CN210241749U - Mobile energy station - Google Patents

Abstract

The utility model belongs to the technical field of indirect heating equipment, especially, be a mobile energy station, including boiler container, heat exchanger group container, gas boiler, pipeline mechanism, valve mechanism, detection mechanism, automatically controlled cabinet, pumping mechanism, moisturizing case, water softener and heat exchanger, gas boiler sets up the inside at boiler container, pipeline mechanism sets up between boiler container and heat exchanger group container, states the valve mechanism setting on gas boiler, pipeline mechanism, pumping mechanism and water softener. The utility model discloses directly transport boiler container and heat exchanger unit container to the scene after, be connected secondary side return water pipeline RLH and secondary side supply channel RLG with user's pipeline, can drop into operation after gas boiler and gas piping connection, build the heat transfer station with the tradition and compare, practiced thrift manpower and material resources, the utility model discloses convenient to use to can control the flow and the heat of heat source, realize comfortable heat supply, can also realize energy-conserving effect.

Description

Mobile energy station

Technical Field

The utility model relates to a indirect heating equipment technical field specifically is a mobile energy source station.

Background

The traditional heat exchange unit needs to cover a heat exchange station on site, and then an underground pipeline is laid from a thermal power plant to lead a heat source to be in butt joint with the heat exchange unit in the heat exchange station. Therefore, manpower, material resources and cost are greatly increased, the flow and the heat of the heat source cannot be controlled, and the heat exchange effect is directly influenced when the flow is small or the temperature is low.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a mobile energy source station has solved the needs of the institute of current heat exchange station and has consumeed a large amount of manpowers and material resources to can't carry out the problem of effectual control to heat source flow and heat.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mobile energy station, includes boiler container, heat exchanger unit container, gas boiler, pipeline mechanism, valve mechanism, detection mechanism, automatically controlled cabinet, water pumping mechanism, moisturizing case, water softener and heat exchanger, gas boiler sets up the inside at boiler container, pipeline mechanism sets up between boiler container and heat exchanger unit container, valve mechanism sets up on gas boiler, pipeline mechanism, water pumping mechanism and water softener, detection mechanism sets up on boiler container, pipeline mechanism and moisturizing case, water pumping mechanism sets up the inside at boiler container and heat exchanger unit container, automatically controlled cabinet, moisturizing case, water softener and heat exchanger set up the inside at heat exchanger unit container, valve mechanism, detection mechanism and water pumping mechanism all with automatically controlled cabinet electric connection.

Pipeline mechanism includes once side return water pipeline RH, secondary side return water pipeline RLH, once side supply channel RG and secondary side supply channel RLG, once side return water pipeline RH's one end is linked together with gas boiler's export, once side return water pipeline RH's the other end is linked together with the import of heat exchanger, secondary side return water pipeline RLH's one end is linked together with the export of heat exchanger, secondary side return water pipeline RLH's the other end is linked together with external user pipeline and pumping mechanism, once side supply channel RG's one end is linked together with pumping mechanism, once side supply channel RG's the other end is linked together with the export of heat exchanger, secondary side supply channel RLG's one end is linked together with the import of heat exchanger, secondary side supply channel RLG's the other end is linked.

Valve mechanism includes butterfly valve, ball valve, sluicing solenoid valve, relief valve, moisturizing solenoid valve, filter, check valve, electrical control valve and connector of moving away to avoid possible earthquakes, butterfly valve and ball valve setting are on a side return water pipeline RH, ball valve, relief valve, sluicing solenoid valve and filter setting are on secondary side return water pipeline RLH, butterfly valve, filter and electrical control valve setting are on a side supply channel RG, ball valve and butterfly valve setting are on secondary side supply channel RLG, ball valve and moisturizing solenoid valve setting are on the exit pipeline of water softener.

Detection mechanism includes thermometer, manometer, pressure sensor, temperature sensor, level sensor and outdoor temperature sensor, thermometer, manometer, pressure sensor and temperature sensor all set up on a side return water pipeline RH, secondary side return water pipeline RLH, a side supply channel RG and secondary side supply channel RLG once, level sensor sets up on the moisturizing case, outdoor temperature sensor sets up on boiler container's the outside box.

