CN208154810U - A kind of energy-saving type high-temperature hold over system - Google Patents

Abstract

The utility model discloses a kind of energy-saving type high-temperature hold over systems,Including high-temperature heat accumulation boiler,First high-temperature heat accumulation tank and plate heat exchanger,There is upper tube by the seamless connection of the first boiler valve on the downside of high-temperature heat accumulation boiler left end,There is heat supply water pump by the seamless connection of third boiler valve on the upside of the high-temperature heat accumulation boiler right end,There is accumulation of heat circulating pump by the seamless connection of the second boiler valve on the upside of high-temperature heat accumulation boiler left end,The first heat exchange chip valve right end is fixedly connected with plate heat exchanger by the second heat exchange chip valve,The plate heat exchanger upper end is fixedly connected with heat exchanger fin monitor,The plate heat exchanger right end has upper tube by third heat exchange chip valve seamless connection,There is accumulation of heat circulating pump in the second high-temperature heat accumulation tank lower end by the seamless connection of third water inlet,The hold over system accumulation of heat temperature difference is high,It is good in economic efficiency,It is appropriate for popularity.

Description

A kind of energy-saving type high-temperature hold over system

Technical field

The utility model relates to accumulation of heat energy-conversion technique field, specially a kind of energy-saving type high-temperature hold over system.

Background technique

Existing hold over system is conventional hold over system, and regenerator temperature is no more than 95 DEG C, using the accumulation of heat temperature difference 40 DEG C or so, without the better higher accumulation of heat temperature difference using water, cause the land occupation of accumulation of heat computer room is larger, energy utilization efficiency is low, Economic benefit is than not high disadvantage, for this purpose, we have proposed a kind of energy-saving type high-temperature hold over systems, to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of energy-saving type high-temperature hold over systems, to solve to mention in above-mentioned background technique Out the problem of.

To achieve the above object, the utility model provides the following technical solutions：A kind of energy-saving type high-temperature hold over system, including High-temperature heat accumulation boiler, the first high-temperature heat accumulation tank and plate heat exchanger, high-temperature heat accumulation boiler left end downside pass through the first boiler Valve seamless connection has upper tube, and being seamlessly connected on the upside of the high-temperature heat accumulation boiler right end by third boiler valve has supplying hot water There are accumulation of heat circulating pump, the accumulation of heat circulation in pump, high-temperature heat accumulation boiler left end upside by the seamless connection of the second boiler valve Pipeline T-shaped between pump and the second boiler valve is connected with the first heat exchange chip valve, and the first heat exchange chip valve right end is logical It crosses the second heat exchange chip valve and is fixedly connected with plate heat exchanger, the plate heat exchanger upper end is fixedly connected with heat exchanger fin monitoring Device, the plate heat exchanger right end have a upper tube by the third chip valve seamless connection that exchanges heat, the upper tube by pipeline with First water inlet of the first high-temperature heat accumulation tank upper end is seamlessly connected, and the upper tube passes through pipeline and third high temperature heat-accumulator tank top The second water inlet, third high temperature heat-accumulator tank top by the third of the second water inlet and the second high-temperature heat accumulation tank lower end into Mouth of a river seamless connection, the second high-temperature heat accumulation tank top by the 4th water inlet and the first high-temperature heat accumulation tank lower end the 5th into There are accumulation of heat circulating pump in mouth of a river seamless connection, the second high-temperature heat accumulation tank lower end by the seamless connection of third water inlet.

Preferably, successively seamless connection has the first regenerative furnace valve and the between the third water inlet and accumulation of heat circulating pump Four pipe valves.

Preferably, second check-valve and the second pipeline valve are connected in turn between the third heat exchange chip valve and upper tube Door.

Preferably, T-shaped is connected with first check-valve between the second check-valve and the second pipe valve, and described One check-valves end is fixedly connected with the 4th boiler valve, lower end on the right side of the 4th boiler valve left end and high-temperature heat accumulation boiler Seamless connection.

