plate-type heat-exchange unit is communicated with the outer well in station by the 11 pipeline, and the 3rd outlet of described the second plate-type heat-exchange unit is communicated with second system terminal by the 12 pipeline; The 4th entrance of described the second plate-type heat-exchange unit is communicated with the delivery port of described the 3rd water pump by the 13 pipeline, and the water inlet of described the 3rd water pump is communicated with second system terminal by the 14 pipeline;

The condenser inlet connection of described water source heat pump units is provided with the 24 pipeline, described the 24 pipeline communication is provided with the first pipe fitting threeway, and be communicated with the first of described the first pipe fitting threeway, second mouthful of connection of described the first pipe fitting threeway is provided with the 16 pipeline, and the 3rd mouthful of connection of described the first pipe fitting threeway is provided with the 17 pipeline; The delivery port connection of described the first water pump is provided with the 5th pipeline, and described the 16 pipeline and described the 5th pipeline communication make the condenser inlet of described water source heat pump units be communicated with the delivery port of described the first water pump by described the 16 pipeline; The delivery port connection of described the second water pump is provided with the 6th pipeline, and described the 17 pipeline and described the 6th pipeline communication make the condenser inlet of described water source heat pump units be communicated with the delivery port of described the second water pump by described the 17 pipeline;

The condensator outlet connection of described water source heat pump units is provided with the 25 pipeline, described the 25 pipeline communication is provided with the second pipe fitting threeway, and be communicated with the first of described the second pipe fitting threeway, second mouthful of connection of described the second pipe fitting threeway is provided with the 18 pipeline, and the 3rd mouthful of connection of described the second pipe fitting threeway is provided with the 19 pipeline; On described the 11 pipeline, be communicated with and be provided with the 7th pipeline, described the 18 pipeline and described the 7th pipeline communication, make the condensator outlet of described water source heat pump units be communicated with the 3rd entrance of described the second plate-type heat-exchange unit by described the 18 pipeline; And on described the 7th pipeline, be communicated with and be provided with the 8th pipeline, the condensator outlet of described water source heat pump units is communicated with described second system terminal by the 8th pipeline being arranged on the 7th pipeline; The second entrance connection of described the first plate-type heat-exchange unit is provided with the 3rd pipeline, and described the 19 pipeline and described the 3rd pipeline communication, make the condensator outlet of described water source heat pump units be communicated with the second entrance of described the first plate-type heat-exchange unit;

The evaporator inlet connection of described water source heat pump units is provided with the 26 pipeline, described the 26 pipeline communication is provided with the 3rd pipe fitting threeway, and with shown in the first of the 3rd pipe fitting threeway be communicated with, second mouthful of connection of described the 3rd pipe fitting threeway is provided with the 20 pipeline, shown in the 3rd mouthful of connection of the 3rd pipe fitting threeway be provided with the 21 pipeline; Described the 20 pipeline and described the 5th pipeline communication, make the evaporator inlet of described water source heat pump units be communicated with the delivery port of described the first water pump by the 20 pipeline; Described the 21 pipeline and described the 6th pipeline communication, make the evaporator inlet of described water source heat pump units be communicated with by the delivery port of the 21 pipeline the second water pump;

The evaporator outlet connection of described water source heat pump units is provided with the 27 pipeline, shown in the 27 pipeline communication be provided with the 4th pipe fitting threeway, and with shown in the first of the 4th pipe fitting threeway be communicated with, second mouthful of connection of described the 4th pipe fitting threeway is provided with the 22 pipeline, the 3rd mouthful of connection of described the 4th pipe fitting threeway is provided with the 23 pipeline, described the 22 pipeline and described the 3rd pipeline communication, make the evaporator outlet of described water source heat pump units be communicated with the second entrance of described the first plate-type heat-exchange unit; Described the 23 pipeline and described the 7th pipeline communication, the evaporator outlet that makes described water source heat pump units is communicated with the 3rd entrance of described the second plate-type heat-exchange unit by the 23 pipeline, and the evaporator outlet that makes described water source heat pump units is communicated with described the first system terminal by the 23 pipeline and the 8th pipeline that is arranged on described the 7th pipeline;

On described the 16 pipeline, be provided with the first switching valve, on described the 17 pipeline, be provided with the second switching valve, on described the 18 pipeline, be provided with the 3rd switching valve, on described the 19 pipeline, be provided with the 4th switching valve, on described the 20 pipeline, be provided with the 5th switching valve, on described the 21 pipeline, be provided with the 6th switching valve, on described the 22 pipeline, be provided with the 7th switching valve, on described the 23 pipeline, be provided with the 8th switching valve.