Water pump mechanism includes boiler circulating pump, secondary side return circuit circulating pump and moisturizing pump, the export of boiler circulating pump is linked together with gas boiler's import, the import of boiler circulating pump is linked together with the one end of once side supply channel RG, the exit of secondary side return circuit circulating pump all is linked together with secondary side return water pipeline RLH, the import of moisturizing pump is linked together with the export of moisturizing case, the export of moisturizing pump is linked together with secondary side return water pipeline RLH, butterfly valve, check valve and shock absorber connector set up on boiler circulating pump, secondary side return circuit circulating pump and the exit pipeline of moisturizing pump.

As an optimal technical scheme of the utility model, the inside of automatically controlled cabinet is provided with converter, electrical component, PLC, touch-sensitive screen and cell-phone APP remote communication device.

As an optimal technical scheme of the utility model, moisturizing solenoid valve, electrical control valve, pressure sensor, temperature sensor, level sensor, outdoor temperature sensor, boiler circulating pump, secondary side return circuit circulating pump and moisturizing pump all with automatically controlled cabinet electric connection.

As the utility model discloses a preferred technical scheme, the import and the external user pipeline of water softener are linked together, be provided with the water gauge on the import pipeline of water softener, the export of water softener is linked together with the water inlet of moisturizing case.

(III) advantageous effects

Compared with the prior art, the utility model provides a mobile energy station possesses following beneficial effect:

this mobile energy source station, direct with boiler container and heat exchanger unit container transportation to the scene after, with secondary side return water pipeline RLH and secondary side supply channel RLG and user's pipe connection, can the use of coming into operation after being connected gas boiler and gas pipeline, build the heat transfer station with the tradition and compare, practiced thrift manpower and material resources, the utility model discloses convenient to use to can control the flow and the heat of heat source, realize comfortable heat supply, can also realize energy-conserving effect.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. a boiler container; 2. a heat exchanger unit container; 3. a gas boiler; 4. a pipeline mechanism; 41. a primary side water return pipeline RH; 42. a secondary side water return pipeline RLH; 43. a primary-side water supply line RG; 44. a secondary side water supply pipeline RLG; 5. a valve mechanism; 51. a butterfly valve; 52. a ball valve; 53. a water discharge electromagnetic valve; 54. a safety valve; 55. a water replenishing electromagnetic valve; 56. a filter; 57. a check valve; 58. an electric control valve; 59. a shock absorbing connector; 6. a detection mechanism; 61. a thermometer; 62. a pressure gauge; 63. a pressure sensor; 64. a water temperature sensor; 65. a liquid level sensor; 66. an outdoor temperature sensor; 7. an electric control cabinet; 8. a water pump mechanism; 81. a boiler circulation pump; 82. a secondary side loop circulating pump; 83. a water replenishing pump; 9. a water replenishing tank; 10. a water softener; 11. a water meter; 12. a heat exchanger.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1, the present invention provides the following technical solutions: a mobile energy station comprises a boiler container 1, a heat exchange unit container 2, a gas boiler 3, a pipeline mechanism 4, a valve mechanism 5, a detection mechanism 6, an electric control cabinet 7 and a water pump mechanism 8, moisturizing case 9, water softener 10 and heat exchanger 12, gas boiler 3 sets up the inside at boiler container 1, pipeline mechanism 4 sets up between boiler container 1 and heat exchanger group container 2, valve mechanism 5 sets up at gas boiler 3, pipeline mechanism 4, on water pump mechanism 8 and the water softener 10, detection mechanism 6 sets up at boiler container 1, pipeline mechanism 4 and moisturizing case 9, water pump mechanism 8 sets up the inside at boiler container 1 and heat exchanger group container 2, automatically controlled cabinet 7, moisturizing case 9, water softener 10 and heat exchanger 12 set up the inside at heat exchanger group container 2, valve mechanism 5, detection mechanism 6 and water pump mechanism 8 all with automatically controlled cabinet 7 electric connection.

