CN203731727U - Multi-variable-flow refrigerating device - Google Patents

Abstract

The utility model aims at providing a changeable flows refrigerating plant. The technical scheme of the utility model is that: the system is composed of a variable frequency compressor, a control mainboard, a plurality of plate heat exchangers, a drying filter, a multistage centrifugal pump and a mainframe box, wherein the control mainboard is also provided with a system controller, a frequency converter and a power supply, and the mainframe box is also provided with an electronic expansion valve, a four-way valve and a plurality of horizontal handles. The device is internally provided with a ground source circulating water pump and an air conditioner circulating water pump in the unit; the ground source circulating water pump, the air conditioner circulating water pump and the variable frequency compressor synchronously carry out frequency conversion, so that more energy is saved; the unit type is arranged, the system is formed by self, the independent operation is realized, and meanwhile, a large-scale heat pump system can be combined in a modularized mode; a ground source circulating water pump is used for radiating heat for the frequency converter in the operation process; the three-phase power supply (AC 380V) and the single-phase power supply (AC 220V) are commonly used. The purposes of unit type arrangement, self-forming system, cost saving, volume reduction and convenience for civil use can be realized.

Description

Multiple-variable flow refrigerating plant

Technical field

The utility model relates to machinery manufacturing technology field, relates in particular to a kind of multiple-variable flow refrigerating plant.

Background technology

At present, known water source heat pump units is made up of compressor, condenser, evaporimeter, cross valve, expansion valve, filter.When its work, need to carry out work by external water circulating pump, cost is higher, and volume is larger, is not suitable for civilian.In order to overcome, the water source heat pump units cost of present stage is high, volume is large, be not suitable for the civilian deficiency that waits, this changeable flow unit has been realized low production cost, has been reduced volume on original water source heat pump units, also realized modular setting, self-organizing system, facilitate civilianly, simultaneously also can modular combination become large-scale heat pump.Source, built-in ground water circulating pump, Air-conditioning Cycle water pump are in unit; And source, ground water circulating pump, Air-conditioning Cycle water pump and frequency-changeable compressor synchronous frequency conversion, more energy-conservation; Modular setting, self-organizing system, independent operating, can modular combination become large-scale heat pump simultaneously; In running, utilize ground source water circulating pump to dispel the heat for frequency converter; (AC220V) is general for three phase mains (AC380V), single phase poaer supply.Can realize cost-saving, reduce volume, facilitate civilian object.

Utility model content

The purpose of this utility model is to provide a kind of multiple-variable flow refrigerating plant.

The technical solution of the utility model is: a kind of multiple-variable flow refrigerating plant, it is characterized in that: by frequency-changeable compressor, control mainboard, several plate type heat exchangers, device for drying and filtering, centrifugal multistage pump multiple centrifugal pump, form with mainframe box, described frequency-changeable compressor is positioned at the bottom of mainframe box inside, described frequency-changeable compressor with mainframe box for being fixedly connected with, described control mainboard is positioned at the top of mainframe box inside, described control mainboard with mainframe box for being fixedly connected with, on described control mainboard, be also provided with system controller, controller, frequency converter and power supply, described system controller is positioned at the bottom of controlling mainboard, described system controller with control mainboard for being fixedly connected with, described controller is positioned at a side of system controller, described controller with control mainboard for being fixedly connected with, described power supply is positioned at a side of controller, described power supply with control mainboard for being fixedly connected with, described frequency converter is positioned at the top of power supply, described frequency converter with control mainboard for being fixedly connected with, the parallel bottom of controlling mainboard that is positioned at of described several plate type heat exchangers, any described plate type heat exchanger with mainframe box for being fixedly connected with, described device for drying and filtering is positioned at the bottom of plate type heat exchanger, on described device for drying and filtering, be also provided with heat pipe, one end of described heat pipe by device for drying and filtering for being fixedly connected with, the other end of described heat pipe run through any one plate type heat exchanger inner and by another plate type heat exchanger for being fixedly connected with, described centrifugal multistage pump multiple centrifugal pump is positioned at a side of device for drying and filtering, described centrifugal multistage pump multiple centrifugal pump with frequency-changeable compressor for being fixedly connected with, on described mainframe box, be also provided with electric expansion valve, cross valve and several horizontal handles, described electric expansion valve is positioned at the inside of mainframe box, described electric expansion valve with mainframe box for being fixedly connected with, described cross valve is positioned at the top of electric expansion valve, described cross valve with mainframe box for being fixedly connected with, described horizontal handle is positioned at a side of mainframe box outside arbitrarily, described horizontal handle with mainframe box for being fixedly connected with.

