CN208504974U - Gas direct-fired dryer - Google Patents

Abstract

A kind of Gas direct-fired dryer, including hot wind generating means, drying box and material mesh belt transfer device.Hot wind generating means include gas burner and combustion chamber；The bright eruption mouth of gas burner is also provided with air inlet in the front of combustion chamber, in the front of combustion chamber；Hot-blast outlet is provided at the rear portion of combustion chamber；Drying box has multiple, and each drying box is from left to right successively detachably connected；Drying box is hollow；The bottom of drying box is connected with pressure chamber；Material mesh belt transfer device includes conveyer belt system；Stomata is furnished on the conveyer belt of conveyer belt system；It is provided with through-hole on the connected side wall of two neighboring drying box, conveyer belt passes through in through-hole；The stem of first drying box connects feeding warehouse；Feed inlet is provided at the top of feeding warehouse, the head end of conveyer belt is in feeding warehouse, and in the lower section of feed inlet；It is the discharge port of this dryer below transmission end of tape.The pressure chamber of each drying box is interconnected, and is provided with hot wind inlet on pressure chamber；Air outlet is provided at the top of drying box.

Description

Gas direct-fired dryer

Technical field

The utility model belongs to feed/Cereals Processing Machines, specifically a kind of Gas direct-fired dryer.

Background technique

In the prior art, it first to be dried before the storage of feed/grain etc. (hereafter referred to collectively as " material "), wherein Moisture removal.After usually air is heated using heating agent, material is dried, in general, heating agent is using steam. Under this mode, needs that first water is heated to obtain steam, then heat air with steam, finally material is carried out with hot-air circulation Heating, drying, multiple heat exchange, causes energy loss.

Summary of the invention

In order to solve the above-mentioned technical problem, the utility model proposes a kind of new Gas direct-fired dryer, it is used to feeding Material/grain etc. stored in a warehouse before drying, it is specific as follows:

A kind of Gas direct-fired dryer, including drying box, hot wind generating means and material mesh belt transfer device.

The hot wind generating means include combustion chamber and gas burner；The bright eruption mouth of the gas burner is in combustion chamber Front in, be also provided with air inlet, bright eruption mouth of the air inlet towards gas burner in the front of combustion chamber；Behind combustion chamber Portion is provided with hot-blast outlet；

The drying box has multiple, and each drying box is from left to right successively detachably connected；Drying box is hollow；Drying The bottom of case is connected with pressure chamber；The material mesh belt transfer device includes conveyer belt system；On the conveyer belt of conveyer belt system It is furnished with stomata；Through-hole is provided on the connected side wall of two neighboring drying box, the conveyer belt passes through in through-hole；

The stem of first drying box connects feeding warehouse；Be provided with feed inlet at the top of feeding warehouse, the head end of conveyer belt into In feed bin, and in the lower section of feed inlet；It is the discharge port of this dryer below the end of conveyer belt

The pressure chamber of each drying box is interconnected, at least one is pressed and is provided with hot wind inlet on chamber, and hot wind inlet passes through The hot-blast outlet of valve connection hot wind generating means；Air outlet is provided at the top of drying box.

In multiple drying boxes:

Air outlet close to the drying box of charging bin location connects atmosphere by deduster；

The air inlet for the blower that the air outlet of drying box far from charging bin location is melted down by deduster connection for waste heat Mouthful, the air inlet of the air outlet connection combustion chamber of the blower melted down for waste heat.

The material mesh belt transfer device includes multiple conveyer belt systems；The upper and lower phase of the conveyer belt of each conveyer belt system It is mutually parallel；The head end of lower layer's conveyer belt is below the end of upper layer conveyer belt；The head end of top layer's conveyer belt in feeding warehouse, and In the lower section of feed inlet.

The radial section of the feed inlet be it is arc-shaped, be connected with hopper above feed inlet, the discharge nozzle of hopper turns It is dynamic to be connected on the discharge port of hopper, and discharge nozzle is corresponding with feed inlet around the track that the discharge port axis of hopper rotates.

The conveyer belt is stainless steel foraminous conveyer；It is left behind in stainless steel conveying and is also connected with multiple parallel backgauges Plate.

The pressure chamber is rectangular shape, and the top of cuboid is connected to the bottom of drying box；Press chamber hot wind into Mouth is opened in bottom.

