CN1295224A - Modular combined refrigerating device - Google Patents

Abstract

The modular combined refrigerator consists of several modular refrigerating units and every one of then has filtering and sewage exhausting mechanism in fluid conveying pipe to maintain the circular fluid containing no dust impurity. There is a flow rate controlling valves installed between the first fluid pipe and the first heat exchanger and between the second fluid pipe and the second heat exchanger. When the refrigerating load changes, the controller commands some refrigerating units to start or to stop so as to save power of compressor and reach high efficiency, commands corresponding pump combination to increase or decrease output and commands flow rate controlling valve to open or close so as to save power of the pumps. The present invention is suitable for air conditioner in building, food processing industry, cold storage, etc.

Description

Modular combined refrigerating device

The present invention relates to a kind of refrigerating plant, particularly a kind of modular combined refrigerating device.

Modern office building, hotel, commercial building etc. all are equipped with aircondition, traditional air-conditioning refrigeration plant comprises compressor, first fluid heat exchanger, second fluid heat exchanger, and compressor returns compressor with cold-producing medium through second fluid heat exchanger, first fluid heat exchanger when refrigeration.First heat-exchange fluid (hereinafter to be referred as first fluid) the first fluid heat exchanger of flowing through, i.e. evaporimeter, its heat is removed to form refrigerant by suction and is sent to the operational area, sends back to then to form circulation; Second heat-exchange fluid (hereinafter to be referred as second fluid) through second heat exchanger be condenser with condenser in refrigerant cools, send back to then and form circulation.First fluid can be liquid, and second fluid can be liquid or gas.Traditional refrigerating plant in use has the following disadvantages:

Need when 1, refrigerating plant is selected for use to consider at full capacity by construction area, but can be because room utilization rate or season when using

Change, must cause fallback.

2, modern heavy construction is built usually stage by stage, and refrigerating plant is selected for use by building up the back area, in the segmentation construction

Also can be in the use with fallback.

3, heat-exchange fluid is easily brought the grit foreign material into and is stopped up plate type heat exchanger in cyclic process, reduces radiating efficiency, increases

Add flow resistance.

4, refrigerating plant must have standby in case damage or shutdown maintenance can influence the air-conditioning use of whole construction area

Refrigerating plant increases investment.

5, the refrigerating plant volume is bigger, is subjected to size restrictions difficult carrying in aisle in the building during installation and maintenance, to the installation and maintenance band

Come inconvenience.

The object of the invention provides a kind of modular combined refrigerating device, and it can solve above-mentioned weak point, promptly all can keep efficient operation under different load, to improve the operational efficiency energy savings of this refrigerating plant; Constantly enlarge with construction area, can increase refrigeration unit by the applied load requirement; The unlikely obstruction plate type heat exchanger of cleaning that keeps heat-exchange fluid; Need not to be provided with standby refrigerating plant; Installation and maintenance are convenient.

