CN211476625U - High-temperature hot air circulation dryer - Google Patents

Abstract

The utility model provides a high-temperature heated air circulation dryer, including heating chamber and drying cylinder, the inside of heating chamber is provided with the blowing machine, and one side of blowing machine installs the frame, the inside of frame is provided with the heater strip, and one side of heating chamber is installed and is responsible for, and one side of being responsible for installs the branch pipe, the inside of drying cylinder is provided with first swash plate, and the drying cylinder is located one side of branch pipe, and one side of first swash plate installs the second swash plate, and one side of drying cylinder installs the back flow, and the rear end of back flow installs the storage tank, the honeycomb duct is installed to the top of storage tank, and installs the separator above the honeycomb duct; the utility model discloses in, the inner tower can effectually slow down gaseous flow velocity, and the different density of gas and moisture for the moisture that the through-hole can effectual filtration gas carry can be with gas and moisture separation, makes gas can obtain reuse, and can channel into rivers to the inside of storage tank.

Description

High-temperature hot air circulation dryer

Technical Field

The utility model relates to a high temperature heated air circulation desiccator technical field especially relates to a high temperature heated air circulation desiccator.

Background

The dryer is a mechanical device for reducing moisture of materials by using heat energy, and is used for drying objects. The dryer vaporizes moisture (typically moisture or other volatile liquid components) in the material by heating to escape to obtain a solid material of a specified moisture content. The purpose of drying is for material use or further processing requirements.

In the use of the existing drying machine, objects at different positions cannot be well dried, so that the drying efficiency of the objects is poor, the moisture and the gas cannot be well separated, the moisture carried by the gas influences the drying degree of the objects easily, and the utilization efficiency of high-temperature gas is low.

Therefore, it is necessary to provide a high temperature hot air circulation dryer to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high temperature heated air circulation desiccator has solved current desiccator use, and the object to different positions that can not be fine carries out drying process, and the drying efficiency who leads to the object is relatively poor to and can not be fine carry out separation treatment with moisture and gas, lead to the moisture that gas carried to influence the degree of drying of object easily, and the lower problem of high-temperature gas's utilization efficiency.

For solving the technical problem, the utility model provides a pair of high temperature heated air circulation desiccator, including heating chamber and drying cylinder, the inside of heating chamber is provided with the blowing machine, and one side of blowing machine installs the frame, the inside of frame is provided with the heater strip, one side of heating chamber is installed and is responsible for, and is responsible for one side and install the branch pipe, the inside of drying cylinder is provided with first swash plate, and the drying cylinder is located one side of branch pipe, the second swash plate is installed to one side of first swash plate, the back flow is installed to one side of drying cylinder, and the rear end of back flow installs the storage tank, the honeycomb duct is installed to the top of storage tank, and installs the separator above the honeycomb duct, the inside of separator is provided with the inner tower, and the outer wall of inner tower is provided with the through-hole, the connecting pipe is installed.

Preferably, the heating chamber is connected with the blowing fans, the blowing fans are symmetrically distributed about a horizontal center line of the heating chamber, the heating chamber is connected with the frame, and the frame is connected with the heating wires.

Preferably, the heating chamber and the drying tank form a communication structure through the matching between the main pipe and the branch pipes, and the branch pipes are uniformly distributed along the vertical center line direction of the main pipe.

Preferably, the drying tank is communicated with the separator through a connecting pipe, and the separator is communicated with the drying tank through a return pipe.

Preferably, first swash plate and second swash plate all along the vertical central line direction evenly distributed of drying drum, and be parallel to each other between the first swash plate, be parallel to each other between the second swash plate.

Preferably, the separator is connected with the inner frame, the through holes are uniformly distributed along the outer wall of the inner frame, and the separator is communicated with the storage tank.

Compared with the prior art, the utility model provides a pair of high temperature heated air circulation desiccator has following beneficial effect:

1. the utility model discloses in, can effectually carry out the thermal treatment to the inside gas of heating chamber through the heater strip, and the blower can effectually provide the motive force for the flow of the inside gas of heating chamber, the symmetric distribution of blower can the effectual effect area of increase wind power, thereby can effectual improvement gaseous flow velocity, can effectually pass through the leading-in to the inside of drying can of branch pipe with gas through being responsible for, make high-temperature gas can effectually carry out the drying process to the object, and the evenly distributed of branch pipe can effectually be handled with the gas reposition of redundant personnel, can effectually carry out the thermal treatment to the different positions of drying can inside, thereby can effectual improvement high-temperature gas to the stoving effect of object.

2. The utility model discloses in, gaseous connecting pipe that can flow through in proper order, the leading-in inside to the drying cylinder of inside of separator and back flow, make gas can obtain cyclic utilization, thereby can effectual reduction heat energy's loss, and can effectual improvement high temperature gas's result of utilization, evenly distributed through first swash plate and second swash plate can effectually delay gaseous flow velocity, and can effectual extension gaseous flow path, make high temperature gas can the efficient carry out drying process to the object, thereby can effectual improvement high temperature gas to the drying effect of object.

