CN205102577U - Printing machine heating system - Google Patents

Abstract

The utility model discloses a printing machine heating system, including concentrating heating device, hot water header tank, heat exchange device, printing unit and oven, be equipped with a plurality of ovens on the printing unit, the oven passes through the pipeline and the air exhauster is connected with heat exchange device, and heat exchange device passes through the heat -exchanger pump and is connected with hot water header tank delivery port, and hot water collection water tank water inlet and concentrated heating device are connected. The utility model has the advantages of simple structure, it is novel in design reasonable, water after the demineralized water treater is handled enters into concentrates heating device, water after the heating enters into in the hot water header tank, the every group of printing unit needs hot -blast oven to be connected with heat exchange device, when the printing unit needs heat energy, the heat -exchanger pump infeeds heat exchange device to the hot water inside the hot water header tank and heats heat exchanger, heated after the surperficial process from heat exchanger when wind, get into the oven, the stoving substrate, central heating, energy saving and cost, satisfy printing technology to the stable accurate demand of hot air temperature.

Description

Printing machine heating system

Technical field

The utility model relates to printing equipment technology field, particularly relates to a kind of printing machine heating system.

Background technology

In printing equipment, some printed matter needs to carry out drying and processing after printing completes, traditional printed matter drying work mainly adopts heating cabinet, at heating cabinet built-in metal heating tube, after heating tube energising, heating tube is to the heating of equipment air intake, and hot blast blows printing element surface ink and reaches drying effect, and this extensive style heating, drying power consumption is larger, increase production cost, this heat supply simultaneously can not meet typography and stablizes accurate demand to hot blast temperature.

Summary of the invention

The utility model object is to solve the aforementioned problems in the prior, and provides a kind of energy-conserving and environment-protective, for heat-staple printing machine heating system.

The utility model is for achieving the above object, the technological means adopted is, a kind of printing machine heating system, comprise concentrated heater, hot water header tank, heat-exchange device, printing unit and baking oven, printing unit is provided with multiple baking oven, baking oven is connected with heat-exchange device with air exhauster by pipeline, and heat-exchange device is connected with hot water header tank delivery port by heat-exchanger pump, and hot water header tank water inlet is connected with concentrated heater.

Further, concentrated heater comprises heating furnace, dedusting deacidification chamber, air-introduced machine, chimney and demineralized water processor, heating furnace water inlet is connected with demineralized water processor, heating furnace delivery port is connected with hot water header tank, exhanst gas outlet and the dedusting of the heating furnace chamber that deacidifies is connected, bottom dedusting deacidification chamber, gas outlet is connected with chimney by air-introduced machine, dedusting deacidification chamber internal upper part is provided with backward L-shaped baffle plate, inverted L-shaped baffle plate is provided with bottom dedusting deacidification gas outlet, chamber, dedusting deacidification is provided with heat exchanger in chamber, heat exchanger water inlet is connected with demineralized water processor, heat exchanger delivery port is connected with heating furnace water inlet.

Further, heat-exchange device comprises heat exchange chamber, recovery tank, antiscale magnet ring and filter, heat exchange chamber is provided with a water inlet and a delivery port, water inlet is successively by antiscale magnet ring, filter, three-way pressure control valve, ball valve is connected with hot water header tank with heat-exchanger pump, delivery port is connected with recovery tank by check-valves, the heat exchanger being communicated with water inlet and delivery port is provided with in heat exchange chamber, heat exchange chamber offers an air inlet and a gas outlet, gas outlet is connected with baking oven with air exhauster by pipeline, baking oven exhaust outlet is connected with the air inlet of heat exchange chamber by pipeline.

Further, heat exchange chamber outer wall is provided with heat-insulation layer.

Further, baking oven exhaust ports is provided with particulate filter.

The utility model beneficial effect is: structure is simple, rationally novel in design, water after the process of demineralized water processor enters in heating furnace and heats, water after heating enters in hot water header tank, printing unit often group needs the baking oven of hot blast to be connected with heat-exchange device, time printing unit needs heat energy, heat-exchanger pump feeds heat-exchange device the hot water inside hot water header tank and heats heat exchanger, when wind from heat-exchanger surface through being heated later, enter baking oven, dry base material, central heating, economize energy and cost, meet typography and accurate demand is stablized to hot blast temperature.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the utility model structural representation.

In figure: 1, hot water header tank, 2, printing unit, 3, baking oven, 4, air exhauster, 5, heat-exchanger pump, 8, particulate filter, 61, heating furnace, 62, dedusting deacidification chamber, 63, air-introduced machine, 64, chimney, 65, demineralized water processor, 66, backward L-shaped baffle plate, 67, inverted L-shaped baffle plate, 68, heat exchanger, 70, heat exchanger, 71, heat exchange chamber, 72, recovery tank, 73, antiscale magnet ring, 74, filter, 75, water inlet, 76, delivery port, 77, three-way pressure control valve, 78, ball valve, 79, check-valves, 711, air inlet, 712, gas outlet, 713, heat-insulation layer.

Detailed description of the invention

A kind of printing machine heating system as shown in Figure 1, comprise concentrated heater, hot water header tank 1, heat-exchange device, printing unit 2 and baking oven 3, printing unit 2 is provided with multiple baking oven 3, baking oven 3 is connected with heat-exchange device with air exhauster 4 by pipeline, heat-exchange device is connected with hot water header tank 1 delivery port by heat-exchanger pump 5, and hot water header tank 1 water inlet is connected with concentrated heater.

