CN209706509U - A kind of high-temperature energy-conservation vertical type drying apparatus - Google Patents

Abstract

A kind of high-temperature energy-conservation vertical type drying apparatus, including conveying device, drying tower (5), fan heater and circulation and stress device, the conveying device is located at before drying tower (5), wet stock is transported to drying tower (5), the drying tower (5) is vertical mechanism, inside is equipped with heat transfer path, and heat transfer path is connected with fan heater；The fan heater includes circulating fan (11) and associated pipe, and the steam heated is delivered to drying tower (5) and carries out material drying；The circulation and stress device includes steam-heating system (10) and steam pipework (9), for by hot moisture recycle heat, both ends respectively on drying tower (5) hot moisture exhaust outlet (7) and heat air supply duct be connected.Present apparatus volume is less than traditional drying equipment, and occupied area is small, and leaving air temp is high, can reach 120 DEG C or more, effectively increase production efficiency, energy conservation and environmental protection.

Description

A kind of high-temperature energy-conservation vertical type drying apparatus

Technical field

The utility model relates to drying device field more particularly to a kind of high-temperature energy-conservation vertical type drying apparatus.

Background technique

Drying machine is the equipment for operation to be dried, by heat make in material hygroscopic water (refer generally to moisture or its His volatile liquid components) vaporization evolution, to obtain the solid material of regulation water capacity.Dry purpose is in order to which material makes With or further processing needs.Due to spontaneously drying far from the needs for meeting production development, various mechanization driers are got over To be more widely applied.

Domestic industry drying equipment generally uses tunnel type or net belt type drying mode at present, not only takes up a large area, and protects Temp effect is poor, and consumes that steam is more causes energy consumption higher.With the increasingly serious of national environmental protection situation and " new and old kinetic energy turns Change " implementation of policy, it is also more had difficulty in taking a step using this energy-provision way that coal-burning boiler generates steam, general heat pump highest is cold Solidifying temperature can achieve 85 DEG C or so, and all for farming, animal husbandry and fishery drying, domestic heating etc., industrial heat needs temperature >=120 DEG C, It is higher to horsepower requirements, if not seeking to dash forward in the optimization of drying structure and drying program and the aspect that recycles of thermal energy It is broken, it will be difficult to meet the needs of control cost.In addition, the heat pump of current condensation temperature >=120 DEG C on the market, is in heat pump original There is on the basis of condensation temperature cooperation electric heating to obtain, the introducing of electric energy further increases energy consumption, therefore realizes without electricity Heating is only also become a reality needs by the outlet air that heat pump can be obtained >=120 DEG C.

Utility model content

To solve the above-mentioned problems, the utility model provides a kind of high-temperature energy-conservation vertical type drying apparatus, is set by advanced Meter, volume are less than huge traditional drying equipment, and occupied area is small, and leaving air temp is high, can reach 120 DEG C or more, effectively mention High production efficiency, the hot steam of discharge, which enters in circulating heater, to be recycled, energy conservation and environmental protection.

The purpose of this utility model is achieved through the following technical solutions.

A kind of high-temperature energy-conservation vertical type drying apparatus, including conveying device, drying tower, fan heater and circulation and stress dress It sets, the conveying device is located at before drying tower, wet stock is transported in the conveying suspension bucket to drying tower, at the top of drying tower Equipped with speed reducer, the material conveyed in suspension bucket is poured slowly into drying tower and is dried, discharging conveying is equipped with below drying tower Band, for transporting dried dry material；The drying tower is vertical mechanism, and inside is equipped with heat transfer path, heat transfer path It is connected with fan heater；The fan heater includes circulating fan and associated pipe, and the steam heated is conveyed It is dried to drying tower；The circulation and stress device includes steam-heating system and steam pipework, for recycling hot moisture Heating, both ends respectively on drying tower hot moisture exhaust outlet and heat air supply duct be connected.

Above-described high-temperature energy-conservation vertical type drying apparatus is provided with Conveying Chute and conveying before the conveying device Band, the conveyer belt tilt upward arrangement, for separating the water in wet stock.