The pipeline mechanism 4 comprises a primary side water return pipeline RH41, a secondary side water return pipeline RLH42, a primary side water supply pipeline RG43 and a secondary side water supply pipeline RLG44, one end of the primary side water return pipeline RH41 is communicated with an outlet of the gas-fired boiler 3, the other end of the primary side water return pipeline RH41 is communicated with an inlet of the heat exchanger 12, one end of the secondary side water return pipeline RLH42 is communicated with an outlet of the heat exchanger 12, the other end of the secondary side water return pipeline RLH42 is communicated with an external user pipeline and the water pump mechanism 8, one end of the primary side water supply pipeline RG43 is communicated with the water pump mechanism 8, the other end of the primary side water supply pipeline RG43 is communicated with an outlet of the heat exchanger 12, one end of the secondary side water supply pipeline RLG44 is communicated.

The valve mechanism 5 includes a butterfly valve 51, a ball valve 52, a drain electromagnetic valve 53, a safety valve 54, a water replenishment electromagnetic valve 55, a filter 56, a check valve 57, an electric control valve 58, and a damper connector 59, the butterfly valve 51 and the ball valve 52 are provided on the primary side water return line RH41, the ball valve 52, the safety valve 54, the drain electromagnetic valve 53, and the filter 56 are provided on the secondary side water return line RLH42, the butterfly valve 51, the filter 56, and the electric control valve 58 are provided on the primary side water supply line RG43, the ball valve 52 and the butterfly valve 51 are provided on the secondary side water supply line RLG44, and the ball valve 52 and the water replenishment electromagnetic valve 55 are provided on an inlet.

The detection mechanism 6 comprises a temperature gauge 61, a pressure gauge 62, a pressure sensor 63, a water temperature sensor 64, a liquid level sensor 65 and an outdoor temperature sensor 66, wherein the temperature gauge 61, the pressure gauge 62, the pressure sensor 63 and the water temperature sensor 64 are all arranged on a primary side water return pipeline RH41, a secondary side water return pipeline RLH42, a primary side water supply pipeline RG43 and a secondary side water supply pipeline RLG44, the liquid level sensor 65 is arranged on the water supplement tank 9, and the outdoor temperature sensor 66 is arranged on an outer box body of the boiler container 1.

The water pump mechanism 8 comprises a boiler circulating pump 81, a secondary side loop circulating pump 82 and a water replenishing pump 83, wherein an outlet of the boiler circulating pump 81 is communicated with an inlet of the gas boiler 3, an inlet of the boiler circulating pump 81 is communicated with one end of a primary side water supply pipeline RG43, an inlet and an outlet of the secondary side loop circulating pump 82 are communicated with a secondary side water return pipeline RLH42, an inlet of the water replenishing pump 83 is communicated with an outlet of the water replenishing tank 9, an outlet of the water replenishing pump 83 is communicated with a secondary side water return pipeline RLH42, and a butterfly valve 51, a check valve 57 and a shock absorption connector 59 are arranged on inlet and outlet pipelines of the boiler circulating pump 81, the.

