CN204535329U - A kind of environment-friendly high-efficiency energy-saving drying system - Google Patents

Abstract

The utility model relates to a kind of environment-friendly high-efficiency energy-saving drying system, large in order to solve the power consumption of traditional drying system, with serious pollution problem, comprise steaming plant, dehydration drying system and bake drying system, described steaming plant is connected with described dehydration drying system by a heat collector, described dehydration drying system is connected with described bake drying system by a conveying device, described dehydration drying system comprises heating clamber, vaporization chamber and condensation chamber, described heating clamber, vaporization chamber and described condensation chamber are connected successively by pipeline, described vaporization chamber bottom is provided with the return that leads to heating clamber, return is connected with heating clamber by a forced circulation pump, steaming plant is connected with the heating clamber on described dehydration drying system by a heat collector, described bake drying system comprises an evaporation drying room, is positioned at the Inner eycle condenser of evaporation drying outdoor, hair-dryer and evaporimeter, and described condenser, hair-dryer and evaporimeter are arranged in order.

Description

A kind of environment-friendly high-efficiency energy-saving drying system

Technical field

The utility model relates to a kind of environment-friendly high-efficiency energy-saving drying system, belongs to foodstuff environmental protection drying device field.

Background technology

Energy-saving and emission-reduction are the whole nation and even a urgent problem faced by the whole world, but utilize the manufacturing industry of traditional handicraft relative to some, at all cannot pollution abatement.The drying system of such as food, just there is the phenomenon of energy waste, environmental pollution and sewage toxic emission, especially in the dry run of scent of food, the dry run of such as fish meal, whole process all can produce pernicious gas and sewage, also need the high temperature heat source of crossbeam namely to need to burn the coal of crossbeam or other fuel to provide required heat, therefore can cause the pollution of unrepairable to environment.

Utility model content

The deficiency that the utility model exists for prior art, provides a kind of environment-friendly high-efficiency energy-saving drying system, solves large, the with serious pollution problem of traditional drying system power consumption.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind of environment-friendly high-efficiency energy-saving drying system, comprise steaming plant, dehydration drying system and bake drying system, described steaming plant is connected with described dehydration drying system by a heat collector, and described dehydration drying system is connected with described bake drying system by a conveying device:

Described dehydration drying system comprises heating clamber, vaporization chamber and condensation chamber, described heating clamber, vaporization chamber and described condensation chamber are connected successively by pipeline, described vaporization chamber bottom is provided with the return that leads to heating clamber, and described return is connected with described heating clamber by a forced circulation pump; Described steaming plant is connected with the heating clamber on described dehydration drying system by a heat collector;

Described bake drying system comprises an evaporation drying room, is positioned at the Inner eycle condenser of evaporation drying outdoor, hair-dryer and evaporimeter, and described condenser, hair-dryer and evaporimeter are arranged in order.

As further optimization of the present utility model, described dehydration drying system is also provided with a heat pump, described heat pump between described heat collector and heating clamber, and is connected with described heating clamber.

As further optimization of the present utility model, between described heat collector and described heating clamber and described heat pump, be provided with first circulating pump.

As further optimization of the present utility model, described dehydration drying system is also provided with a water tower, described water tower is connected with described condensation chamber and described heat pump.

As further optimization of the present utility model, between described water tower and described condensation chamber, be provided with the 3rd circulating pump.

As further optimization of the present utility model, described heating clamber bottom is provided with a floss hole, and described floss hole is connected with described gathering-device by second circulating pump.

As further optimization of the present utility model, described condensation chamber top is connected with a vavuum pump.

As further optimization of the present utility model, the junction of described conveying device and described bake drying system is provided with a drive motors, and the other end of described conveying device is connected with described dehydration drying system by a gathering-device.

As further optimization of the present utility model, described evaporation drying indoor are provided with the hot coil of two rows or more, are provided with gap between adjacent described hot coil.

As further optimization of the present utility model, described evaporimeter is two or more.

