CN205425719U - Energy -concerving and environment -protective type domestic fungus flowing water drying -machine - Google Patents

Abstract

The utility model relates to an energy -concerving and environment -protective type domestic fungus flowing water drying -machine, its characterized in that: including the organism with establish the conveyer belt that is used for holding, carrying the domestic fungus in the organism, the organism still includes the stoving box of the having into of a plurality of group tandem connection, air outlet, the stoving box comprises first branch mailbox and second branch mailbox, and the heat pipe that be equipped with the air intake at first minute incasement top -down, coils says and the passageway of ventilating of first branch mailbox and second branch mailbox, second branch mailbox upper portion both sides limit is equipped with first, second air outlet, first air outlet feeds through with the air intake of the lower first branch mailbox of a set of stoving box, the second air outlet is seted up on the lateral wall of the first branch mailbox air intake of this group's stoving box. The utility model discloses domestic fungus flowing water drying -machine is simple structure, reasonable in design not only, is favorable to great increasing the heat efficiency moreover to and assurance domestic fungus stoving quality.

Description

Energy saving and environment friendly edible fungi flowing water dehydrator

Technical field:

This utility model relates to a kind of energy saving and environment friendly edible fungi flowing water dehydrator.

Background technology:

21 century edible fungi will develop into one of main protein food of the mankind, the total output of edible fungi of china in 2005 reaches 12,000,000 tons, ranks first in the world, according to edible fungi of china commerce Net investigation statistics, the total output of edible fungi of china in 2010 reaches 20,000,000 tons, accounts for the world 70%.Mushroom industry has become an important industry in China's plant husbandry.Domestic market has a high potential.

But at present being dried of edible fungi mostly uses nature to dry, this kind of drying mode affect relatively big by weather, and dry products is of poor quality, and existing drying plant there is also many deficiencies, as heating power waste seriously, drying effect the best.

Summary of the invention:

The purpose of this utility model is to provide a kind of energy saving and environment friendly edible fungi flowing water dehydrator, and this energy saving and environment friendly edible fungi flowing water drying machine structure is simple, reasonable in design, is conducive to improving utilization efficiency of heat energy.

This utility model energy saving and environment friendly edible fungi flowing water dehydrator, it is characterized in that: for holding in including body and being located at body, the conveyer belt of conveying edible fungi, described body also include some groups be connected in series in have into, the drying casing of air outlet, described drying casing is made up of the first branch mailbox and the second branch mailbox, air inlet it is provided with from top to bottom in the first branch mailbox, the hot channel of coiling and the first branch mailbox and the venting channels of the second branch mailbox, described second branch mailbox top dual-side is provided with first, second air outlet, the air inlet that described first air outlet dries casing the first branch mailbox with next group connects, described second air outlet is opened in this group and dries on the sidewall of casing the first branch mailbox air inlet.

Further, the limit, some groups of drying baker sides being positioned at conveyer belt discharging side is provided with supplementary drying baker, and the hot air intake supplementing drying baker is positioned at its underpart, supplements the heat outlet position of drying baker to its upper, supplement drying baker steam import and export and be interconnected with drying casing, form hot gas cycle.

Further, the discharging opening being positioned at conveyer belt is provided with nebulizer.

Further, the drying casing of body material input position is provided with heat exchanger, and the heating power recovery port of described heat exchanger is led on the drying casing of body material outfan；The rearmost end being positioned at body is provided with the drying casing of one group of heating power self-loopa, is provided with hygrosensor in this drying baker body, is provided with the gas outlet of the adjustable size connected with follow-up drying casing air inlet at this drying baker body sidewall.

Further, above-mentioned heat exchanger includes that several upper and lower parts have independent inlet, outlet and intercept the perpendicular separate space in chamber, the inlet, outlet of described perpendicular separate space intercept the heat pipe being provided with many connection inlet, outlet obstruct chambeies between chamber, first air inlet of described heat exchanger is the first air inlet erecting separate space, it is connected with the drying casing gas outlet of material input position, the gas outlet that first gas outlet is last perpendicular separate space of heat exchanger, second air inlet of heat exchanger connects with fresh air, the heating power recovery port that the second gas outlet is heat exchanger of heat exchanger.