3. The utility model discloses in, when the inside of gas flow through the separator, the inner tower can effectually slow down gaseous flow velocity, and the different density of gas and moisture for the moisture that the through-hole can effectual filtration gas carry can be with gas and moisture separation, makes gas can obtain reuse, and can be with the leading-in inside to the storage tank of rivers.

Drawings

FIG. 1 is a schematic view of a high-temperature hot air circulation dryer;

FIG. 2 is a schematic view of an external structure of a high-temperature hot air circulation dryer;

FIG. 3 is a schematic view showing the internal structure of a separator of a high-temperature hot air circulation dryer;

reference numbers in the figures: 1. a heating chamber; 2. a blower; 3. a frame; 4. heating wires; 5. a main pipe; 6. a branch pipe; 7. a drying tank; 8. a first sloping plate; 9. a second swash plate; 10. a return pipe; 11. a storage tank; 12. a flow guide pipe; 13. a separator; 14. an inner frame; 15. a through hole; 16. and (4) connecting the pipes.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3, wherein fig. 1 is a schematic view of a high-temperature hot air circulation dryer; FIG. 2 is a schematic view of an external structure of a high-temperature hot air circulation dryer; fig. 3 is a schematic view of the internal structure of a high-temperature hot air circulation dryer separator. The utility model provides a high temperature heated air circulation desiccator, including heating chamber 1 and drying cylinder 7, the inside of heating chamber 1 is provided with blowing fan 2, and frame 3 is installed to blowing fan 2's one side, the inside of frame 3 is provided with heater strip 4, one side of heating chamber 1 is installed and is responsible for 5, and be responsible for one side of 5 and install branch pipe 6, the inside of drying cylinder 7 is provided with first swash plate 8, and drying cylinder 7 is located one side of branch pipe 6, second swash plate 9 is installed to one side of first swash plate 8, back flow pipe 10 is installed to one side of drying cylinder 7, and the rear end of back flow pipe 10 installs storage tank 11, honeycomb duct 12 is installed to the top of storage tank 11, and separator 13 is installed to honeycomb duct 12 top, the inside of separator 13 is provided with inner frame 14, and the outer wall of inner frame 14 is provided with through-hole 15.

Further, be connected between heating chamber 1 and the blower 2, and all distribute about the horizontal central line symmetric distribution of heating chamber 1 between the blower 2, be connected between heating chamber 1 and the frame 3, and be connected between frame 3 and the heater strip 4, can effectually carry out the thermal treatment to the inside gas of heating chamber 1 through heater strip 4, and blower 2 can effectually provide the motive force for the flow of the inside gas of heating chamber 1, the symmetric distribution of blower 2 can the effectual effect area of increase wind power, thereby can the effectual velocity of flow that improves gas.

Further, the heating chamber 1 constitutes the connectivity structure through the cooperation between being responsible for 5 and the branch pipe 6 and drying can 7, and the branch pipe 6 is along being responsible for 5 vertical central line direction evenly distributed, can effectually pass through leading-in to the inside of drying can 7 of branch pipe 6 with gas through being responsible for 5, make high-temperature gas can effectually carry out drying process to the object, and the evenly distributed of branch pipe 6 can effectually be handled gas shunting, can effectually carry out heat treatment to the different positions of drying can 7 inside, thereby can effectually improve the stoving effect of high-temperature gas to the object.

Further, the drying tank 7 is communicated with the separator 13 through the connecting pipe 16, the separator 13 is communicated with the drying tank 7 through the return pipe 10, and gas can flow through the connecting pipe 16, the separator 13 and the inside of the return pipe 10 in sequence and is led into the inside of the drying tank 7, so that the gas can be recycled, the loss of heat energy can be effectively reduced, and the utilization effect of high-temperature gas can be effectively improved.

Further, first swash plate 8 and second swash plate 9 all follow the vertical central line direction evenly distributed of drying cylinder 7, and are parallel to each other between the first swash plate 8, are parallel to each other between the second swash plate 9, and the flow velocity of gas can effectually be delayed through the evenly distributed of first swash plate 8 and second swash plate 9 to and the flow path that can effectual extension gas, make high temperature gas can the efficient carry out drying process to the object, thereby can effectual improvement high temperature gas to the drying effect of object.

Further, be connected between separator 13 and the interior frame 14, and through-hole 15 is along the outer wall evenly distributed of interior frame 14, is linked together between separator 13 and the storage tank 11, and when gas flow through the inside of separator 13, interior frame 14 can effectually slow down gaseous flow velocity, and the different density of gas and moisture for through-hole 15 can the effectual moisture that filters gaseous carrying, can be with gas and moisture separation, makes gas can obtain recycling, and can be with rivers leading-in to the inside of storage tank 11.

