CN205209194U - Heat -cycle system that fortune windmill palm petiole toasted - Google Patents

Abstract

The utility model relates to an industry field of toasting, concretely relates to heat -cycle system that fortune windmill palm petiole toasted. The scheme is: heat -cycle system that fortune windmill palm petiole toasted includes, quick -witted case, heat source, fan, the heat source is located quick -witted roof portion, the fan is located quick -witted roof portion and is connected with the heat source, still include the trunk line, inferior pipeline, the fan is connected to the horizontal part of trunk line and the level is arranged, the vertical part of trunk line is close to quick -witted tank wall and is vertical layout, inferior pipeline level is arranged and is connected with the vertical part of trunk line, inferior pipeline is evenly arranged on vertical, open on inferior pipeline upper portion has the air feed hole. The utility model provides a satisfy the heat -cycle system that needs were just toasted in succession for a long time to the coconut palm palm.

Description

The heat circulating system of Petiolus Trachycarpi baking

Technical field

The utility model relates to industrial baking field, is specifically related to the heat circulating system of a kind of Petiolus Trachycarpi baking.

Background technology

Natural coconut monofilament: the natural coconut palm fiber extracted from cocoanut husk exactly.The complete brown fibrous elasticity mattress that coconut palm monofilament is made is harmless non-stimulated, and has inhibit feature to bacterium.Coir fibre mattress plank stuff production technology comprises: shredding, combing, one-tenth net, baking, cutting, compressing etc.

But, become the coconut fibre after net without being continuous print during cutting, and need the long period during baking, cannot be met it in prior art continuously and toast demand for a long time.

Utility model content

The purpose of this utility model is to provide a kind of can meet coconut palm palm fibre continuously and the heat circulating system of long-time baking needs.

The utility model provides base case to be: the heat circulating system of Petiolus Trachycarpi baking, comprises, cabinet, thermal source, blower fan; Described thermal source is positioned at enclosure top, and described blower fan is positioned at enclosure top and is connected with thermal source; Also comprise main pipeline, secondary pipeline; Described main pipeline lateral part connecting fan and horizontally disposed, the vertical part of described main pipeline is near cabinet wall and arrange in vertical; Described time pipe level is arranged and is vertically partly connected with main pipeline, and described time pipeline is evenly arranged on vertical, and described time conduit upper has air supply hole.

The beneficial effect of base case is: after the hot blast after heat source sends into main pipeline by blower fan, flow into time pipeline along main pipeline, flow out, heat the palm fibre pad fiber in cabinet finally by secondary pipeline air supply hole.Unlike the prior art, owing to being provided with main pipeline and time pipeline, hot blast flows into time pipeline along main pipeline in cabinet, and this process does not have heat exchange effect, ensure that the hot blast temperature in time pipeline is consistent.After hot blast is flowed out by secondary pipeline air supply hole, heat the palm fibre pad fiber in cabinet, because secondary pipeline is evenly arranged on vertical, palm fibre pads fiber when by way of each pipeline through the heating of identical temperature hot blast.According to known above, as long as arrange continuous print palm fibre pad fiber pay-off in cabinet, coconut fibre just can be met continuously and toast needs for a long time.

Scheme two: based on scheme preferred, described blower fan is air blast.Beneficial effect: the range of choice of air blast pressure is very wide, can adjust as required.

Scheme three: based on scheme preferred, described thermal source comprises heat exchanger, radiator.Beneficial effect: heat exchanger can utilize the heat of factory's boiler exhaust gas, economic environmental protection.Radiator can improve radiating efficiency.

Scheme four: based on scheme preferred, be describedly connected with split-wind plate on air port, described split-wind plate is tabular and top has pore.Beneficial effect: the pore on split-wind plate is larger relative to the area of the air supply hole heat radiation on secondary pipeline, can improve the efficiency of heat exchange, improve cured effect.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is the structural representation of the heat circulating system embodiment of the utility model Petiolus Trachycarpi baking.

Detailed description of the invention

Embodiment 1

As shown in Figure 1, the heat circulating system of Petiolus Trachycarpi baking, comprises, cabinet 10, thermal source 50, blower fan 40; Described thermal source 50 is positioned at cabinet 10 top, and described blower fan 40 is positioned at cabinet 10 top and is connected with thermal source 50; Also comprise main pipeline 20, secondary pipeline 30; Described main pipeline lateral part connecting fan 40 and horizontally disposed, the vertical part of described main pipeline 20 is near cabinet 10 wall and arrange in vertical; Described time pipeline 30 is connected with the vertical part of main pipeline 20 and is vertically being evenly arranged, and described time pipeline 30 top has air supply hole 31.

In addition, described blower fan 40 is air blast.The range of choice of air blast pressure is very wide, can adjust as required.Described thermal source 50 comprises heat exchanger, radiator.Heat exchanger can utilize the heat of factory's boiler exhaust gas, economic environmental protection.Radiator can improve radiating efficiency.Air port 31 is connected with split-wind plate 32 to described confession, and described split-wind plate 32 is for tabular and top has pore.Pore on split-wind plate 32 is larger relative to the area of the air supply hole heat radiation on secondary pipeline 30, can improve the efficiency of heat exchange, improve cured effect.

After the hot blast after heating through thermal source 50 sends into main pipeline 20 by blower fan 40, flow into time pipeline 30 along main pipeline 20, flow out finally by secondary pipeline 30 air supply hole 31, the palm fibre pad fiber in cabinet 10 is heated.Owing to being provided with main pipeline 20 and time pipeline 30, hot blast flows into time pipeline 30 along main pipeline 20 in cabinet 10, and this process does not have heat exchange effect.Ensure that the hot blast temperature in each pipeline 30 is consistent.After hot blast is flowed out by secondary pipeline 30 air supply hole 31, heat the palm fibre pad fiber in cabinet 10, because secondary pipeline 30 is evenly arranged vertical, palm fibre pads fiber when by way of each pipeline 30 through the heating of identical temperature hot blast.Hot blast after heating palm fibre pad fiber, under the effect of blower fan 40, moves upward to thermal source 50 place, after thermal source 50 instant heating, enter main pipeline again, continues thermal cycle.

According to known above, as long as arrange continuous print palm fibre pad fiber feed device 11 in cabinet 10, coconut fibre just can be met continuously and toast needs for a long time.

Claims (4)

1. the heat circulating system of Petiolus Trachycarpi baking, comprises, cabinet, thermal source, blower fan; Described thermal source is positioned at enclosure top, and described blower fan is positioned at enclosure top and is connected with thermal source; It is characterized in that, also comprise main pipeline, secondary pipeline; Described main pipeline lateral part connecting fan and horizontally disposed, the vertical part of described main pipeline is near cabinet wall and arrange in vertical; Described time pipe level is arranged and is vertically partly connected with main pipeline, and described time pipeline is evenly arranged on vertical, and described time conduit upper has air supply hole.

2. the heat circulating system of Petiolus Trachycarpi baking as claimed in claim 1, it is characterized in that, described blower fan is air blast.

3. the heat circulating system of Petiolus Trachycarpi baking as claimed in claim 1, it is characterized in that, described thermal source comprises heat exchanger, radiator.

4. the heat circulating system of Petiolus Trachycarpi baking as claimed in claim 1, is characterized in that, air port is connected with split-wind plate to described confession, and described split-wind plate is tabular and top has pore.