In this embodiment, after the boiler container 1 and the heat exchanger unit container 2 are directly transported to the site, the secondary water return line RLH42 and the secondary water supply line RLG44 are connected to the user pipeline, the gas boiler 3 is connected to the gas pipeline, the boiler circulation pump 81 feeds the water in the heat exchanger 12 into the gas boiler 3 through the primary water supply line RG43 for heating, the heated hot water is then fed into the heat exchanger 12 again through the primary water return line RH41, the heated hot water in the heat exchanger 12 is fed into the user pipeline through the secondary water supply line RLG44 for heating the user, the secondary loop circulation pump 82 pumps the hot water in the user pipeline into the heat exchanger 12 again through the secondary water return line RLH42, and the water is replenished into the secondary water return line RLH42 through the water replenishing pump 83, thereby maintaining the system pressure of the secondary water return line RLH42 and the secondary water supply line RLG44, constant-pressure water supply can be realized; the water temperature sensor 64 on the secondary water supply pipeline RLG44 detects the water supply temperature value and transmits the water supply temperature value to the electric control cabinet 7, the electric control cabinet 7 controls the opening of the electric control valve 58 on the primary water supply pipeline RG43, and the water temperature in the secondary water supply pipeline RLG44 can be controlled by adjusting the flow of the primary water supply pipeline RG 43; the pressure sensor 63 on the secondary side water supply pipeline RLG44 is used for detecting water pressure and transmitting the water pressure to the electric control cabinet 7, when the pressure is higher than the set pressure, the pressure sensor 63 gives a signal, the electric control cabinet 7 controls the opening of the water draining electromagnetic valve 53 for pressure relief, and when the pressure is lower than the set pressure, the water draining electromagnetic valve 53 is closed; the liquid level sensor 65 is used for detecting the water level in the water replenishing tank 9, when the liquid level reaches a set liquid level height, the liquid level sensor 65 transmits a signal to the electric control cabinet 7, the electric control cabinet 7 controls the water replenishing electromagnetic valve 55 to be closed, and when the liquid level is lower than the set liquid level height, the water replenishing electromagnetic valve 55 is opened; an outdoor temperature sensor 66 outside the boiler container 1 monitors the outdoor air temperature to control the firepower of the gas boiler 3 and the temperature value setting of a water temperature sensor 64 on a secondary side water supply pipeline RLG44, when the outdoor temperature is higher, the outdoor temperature sensor 66 transmits a signal to an electric control cabinet 7, the electric control cabinet 7 controls the gas boiler 3 to automatically reduce the firepower, and simultaneously controls the water temperature sensor 64 on the secondary side water supply pipeline RLG44 to automatically reduce the temperature setting value, so that not only is a user experience comfortable heat supply, but also the consumption of natural gas is reduced; the utility model can detect the water temperature and pressure of the pipeline mechanism 4 through the thermometer 61 and the pressure gauge 62 during the use process, thereby facilitating the observation; through closing and opening valve mechanism 5, realized water supply circulation, guarantee the utility model discloses structural design's rationality, wherein the design of filter 56 can intercept the impurity of 4 circulation aquatic of pipeline mechanism and filter.

Specifically, the inside of automatically controlled cabinet 7 is provided with converter, electric elements, PLC, touch-sensitive screen and cell-phone APP remote communication device.

In this embodiment, it is right to realize the utility model discloses carry out electrical control.

Specifically, the water replenishing solenoid valve 55, the electric control valve 58, the pressure sensor 63, the water temperature sensor 64, the liquid level sensor 65, the outdoor temperature sensor 66, the boiler circulating pump 81, the secondary side loop circulating pump 82 and the water replenishing pump 83 are all electrically connected with the electric control cabinet 7.

In this embodiment, make things convenient for automatically controlled cabinet 7 in time right the utility model discloses control.

Specifically, the inlet of the water softener 10 is communicated with a tap water pipeline, the inlet pipeline of the water softener 10 is provided with a water meter 11, and the outlet of the water softener 10 is communicated with the water inlet of the water replenishing tank 9.

In this embodiment, the utility model discloses during the water source of circulation enters into water softener 10 through water pipe, utilize water softener 10 to soften the running water, how much water has been used in 11 measurement of water gauge simultaneously, then the water after softening enters into the inside of moisturizing case 9, in moisturizing pump 83 takes the water in moisturizing case 9 out and sends into secondary side return water pipeline RLH42, then in secondary side return circuit circulating pump 82 advances heat exchanger 12 with the water suction, after replenishing the water source in heat exchanger 12, can realize water circulation heating and hot water circulation.