The utility model provides a pair of high temperature heated air circulation desiccator's theory of operation as follows:

starting the blowing fan 2, make the blowing fan 2 leading-in to the inside of being responsible for 5 with the gas of heater strip 4 heating, and branch pipe 6 can be with gas reposition of redundant personnel processing, make high-temperature gas can be effectual carry out the heat treatment to the different positions of drying cylinder 7 inside, then, gas can be at the inside of drying cylinder 7 upstream, at this moment, first swash plate 8 and second swash plate 9 delay the velocity of flow of gas, strengthen the effect time of high-temperature gas to the object, then, gas can be followed the inside of connecting pipe 16 and led-in to the inside of separator 13, at this moment, can be with gas and moisture separation processing, make rivers follow the inside of honeycomb duct 12 and lead-in to storage tank 11, and gas accessible back flow 10 flows back into the inside of drying cylinder 7, make gas can obtain reuse, just so accomplish the theory of operation of the device.

Compared with the prior art, the utility model provides a pair of high temperature heated air circulation desiccator has following beneficial effect:

1. the utility model discloses in, can be effectual carry out the thermal treatment to the inside gas of heating chamber 1 through heater strip 4, and blowing machine 2 can be effectual provides the driving force for the flow of the inside gas of heating chamber 1, the symmetric distribution of blowing machine 2 can the effectual effect area of increase wind power, thereby can the effectual flow velocity who improves gas, can effectually pass through leading-in to the inside of drying chamber 7 of branch pipe 6 with gas through being responsible for 5, make high-temperature gas can effectually carry out the drying process to the object, and the evenly distributed of branch pipe 6 can effectually be handled with the gas reposition of redundant personnel, can effectually carry out the thermal treatment to the different positions of drying chamber 7 inside, thereby can effectual improvement high-temperature gas to the stoving effect of object.

2. The utility model discloses in, gaseous connecting pipe 16 that can flow through in proper order, separator 13 and back flow 10's inside is leading-in to the inside of drying cylinder 7, make gaseous can obtain cyclic utilization, thereby can effectual reduction heat energy's loss, and can effectual improvement high-temperature gas's the utilization effect, evenly distributed through first swash plate 8 and second swash plate 9 can effectually delay gaseous flow velocity, and can effectual extension gaseous flow path, make high-temperature gas can the efficient carry out drying process to the object, thereby can effectual improvement high-temperature gas to the drying effect of object.

3. The utility model discloses in, when the gas stream passed through the inside of separator 13, inner tower 14 can be effectual slows down gaseous flow velocity, and the different density of gas and moisture for the moisture that through-hole 15 can effectual filtration gas carries can be with gas and moisture separation, makes gas can obtain reuse, and can be with the leading-in inside to storage tank 11 of rivers.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.

Claims (6)

1. The utility model provides a high temperature heated air circulation desiccator, includes heating chamber (1) and drying cylinder (7), its characterized in that, the inside of heating chamber (1) is provided with blowing machine (2), and one side of blowing machine (2) installs frame (3), the inside of frame (3) is provided with heater strip (4), the one side of heating chamber (1) is installed and is responsible for (5), and is responsible for one side of (5) and installs branch pipe (6), the inside of drying cylinder (7) is provided with first swash plate (8), and drying cylinder (7) are located one side of branch pipe (6), second swash plate (9) are installed to one side of first swash plate (8), back flow (10) are installed to one side of drying cylinder (7), and back end of back flow (10) installs storage tank (11), honeycomb duct (12) are installed to the top of storage tank (11), and install separator (13) above honeycomb duct (12), the inside of separator (13) is provided with inner tower (14), and the outer wall of inner tower (14) is provided with through-hole (15), connecting pipe (16) are installed to the top of separator (13).

2. A high temperature hot air circulation dryer according to claim 1, characterized in that the heating chamber (1) is connected with the blowing fans (2), the blowing fans (2) are symmetrically distributed about the horizontal center line of the heating chamber (1), the heating chamber (1) is connected with the frame (3), and the frame (3) is connected with the heating wires (4).

3. A high temperature hot air circulation dryer according to claim 2, wherein the heating chamber (1) is communicated with the drying tank (7) by the cooperation between the main pipe (5) and the branch pipes (6), and the branch pipes (6) are uniformly distributed along the vertical center line direction of the main pipe (5).

4. A high temperature hot air circulating dryer according to claim 1, characterized in that the drying tank (7) is connected to the separator (13) through a connecting pipe (16), and the separator (13) is connected to the drying tank (7) through a return pipe (10).

5. A high-temperature hot-air circulation dryer according to claim 4, characterized in that the first inclined plate (8) and the second inclined plate (9) are uniformly distributed along the vertical center line of the drying tank (7), the first inclined plates (8) are parallel to each other, and the second inclined plates (9) are parallel to each other.

6. A high temperature hot air circulation dryer according to claim 1, characterized in that the separator (13) is connected with the inner frame (14), and the through holes (15) are evenly distributed along the outer wall of the inner frame (14), and the separator (13) is communicated with the storage tank (11).

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