Further, said conveyer belt be one layer with upper conveyor belt.

Further, the first branch mailbox that body pan feeding side is dried in casing is provided with every fan housing, described being located at above conveyer belt every fan housing, should be provided with in order to the wing passage ventilated between fan housing and the first branch mailbox internal face, described venting channels is on the wall between fan housing and conveyer belt.

Further, the hot channel of above-mentioned coiling is the hot gas duct being connected with steam boiler, and the hot channel of described coiling is made up of the heating pipe of some row roundabout connections of head and the tail, is laid with radiating fin on heating pipe.

Further, often group is dried and is provided with heat exchanger between the second branch mailbox of casing and the first branch mailbox of next group drying casing.

Further, last group being positioned at exit side dries the hot channel that casing does not coil, and is provided with microwave generator.

The operation principle of this utility model energy saving and environment friendly edible fungi flowing water dehydrator: by being provided with first, second air outlet at the second branch mailbox top dual-side, the air inlet that described first air outlet dries casing the first branch mailbox with next group connects, described second air outlet is opened in this group dries on the sidewall of casing the first branch mailbox air inlet, a steam part can be made can to lead to next group and to dry casing, a part of steam can lead to the air inlet of this group the first branch mailbox, so that hot blast is fully used.

Additionally by being provided with heat exchanger on the drying casing of body material input position, the heating power recovery port of described heat exchanger is led on the drying casing of body material outfan, such that it is able to the steam realizing the most directly discharge is circulated, improves the thermal efficiency；Additionally, the rearmost end being positioned at body is provided with the drying casing of one group of heating power self-loopa, in this drying baker body, it is provided with hygrosensor, is provided with the gas outlet of the adjustable size connected with follow-up drying casing air inlet at this drying baker body sidewall；The humidity detected at this in drying baker by hygrosensor, such that it is able to the drying effect of indirect reaction edible fungi output end position, is judged that the transporting velocity of conveyer belt is the most reasonable according to this, thus ensures dries quantity.

This utility model edible fungi flowing water dehydrator is not only simple in structure, reasonable in design, and be conducive to being greatly improved the thermal efficiency, and ensure edible mushroom drying quality.

Accompanying drawing illustrates:

Fig. 1 is the organigram of this utility model energy saving and environment friendly edible fungi flowing water dehydrator；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the front view supplementing drying baker；

Fig. 4 is the front view of the first branch mailbox；

Fig. 5 is the left view of the first branch mailbox；

Fig. 6 is the organigram drying casing；

Fig. 7 is the organigram drying casing another kind embodiment；

Fig. 8 is the organigram of heat exchanger；

Fig. 9 is the organigram of perpendicular separate space；

Figure 10 is the organigram of the another kind of energy saving and environment friendly edible fungi flowing water dehydrator of this utility model.

Detailed description of the invention:

This utility model energy saving and environment friendly edible fungi flowing water dehydrator, including body 1 and in being located at body 1 for holding, the conveyer belt 2 of conveying edible fungi, described body 1 also include some groups be connected in series in have into, the drying casing 3 of air outlet, described drying casing 3 is made up of the first branch mailbox 301 and the second branch mailbox 302, air inlet 303 it is provided with from top to bottom in the first branch mailbox, the hot channel 304 of coiling and the venting channels 305 of the first branch mailbox and the second branch mailbox, described second branch mailbox top dual-side is provided with first, second air outlet 306, 307, the air inlet that described first air outlet 306 dries casing the first branch mailbox with next group connects, described second air outlet is opened in this group and dries on the sidewall of casing the first branch mailbox air inlet.Air enters from air inlet, and through the heat transfer of the hot channel 303 of coiling, so that the edible fungi taken to by heat on conveyer belt, edible fungi on the conveyor belt is gradually i.e. oven-dried after multiple drying casings.