Preferably, the pipeline of the first regenerative furnace valve and the 4th pipe valve and second check-valve and the second pipeline valve Pipeline between door passes through the seamless connection of the first pipe valve.

Compared with prior art, the utility model has the beneficial effects that：The energy-saving type high-temperature hold over system is high by setting The structure of intermediate temperature regenerator boiler, high-temperature heat accumulation tank and plate heat exchanger has reached when system is in the night dip electricity period, high temperature Heat storage boiler is by the effect of high-temperature heat accumulation tank accumulation of heat to 130 DEG C or more, when peak electricity on daytime, then by the heat in high-temperature heat accumulation tank It releases, is delivered to Demand-side.The system can be more than 70 DEG C using the temperature difference, and occupied area is small, and the demand to water resource is reduced Nearly half；By the way that the structure of accumulation of heat circulating pump and heat supply water pump is arranged, achievees the effect that hot water can be recycled, reduced The generation and discharge of tail water, to reach energy-saving and environment-friendly effect.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

In figure：1 upper tube, 11 third water inlets, 12 the 4th water inlets, 2 first high-temperature heat accumulation tanks, 21 third high temperatures store Hot tank, 22 first water inlets, 23 second water inlets, 24 the 5th water inlets, 25 second high-temperature heat accumulation tanks, 26 first regenerative furnace valves Door, 3 first pipe valves, 31 second pipe valves, 32, third pipe valve, 33 the 4th pipe valves, 4 first check-valves, 41 Second check-valve, 5 first heat exchange chip valves, 51 first boiler valves, 52 second boiler valves, 53 third boiler valves, 54 the Four boiler valves, 6 high-temperature heat accumulation boilers, 7 accumulation of heat circulating pumps, 8 plate heat exchangers, 9 thirds heat exchange chip valve, 91 second heat exchanger fins Valve, 92 heat exchanger fin monitor

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to Fig. 1, the utility model provides a kind of technical solution：A kind of energy-saving type high-temperature hold over system, including high temperature Heat storage boiler 6, the first high-temperature heat accumulation tank 2 and plate heat exchanger 8,6 left end of the high-temperature heat accumulation boiler downside pass through the first boiler The seamless connection of valve 51 has upper tube, has on the upside of 6 right end of high-temperature heat accumulation boiler by the seamless connection of third boiler valve 53 There are accumulation of heat circulating pump 7 in heat supply water pump 71,6 left end of the high-temperature heat accumulation boiler upside by the seamless connection of the second boiler valve 52, Pipeline T-shaped between the accumulation of heat circulating pump 7 and the second boiler valve 52 is connected with the first heat exchange chip valve 5, and described first Heat exchange 5 right end of chip valve is fixedly connected with plate heat exchanger 8,8 upper end of plate heat exchanger by the second heat exchange chip valve 91 It is fixedly connected with heat exchanger fin monitor 92,8 right end of plate heat exchanger has top by the third heat exchange seamless connection of chip valve 9 Pipe 1, the upper tube 1 are seamlessly connected by the first water inlet 22 of 2 upper end of pipeline and the first high-temperature heat accumulation tank, the top Pipe 1 passes through the second water inlet 23 of pipeline and 21 top of third high temperature heat-accumulator tank, and 21 top of third high temperature heat-accumulator tank passes through The third water inlet 11 of 25 lower end of second water inlet 23 and the second high-temperature heat accumulation tank is seamlessly connected, the second high-temperature heat accumulation tank 25 Top is seamlessly connected by the 5th water inlet 24 of 2 lower end of the 4th water inlet 12 and the first high-temperature heat accumulation tank, second high temperature There is accumulation of heat circulating pump 7 in 25 lower end of heat-accumulator tank by the seamless connection of third water inlet 11, and the third water inlet 11 is recycled with accumulation of heat Successively seamless connection has the first regenerative furnace valve 26 and the 4th pipe valve 33 between pump 7, the third heat exchange chip valve 9 with it is upper It is connected with second check-valve 41 and the second pipe valve 31, the second check-valve 41 and the second pipeline valve between portion's pipe 1 in turn T-shaped is connected with first check-valve 4 between door 31, and 4 end of first check-valve is fixedly connected with the 4th boiler valve 54, 4th boiler valve, 54 left end and 6 right side lower end of high-temperature heat accumulation boiler are seamlessly connected, 26 He of the first regenerative furnace valve Pipeline between the pipeline and second check-valve 41 and the second pipe valve 31 of 4th pipe valve 33 passes through the first pipe valve 3 seamless connection, pipeline and 1 front end of upper tube between the first regenerative furnace valve 26 and the 4th pipe valve 33 pass through third Pipe valve.