As further optimization of the present utility model, bottom described evaporation drying room, be provided with drier.

As further optimization of the present utility model, the utility model accurately can be controlled by computer system, greatly reduces manpower and material resources, improves operating efficiency greatly.

The beneficial effects of the utility model are: the utility model is by utilizing the secondary of the energy, the material of required drying is processed, utilize the closure in space, reduce the pollution to air, the material of required drying is carried out preliminary hydro-extraction through closed heating clamber, vaporization chamber, most steam is condensed into water by condensation chamber, material after dehydration through conveying device enter into thoroughly dry behind evaporation drying room after discharge, water is wherein discharged after drier absorbs, reduce the outer of gas to greatest extent to put, thus control atmosphere pollution; The utility model accurately can be controlled by computer system simultaneously, greatly reduces manpower and material resources, improves operating efficiency greatly.

Accompanying drawing explanation

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

Wherein, 1, steaming plant; 2, heat collector; 3, heating clamber; 4, vaporization chamber; 5, condensation chamber; 6, gathering-device; 7, conveying device; 8, heat pump; 9, water tower; 10, the first circulating pump; 11, forced circulation pump; 12, the second circulating pump; 13, vavuum pump; 14, the 3rd circulating pump; 15, drive motors; 16, condenser; 17, hair-dryer; 18, phase transformation device; 19, evaporimeter; 20, evaporation drying room.

Detailed description of the invention

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

A kind of environment-friendly high-efficiency energy-saving drying system, comprise steaming plant 1, dehydration drying system and bake drying system, described steaming plant 1 is connected with described dehydration drying system by a heat collector 2, described dehydration drying system is connected with described bake drying system by a conveying device 7, it is characterized in that:

Described dehydration drying system comprises heating clamber 3, vaporization chamber 4 and condensation chamber 5, described heating clamber 3, vaporization chamber 4 and described condensation chamber 5 are connected successively by pipeline, described vaporization chamber 4 bottom is provided with the return that leads to heating clamber 3, and described return is connected with described heating clamber 3 by a forced circulation pump 11; Described steaming plant 1 is connected with the heating clamber 3 on described dehydration drying system by a heat collector 2;

Described bake drying system comprises an evaporation drying room 20, is positioned at the Inner eycle condenser 16 of outside, evaporation drying room 20, hair-dryer 17 and evaporimeter 19, and described condenser 16, hair-dryer 17 and evaporimeter 19 are arranged in order.

Described dehydration drying system is also provided with a heat pump 8, described heat pump 8 between described heat collector 2 and heating clamber 3, and is connected with described heating clamber 3.

First circulating pump 10 is provided with between described heat collector 2 and described heating clamber 3 and described heat pump 8.

Described dehydration drying system is also provided with a water tower 9, described water tower 9 is connected with described condensation chamber 5 and described heat pump 8.

The 3rd circulating pump 14 is provided with between described water tower 9 and described condensation chamber 5.

Described heating clamber 3 bottom is provided with a floss hole, and described floss hole is connected with described gathering-device 6 by second circulating pump 12.

Described condensation chamber 5 top is connected with a vavuum pump 13.

Described conveying device 7 is provided with a drive motors 15 with the junction of described bake drying system, and the other end of described conveying device 7 is connected with described dehydration drying system by a gathering-device 6.

Be provided with the hot coil of two rows or more in described evaporation drying room 20, between adjacent described hot coil, be provided with gap.

Described evaporimeter 19 is two or more.

Drier is provided with bottom described evaporation drying room 20.

Described evaporimeter 19 is connected with a phase transformation device 18.