Above-described high-temperature energy-conservation vertical type drying apparatus, by hot-air channel and material channel group inside the drying tower At being separated between hot-air channel and material channel by porous plate, hot-air channel is arranged vertically with material channel, convenient for dry equal It is even.

Further, the drying tower is multilayer irradiation modules structure, and individual circulated air is arranged in every two layers of irradiation modules Heat exchanger (when the number of plies is odd number 2N+1, settable N+1 platform), individual temperature-detecting device is arranged in every layer of irradiation modules.

Preferably, the irradiation modules number of plies of the drying tower is 3-7 layers.

Above-described high-temperature energy-conservation vertical type drying apparatus, the hot moisture exhaust outlet is located at drying tower top, with object The hot moisture of material end of reaction flows out to circulation and stress device from there.

Above-described high-temperature energy-conservation vertical type drying apparatus, the circulating fan front are equipped with radiator, radiator top Equipped with steam inlet.

Further, the circulating fan is provided with more, is connected respectively with the circulated air heat exchanger in drying tower.

Above-described high-temperature energy-conservation vertical type drying apparatus, the radiator and drying tower lower end are provided with return flume, use In the recycling of condensed water.

Above-described high-temperature energy-conservation vertical type drying apparatus, the steam-heating system inside are equipped with heat exchanger, heat exchange Hot wet air heating is become high temperature dry air by being condensed, being exchanged heat to hot moisture by device.

Further, the high temperature dry air of the steam-heating system output is fed directly to heat by steam pipework send In pipeline before wind apparatus, enter in drying tower with one piece of hot wind of circulating fan blowout.

In conclusion the utility model has the following beneficial effects:

1, the utility model high-temperature energy-conservation vertical type drying apparatus, the vertical drying machine of hot steam blown by circulating fan In wet stock be dried, occupied area is small, facilitates arrangement.

2, the utility model high-temperature energy-conservation vertical type drying apparatus, leaving air temp is high, can reach 120 DEG C or more, effectively improve Production efficiency can be applied to the occasion of industrial certain demand high-temperatures (>=120 DEG C), and equipment COP is up to 10 or more, comprehensive It closes energy-saving effect and improves 65% or more.

3, the utility model high-temperature energy-conservation vertical type drying apparatus, the security risks such as no electric leakage, burning, explosion are stable Reliably, maintenance cost is low, and failure rate is low, long service life.

Detailed description of the invention

By reading the following detailed description of the preferred embodiment, the scheme of the application and advantage skill common for this field Art personnel will become clear.The drawings are only for the purpose of illustrating a preferred embodiment, and is not considered as practical new to this The limitation of type.In the accompanying drawings:

Fig. 1 is a kind of structural schematic diagram of the utility model embodiment 1；

Fig. 2 is a kind of superhigh temperature industrial heat pump drying unit structural schematic diagram that the utility model embodiment 2 provides.

Component representated by each appended drawing reference in figure are as follows:

1, Conveying Chute, 2, conveyer belt, 3, conveying suspension bucket, 4, speed reducer, 5, drying tower, 6, discharging conveyor belts, 7, heat it is wet Gas exhaust outlet, 8, steam inlet, 9, steam pipework, 10, steam-heating system, 11, circulating fan；1001, device air inlet, 1002, device air outlet, 1003, heat pipe heat absorbing end heat exchanger, 1004, heat exchanger, 1005, evaporator, 1006, dried medium Circulating line, 1007, heat pipe release end of heat heat exchanger, 1008, condenser, 1009, Hot wet air heating compressor, 1010, refrigerant circulation Pipeline.

Specific embodiment

The illustrative embodiments of the disclosure are more fully described below in conjunction with attached drawing.It is to be appreciated that providing these realities The mode of applying is to be able to thoroughly understand the disclosure, and the scope of the present disclosure can be communicated completely to this field Technical staff may be realized in various forms the disclosure, without that should be limited by the embodiments set forth herein.

