CN201448918U - High-intelligent plate heat exchanger unit - Google Patents

Abstract

The utility model relates to a high-intelligent plate heat exchanger unit. A water collector, a dirt remover, a butterfly valve I, a hot water circulating pump I, a check valve I, a butterfly valve II, a butterfly valve III, a dual-grooved heater exchanger, a butterfly valve IIII and a water distributor are sequentially mounted on a heating water return pipe, and an outlet pipe of the water distributor is connected to a user heating installation. An electromagnetic valve, a water softener, a soft water tank, a butterfly valve V, a variable frequency water refilling device, a check valve II and a butterfly valve VI are sequentially mounted on a running water refilling pipe, and an outlet pipe of the butterfly valve VI is connected with an inlet pipe of the butterfly valve I. A butterfly valve IX, a temperature regulating valve, a butterfly valve X, a dual-grooved pipe heat exchanger, a check valve V, a steam trap and a check valve VI are sequentially mounted on a primary fluid pipe. A control cabinet is respectively connected with each pressure sensor, each temperature sensor, a variable frequency water refilling pump, a temperature regulating valve and the soft water tank. The high-intelligent plate heat exchanger unit is simple in structure, convenient in operation, few in equipment investment, high in heat efficiency, high in automation and long in service life.

Description

High intelligent plate-type heat-exchange unit

Technical field

The utility model belongs to energy technology field, relates to a kind of heat exchange unit that is used for heating, heat supply water, particularly a kind of high intelligent plate-type heat-exchange unit.

Background technology

At present, in the existing heat supply process, heating plant makes heat carrier and water carry out heat exchange by heat exchanger, the heat of heat carrier is conducted to being heated water, water after will being heated is again supplied with user's heating, no matter it is much that the temperature difference of indoor and outdoor has, the temperature that is heated water that same heating plant provides is a setting value, change this setting value and need manual adjustment, but manual adjustment can only be the supply of heat carrier, and be to lag behind to regulate, be every adjusting once, need through thermometric after the heat exchange, regulate the thermometric after from the supply of regulating heat carrier to heat exchange again, its feedback is come need be for a long time, and the temperature that feedback is come can not reflect instantaneous heat supply situation in the heating network.In addition, its complex structure, equipment investment is many, the thermal efficiency is low, automaticity is low.

The utility model content

Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art, a kind of high intelligent plate-type heat-exchange unit is provided, it is by being installed in the online supply water temperature sensor of secondary and being installed in outdoor outdoor temperature sensor, pass to central controller as feedback signal, be installed in once the aperture of online electric control valve by the control of central controller output signal, regulate the once flow of net, thereby reach the purpose of indirect control secondary net supply water temperature.In addition, it is simple in structure, easy to operate, equipment investment is few, the thermal efficiency is high, increasingly automated, long service life.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of high intelligent plate-type heat-exchange unit, comprise: hot water circulating pump one, it is characterized in that: water collector, dirt separator, butterfly valve one, hot water circulating pump one, check-valves one, butterfly valve two, butterfly valve three, double-cut tube heat exchanger, butterfly valve four and water knockout drum are installed on the heating water return pipeline successively, and the water knockout drum outlet conduit connects user's heating installation; Check-valves four is connected in butterfly valve one inlet and butterfly valve two outlets; Magnetic valve, water softener, softened water tank, butterfly valve five, frequency conversion small pump, check-valves two and butterfly valve six are installed on the running water moisturizing pipeline successively, and the inlet duct of butterfly valve six outlet conduits and butterfly valve one joins; Butterfly valve nine, temperature control valve (TCV), butterfly valve ten, double-cut tube heat exchanger, check-valves five, steam trap and check-valves six are installed on the primary fluid pipeline successively; Check-valves seven is parallel in check-valves five inlets and check-valves six outlets; Switch board links to each other with pressure sensor one, pressure sensor two, temperature sensor one, frequency conversion small pump, temperature control valve (TCV), pressure sensor four, temperature sensor three, pressure sensor five, temperature sensor four and softened water tank respectively.