Further, the number of described plate type heat exchanger is 2.

Further, the material of described heat pipe is stainless steel.

Further, the number of described horizontal handle is 2.

Further, the material of described horizontal handle is plastics.

Further, the material of described mainframe box is stainless steel.

The beneficial effects of the utility model are: this changeable flow unit relates to a kind of refrigeration plant, and source, built-in ground water circulating pump, Air-conditioning Cycle water pump are in unit; And source, ground water circulating pump, Air-conditioning Cycle water pump and frequency-changeable compressor synchronous frequency conversion, more energy-conservation; Modular setting, self-organizing system, independent operating, can modular combination become large-scale heat pump simultaneously; In running, utilize ground source water circulating pump to dispel the heat for frequency converter; (AC220V) is general for three phase mains (AC380V), single phase poaer supply.Can realize cost-saving, reduce volume, facilitate civilian object.Especially independently regulating frequency and more energy-conservation water source heat pump units.

Brief description of the drawings

Fig. 1 is front view of the present utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is made to brief description.

A kind of multiple-variable flow refrigerating plant as shown in Figure 1, it is characterized in that: by frequency-changeable compressor 1, control mainboard 4, several plate type heat exchangers 9, device for drying and filtering 10, centrifugal multistage pump multiple centrifugal pump 11, form with mainframe box 14, described frequency-changeable compressor 1 is positioned at the bottom of mainframe box 14 inside, described frequency-changeable compressor 1 with mainframe box 14 for being fixedly connected with, described control mainboard 4 is positioned at the top of mainframe box 14 inside, described control mainboard 4 with mainframe box 14 for being fixedly connected with, on described control mainboard 4, be also provided with system controller 3, controller 5, frequency converter 6 and power supply 7, described system controller 3 is positioned at the bottom of controlling mainboard 4, described system controller 3 with control mainboard 4 for being fixedly connected with, described controller 5 is positioned at a side of system controller 3, described controller 5 with control mainboard 4 for being fixedly connected with, described power supply 7 is positioned at a side of controller 5, described power supply 7 with control mainboard 4 for being fixedly connected with, described frequency converter 6 is positioned at the top of power supply 7, described frequency converter 6 with control mainboard 4 for being fixedly connected with, the parallel bottom of controlling mainboard 4 that is positioned at of described several plate type heat exchangers 9, any described plate type heat exchanger 9 with mainframe box 14 for being fixedly connected with, described device for drying and filtering 10 is positioned at the bottom of plate type heat exchanger 9, on described device for drying and filtering 10, be also provided with heat pipe 12, one end of described heat pipe 12 by device for drying and filtering 10 for being fixedly connected with, the other end of described heat pipe 12 run through any one plate type heat exchanger 9 inner and by another plate type heat exchanger 9 for being fixedly connected with, described centrifugal multistage pump multiple centrifugal pump 11 is positioned at a side of device for drying and filtering 10, described centrifugal multistage pump multiple centrifugal pump 11 with frequency-changeable compressor 1 for being fixedly connected with, on described mainframe box 14, be also provided with electric expansion valve 2, cross valve 8 and several horizontal handles 13, described electric expansion valve 2 is positioned at the inside of mainframe box 14, described electric expansion valve 2 with mainframe box 14 for being fixedly connected with, described cross valve 8 is positioned at the top of electric expansion valve 2, described cross valve 8 with mainframe box 14 for being fixedly connected with, described horizontal handle 13 is positioned at a side of mainframe box 14 outsides arbitrarily, described horizontal handle 13 with mainframe box 14 for being fixedly connected with.The number of described plate type heat exchanger 9 is 2.The material of described heat pipe 12 is stainless steel.The number of described horizontal handle 13 is 2.The material of described horizontal handle 13 is plastics.The material of described mainframe box 14 is stainless steel.