It should be appreciated that the element can be directly connected to when referring to that element is " connected " or " connection " is to another element Or it is attached to another element, or may exist intermediary element.Other terms for describing relationship between element should be with same The mode of sample explain (for example, " ... between ", " neighbouring " etc.).

Embodiment 1

Referring to Fig. 1, Fig. 1 be the present embodiment a kind of high-temperature energy-conservation vertical type drying apparatus, including conveying device, drying tower 5, Fan heater and circulation and stress device, the conveying device are located at 5 front of drying tower, wet stock are transported to drying tower 5 Interior, the drying tower 5 is vertical mechanism, and inside is equipped with heat transfer path, and heat transfer path is connected with fan heater；The heating Air supply device includes circulating fan 11 and associated pipe, and the steam heated is delivered to drying tower 5 and carries out material drying；It is described Circulation and stress device includes steam-heating system 10 and steam pipework 9, is used to recycle hot moisture and heat, both ends respectively with it is dry Hot moisture exhaust outlet 7 on dry tower 5 is connected with heating air supply duct.

In the present embodiment, Conveying Chute 1, conveyer belt 2 and precipitation tank, the conveying are provided with before the conveying device Diagonally downward, 2 direction of motion of conveyer belt tilts upward arrangement to 1 direction of motion of chute, and Conveying Chute 1 and conveyer belt 2 cross Place is provided with precipitation tank, and wet stock is delivered on conveyer belt 2 from Conveying Chute 1, and material conveys backward with conveyer belt 2, in material Water be slipped in precipitation tank downwards, complete water and material initial gross separation.

Further, conveying suspension bucket 3 is equipped with below 2 end of conveyer belt, the conveying suspension bucket 3 is moved along 5 facade of drying tower, Material can be delivered to 5 tower top of drying tower from bottom end automatically, be additionally provided with speed reducer 4 at the top of drying tower 5, when conveying suspension bucket 3 moves To top, the material conveyed in suspension bucket 3 is poured slowly into drying tower 5 and is dried, prevents material from toppling over excessive velocities and makes At unrestrained.

Further, after wet stock is dry, dry material is transported from the discharging conveyor belts 6 of 5 lower section of drying tower.

In the present embodiment, the drying tower 5 is multilayer irradiation modules structure, by hot-air channel inside every layer of irradiation modules And material channel composition, it is separated between hot-air channel and material channel by porous plate, hot-air channel is arranged vertically with material channel Cloth is convenient for uniform drying.

Further, individual circulated air heat exchanger, every layer of irradiation modules are arranged in every two layers of the irradiation modules of the drying tower 5 Individual temperature-detecting device is set, for oven-dried condition in real-time monitoring drying tower 5.

Further, it is connected with fan heater behind the drying tower 5, passes through the circulation in pipeline and drying tower 5 Wind heat exchanger is connected.

In the present embodiment, the fan heater includes circulating fan 11 and radiator, and the radiator, which is located at, to follow 11 front of ring blower, radiator top is equipped with steam inlet 8, after hot steam is from steam inlet 8 into radiator, through recycling The hot wind of heating is sent into drying tower 5 by blower 11.

Preferably, be the drying efficiency for improving drying tower 5, the circulating fan 11 is provided with more, respectively with drying tower 5 In circulated air heat exchanger be connected.

In the present embodiment, there is exchanging for hot cold air in the radiator and drying tower 5, condensed water, institute can be generated To be provided with return flume in radiator and 5 lower end of drying tower, the recycling for condensed water.

When drying wet stock into the hot steam in drying tower 5, the moisture on material can be adsorbed, it is wet to become heat from hot steam Gas, if left, it is discharged in air, will cause waste.In the present embodiment, the top of drying tower 5 is provided with hot moisture row Port 7, and be connected in steam-heating system 10 by steam pipework 9, the hot moisture in drying tower 5 can be through overheat moisture exhaust Mouth 7 enters in steam-heating system 10, is recycled.