The utility model compared with prior art has the following advantages:

(1) by being installed in the online supply water temperature sensor of secondary and being installed in outdoor outdoor temperature sensor, can control secondary net supply water temperature by switch board;

(2) energy savings reduces investment, heat energy utilization rate height;

(3) automaticity height.Automatic control program according to system's operation characteristic design can make the VFC cabinet monitor the work of each equipment automatically, really accomplishes unmanned;

(4) stable, compact conformation. select the multifunction valve of functions such as integrating non-return, filtration, flow-control for use, can make the design of heat exchange unit more compact, valve is cast copper or cast steel valve body, stainless steel filtering net, flexible operation, safety durable can be guaranteed the operation steady in a long-term of heat exchange unit;

(5) occupation area of equipment is little.Integrated unit design can be installed in the equipment room easily, need not to take other areas in the skyscraper;

(6) applied widely.Be not only applicable to new construction, the transformation that is fit to more be incorporated into the power networks is used this equipment and be need not heating system in the building is done any change.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Description of reference numerals:

1-hot water circulating pump one; 2-butterfly valve one; 3-check-valves one;

4-butterfly valve two; The 5-water collector; The 6-dirt separator;

7-butterfly valve three; The 8-double-cut tube heat exchanger; 9-butterfly valve four;

The 10-water knockout drum; The 11-magnetic valve; The 12-water softener;

The 13-softened water tank; 14-butterfly valve five; 15-frequency conversion small pump;

16-check-valves two; 17-butterfly valve six; 18-butterfly valve seven;

19-hot water circulating pump two; 20-check-valves three; 21-butterfly valve eight;

22-check-valves four; 23-butterfly valve nine; The 24-temperature control valve (TCV);

25-butterfly valve ten; 26-check-valves five; The 27-steam trap;

28-check-valves six; 29-check-valves seven; The 30-switch board;

31-pressure sensor one; 32-pressure sensor two; 33-temperature sensor one;

34-Pressure gauge one; 35-thermometer one; 36-temperature sensor two;

37-pressure sensor three; 38-Pressure gauge two; 39-thermometer two;

40-pressure sensor four; 41-temperature sensor three; 42-pressure sensor five;

43-temperature sensor four; 44-Pressure gauge three; 45-thermometer three.

The specific embodiment

As shown in Figure 1, the utility model is a kind of high intelligent plate-type heat-exchange unit, comprise: hot water circulating pump 1, water collector 5, dirt separator 6, butterfly valve 1, hot water circulating pump 1, check-valves 1, butterfly valve 24, butterfly valve 37, double-cut tube heat exchanger 8, butterfly valve 49 and water knockout drum 10 are installed on the heating water return pipeline successively, and water knockout drum 10 outlet conduits connect user's heating installation; Check-valves 4 22 is connected in butterfly valve one 2 inlets and butterfly valve 24 outlets; Magnetic valve 11, water softener 12, softened water tank 13, butterfly valve 5 14, frequency conversion small pump 15, check-valves 2 16 and butterfly valve 6 17 are installed on the running water moisturizing pipeline successively, and the inlet duct of butterfly valve 6 17 outlet conduits and butterfly valve 1 joins; Butterfly valve 9 23, temperature control valve (TCV) 24, butterfly valve 10, double-cut tube heat exchanger 8, check-valves 5 26, steam trap 27 and check-valves 6 28 are installed on the primary fluid pipeline successively; Switch board 30 links to each other with pressure sensor 1, pressure sensor 2 32, temperature sensor 1, frequency conversion small pump 15, temperature control valve (TCV) 24, pressure sensor 4 40, temperature sensor 3 41, pressure sensor 5 42, temperature sensor 4 43 and softened water tank 13 respectively.

The branch road that butterfly valve 7 18, hot water circulating pump 2 19, check-valves 3 20 and butterfly valve 8 21 are formed is parallel in the outlet of the inlet of butterfly valve 1 and butterfly valve 24; Check-valves 7 29 is parallel in check-valves 5 26 inlets and check-valves 6 28 outlets.

Pressure sensor 1, pressure sensor 32 and temperature sensor 1 are installed on the pipeline between dirt separator 6 and the butterfly valve 1 successively; Pressure gauge 1, thermometer 1, temperature sensor 36 and pressure sensor 3 37 are installed on the pipeline between butterfly valve 49 and the water knockout drum 10 successively; Pressure gauge 2 38, thermometer 2 39, pressure sensor 4 40 and temperature sensor 3 41 are installed on butterfly valve 9 23 inlet ducts successively; Pressure gauge 3 44, thermometer 3 45, pressure sensor 5 42 and temperature sensor 43 are installed on check-valves 6 28 outlet conduits successively; Pressure gauge 4 46 and thermometer 4 47 are installed on butterfly valve 37 inlet ducts successively.

Softened water tank 13 volumes are 1.5 cubic metres.