It is also provided with cold wind wind-supplying mouth on the combustion chamber, is connected with valve on cold wind wind-supplying mouth.

The driving motor of the conveyer belt system is servo deceleration motor；The side wall of the drying box and combustion chamber is all not Become rusty steel double insulation.

The energy loss of this dryer is less, has and automates improved potentiality.

Detailed description of the invention

Fig. 1 is the first view stereo structural schematic diagram of this dryer；

Fig. 2 is the second view stereo structural schematic diagram of this dryer；

Fig. 3 is the overlooking structure diagram of this dryer；

Fig. 4 is the side structure schematic diagram of this dryer；

Fig. 5 is the schematic diagram of internal structure of single drying box；

In figure: drying box 1, combustion chamber 2, gas burner 3, press chamber 4, conveyer belt 5, striker plate 6, on drying box side wall Through-hole 7, feeding warehouse 8, feed inlet 9, hopper 10, deduster (cyclone dust collectors) 11, the blower 12 melted down for waste heat.

Specific embodiment

This case is further illustrated with specific embodiment with reference to the accompanying drawing:

Such as Fig. 1~5, a kind of Gas direct-fired dryer, structure be include drying box, hot wind generating means and material net Band transfer device.

The hot wind generating means include combustion chamber and gas burner；The bright eruption mouth of the gas burner is in combustion chamber Front in, be also provided with air inlet, bright eruption mouth of the air inlet towards gas burner in the front of combustion chamber；Behind combustion chamber Portion is provided with hot-blast outlet；

The drying box has multiple, and each drying box is from left to right successively detachably connected；Drying box is hollow；Drying The bottom of case is connected with pressure chamber；The material mesh belt transfer device includes conveyer belt system；On the conveyer belt of conveyer belt system It is furnished with stomata；Through-hole is provided on the connected side wall of two neighboring drying box, the conveyer belt passes through in through-hole；

The stem of first drying box connects feeding warehouse；Be provided with feed inlet at the top of feeding warehouse, the head end of conveyer belt into In feed bin, and in the lower section of feed inlet；It is the discharge port of this dryer below the end of conveyer belt

The pressure chamber of each drying box is interconnected, at least one is pressed and is provided with hot wind inlet on chamber, and hot wind inlet passes through The hot-blast outlet of valve connection hot wind generating means；Air outlet is provided at the top of drying box.

In multiple drying boxes:

Air outlet close to the drying box of charging bin location connects atmosphere by deduster；

The air inlet for the blower that the air outlet of drying box far from charging bin location is melted down by deduster connection for waste heat Mouthful, the air inlet of the air outlet connection combustion chamber of the blower melted down for waste heat.

The material mesh belt transfer device includes multiple conveyer belt systems；The upper and lower phase of the conveyer belt of each conveyer belt system It is mutually parallel；The head end of lower layer's conveyer belt is below the end of upper layer conveyer belt；The head end of top layer's conveyer belt in feeding warehouse, and In the lower section of feed inlet.

The radial section of the feed inlet be it is arc-shaped, be connected with hopper above feed inlet, the discharge nozzle of hopper turns It is dynamic to be connected on the discharge port of hopper, and discharge nozzle is corresponding with feed inlet around the track that the discharge port axis of hopper rotates.

The conveyer belt is stainless steel foraminous conveyer；It is left behind in stainless steel conveying and is also connected with multiple parallel backgauges Plate.

The pressure chamber is rectangular shape, and the top of cuboid is connected to the bottom of drying box；Press chamber hot wind into Mouth is opened in bottom.

It is also provided with cold wind wind-supplying mouth on the combustion chamber, is connected with valve on cold wind wind-supplying mouth.

The driving motor of the conveyer belt system is servo deceleration motor；The side wall of the drying box and combustion chamber is all not Become rusty steel double insulation.

In this example: directly being burnt using combustion gas, omit 2 energy conversions of steam, heat energy recycling.Total height is 10 meters.On Lower 2 layers of conveyer belt layout.Conveyer belt total length can suitably increase and decrease drying box joint number according to yield size, and package assembly is arbitrarily taken Match.