Further, inside the steam-heating system 10 be equipped with heat pipe heat absorbing end heat exchanger, heat pipe release end of heat heat exchanger, Condenser, heat exchanger and evaporator etc. after hot moist steam enters, successively pass through heat pipe heat absorbing end heat exchanger, heat exchanger, steaming Hair device becomes cold dry air out by heat recovery and by condensate moisture therein, then successively passes through heat exchanger, heat pipe again Cold dry air is become 100 DEG C or more high temperature dry airs by release end of heat heat exchanger, condenser, finally enter Hot wet air heating compressor into Temperature is increased to 120 DEG C or more by one step

Further, the high temperature dry air that the steam-heating system 10 exports is fed directly to add by steam pipework 9 It is heat-fed in the pipeline before wind apparatus, enters in drying tower 5 with one piece of hot wind that circulating fan 11 is blown out.

Specifically, the working principle of the utility model are as follows: material be transported on conveyer belt 2 by Conveying Chute 1 to water and Material is separated, and subsequently into conveying suspension bucket 3, conveying suspension bucket 3 is moved upward to behind 5 top of drying tower through speed reducer 4 Material is sent into drying machine 5 and be dried, the present apparatus is dried using circulated air, hot steam by steam inlet 8 into Enter radiator, the hot wind of heating is sent into drying tower 5 through circulating fan 11, material is dried, the material after drying exists It is transported in the case of freely falling body from discharging conveyor belts 6, the heat that drying tower 5 is discharged using steam-heating system in hot air circulation Humid air recycling, removes condensed water therein, and hot wind carries out cycling and reutilization.

Embodiment 2

It preferably illustrates as one kind to steam-heating system 10 in embodiment 1, rather than limitations of the present invention, The present embodiment provides the superhigh temperature industrial heat pump drying units of such as Fig. 2 a kind of as steam-heating system, as shown, the superelevation Temperature industrial heat pump drying device includes dehumidification system and heating system, and the Hot wet air heating in embodiment 1 from drying tower 5 is by filling The entrance of air inlet 1001 is set, becomes high temperature dry air after the effect of drying device, reenters drying from device air outlet 1002 Material drying is used in tower 5.

Specifically, the dehumidification system is located at the first half of drying unit, for by the condensate moisture in Hot wet air heating Become cold dry air out, the heating system is located at the latter half of drying unit, for cold by what is sent in dehumidification system Dry air is warming up to 120 DEG C or more.As shown, the dehumidification system includes heat pipe heat absorbing end heat exchanger 1003, heat exchanger 1004 and evaporator 1005, the heat pipe heat absorbing end heat exchanger 1003 be located at behind device air inlet 1001, thereafter be respectively heat Exchanger 1004 and evaporator 1005, from device air inlet 1001 enter Hot wet air heating along heat pipe heat absorbing end heat exchanger 1003, Dried medium circulating line 1006 between heat exchanger 1004 and evaporator 1005 flows.1003 He of heat pipe heat absorbing end heat exchanger Dried medium temperature in heat exchanger 1004 is lower than the Hot wet air heating temperature come out in drying tower 5, and evaporator 1005 is by refrigerant Compressor 1006 provides coolant media.

The heating system is located in dehumidification system behind heat exchanger 1004, is sequentially connected to heat pipe release end of heat heat exchanger 1007, condenser 1008 and Hot wet air heating compressor 1009,1009 exit of Hot wet air heating compressor are connected with device and go out Air port 1002.Heat pipe release end of heat heat exchanger 1007 passes through liquid heat-carrying agent circulating line phase with heat pipe heat absorbing end heat exchanger 1003 Even, since heat pipe release end of heat heat exchanger 1007 continues to exchange heat, heat pipe heat absorbing end heat exchanger 1003 with the hot wind in drying tower 5 Continue to exchange heat, heat pipe release end of heat heat exchanger 1007 and heat pipe heat absorbing end heat exchanger 1003 with the cold wind to come in dehumidification system Liquid medium, which is connected, can form complementation, without supplementing medium respectively.

