CN213514694U - High-efficient constant temperature drying cabinet - Google Patents

Abstract

The utility model discloses a high-efficient constant temperature drying cabinet, include: the device comprises a shell, a box body, a heat preservation filling layer, an upper drying laminate, a lower drying laminate, a first heat conduction unit, a second heat conduction unit, an exhaust pipeline, a dehumidifier, a heater and a gas transmission pipeline. In this way, the utility model relates to a high-efficient constant temperature drying cabinet not only can be through the transport of gas transmission pipeline memorability dry hot-air, but also add on the plywood and established heat conduction structure for heat distribution is more even, improves drying effect, can also cyclic utilization heat, and is energy-concerving and environment-protective.

Description

High-efficient constant temperature drying cabinet

Technical Field

The utility model relates to a drying equipment field especially relates to a high-efficient constant temperature drying cabinet.

Background

A dryer is a mechanical device that uses heat to evaporate moisture (generally, moisture or other volatile liquid components) in a material to obtain a solid material with a specified moisture content, and is a mechanical device for drying the material.

However, the existing drying equipment has high energy consumption, uneven heat conduction and poor drying effect.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a high-efficient constant temperature drying cabinet, has advantages such as reliable performance height, excellent in use effect, compact structure, has extensive market prospect in drying equipment's application and popularization simultaneously.

In order to solve the technical problem, the utility model discloses a technical scheme be:

provided is a high-efficiency constant-temperature drying oven, which comprises: a shell, a box body, a heat preservation filling layer, an upper drying laminate, a lower drying laminate, a first heat conduction unit, a second heat conduction unit, an exhaust pipeline, a dehumidifier, a heater and a gas transmission pipeline,

the box body is arranged in the shell, the heat-preservation filling layer is arranged between the shell and the box body, one end of the exhaust pipeline is communicated with the box body, the other end of the exhaust pipeline is sequentially connected with the dehumidifier and the heater, one end of the gas pipeline is connected with the heater, the other end of the gas pipeline is provided with a plurality of gas transmission ports, the gas transmission ports extend into the box body, the upper drying laminate and the lower drying laminate are movably arranged in the box body, the upper drying laminate is arranged above the lower drying laminate, the upper drying laminate and the lower drying laminate are provided with separation frames for separating the laminates, each section is provided with a positioning groove for fixing a product, the upper drying laminate is provided with the first heat conduction unit, and the lower drying laminate is provided with the second heat conduction unit,

the first heat conducting unit comprises a first heat inlet and outlet, a first heat conducting channel and a first heat conducting and outlet, the first heat inlet and outlet is arranged on the bottom surface of the upper drying laminate, the first heat conducting and outlet is arranged on two side walls of the separation frame on the upper drying laminate, one end of the first heat conducting channel is communicated with the first heat inlet and outlet, the other end of the first heat conducting channel is communicated with the first heat conducting and outlet,

the second heat conduction unit comprises a second heat inlet guide port, a second heat conduction channel and a second heat conduction guide port, the second heat inlet guide port is arranged on the bottom surface of the lower drying laminate, the second heat conduction guide port is arranged on the top surface of the separation frame on the lower drying laminate, one end of the second heat conduction channel is communicated with the second heat inlet guide port, and the other end of the second heat conduction channel is communicated with the second heat conduction guide port.

In a preferred embodiment of the present invention, the thermal insulation filling layer is made of one of sponge, foam board, and glass fiber.

In a preferred embodiment of the present invention, the fan is disposed at the junction of the box body and the exhaust duct.

In a preferred embodiment of the present invention, the fan is disposed on the exhaust duct.

In a preferred embodiment of the present invention, a blower is built in the dehumidifier.

In a preferred embodiment of the present invention, the gas transmission port passes through the bottom surface of the box body and the lower portion of the side wall of the box body, and extends into the box body.

In a preferred embodiment of the present invention, the first heat inlet is an inverted funnel-shaped structure.