In this example, configuration is 5 section drying boxes, and first-half water vapor discharging, rear 3, which save heat, melts down, and hot stove can be according to drying box Temperature controls combustor duration and degree of heating size.

In Project Realization, every section drying box top cover mounting temperature sensor, temperature data can acquire intelligence by computer It can control, set predetermined temperature, temperature is excessively high, mends cold blast sliding valve and automatically opens, combustor can be controlled the duration and degree of heating by computer, and temperature is steady Fixed up to standard, combustor stops working, and temperature is lower than setting value, and waste heat melts down, and combustor starts automatic work.All workflows Journey is all that computer Central Control Room is completed, and air themperature setting value is that the different material test in scene later complete by acquisition, in drying box The drying net in portion, servo deceleration motor can be very good control delivery speed.

Cabinet is dried, combustion furnace is all stainless steel double-layer heat insulation case.Combustion furnace structure is simple, by combustion chamber, combustor, remaining Heat melts down blower and electronic benefit cold blast sliding valve composition, burns natural-gas energy-saving environmental protection.Waste heat, which melts down, to be had cyclone dust collectors and closes air-valve, Remove particle dirt tiny in air.The control of this baker can be realized using automatic control system, can be used automatic With manual 2 sets of control systems, guarantee safety in production.

Claims (8)

1. a kind of Gas direct-fired dryer, including hot wind generating means, drying box and material mesh belt transfer device, it is characterized in that

The hot wind generating means include gas burner and combustion chamber；The bright eruption mouth of the gas burner is before combustion chamber In portion, air inlet, bright eruption mouth of the air inlet towards gas burner are also provided in the front of combustion chamber；It is opened at the rear portion of combustion chamber There is hot-blast outlet；

The drying box has multiple, and each drying box is from left to right successively detachably connected；Drying box is hollow；Drying box Bottom is connected with pressure chamber；The material mesh belt transfer device includes conveyer belt system；It is furnished on the conveyer belt of conveyer belt system Stomata；Through-hole is provided on the connected side wall of two neighboring drying box, the conveyer belt passes through in through-hole；

The stem of first drying box connects feeding warehouse；Feed inlet is provided at the top of feeding warehouse, the head end of conveyer belt is in feeding warehouse It is interior, and in the lower section of feed inlet；It is the discharge port of this dryer below the end of conveyer belt

The pressure chamber of each drying box is interconnected, at least one is pressed and is provided with hot wind inlet on chamber, and hot wind inlet passes through valve Connect the hot-blast outlet of hot wind generating means；Air outlet is provided at the top of drying box.

2. dryer according to claim 1, it is characterized in that in multiple drying boxes:

Air outlet close to the drying box of charging bin location connects atmosphere by deduster；

The air inlet for the blower that the air outlet of drying box far from charging bin location is melted down by deduster connection for waste heat, is used Air inlet in the air outlet connection combustion chamber for the blower that waste heat melts down.

3. dryer according to claim 1, material mesh belt transfer device described in feature includes multiple conveyer belt systems； The conveyer belt of each conveyer belt system is parallel to each other above and below；The head end of lower layer's conveyer belt is below the end of upper layer conveyer belt；Most The head end of upper layer conveyer belt is in feeding warehouse, and in the lower section of feed inlet.

4. dryer according to claim 1, it is characterized in that the radial section of the feed inlet be it is arc-shaped, in feed inlet Top be connected with hopper, the discharge nozzle of hopper is rotatably connected on the discharge port of hopper, and discharge nozzle surround hopper discharging The track of mouth axis rotation is corresponding with feed inlet.

5. dryer according to claim 1, it is characterized in that the conveyer belt is stainless steel foraminous conveyer；It is defeated in stainless steel It send to leave behind and is also connected with multiple parallel striker plates.

6. dryer according to claim 1, it is characterized in that the pressure chamber is rectangular shape, the top of cuboid with The bottom of drying box is connected to；The hot wind inlet of chamber is pressed to be opened in bottom.

7. dryer according to claim 1, it is characterized in that being also provided with cold wind wind-supplying mouth on the combustion chamber, cold wind mends wind Valve is connected on mouthful.

8. dryer according to claim 1, it is characterized in that the driving motor of the conveyer belt system is servo deceleration electricity Machine；The side wall of the drying box and combustion chamber is all stainless steel double insulation.