Medium in evaporator 1005 and condenser 1008 is according to refrigerant circulation pipeline 1010 in evaporator 1005, condenser It is recycled between 1008 and cold medium compressor 1006.High temperature refrigerant enters in condenser 1008 from cold medium compressor 1006 to carry out Exothermic operation flows into evaporator 1005 after coolant media cools off and carries out absorbing operation, from the outlet of evaporator 1005 outflow It is again introduced into condenser 1008 after being compressed to high temperature in refrigerant inflow cold medium compressor 1006.Material drying produces in drying tower 5 After raw Hot wet air heating is from device air inlet 1001 into dehumidification system, successively handed over by heat pipe heat absorbing end heat exchanger 1003, heat Parallel operation 1004 and evaporator 1005 are by heat recovery and come out condensate moisture therein and become cold dry air, then successively logical again Cold dry air is become 100 DEG C or more high temperature by over-heat-exchanger 1004, heat pipe release end of heat heat exchanger 1007 and condenser 1008 to be done Air finally enters Hot wet air heating compressor 1009 and temperature is further increased to 120 DEG C or more, reenters the use of drying tower 5 In material drying.

The unmentioned other technologies content of the present embodiment, can be in the same manner as in Example 1, repeats no more.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in Change or replacement, should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with Subject to the scope of protection of the claims.

Claims (10)

1. a kind of high-temperature energy-conservation vertical type drying apparatus, it is characterised in that: including conveying device, drying tower (5), fan heater With circulation and stress device, the conveying device is located at before drying tower (5), wet stock is transported defeated to below drying tower (5) It send in suspension bucket (3), is equipped with speed reducer (4) at the top of drying tower (5), the material conveyed in suspension bucket (3) is poured slowly into drying tower (5) It is inside dried, discharging conveyor belts (6) is equipped with below drying tower (5), for transporting dried dry material；The drying Tower (5) is vertical mechanism, and inside is equipped with heat transfer path, and heat transfer path is connected with fan heater；The fan heater Including circulating fan (11) and associated pipe, the steam heated is delivered to drying tower (5) and is dried；The circulation and stress Device includes steam-heating system (10) and steam pipework (9), is used to recycle hot moisture and heat, both ends respectively with drying tower (5) the hot moisture exhaust outlet (7) on is connected with heating air supply duct.

2. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 1, it is characterised in that: before the conveying device It is provided with Conveying Chute (1) and conveyer belt (2), the conveyer belt (2) tilts upward arrangement, for separating the water in wet stock.

3. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 1, it is characterised in that: in the drying tower (5) Portion is made of hot-air channel and material channel, is separated between hot-air channel and material channel by porous plate, hot-air channel and material Channel is arranged vertically, is convenient for uniform drying.

4. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 3, it is characterised in that: the drying tower (5) is Individual circulated air heat exchanger is arranged in multilayer irradiation modules structure, every two layers of irradiation modules, and every layer of irradiation modules setting is individual Temperature-detecting device.

5. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 1, it is characterised in that: the hot moisture exhaust outlet (7) it is located at drying tower (5) top, flows out to circulation and stress device from there with the hot moisture that material reaction finishes.

6. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 1, it is characterised in that: the circulating fan (11) Front is equipped with radiator, is equipped with steam inlet (8) above radiator.

7. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 6, it is characterised in that: the circulating fan (11) More are provided with, is connected respectively with the circulated air heat exchanger in drying tower (5).

8. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 6 or 7, it is characterised in that: the radiator and Drying tower (5) lower end is provided with return flume, the recycling for condensed water.

9. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 1, it is characterised in that: the steam-heating system (10) internal to be equipped with heat exchanger, heat exchanger, by being condensed, being exchanged heat to hot moisture, Hot wet air heating is become into the dry sky of high temperature Gas.

10. a kind of high-temperature energy-conservation vertical type drying apparatus according to claim 9, it is characterised in that: steam heating system The high temperature dry air of system (10) output is fed directly in the pipeline before fan heater by steam pipework (9), with following One piece of hot wind of ring blower (11) blowout enters in drying tower (5).