The present invention seeks to realize by following technical scheme.The feature of this scheme is: it is made up of (1) a plurality of modular refrigeration unit, each refrigeration unit has one or more independent by compressor, the first fluid heat exchanger, the refrigerating circuit that second fluid heat exchanger is formed, (2) each refrigeration unit has independent first fluid and enters pipe, the first fluid discharge pipe, the inlet of this first fluid heat exchanger enters pipe with first fluid and links to each other, outlet links to each other with the first fluid discharge pipe, (3) first fluid in each refrigeration unit enters the set of the continuous successively formation first fluid of pipe and enters pipe, first fluid discharge pipe in each refrigeration unit links to each other successively, forms first fluid set discharge pipe.Comprise also that in described each refrigeration unit second fluid enters pipe, second fluid discharge pipe, the inlet of this second fluid heat exchanger enters pipe with second fluid and links to each other, the outlet of second fluid heat exchanger links to each other with second fluid discharge pipe, second fluid in each refrigeration unit enters pipe and links to each other successively, form the set of second fluid and enter pipe, each second fluid discharge pipe links to each other successively, forms second fluid set discharge pipe.Comprise that also first fluid with adjacent refrigeration unit enters pipe, second fluid enters the coupling arrangement of untiing of pipe interconnection, the set that enters pipe, the second fluid flow passage with the set of the first fluid circulation passage of each refrigeration unit that is connected in parallel enters pipe.Also comprise and the coupling arrangement of untiing of the first fluid discharge pipe of adjacent refrigeration unit, the interconnection of second fluid discharge pipe, with the set discharge pipe of the first fluid circulation passage of each refrigeration unit that is connected in parallel, the set discharge pipe of the second fluid flow passage.In described each refrigeration unit, enter between the pipe and/or between first fluid heat exchanger outlet and first fluid discharge pipe at first fluid heat exchanger entrance and first fluid flow control valve is housed.Described second fluid heat exchanger inlet with second fluid enters between the pipe and/or second fluid heat exchanger exports and second fluid discharge pipe between flow control valve is housed.Independent modular refrigeration unit has guaranteed that from structure available computer apparatus controls the start-stop of each modular refrigeration unit, make the refrigeration unit that combines be in the high efficiency state all the time by burden requirement, with the save compressed mechanomotive force, and make first, the second fluid supply suitably increases and decreases to save pump group power, make the pump group at concert pitch, for example when load reduces, under the operation of control circuit, the flow control valve of each refrigeration unit cuts out, making the first fluid heat exchanger is that evaporimeter and first fluid enter between the pipe and turn-off, equally, with second fluid heat exchanger is that the condenser and second fluid enter between the pipe and turn-off, simultaneously some pump in the pump group is cut off or the frequency conversion of pump group is slowed down to reduce first, the quantity delivered of second fluid is saved the power of this pump group.When needs increased refrigerating capacity, the control circuit instruction was opened the flow control valve of turning off again, and the pump group of stoppage in transit restarts, the compressor start of refrigeration unit then, and kind of refrigeration cycle begins.Use concetrated pipe to send into and discharge first, second fluid and carry out heat exchange, make to connect more conveniently between each refrigeration unit, be easy to produce by batch the general part of refrigeration unit, the coupling arrangement that employing can be untied makes to be easy between each refrigeration unit connect, and is convenient to increase and decrease.In the first heat-exchange fluid conveyance conduit in every refrigeration unit and/or in the second heat-exchange fluid conveyance conduit filter is housed.The set of second fluid of described refrigerating plant enter pipe terminal with second fluid set discharge pipe end between and/or the first fluid set enter the terminal and first fluid of pipe and gather between the discharge pipe end bypass pipe is housed, the control valve of control flow is housed on bypass pipe, enters pipe end and/or first fluid set in second fluid set and enter the pipe end bleed valve is housed.Entering pipe end and/or first fluid set in the set of second fluid of described refrigerating plant enters the pipe end and also is equipped with and adds the end pipe, this bleed valve is contained in this end that adds the end pipe, one end of bypass pipe is contained in fluid set discharge pipe end, and the other end is connected in this middle part that adds the end pipe.This filter is the cylinder well strainer, be sleeved on first, in the pipeline of second fluid, when having impurity in the fluid, this filter can cut resistance with impurity fully, in order to avoid impurity enters between the fin of plate type heat exchanger such as evaporimeter or condenser passage is stopped up, make first, particularly resistance increases and to cause that increase falls in pressure in the loop in the closed circuit of second fluid, reduce dynamic efficiency, be contained in second or first fluid set enter pipe terminal with second or first fluid set discharge pipe end between the effect of bypass pipe be to make to enter between the end of managing with discharge pipe to be communicated with, this bypass pipe can keep the water circulation of trace, the trace value of this water is set up by control valve, make the minute impurities of filtering to be taken to the end that set enters pipe by current, accumulation is got up, regularly opening this bleed valve can be clean with the impurity discharging of filtering, this has just simplified first, blowdown is satisfied in the design of second fluid system, the particularly requirement of cooling tower blowdown.In addition,, can finish assembling at the scene, not influence other unit operation during a module refrigeration unit maintenance owing to be independent modular refrigeration unit.Each refrigeration unit volume is little, is easy to transportation, can pass common door and passageway stair, and installation and maintenance are convenient.Therefore the present invention can improve the operational efficiency of refrigerating plant under different load, need not standby refrigerating plant, and plate type heat exchanger is difficult for stopping up, and floor space is little, and installation and maintenance are convenient.If desired, kind of refrigeration cycle of the present invention can change contrary circular flow into.

Do with embodiment below and specify.