In a preferred embodiment of the present invention, the first heat transfer guide port has a funnel-shaped structure.

In a preferred embodiment of the present invention, the second heat inlet is funnel-shaped.

In a preferred embodiment of the present invention, the second heat transfer guide port has a funnel-shaped structure.

The utility model has the advantages that: not only can be through the transport of gas transmission pipeline remembering dry hot-air, but also add on the plywood and established heat conduction structure for heat distribution is more even, improves drying effect, can also cyclic utilization heat, and is energy-concerving and environment-protective.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural view of a preferred embodiment of the high-efficiency constant-temperature drying oven of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention includes:

the utility model provides a high-efficient constant temperature drying cabinet, its structure includes: the heat insulation and dehumidification system comprises a shell 1, a box body 2, a heat insulation filling layer, an upper drying laminate 3, a lower drying laminate 4, a first heat conduction unit, a second heat conduction unit, an exhaust pipeline 5, a fan 6, a dehumidifier 7, a heater 8 and a gas transmission pipeline 9.

The box set up in the shell, the heat preservation filling layer set up in the shell with between the box, the heat preservation filling layer can adopt multiple heat preservation thermal insulation material such as sponge, cystosepiment, glass fiber to make, can effectually prevent the heat loss in the box, improves drying efficiency.

One end of the exhaust pipeline is communicated with the top surface of the box body, the other end of the exhaust pipeline is sequentially connected with the dehumidifier and the heater, and the fan can be arranged at the joint of the box body and the exhaust pipe, can also be directly arranged on the exhaust pipe and can also be arranged in the dehumidifier.

When the drying, the steam that the hot-air can take the evaporation to go up the motion, and dehumidify in outwards being taken out to the dehumidifier by the fan, the air after the dehumidification still has certain temperature, at this moment, heat the box of discharging into again after going into the air input heater in, so on the one hand can accelerate air cycle, discharge steam as early as possible, improve drying efficiency, on the other hand, the waste heat of the air after the dehumidification of utilization that can be abundant, reduce energy consumption, improve heating efficiency, can also cyclic utilization air, and is more energy-concerving and environment-protective.

One end of the air transmission pipeline is connected with the heater, the other end of the air transmission pipeline is provided with a plurality of air transmission ports, and the air transmission ports penetrate through the bottom surface of the box body and the lower part of the side wall of the box body, so that the air transmission ports extend into the box body, dry hot air can be provided from a plurality of angles, and the moving path of the hot air can be prolonged due to the fact that the hot air can naturally rise, so that the hot air and a dried object can have a longer-time contact reaction, the drying efficiency is further improved, and the energy consumption is reduced.

The upper drying laminate and the lower drying laminate are movably arranged in the box body, the upper drying laminate is arranged above the lower drying laminate, a separation frame 16 for separating the laminates is arranged on the upper drying laminate and the lower drying laminate, and a positioning groove for fixing a product is arranged in each interval.

The upper drying laminate is provided with the first heat conduction unit, and the lower drying laminate is provided with the second heat conduction unit.

The first heat conduction unit comprises a first heat inlet conduction port 10, a first heat conduction channel 11 and a first heat conduction port 12, the first heat inlet conduction port is arranged on the bottom surface of the upper drying laminate, the first heat conduction port is arranged on two side walls of the separation frame on the upper drying laminate, one end of the first heat conduction channel is communicated with the first heat inlet conduction port, and the other end of the first heat conduction channel is communicated with the first heat conduction port.

First advance heat and lead mouthful for the funnel shape structure of falling, convenient timely, the dry hot-air is inhaled to the efficient, makes things convenient for the hot-air to upwards leading-in, just first heat transfer leads mouthful to be infundibulate structure, makes things convenient for hot-air lateral diffusion, further improves the drying efficiency of upper material.