Working method: the running of system is divided into two, the one, water circulation side.Water enters into plate type heat exchanger 9 by centrifugal multistage pump multiple centrifugal pump 11 and carries out heat exchange with cold-producing medium; The 2nd, fluorine circulation side.The steam that fluorine is compressed into HTHP by frequency-changeable compressor 1 enters into plate type heat exchanger 9 heat releases and becomes the liquid of HTHP, become again the gas-liquid mixture of low-temp low-pressure by electric expansion valve 2, enter the gas that another plate type heat exchanger 9 heat absorptions become low-temp low-pressure, finally get back in frequency-changeable compressor 1.Circulation forms a complete circulatory system thus.Cross valve 8 effects are to change the flow direction of cold-producing medium to meet the conversion of cooling and warming.

Above an embodiment of the present utility model is had been described in detail, but described content is only preferred embodiment of the present utility model, can not be considered to for limiting practical range of the present utility model.All equalization variation and improvement etc. of doing according to the utility model application range, within all should still belonging to patent covering scope of the present utility model.

Claims (6)

1. a multiple-variable flow refrigerating plant, it is characterized in that: by frequency-changeable compressor, control mainboard, several plate type heat exchangers, device for drying and filtering, centrifugal multistage pump multiple centrifugal pump, form with mainframe box, described frequency-changeable compressor is positioned at the bottom of mainframe box inside, described frequency-changeable compressor with mainframe box for being fixedly connected with, described control mainboard is positioned at the top of mainframe box inside, described control mainboard with mainframe box for being fixedly connected with, on described control mainboard, be also provided with system controller, controller, frequency converter and power supply, described system controller is positioned at the bottom of controlling mainboard, described system controller with control mainboard for being fixedly connected with, described controller is positioned at a side of system controller, described controller with control mainboard for being fixedly connected with, described power supply is positioned at a side of controller, described power supply with control mainboard for being fixedly connected with, described frequency converter is positioned at the top of power supply, described frequency converter with control mainboard for being fixedly connected with, the parallel bottom of controlling mainboard that is positioned at of described several plate type heat exchangers, any described plate type heat exchanger with mainframe box for being fixedly connected with, described device for drying and filtering is positioned at the bottom of plate type heat exchanger, on described device for drying and filtering, be also provided with heat pipe, one end of described heat pipe by device for drying and filtering for being fixedly connected with, the other end of described heat pipe run through any one plate type heat exchanger inner and by another plate type heat exchanger for being fixedly connected with, described centrifugal multistage pump multiple centrifugal pump is positioned at a side of device for drying and filtering, described centrifugal multistage pump multiple centrifugal pump with frequency-changeable compressor for being fixedly connected with, on described mainframe box, be also provided with electric expansion valve, cross valve and several horizontal handles, described electric expansion valve is positioned at the inside of mainframe box, described electric expansion valve with mainframe box for being fixedly connected with, described cross valve is positioned at the top of electric expansion valve, described cross valve with mainframe box for being fixedly connected with, described horizontal handle is positioned at a side of mainframe box outside arbitrarily, described horizontal handle with mainframe box for being fixedly connected with.

2. multiple-variable flow refrigerating plant according to claim 1, is characterized in that: the number of described plate type heat exchanger is 2.

3. multiple-variable flow refrigerating plant according to claim 1, is characterized in that: the material of described heat pipe is stainless steel.

4. multiple-variable flow refrigerating plant according to claim 1, is characterized in that: the number of described horizontal handle is 2.

5. multiple-variable flow refrigerating plant according to claim 1, is characterized in that: the material of described horizontal handle is plastics.

6. multiple-variable flow refrigerating plant according to claim 1, is characterized in that: the material of described mainframe box is stainless steel.