Working principle：

Firstly, water is heated to 130 DEG C by high-temperature heat accumulation boiler 6；

Then, it is exchanged heat by Pipe transfer to plate heat exchanger 8；

Finally, carrying out circulation heating by accumulation of heat circulating pump 7.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of energy-saving type high-temperature hold over system, including high-temperature heat accumulation boiler (6), the first high-temperature heat accumulation tank (2) and plate-type heat-exchange Device (8), it is characterised in that：On having on the downside of high-temperature heat accumulation boiler (6) left end by the first boiler valve (51) seamless connection There are heat supply water pump (71), institute in portion's pipe, high-temperature heat accumulation boiler (6) the right end upside by third boiler valve (53) seamless connection Stating on the upside of high-temperature heat accumulation boiler (6) left end has accumulation of heat circulating pump (7), the accumulation of heat by the second boiler valve (52) seamless connection Pipeline T-shaped between circulating pump (7) and the second boiler valve (52) is connected with the first heat exchange chip valve (5), and described first changes Backing valve (5) right end is fixedly connected with plate heat exchanger (8), the plate heat exchanger by the second heat exchange chip valve (91) (8) upper end is fixedly connected with heat exchanger fin monitor (92), and plate heat exchanger (8) right end exchanges heat chip valve (9) by third Seamless connection has upper tube (1), and the upper tube (1) passes through the first water inlet of pipeline and first high-temperature heat accumulation tank (2) upper end (22) it is seamlessly connected, the upper tube (1) passes through the second water inlet (23) of pipeline and third high temperature heat-accumulator tank (21) top, institute Third high temperature heat-accumulator tank (21) top is stated to intake by the third of the second water inlet (23) and second high-temperature heat accumulation tank (25) lower end Mouth (11) seamless connection, the second high-temperature heat accumulation tank (25) top pass through the 4th water inlet (12) and the first high-temperature heat accumulation tank (2) the 5th water inlet (24) seamless connection of lower end, the second high-temperature heat accumulation tank (25) lower end passes through third water inlet (11) Seamless connection has accumulation of heat circulating pump (7).

2. a kind of energy-saving type high-temperature hold over system according to claim 1, it is characterised in that：The third water inlet (11) Successively seamless connection has the first regenerative furnace valve (26) and the 4th pipe valve (33) between accumulation of heat circulating pump (7).

3. a kind of energy-saving type high-temperature hold over system according to claim 1, it is characterised in that：The third heat exchange chip valve (9) second check-valve (41) and the second pipe valve (31) are connected in turn between upper tube (1).

4. a kind of energy-saving type high-temperature hold over system according to claim 3, it is characterised in that：The second check-valve (41) And second T-shaped between pipe valve (31) be connected with first check-valve (4), first check-valve (4) end is fixedly connected There is the 4th boiler valve (54), lower end is seamlessly connected on the right side of the 4th boiler valve (54) left end and high-temperature heat accumulation boiler (6).

5. a kind of energy-saving type high-temperature hold over system according to claim 2, it is characterised in that：The first regenerative furnace valve (26) pipeline between the pipeline and second check-valve (41) and the second pipe valve (31) of the 4th pipe valve (33) passes through First pipe valve (3) seamless connection.

6. a kind of energy-saving type high-temperature hold over system according to claim 2, it is characterised in that：The first regenerative furnace valve (26) pipeline between the 4th pipe valve (33) and upper tube (1) front end pass through third pipe valve.