The second heat conduction unit comprises a second heat inlet 13, a second heat conduction channel 14 and a second heat transfer inlet 15, the second heat inlet is arranged on the bottom surface of the lower drying laminate, the second heat transfer inlet is arranged on the top surface of the separation frame on the lower drying laminate, one end of the second heat conduction channel is communicated with the second heat inlet, and the other end of the second heat conduction channel is communicated with the second heat transfer inlet.

The second advances hot guide mouth is the infundibulate structure, and convenient timely, the dry hot-air of efficient suction makes things convenient for the hot-air to upwards leading-in, because the dry plywood of lower floor is heated most, so the second conducts heat and leads the mouth also to be the infundibulate structure, makes things convenient for the hot-air upwards to spread for being heated of two upper and lower plywoods is more even, prevents down that the plywood directly blocks all hot-air, further improves the drying efficiency of material.

The utility model relates to a high-efficient constant temperature drying cabinet's beneficial effect is: not only can be through the transport of gas transmission pipeline remembering dry hot-air, but also add on the plywood and established heat conduction structure for heat distribution is more even, improves drying effect, can also cyclic utilization heat, and is energy-concerving and environment-protective.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a high-efficient constant temperature drying cabinet which characterized in that includes: a shell, a box body, a heat preservation filling layer, an upper drying laminate, a lower drying laminate, a first heat conduction unit, a second heat conduction unit, an exhaust pipeline, a dehumidifier, a heater and a gas transmission pipeline,

the box body is arranged in the shell, the heat-preservation filling layer is arranged between the shell and the box body, one end of the exhaust pipeline is communicated with the box body, the other end of the exhaust pipeline is sequentially connected with the dehumidifier and the heater, one end of the gas pipeline is connected with the heater, the other end of the gas pipeline is provided with a plurality of gas transmission ports, the gas transmission ports extend into the box body, the upper drying laminate and the lower drying laminate are movably arranged in the box body, the upper drying laminate is arranged above the lower drying laminate, the upper drying laminate and the lower drying laminate are provided with separation frames for separating the laminates, each section is provided with a positioning groove for fixing a product, the upper drying laminate is provided with the first heat conduction unit, and the lower drying laminate is provided with the second heat conduction unit,

the first heat conducting unit comprises a first heat inlet and outlet, a first heat conducting channel and a first heat conducting and outlet, the first heat inlet and outlet is arranged on the bottom surface of the upper drying laminate, the first heat conducting and outlet is arranged on two side walls of the separation frame on the upper drying laminate, one end of the first heat conducting channel is communicated with the first heat inlet and outlet, the other end of the first heat conducting channel is communicated with the first heat conducting and outlet,

the second heat conduction unit comprises a second heat inlet guide port, a second heat conduction channel and a second heat conduction guide port, the second heat inlet guide port is arranged on the bottom surface of the lower drying laminate, the second heat conduction guide port is arranged on the top surface of the separation frame on the lower drying laminate, one end of the second heat conduction channel is communicated with the second heat inlet guide port, and the other end of the second heat conduction channel is communicated with the second heat conduction guide port.

2. The drying oven as claimed in claim 1, wherein the insulating filling layer is made of one of sponge, foam board and glass fiber.

3. The drying cabinet as claimed in claim 1, wherein the blower is disposed at the junction of the cabinet and the exhaust duct.

4. The drying cabinet as claimed in claim 1, wherein the fan is disposed on the exhaust duct.

5. The drying cabinet as claimed in claim 1, wherein a blower is built in the dehumidifier.

6. The drying cabinet as claimed in claim 1, wherein the air delivery port passes through a bottom surface of the cabinet and a lower portion of a sidewall of the cabinet and extends into the cabinet.

7. The box of claim 1, wherein the first inlet is of inverted funnel shape.

8. A high efficiency thermostatic drying cabinet according to claim 1 wherein the first heat transfer guide port is funnel shaped.

9. The drying cabinet as claimed in claim 1, wherein the second inlet is funnel-shaped.

10. A high efficiency thermostatic drying cabinet according to claim 1 wherein the second heat transfer guide port is funnel shaped.

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