Further, in order to make have the edible fungi do not dried individually to dry further in discharge outlet, the limit, some groups of drying baker sides being positioned at conveyer belt discharging side is provided with supplementary drying baker 4, the hot air intake 401 supplementing drying baker is positioned at its underpart, supplement the heat outlet 402 of drying baker to its upper, supplement drying baker steam import and export and be interconnected with drying casing, form hot gas cycle, in supplementary drying baker 4, be provided with edible fungi Holder 403.

Further, in order to prevent owing to edible mushroom drying is excessive and cause easily folding broken, the discharging opening being positioned at conveyer belt is provided with nebulizer 5.

Further in order to improve the thermal efficiency, the drying casing of body material input position is provided with heat exchanger 6, and the heating power recovery port of described heat exchanger 6 is led on the drying casing of body material outfan；The rearmost end being positioned at body is provided with the drying casing of one group of heating power self-loopa, is provided with hygrosensor 10 in this drying baker body, is provided with the gas outlet 7 of the adjustable size connected with follow-up drying casing air inlet at this drying baker body sidewall.

Further, above-mentioned heat exchanger 6 includes on several, bottom has independently to be entered, give vent to anger and intercept chamber 601, the perpendicular separate space 603 of 602, entering of described perpendicular separate space, give vent to anger obstruct chamber between be provided with many connect into, give vent to anger and intercept the heat pipe 604 in chamber, first air inlet 605 of described heat exchanger is the first air inlet erecting separate space, it is connected with the drying casing gas outlet of material input position, the gas outlet that first gas outlet 606 is last perpendicular separate space of heat exchanger, second air inlet 607 of heat exchanger connects with fresh air, the heating power recovery port that second gas outlet 608 is heat exchanger of heat exchanger.

Further, said conveyer belt be one layer with upper conveyor belt, can be one layer of conveyer belt, two-layer conveyer belt, three layers of conveyer belt etc., conveyer belt 2 is laid with for edible fungi ventilation passage, thus beneficially gas flowing and edible fungi molding.

Further, the first branch mailbox that body pan feeding side is dried in casing is provided with every fan housing 8, described being located at above conveyer belt every fan housing 8, should be provided with in order to the wing passage 9 ventilated between fan housing and the first branch mailbox internal face, described venting channels is on the wall between fan housing 8 and conveyer belt 2.Every fan housing 8 so that hot blast up can blow from the bottom of conveyer belt by after wing passage, the most juicy edible fungi is avoided to adhere on the conveyor belt, and advantageously ensure that the molding of edible fungi, and dry hot blast in casing and the most directly blow follow-up and dry toward the edible fungi on conveyer belt.

Further, the hot channel of above-mentioned coiling is the hot gas duct being connected with steam boiler, and the hot channel of described coiling is made up of the heating pipe of some row roundabout connections of head and the tail, is laid with radiating fin on heating pipe.

Further, for the dehumidifying at material input, above-mentioned often group is dried and is provided with heat exchanger between the second branch mailbox of casing and the first branch mailbox of next group drying casing, this heat exchanger is identical with heat exchanger 6 structure being positioned on input drying casing, the steam in drying baker several before being conducive to will be located in material input by this heat exchanger is moved out casing, the most again can heat transfer and possess heat.

Further, in order to prevent too drying, last group being positioned at exit side dries the hot channel that casing does not coil, and it is provided with microwave generator 10, and microwave generator 10, only the mushroom having moisture is just dried, and the mushroom not having moisture is not heated, therefore avoid undue drying.

The operation principle of this utility model energy saving and environment friendly edible fungi flowing water dehydrator: by being provided with first, second air outlet at the second branch mailbox top dual-side, the air inlet that described first air outlet dries casing the first branch mailbox with next group connects, described second air outlet is opened in this group dries on the sidewall of casing the first branch mailbox air inlet, a steam part can be made can to lead to next group and to dry casing, a part of steam can lead to the air inlet of this group the first branch mailbox, so that hot blast is fully used.