Fig. 1,2 is a stereogram of the present invention,

Fig. 3 for the A among Fig. 2 to view (having removed front panel 15),

Fig. 4 is the B-B cutaway view among Fig. 3,

Fig. 5 is the D-D cutaway view among Fig. 3,

Fig. 6 is the C-C cutaway view among Fig. 3,

Fig. 7 saves power operating position schematic diagram for the present invention,

Fig. 8 is an another kind of structure chart of the present invention,

Fig. 9 is the E-E amplification view among Fig. 3,

Figure 10 filters 50 amplification stereogram among Fig. 9.

Code name 1 among the figure, refrigeration unit 2, cover cap 3, control panel 4, compressor 5, first fluid enters pipe 6, first fluid discharge pipe 7, support 8, housing 9, first fluid delivery flow control valve 10, tube connector 11, first fluid enters flow control valve 12, first fluid heat exchanger 13, tube connector 14, second fluid heat exchanger 15, housing front panel 16, tube connector 17, second fluid flow control valve 18, second fluid enters pipe 19, tube connector 20, second fluid discharge pipe 21, the second fluid delivery flow control valve 22, lead-in wire 23, housing top board 24, bus-tie-in 25, left panel 25A, right panel 26, refrigerant pipe 27, refrigerant pipe 28, refrigerant pipe 29, the first fluid set enters pipe 30, first fluid set discharge pipe 31, the set of second fluid enters pipe 32, second fluid set discharge pipe 33, pipe joint 34, the coupling arrangement 35 that can untie, pipe-coil type evaporator 36, coiled tube condenser 37, fan 38, chamber 39, sidewall 40, pump group 50, filter 51, filter screen 52, net 53, bar 54, curved stern notch 55, bypass pipe 56, control valve 57, bleed valve 58, add end pipe 59, impurity