Concentrated heater comprises heating furnace 61, dedusting deacidification chamber 62, air-introduced machine 63, chimney 64 and demineralized water processor 65, heating furnace 61 water inlet is connected with demineralized water processor 65, heating furnace 61 delivery port is connected with hot water header tank 1, exhanst gas outlet and the dedusting of heating furnace 61 chamber 62 that deacidifies is connected, bottom dedusting deacidification chamber 62, gas outlet is connected with chimney 64 by air-introduced machine 63, dedusting deacidification chamber 62 internal upper part is provided with backward L-shaped baffle plate 66, inverted L-shaped baffle plate 67 is provided with bottom dedusting deacidification gas outlet, chamber 62, dedusting deacidification is provided with heat exchanger 68 in chamber 62, heat exchanger 68 water inlet is connected with demineralized water processor 65, heat exchanger 68 delivery port is connected with heating furnace 61 water inlet.

Heat-exchange device comprises heat exchange chamber 71, recovery tank 72, antiscale magnet ring 73 and filter 74, heat exchange chamber 71 is provided with a water inlet 75 and a delivery port 76, water inlet 75 is successively by antiscale magnet ring 73, filter 74, three-way pressure control valve 77, ball valve 78 is connected with hot water header tank 1 with heat-exchanger pump 5, delivery port 76 is connected with recovery tank 72 by check-valves 79, the heat exchanger 70 being communicated with water inlet 75 and delivery port 76 is provided with in heat exchange chamber 71, heat exchange chamber 71 offers an air inlet 711 and a gas outlet 712, gas outlet 712 is connected with baking oven 3 with air exhauster 4 by pipeline, baking oven 3 exhaust outlet is connected with the air inlet 711 of heat exchange chamber 71 by pipeline.

Heat exchange chamber 71 outer wall is provided with heat-insulation layer 713.

Baking oven 3 exhaust ports is provided with particulate filter 8.

During work, water after demineralized water processor 65 processes enters in heating furnace 61 and heats, water after heating enters in hot water header tank 1, printing unit 2 often group needs the baking oven 3 of hot blast to be connected with heat-exchange device, time printing unit 2 needs heat energy, heat-exchanger pump 5 feeds heat-exchange device the hot water inside hot water header tank 1 and heats heat exchanger 70, when wind from heat exchanger 70 surface through being heated later, enter baking oven 3, dry base material, central heating, economize energy and cost, meet typography and stablize accurate demand to hot blast temperature.

The flue gas of heating furnace 61 is incorporated into chimney 64 and then discharge by air-introduced machine 63 after dedusting deacidification chamber 62 purifies, backward L-shaped baffle plate 66 in dedusting deacidification chamber 62 and inverted L-shaped baffle plate 67 define the passage of flue gas circulation, thus slow down the speed of flue gas by dedusting deacidification chamber 62, improve gas cleaning quality, the heat exchanger 68 in dedusting deacidification chamber 62 absorbs fume afterheat, the water flowing through heat exchanger 68 flows in heating furnace 61 after fume afterheat heating, achieve the recycling of heat energy, water after demineralized water processor 65 processes enters in heating furnace 61 and heat exchanger 68, avoid fouling and cause the decline of pyroconductivity, save the energy.

The above; be only detailed description of the invention of the present utility model, be not limited thereto, be anyly familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.

Claims (5)

1. a printing machine heating system, it is characterized in that: comprise concentrated heater, hot water header tank (1), heat-exchange device, printing unit (2) and baking oven (3), described printing unit (2) is provided with multiple baking oven (3), described baking oven (3) is connected with heat-exchange device with air exhauster (4) by pipeline, described heat-exchange device is connected with hot water header tank (1) delivery port by heat-exchanger pump (5), and described hot water header tank (1) water inlet is connected with concentrated heater.

2. printing machine heating system according to claim 1, it is characterized in that: described concentrated heater comprises heating furnace (61), dedusting deacidification chamber (62), air-introduced machine (63), chimney (64) and demineralized water processor (65), described heating furnace (61) water inlet is connected with demineralized water processor (65), described heating furnace (61) delivery port is connected with hot water header tank (1), exhanst gas outlet and the dedusting of described heating furnace (61) chamber (62) that deacidifies is connected, gas outlet, described dedusting deacidification chamber (62) bottom is connected with chimney (64) by air-introduced machine (63), described dedusting deacidification chamber (62) internal upper part is provided with backward L-shaped baffle plate (66), inverted L-shaped baffle plate (67) is provided with bottom dedusting deacidification chamber (62) gas outlet, heat exchanger (68) is provided with in described dedusting deacidification chamber (62), described heat exchanger (68) water inlet is connected with demineralized water processor (65), described heat exchanger (68) delivery port is connected with heating furnace (61) water inlet.

3. printing machine heating system according to claim 1, it is characterized in that: described heat-exchange device comprises heat exchange chamber (71), recovery tank (72), antiscale magnet ring (73) and filter (74), heat exchange chamber (71) is provided with a water inlet (75) and a delivery port (76), described water inlet (75) is successively by antiscale magnet ring (73), filter (74), three-way pressure control valve (77), ball valve (78) is connected with hot water header tank (1) with heat-exchanger pump (5), described delivery port (76) is connected with recovery tank (72) by check-valves (79), the heat exchanger (70) being communicated with water inlet (75) and delivery port (76) is provided with in described heat exchange chamber (71), heat exchange chamber (71) offers an air inlet (711) and a gas outlet (712), described gas outlet (712) is connected with baking oven (3) with air exhauster (4) by pipeline, described baking oven (3) exhaust outlet is connected with the air inlet (711) of heat exchange chamber (71) by pipeline.

4. printing machine heating system according to claim 3, is characterized in that: described heat exchange chamber (71) outer wall is provided with heat-insulation layer (713).

5. printing machine heating system according to claim 3, is characterized in that: described baking oven (3) exhaust ports is provided with particulate filter (8).