2. mobile model energy source station according to claim 1, it is characterized in that, also comprise scummer, described the first pipeline with shown in the 11 pipeline communication, described scummer is arranged on described the first pipeline, and scummer is arranged between the outer well of connectivity part and station of the first pipeline and the 11 pipeline.

3. mobile model energy source station according to claim 1, it is characterized in that, also comprise vacuum constant pressure water replenishing degassing machine group, described vacuum constant pressure water replenishing degassing machine group is provided with voltage-stabiliser tube and filling pipe, described voltage-stabiliser tube and filling pipe respectively with described the tenth pipeline communication, and near the porch of the second water pump;

On described voltage-stabiliser tube, be provided with the first check-valves; On described filling pipe, be provided with the second check-valves.

4. mobile model energy source station according to claim 1, is characterized in that, also comprises the first electronic scale remover, the second electronic scale remover and the 3rd electronic scale remover, and described the first electronic scale remover is arranged on described the 3rd pipeline; Described the second electronic scale remover is arranged on described seven pipelines; Described the 3rd electronic scale remover is arranged on described the 13 pipeline.

5. mobile model energy source station according to claim 1, is characterized in that, also comprises differential pressure by-passing valve, and described differential pressure by-passing valve is arranged between described the 7th pipeline and described the 9th pipeline.

6. according to the mobile model energy source station described in claim 1-5 any one, it is characterized in that, also comprise the first butterfly valve, the second butterfly valve, the 3rd butterfly valve, the 4th butterfly valve, the 5th butterfly valve, the 6th butterfly valve, the 7th butterfly valve, the 8th butterfly valve, the 9th butterfly valve and the tenth butterfly valve, described the first butterfly valve is arranged on described the first pipeline, and near described the first entrance, be communicated with the first entrance; Described the second butterfly valve is arranged on described second pipe, and near described the first outlet, is communicated with the first outlet; Described the 3rd butterfly valve is arranged on described the 3rd pipeline, and near described the second entrance, is communicated with the second entrance; Described the 4th butterfly valve is arranged on described the 4th pipeline, and near described the second outlet, is communicated with after second goes out; Described the 5th butterfly valve is arranged on described the 7th pipeline, and near described the 3rd entrance, is communicated with the 3rd entrance; Described the 6th butterfly valve is arranged on the tenth pipeline, and near described the 4th outlet, is communicated with the 4th outlet; Described the 7th butterfly valve is arranged on described the 12 pipeline, and is communicated with described the 3rd outlet; Described the 8th butterfly valve is arranged on described the 13 pipeline, and near the 4th entrance, is communicated with the 4th entrance;

Described the 9th butterfly valve is arranged on described the 9th pipeline, and near the first system terminal;

Described the tenth butterfly valve is arranged on described the 8th pipeline, and near the first system terminal.

7. according to the mobile model energy source station described in claim 1-5 any one, it is characterized in that, also comprise that control system, the first Pressure gauge, the second Pressure gauge, the 3rd Pressure gauge, the 4th Pressure gauge, the 5th Pressure gauge, the 6th Pressure gauge, the 7th Pressure gauge, the first thermometer, the second thermometer, the 3rd temperature take into account the 4th thermometer, described the first thermometer and the first Pressure gauge are arranged on described the first pipeline, and described control system is connected with the first thermometer and the first Pressure gauge signal; Described the second thermometer and the second Pressure gauge are arranged on described the 11 pipeline, and described control system is connected with described the second thermometer and the second Pressure gauge signal; Described the 3rd Pressure gauge is arranged on described second pipe, and described the 3rd Pressure gauge is connected with described control system signal; Described the 4th Pressure gauge is arranged on described the 6th pipeline, shown in the 4th Pressure gauge be connected with described control system signal; Described the 5th Pressure gauge is arranged on described the 13 pipeline, and described the 5th Pressure gauge is connected with described control system signal;

Described the 3rd thermometer and the 6th Pressure gauge are arranged on the 8th pipeline, and described the 3rd thermometer divides level signal to be connected with the 6th Pressure gauge with described control system;

Described the 4th thermometer and the 7th Pressure gauge are arranged on the 12 pipeline, and described the 4th thermometer divides level signal to be connected with the 7th Pressure gauge with described control system.