Be illustrated in figure 1 as the stereogram of modular combined refrigerating device of the present invention, form by a plurality of modular refrigeration unit 1, be illustrated in figure 2 as independent refrigeration unit 1 stereogram, it is independent by the compressor 4 that is placed on the cover cap 2 middle shell top boards 23 that each refrigeration unit 1 has two covers, be placed in the housing 8 is evaporimeter 12 by the first fluid heat exchanger, second fluid heat exchanger is the refrigerating circuit that condenser 14 is formed, cold-producing medium is sent by compressor 4, through refrigerant pipe 27, condenser 14, cold-producing medium connecting leg 28, evaporimeter 12, refrigerant pipe 26 is got back to compressor 4, carries out closed circulation.With reference to Fig. 3, evaporimeter 12 is a brazed-plate heat exchanger in the present embodiment, flow through cold-producing medium and first fluid therein respectively, carry out heat exchange, first fluid is that liquid is water, is formed chilled water by heat absorption when flowing through evaporimeter 12 and delivers to the operational area, and condenser 14 also is a brazed-plate heat exchanger, flowing through the cold-producing medium and second fluid therein respectively is that liquid is cooling water, with heat sucking-off in the cold-producing medium and with condensation of refrigerant.First fluid is housed in left panel 25 outsides of housing 8 enters pipe 5 and first fluid discharge pipe 6, second fluid is housed in the right panel 25A outside of housing 8 enters that pipe 18 is used to send into second fluid and second fluid discharge pipe 20 is used to discharge second fluid.Enter at the first fluid of first fluid heat exchanger 12 inlet 12A and first fluid and first fluid to be housed on the tube connector 13 of managing between 5 to enter the supply (also can go out tube connector 10 between 12B and the first fluid discharge pipe 6, flow control valve 9 is housed) that flow control valve 11 is used for controlling this refrigeration unit first fluid at first fluid heat exchanger 12.Second fluid flow control valve 17 is housed on the second fluid intake 14A of second fluid heat exchanger 14 and second fluid enter tube connector 16 between the pipe 18 is used for controlling the supply (also can on the outlet 14B of second fluid heat exchanger 14 and the tube connector 19 between second fluid discharge pipe 20, flow control valve 21 be housed) of this refrigeration unit second fluid as Fig. 4, have four holes on the first fluid heat exchanger 12, wherein two aperture tube connectors 13 and tube connector 10 enter pipe with first fluid respectively, discharge pipe 6 links to each other, in addition two holes and refrigerant pipe 26,28 link to each other, the figure left side is depicted as the evaporimeter of another set of compressor assembly in the refrigeration unit 1, and its structure similarly.As having four holes on Fig. 5 second fluid heat exchanger 14, wherein two aperture tube connectors 19,16 respectively with second fluid discharge pipe 20, enter pipe 18 and link to each other, two holes link to each other with refrigerant pipe 27, cold-producing medium connecting leg 28 in addition, the figure right side is depicted as second fluid heat exchanger of another set of compressor assembly in this refrigeration unit 1, and its structure similarly.As Fig. 6, each first fluid in each refrigeration unit 1 enters pipe 5, reaches first fluid discharge pipe 6, second fluid enters pipe 18, and second fluid discharge pipe 20, and connecting together with the jockey 34 that can untie between each pipe forms the first fluid set and enter pipe 29, first fluid set discharge pipe 30, the set of second fluid and enter pipe 31, second fluid set discharge pipe 32.End at each concetrated pipe links to each other with water circulating pump group pipeline with pipe joint 33.Each concetrated pipe is contained in each refrigeration unit, housing 8 is outer, also can be contained in each refrigeration unit outside (not shown).The coupling arrangement 34 that can untie is as Fig. 9, and is fastening with two clip 34A and bolt 34C at the suit rubber seal ring 34B of the interface K place of butt tube, preferably slightly the mouth of pipe expanded at the joint of pipe.Press water flows in the sealing ring 34B from interface K, increases the sealing of sealing ring to pipe.Also this concetrated pipe 29,30,31,32 can be made wholely, be connected with plate type heat exchanger in each refrigeration unit in the integral tube upper shed.Power save mode such as Fig. 7 when using, suppose in 6 refrigeration units, each evaporimeter 12 and first fluid pump group 40 (comprising 3 pumps) are moved simultaneously, the first fluid chilled water is an evaporimeter 12 from the first fluid heat exchanger that first fluid concetrated pipe 29 enters through each refrigeration unit of parallel connection, gather discharge pipe 30 to operational area W from first fluid again, return pump group 40.When need reduce the air-conditioning capacity, for example need reduce by 2 refrigeration units, then, consume with the save compressed mechanomotive force with wherein 2 refrigeration units shutdown of control circuit.Simultaneously corresponding 1 pump in the pump group 40 is shut down, and the first fluid flow control valve in 2 refrigeration units 11 is turn-offed,, reach each refrigeration unit and under full load, move to save the power consumption of pump group 40.Can control the power consumption that second fluid heat exchanger is the cooling water pump pump group of condenser 14 with the same manner.Be illustrated in figure 8 as the modular combined refrigerating device of band air-cooled heat exchanger, its first fluid is a for example water of liquid, second fluid is a gas, air for example, its first fluid heat exchanger is a pipe-coil type evaporator 35, be contained in the confined chamber 38 of casing 8, being full of first fluid in the confined chamber 38 is water, first fluid enters pipe 5, discharge pipe 6 all is contained on the support 7 of sidewall 39 of housing 8, first fluid enters pipe 5 and communicates with chamber 38 through tube connector 13, first fluid flow control valve 11 is housed on tube connector 13, first fluid discharge pipe 6 communicates with airtight chamber 38 through tube connector 10, first fluid on coil evaporator 35 turn back blade 35A and tortuous flowing carried out heat exchange, second fluid is an air, and 2 desk fans 37 are housed at the window place of casing 8, and to be used to cool off this second fluid heat exchanger be condenser 36.Single compressor 4 is contained in the independent chamber.As Fig. 1,2 respectively entering in pipe 5,18, the discharge pipe 6,20 in each refrigeration unit 1 filter 50 is housed all, respectively entering between pipe 5,18, the discharge pipe 6,20 between each refrigeration unit 1 connects with the coupling arrangement 34 that can untie, Figure 9 shows that at each second fluid and enter connection situation between the pipe 18, Fig. 9 left side is depicted as between the end of end that the set of second fluid enters pipe 31 and second fluid set discharge pipe 32 bypass pipe 55 is housed, and the flow of control valve 56 with setting trace circular current is housed on the bypass pipe 55.Add end pipe 58 what second fluid entered that pipe 31 ends also are equipped with band filter 50, bleed valve 57 is contained in the end that adds end pipe 58, be used for despumation 59, an end of bypass pipe 55 is contained in second fluid set discharge pipe, 32 ends, and the other end is connected in this middle part that adds end pipe 58.As Fig. 9,10 filters 50 are the cylindric assembly of both ends open, the net 52 that comprises filter screen 51 and end thereof, connect with the fast-assembling bayonet socket between each filter 50 in each refrigeration unit, this quick-mounting clamp mouth structure is for having a bar 53 by the axle center on the end plane of cylinder-shaped filter 50, promptly have the curved stern notch 54 of two symmetries that adapt with this bar 51 in the other end in the cooperative end part of connected screen pack, when connecting, the filter 50 of curved stern notch 54 ends of band is drawn close with an end of the band bar 53 of another filter 50, the opening portion 54A bottom of curved stern notch 54 is pushed into bar 53 contacts, rotating the termination make curved tail 54B then forwards to till this bar 53 contact, with 50 connections of two filters.According to said method each the ducted filter in each refrigeration unit 1 is coupled together.As Fig. 1,2, be equipped with according to the load needs in each refrigeration unit 1 and in the refrigerating plant, actuate the control device that each brake unit moves by sensor, in the time of can or breaking down in the refrigeration unit overload operation, refrigeration unit is stopped; When the need adjustment is loaded, the part refrigeration unit is stopped or startup; Can set the running time of each refrigeration unit, use by turns to guarantee each refrigeration unit balance.Control device comprises an electrical control panel 3, it is contained on the top board 23 of casing 8, the activation signal that control panel 3 is accepted from each sensor, for example the cooling-water temperature sensor (not shown) is contained near the delivery port of each concetrated pipe, and signal is sent to main control panel 3A on the terminal refrigeration unit 1A, the electric wiring that this refrigerating plant is housed on this main control panel 3A is to control the action of each refrigeration unit.On the top board 23 of housing 8 bus-tie-in 24 is installed, compressor 4 bus-tie-in 24 is therewith done and is electrically connected, and has corresponding lead-in wire 22 on the bus-tie-in 24 and connects power supply with the bus-tie-in 24 with adjacent refrigeration unit.