The utility model discloses a theory of operation and use flow: firstly, after a boiler container 1 and a heat exchange unit container 2 are directly transported to the site, a secondary side water return pipeline RLH42 and a secondary side water supply pipeline RLG44 are connected with a user pipeline, a gas boiler 3 is connected with a gas pipeline, a water inlet of a water softener 10 is connected with a tap water pipeline, tap water is softened by the water softener 10 and then enters a water supplementing tank 9, a water supplementing pump 83 pumps water in the water supplementing tank 9 into a secondary side water return pipeline RLH42, then the water is pumped into a heat exchanger 12 by a secondary side loop circulating pump 82, after the water is supplemented in the heat exchanger 12, a boiler circulating pump 81 sends water in the heat exchanger 12 into the gas boiler 3 through a primary side water supply pipeline RG43 for heating, then heated hot water enters the heat exchanger 12 again through a primary side water return pipeline RH41, and simultaneously the heated hot water in the heat exchanger 12 enters the user pipeline through a secondary side water supply pipeline RLG44, hot water heating is carried out on a user, then the secondary loop circulating pump 82 pumps hot water in a user pipeline into the heat exchanger 12 again through the secondary water return pipeline RLH42, water is supplemented into the secondary water return pipeline RLH42 through the water supplementing pump 83, the system pressure of the secondary water return pipeline RLH42 and the secondary water supply pipeline RLG44 is maintained, and constant-pressure water supply can be achieved; the water temperature sensor 64 on the secondary water supply pipeline RLG44 detects the water supply temperature value and transmits the water supply temperature value to the electric control cabinet 7, the electric control cabinet 7 controls the opening of the electric control valve 58 on the primary water supply pipeline RG43, and the water temperature in the secondary water supply pipeline RLG44 can be controlled by adjusting the flow of the primary water supply pipeline RG 43; the pressure sensor 63 on the secondary side water supply pipeline RLG44 is used for detecting water pressure and transmitting the water pressure to the electric control cabinet 7, when the pressure is higher than the set pressure, the pressure sensor 63 gives a signal, the electric control cabinet 7 controls the opening of the water draining electromagnetic valve 53 for pressure relief, and when the pressure is lower than the set pressure, the water draining electromagnetic valve 53 is closed; the liquid level sensor 65 is used for detecting the water level in the water replenishing tank 9, when the liquid level reaches a set liquid level height, the liquid level sensor 65 transmits a signal to the electric control cabinet 7, the electric control cabinet 7 controls the water replenishing electromagnetic valve 55 to be closed, and when the liquid level is lower than the set liquid level height, the water replenishing electromagnetic valve 55 is opened; an outdoor temperature sensor 66 outside the boiler container 1 monitors the outdoor air temperature to control the firepower of the gas boiler 3 and the temperature value setting of a water temperature sensor 64 on a secondary side water supply pipeline RLG44, when the outdoor temperature is higher, the outdoor temperature sensor 66 transmits a signal to an electric control cabinet 7, the electric control cabinet 7 controls the gas boiler 3 to automatically reduce the firepower, and simultaneously controls the water temperature sensor 64 on the secondary side water supply pipeline RLG44 to automatically reduce the temperature setting value, so that not only is a user experience comfortable heat supply, but also the consumption of natural gas is reduced; the utility model can detect the water temperature and pressure of the pipeline mechanism 4 through the thermometer 61 and the pressure gauge 62 during the use process, thereby facilitating the observation; through closing and opening valve mechanism 5, realized water supply circulation, guarantee the utility model discloses structural design's rationality, wherein the design of filter 56 can intercept the impurity of 4 circulation aquatic of pipeline mechanism and filter.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A mobile energy station, characterized by: comprises a boiler container (1), a heat exchange unit container (2), a gas boiler (3), a pipeline mechanism (4), a valve mechanism (5), a detection mechanism (6), an electric control cabinet (7), a water pump mechanism (8), a water replenishing tank (9), a water softener (10) and a heat exchanger (12), wherein the gas boiler (3) is arranged in the boiler container (1), the pipeline mechanism (4) is arranged between the boiler container (1) and the heat exchange unit container (2), the valve mechanism (5) is arranged on the gas boiler (3), the pipeline mechanism (4), the water pump mechanism (8) and the water softener (10), the detection mechanism (6) is arranged on the boiler container (1), the pipeline mechanism (4) and the water replenishing tank (9), the water pump mechanism (8) is arranged in the boiler container (1) and the heat exchange unit container (2), the electric control cabinet (7), the water replenishing tank (9), the water softener (10) and the heat exchanger (12) are arranged inside the heat exchange unit container (2), and the valve mechanism (5), the detection mechanism (6) and the water pump mechanism (8) are electrically connected with the electric control cabinet (7);