The course of work of the present utility model is: the heating backwater is by water collector 5, dirt separator 6, butterfly valve 1 during the heating system operate as normal, after hot water circulating pump one 1 pressurizations, be connected user's heating installation by check-valves 1, butterfly valve 24, butterfly valve 37, double-cut tube heat exchanger 8, butterfly valve 49 and water knockout drum 10.When the heating peak, hot water circulating pump 1 is worked simultaneously with hot water circulating pump 2 19.When heating intermittently, hot water circulating pump 1 quits work with hot water circulating pump 2 19, when pressure sensor 3 37 records pressure of supply water and drops to the threshold pression of frequency conversion small pump 15, transmit signals to switch board 30, switch board 30 control frequency conversion small pumps 15 are started working.The power ratio of moisturizing stabilized pressure pump 15 is less, and is very energy-conservation under the prerequisite that satisfies the moisturizing voltage stabilizing.

During the primary fluid operate as normal, heating agent is discharged through butterfly valve 9 23, temperature control valve (TCV) 24, butterfly valve 10, double-cut tube heat exchanger 8, check-valves 5 26, steam trap 27, check-valves 6 28.

The heating supply water temperature is by 24 controls of the temperature control valve (TCV) on the primary fluid pipeline, when the heating supply water temperature is lower than setting value, temperature sensor 2 36 transmits signals to switch board 30, switch board 30 control temperature control valve (TCV)s 24 opening flows, the primary fluid amount that enters double-cut tube heat exchanger 8 increases, thereby the heating supply water temperature is increased to more than the design temperature; When the heating supply water temperature is higher than setting value, temperature sensor 2 36 transmits signals to switch board 30, switch board 30 control temperature control valve (TCV)s 24 opening flows, the primary fluid amount that enters double-cut tube heat exchanger 8 reduces, thereby the heating supply water temperature is reduced to below the design temperature.

The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; every according to the utility model technical spirit to any simple modification, change and equivalent structure transformation that above embodiment did, all still belong in the protection domain of technical solutions of the utility model.

Claims (4)

1. one kind high intelligent plate-type heat-exchange unit, comprise: hot water circulating pump one (1), it is characterized in that: water collector (5), dirt separator (6), butterfly valve one (2), hot water circulating pump one (1), check-valves one (3), butterfly valve two (4), butterfly valve three (7), double-cut tube heat exchanger (8), butterfly valve four (9) and water knockout drum (10) are installed on the heating water return pipeline successively, and water knockout drum (10) outlet conduit connects user's heating installation; Check-valves four (22) is connected in butterfly valve one (2) inlet and butterfly valve two (4) outlets; Magnetic valve (11), water softener (12), softened water tank (13), butterfly valve five (14), frequency conversion small pump (15), check-valves two (16) and butterfly valve six (17) are installed on the running water moisturizing pipeline successively, and the inlet duct of butterfly valve six (17) outlet conduits and butterfly valve one (2) joins; Butterfly valve nine (23), temperature control valve (TCV) (24), butterfly valve ten (25), double-cut tube heat exchanger (8), check-valves five (26), steam trap (27) and check-valves six (28) are installed on the primary fluid pipeline successively; Switch board (30) links to each other with pressure sensor one (31), pressure sensor two (32), temperature sensor one (33), frequency conversion small pump (15), temperature control valve (TCV) (24), pressure sensor four (40), temperature sensor three (41), pressure sensor five (42), temperature sensor four (43) and softened water tank (13) respectively.

2. according to the intelligent plate-type heat-exchange unit of the described height of claim 1, it is characterized in that: the branch road that butterfly valve seven (18), hot water circulating pump two (19), check-valves three (20) and butterfly valve eight (21) are formed is parallel in the outlet of the inlet of butterfly valve one (2) and butterfly valve two (4); Check-valves seven (29) is parallel in check-valves five (26) inlets and check-valves six (28) outlets.

3. according to the intelligent plate-type heat-exchange unit of the described height of claim 1, it is characterized in that: pressure sensor one (31), pressure sensor two (32) and temperature sensor one (33) are installed on the pipeline between described dirt separator (6) and the butterfly valve one (2) successively; Pressure gauge one (34), thermometer one (35), temperature sensor two (36) and pressure sensor three (37) are installed on the pipeline between butterfly valve four (9) and the water knockout drum (10) successively; Pressure gauge two (38), thermometer two (39), pressure sensor four (40) and temperature sensor three (41) are installed on butterfly valve nine (23) inlet ducts successively; Pressure gauge three (44), thermometer three (45), pressure sensor five (42) and temperature sensor four (43) are installed on check-valves six (28) outlet conduits successively; Pressure gauge four (46) and thermometer four (47) are installed on butterfly valve three (7) inlet ducts successively.

4. according to the intelligent plate-type heat-exchange unit of the described height of claim 1, it is characterized in that: the volume of described softened water tank (13) is 1.5 cubic metres.