In sum, the present invention adopts a plurality of independently refrigeration units to combine modular combined refrigerating device, every refrigeration unit all has one or above independently refrigerating circuit, each refrigerating circuit has the control device of oneself can be according to this refrigeration unit of the independent start-stop of load variations, make the refrigeration output of this combined refrigerating device consistent with actual demand, high-efficiency operation, conservation of power; Adopt flow control valve, when some refrigeration unit started or stop, corresponding flow pump and flow control valve were controlled the conveying capacity of this first fluid, second fluid, with conservation of power.Adopt the microcirculation device of filter and water, elimination and emit impurity in the recirculated water makes heat exchanger unobstructed, reduces flow resistance to improve radiating efficiency.When architectural engineering expansion needs to strengthen refrigeration capacity, can increase refrigeration unit and need not to change refrigeration unit to satisfy instructions for use; Control circuit can preestablish running time and instruct some refrigeration units and other refrigeration unit wheel to change jobs, and balancedly uses to guarantee each refrigeration unit.When a certain refrigeration unit is out of order when needing maintenance, whole group refrigerating plant needn't be shut down, and only needs that certain refrigeration unit is shut down maintenance and get final product convenient for maintaining.The various embodiments described above only as explanation usefulness of the present invention, but are not limited thereto, and allly according to the technology of the present invention essence the foregoing description are any simple modification, change and equivalent structure variation person and all still belong within the technology of the present invention scope.The present invention also is suitable for food processing and handles industry and freezer, refrigerating chamber and icehouse use except that being applicable to air conditioner refrigerating.

Claims (15)

1, modular combined refrigerating device comprises compressor, first fluid heat exchanger, second fluid heat exchanger, it is characterized in that:

(1) it is made up of a plurality of modular refrigeration unit, and each refrigeration unit has one or more independent

The refrigerating circuit of forming by compressor, first fluid heat exchanger, second fluid heat exchanger,

(2) each refrigeration unit has independent first fluid and enters pipe, first fluid discharge pipe, this first-class body heat

The inlet of interchanger enters pipe with first fluid and links to each other, and outlet links to each other with the first fluid discharge pipe,

(3) first fluid in each refrigeration unit enters the set of the continuous successively formation first fluid of pipe and enters pipe, each refrigeration

First fluid discharge pipe in the unit links to each other successively, forms first fluid set discharge pipe.