Additionally by being provided with heat exchanger on the drying casing of body material input position, the heating power recovery port of described heat exchanger is led on the drying casing of body material outfan, such that it is able to the steam realizing the most directly discharge is circulated, improves the thermal efficiency；Additionally, the rearmost end being positioned at body is provided with the drying casing of one group of heating power self-loopa, in this drying baker body, it is provided with hygrosensor, is provided with the gas outlet of the adjustable size connected with follow-up drying casing air inlet at this drying baker body sidewall；The humidity detected at this in drying baker by hygrosensor, such that it is able to the drying effect of indirect reaction edible fungi output end position, is judged that the transporting velocity of conveyer belt is the most reasonable according to this, thus ensures dries quantity.

This utility model edible fungi flowing water dehydrator is not only simple in structure, reasonable in design, and be conducive to being greatly improved the thermal efficiency, and ensure edible mushroom drying quality.

The foregoing is only preferred embodiment of the present utility model, all impartial changes done according to this utility model claim and modification, all should belong to covering scope of the present utility model.

Claims (10)

1. an energy saving and environment friendly edible fungi flowing water dehydrator, it is characterized in that: for holding in including body and being located at body, the conveyer belt of conveying edible fungi, described body also include some groups be connected in series in have into, the drying casing of air outlet, described drying casing is made up of the first branch mailbox and the second branch mailbox, air inlet it is provided with from top to bottom in the first branch mailbox, the hot channel of coiling and the first branch mailbox and the venting channels of the second branch mailbox, described second branch mailbox top dual-side is provided with first, second air outlet, the air inlet that described first air outlet dries casing the first branch mailbox with next group connects, described second air outlet is opened in this group and dries on the sidewall of casing the first branch mailbox air inlet.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterized in that: the limit, some groups of drying baker sides being positioned at conveyer belt discharging side is provided with supplementary drying baker, the hot air intake supplementing drying baker is positioned at its underpart, supplement the heat outlet position of drying baker to its upper, supplement drying baker steam import and export and be interconnected with drying casing, form hot gas cycle.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterised in that: the discharging opening being positioned at conveyer belt is provided with nebulizer.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterised in that: the drying casing of body material input position is provided with heat exchanger, and the heating power recovery port of described heat exchanger is led on the drying casing of body material outfan；The rearmost end being positioned at body is provided with the drying casing of one group of heating power self-loopa, is provided with hygrosensor in this drying baker body, is provided with the gas outlet of the adjustable size connected with follow-up drying casing air inlet at this drying baker body sidewall.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 4, it is characterized in that: described heat exchanger includes on several, bottom has independently to be entered, give vent to anger and intercept the perpendicular separate space in chamber, entering of described perpendicular separate space, give vent to anger obstruct chamber between be provided with many connect into, give vent to anger and intercept the heat pipe in chamber, first air inlet of described heat exchanger is the first air inlet erecting separate space, it is connected with the drying casing gas outlet of material input position, the gas outlet that first gas outlet is last perpendicular separate space of heat exchanger, second air inlet of heat exchanger connects with fresh air, the heating power recovery port that second gas outlet is heat exchanger of heat exchanger.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterised in that: described conveyer belt be one layer with upper conveyor belt.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterized in that: the first branch mailbox that body pan feeding side is dried in casing is provided with every fan housing, described it is located at above conveyer belt every fan housing, should be provided with between fan housing and the first branch mailbox internal face in order to the wing passage ventilated, described venting channels is on the wall between fan housing and conveyer belt.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterized in that: the hot channel of described coiling is the hot gas duct being connected with steam boiler, the hot channel of described coiling is made up of the heating pipe of some row roundabout connections of head and the tail, is laid with radiating fin on heating pipe.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterised in that: often group is dried and is provided with heat exchanger between the second branch mailbox of casing and the first branch mailbox of next group drying casing.

Energy saving and environment friendly edible fungi flowing water dehydrator the most according to claim 1, it is characterised in that: last group being positioned at exit side dries the hot channel that casing does not coil, and is provided with microwave generator.