the piping mechanism (4) includes a primary side water return line RH (41), a secondary side water return line RLH (42), a primary side water supply line RG (43), and a secondary side water supply line RLG (44), one end of the primary side water return line RH (41) communicates with an outlet of the gas boiler (3), the other end of the primary side water return line RH (41) communicates with an inlet of the heat exchanger (12), one end of the secondary side water return line RLH (42) communicates with an outlet of the heat exchanger (12), the other end of the secondary side water return line RLH (42) communicates with an external user pipe and the water pump mechanism (8), one end of the primary side water supply line RG (43) communicates with the water pump mechanism (8), the other end of the primary side water supply line RG (43) communicates with an outlet of the heat exchanger (12), one end of the secondary side water supply line RLG (44) communicates with an inlet of the heat exchanger (12), the other end of the secondary side water supply pipeline RLG (44) is communicated with an external user pipeline;

the valve mechanism (5) comprises a butterfly valve (51), a ball valve (52), a water draining electromagnetic valve (53), a safety valve (54), a water replenishing electromagnetic valve (55), a filter (56), a check valve (57), an electric regulating valve (58) and a shock absorption connector (59), the butterfly valve (51) and the ball valve (52) are arranged on the primary side water return pipeline RH (41), the ball valve (52), the safety valve (54), the water draining electromagnetic valve (53) and the filter (56) are arranged on the secondary side water return pipeline RLH (42), the butterfly valve (51), the filter (56), and the electric control valve (58) are provided on the primary-side water supply line RG (43), the ball valve (52) and the butterfly valve (51) are arranged on the secondary water supply pipeline RLG (44), the ball valve (52) and the water replenishing electromagnetic valve (55) are arranged on an inlet and outlet pipeline of the water softener (10);

the detection mechanism (6) comprises a thermometer (61), a pressure gauge (62), a pressure sensor (63), a water temperature sensor (64), a liquid level sensor (65) and an outdoor temperature sensor (66), wherein the thermometer (61), the pressure gauge (62), the pressure sensor (63) and the water temperature sensor (64) are all arranged on a primary side water return pipeline RH (41), a secondary side water return pipeline RLH (42), a primary side water supply pipeline RG (43) and a secondary side water supply pipeline RLG (44), the liquid level sensor (65) is arranged on a water supply tank (9), and the outdoor temperature sensor (66) is arranged on an outer box body of the boiler container (1);

water pump mechanism (8) include boiler circulation pump (81), secondary side loop circulation pump (82) and moisturizing pump (83), the export of boiler circulation pump (81) is linked together with the import of gas boiler (3), the import of boiler circulation pump (81) is linked together with the one end of once side water supply line RG (43), the exit of secondary side loop circulation pump (82) all is linked together with secondary side return water pipeline RLH (42), the import of moisturizing pump (83) is linked together with the export of moisturizing case (9), the export of moisturizing pump (83) is linked together with secondary side return water pipeline RLH (42), butterfly valve (51), check valve (57) and shockproof connector (59) set up on boiler circulation pump (81), secondary side loop circulation pump (82) and the exit pipeline of moisturizing pump (83).

2. A mobile energy station according to claim 1, characterized in that: the inside of automatically controlled cabinet (7) is provided with converter, electric elements, PLC, touch-sensitive screen and cell-phone APP remote communication device.

3. A mobile energy station according to claim 1, characterized in that: the water replenishing system is characterized in that the water replenishing electromagnetic valve (55), the electric regulating valve (58), the pressure sensor (63), the water temperature sensor (64), the liquid level sensor (65), the outdoor temperature sensor (66), the boiler circulating pump (81), the secondary side loop circulating pump (82) and the water replenishing pump (83) are all electrically connected with the electric control cabinet (7).

4. A mobile energy station according to claim 1, characterized in that: the water softener is characterized in that an inlet of the water softener (10) is communicated with a tap water pipeline, a water meter (11) is arranged on an inlet pipeline of the water softener (10), and an outlet of the water softener (10) is communicated with a water inlet of the water replenishing tank (9).

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