2, modular combined refrigerating device according to claim 1, it is characterized in that: comprise also that in described each refrigeration unit second fluid enters pipe, second fluid discharge pipe, the inlet of this second fluid heat exchanger enters pipe with second fluid and links to each other, the outlet of second fluid heat exchanger links to each other with second fluid discharge pipe, second fluid in each refrigeration unit enters pipe and links to each other successively, form the set of second fluid and enter pipe, each second fluid discharge pipe links to each other successively, forms second fluid set discharge pipe.

3, modular combined refrigerating device according to claim 1 and 2, it is characterized in that: in described each refrigeration unit, enter between the pipe and/or between first fluid heat exchanger outlet and first fluid discharge pipe at first fluid heat exchanger entrance and first fluid flow control valve is housed.

4, modular combined refrigerating device according to claim 2 is characterized in that: described second fluid heat exchanger inlet with second fluid enters between the pipe and/or second fluid heat exchanger exports and second fluid discharge pipe between flow control valve is housed.

5, modular combined refrigerating device according to claim 1 and 2 is characterized in that: in described each refrigeration unit, first fluid is a liquid, and second fluid is liquid or gas.

6, modular combined refrigerating device according to claim 1 and 2 is characterized in that: the set of described first fluid enters pipe, the set of second fluid and enters pipe, first fluid set discharge pipe, second fluid and gather discharge pipe and can be contained in outside the interior or refrigeration unit of refrigeration unit.

7, modular combined refrigerating device according to claim 1 and 2 is characterized in that: the set of described first fluid enters pipe, the set of second fluid and enters that pipe, first fluid are gathered discharge pipe, second fluid is gathered discharge pipe and can be made integral tube.

8, modular combined refrigerating device according to claim 1 and 2, it is characterized in that: comprise that also first fluid with adjacent refrigeration unit enters pipe, second fluid enters the coupling arrangement of untiing of pipe interconnection, the set that enters pipe, the second fluid flow passage with the set of the first fluid circulation passage of each refrigeration unit that is connected in parallel enters pipe.

9, modular combined refrigerating device according to claim 1 and 2, it is characterized in that: also comprise and the coupling arrangement of untiing of the first fluid discharge pipe of adjacent refrigeration unit, the interconnection of second fluid discharge pipe, with the set discharge pipe of the first fluid circulation passage of each refrigeration unit that is connected in parallel, the set discharge pipe of the second fluid flow passage.

10, modular combined refrigerating device according to claim 1 and 2 is characterized in that: in the first heat-exchange fluid conveyance conduit and/or in the second heat-exchange fluid conveyance conduit filter is housed.

11, modular combined refrigerating device according to claim 10 is characterized in that: connect with the fast-assembling bayonet socket between described each filter.

12, modular combined refrigerating device according to claim 11, it is characterized in that: the structure of described fast-assembling bayonet socket is for having a bar by the axle center on the end plane of the screen pack of cylinder-shaped filter, has two curved stern notches that adapt with this bar symmetrically in the cooperative end part of connected screen pack.

13, modular combined refrigerating device according to claim 1 and 2, it is characterized in that: the set of second fluid of described refrigerating plant enter pipe terminal with second fluid set discharge pipe end between and/or the first fluid set enter the terminal and first fluid of pipe and gather between the discharge pipe end bypass pipe is housed, the control valve of control flow is housed on bypass pipe, enters pipe end and/or first fluid set in second fluid set and enter the pipe end bleed valve is housed.

14, modular combined refrigerating device according to claim 13, it is characterized in that: enter pipe end and/or first fluid set in the set of second fluid of described refrigerating plant and enter the pipe end and also be equipped with and add the end pipe, this bleed valve is contained in this end that adds the end pipe, one end of bypass pipe is contained in fluid set discharge pipe end, and the other end is connected in this middle part that adds the end pipe.

15, according to each described modular combined refrigerating device in the claim 1 to 14, it is characterized in that: also comprise the control device of actuating,, start or stop corresponding refrigeration unit successively by predetermined order with variation according to the load needs by sensor.

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