Embodiment of the present utility model is as follows: the utility model in use, the waste heat that steaming plant 1 produces enters into heat collector 2 through collection, the inner heat-collecting part of heat collector 2, for absorbing the heat that steaming plant 1 is discharged, heat is supplied to heating clamber 3 by the first circulating pump 10 by the heat collected by heat collector 2, and this heat mainly relies on water to be carrier.Need the material of drying to carry out first processed in heating clamber 3 and vaporization chamber 4, material passes through the effect of forced circulation pump 11, in heating clamber 3 and vaporization chamber 4 Inner eycle processed.Unnecessary steam can enter into condensation chamber 5 through piping, condensation chamber 5 makes a certain amount of negative pressure of inner generation under the effect of vavuum pump 13, and make steam become water rapidly under the effect of water tower 9 and heat pump 8, water in condensation chamber 5 is discharged in water tower 9 by the 3rd circulating pump 14, when the water in water tower 9 is saved bit by bit to a certain extent time, can be discharged by the draining valve on water tower 9.

When steaming plant 1 does not work or can not meet the temperature of material, now heat pump 8 is started working, for heating clamber 3 provides heat.

Material enters into gathering-device 6 after dehydration for the first time under the effect of the second circulating pump 12, enter in the evaporation drying room 20 of bake drying system through conveying device 7 again, bake drying chamber interior is a relatively airtight space, ensure the conservation of energy to greatest extent, outside, evaporation drying room 20 is also provided with cycle condenser 16, hair-dryer 17 and evaporimeter 19, the hot coil of two rows or more is also provided with in evaporation drying room 20, gap is provided with between adjacent hot coil, material makes steam produce inner loop to flow and condense into water under the effect of hair-dryer 17 and condenser 16, this water can be absorbed by drier, reduce the outer of gas to greatest extent to put, thus control atmosphere pollution, one is provided with for discharging the outlet of drier bottom evaporation drying room 20.

The utility model accurately can be controlled by computer system, greatly reduces manpower and material resources, improves operating efficiency greatly.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. an environment-friendly high-efficiency energy-saving drying system, comprise steaming plant, dehydration drying system and bake drying system, described steaming plant is connected with described dehydration drying system by a heat collector, described dehydration drying system is connected with described bake drying system by a conveying device, it is characterized in that:

Described dehydration drying system comprises heating clamber, vaporization chamber and condensation chamber, described heating clamber, vaporization chamber and described condensation chamber are connected successively by pipeline, described vaporization chamber bottom is provided with the return that leads to heating clamber, and described return is connected with described heating clamber by a forced circulation pump; Described steaming plant is connected with the heating clamber on described dehydration drying system by a heat collector;

Described bake drying system comprises an evaporation drying room, is positioned at the Inner eycle condenser of evaporation drying outdoor, hair-dryer and evaporimeter, and described condenser, hair-dryer and evaporimeter are arranged in order.

2. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 1, is characterized in that, described dehydration drying system is also provided with a heat pump, and described heat pump between described heat collector and heating clamber, and is connected with described heating clamber.

3. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 2, is characterized in that, is provided with first circulating pump between described heat collector and described heating clamber and described heat pump.

4. a kind of environment-friendly high-efficiency energy-saving drying system according to Claims 2 or 3, is characterized in that, described dehydration drying system is also provided with a water tower, described water tower is connected with described condensation chamber and described heat pump.

5. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 4, is characterized in that, is provided with the 3rd circulating pump between described water tower and described condensation chamber.

6. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 1,2,3 or 5, it is characterized in that, described heating clamber bottom is provided with a floss hole, described floss hole is connected with the gathering-device being positioned at floss hole by second circulating pump.

7. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 1, is characterized in that, described condensation chamber top is connected with a vavuum pump.

8. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 1, it is characterized in that, the junction of described conveying device and described bake drying system is provided with a drive motors, and the other end of described conveying device is connected with described dehydration drying system by a gathering-device.

9. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 1, is characterized in that, described evaporation drying indoor are provided with the hot coil of two rows or more, are provided with gap between adjacent described hot coil.

10. a kind of environment-friendly high-efficiency energy-saving drying system according to claim 1 or 9, is characterized in that, is provided with drier bottom described evaporation drying room.