CN211373088U

CN211373088U - High-efficient multistage combination formula drying cabinet

Info

Publication number: CN211373088U
Application number: CN201921081669.2U
Authority: CN
Inventors: 杨印; 赵琳琳; 薛瑞红; 郭佳佳; 钱莹
Original assignee: Mengzhou High Tech Public Service Co ltd
Current assignee: Mengzhou High Tech Public Service Co ltd
Priority date: 2019-07-11
Filing date: 2019-07-11
Publication date: 2020-08-28
Anticipated expiration: 2029-07-11

Abstract

The utility model discloses a high-efficiency multistage combined drying box, which comprises a bearing rack, a drying box, a storage device, a heating pipe, an irradiation heating mechanism, a heating plate mechanism, a temperature sensor and a control circuit; the drying box is embedded in the bearing rack and is connected with the inner surface of the bearing rack in a sliding manner through a guide sliding rail, the object placing device is installed at the bottom of the inner surface of the drying box, the heating pipes are respectively arranged on two sides of the inner surface of the drying box, the irradiation heating mechanisms are arranged on the outer surfaces of the heating pipes, and the heating disc mechanisms are arranged on two sides of the object placing device; this novel one side can effectively satisfy with the needs of different grade type material drying operation, very big improvement flexibility and the convenience that equipment used, on the other hand simple structure, it is nimble convenient to use, can effectively simplify the drying cabinet drying equipment structure, when reducing equipment operation energy consumption, effectual improvement is to the drying efficiency of material.

Description

High-efficient multistage combination formula drying cabinet

Technical Field

The utility model belongs to the technical field of the drying cabinet equipment, concretely relates to high-efficient multistage combination formula drying cabinet.

Background

At present, in a plurality of fields such as industrial production, daily life and the like, a drying oven has a very wide application range and a huge using amount, the drying oven is equipment for dehydrating and drying a sample or performing heat treatment on the sample, is common instrument equipment, is mainly used for drying the sample and can also provide a temperature environment required by an experiment, and the drying oven is widely applied to various industries such as chemical industry, medicine, electronics, casting, automobiles, food, machinery and the like; although the requirement of carrying out drying operation to the material can be satisfied, but there is the drying cabinet equipment structure complicacy on the one hand, it is poor to use flexibility and convenience, on the other hand there is drying operation inefficiency, and defect such as equipment operation use energy consumption height, thereby the work efficiency and the cost of drying cabinet equipment operation have seriously been influenced, in addition, the drying cabinet drying equipment's that uses at present commonality relatively is relatively poor, the drying equipment of same structure can't effectively satisfy the dry and application facility needs of different grade type material use, thereby lead to drying cabinet equipment of great variety, use and daily maintenance work are complicated and the cost is relatively higher, consequently to this current situation, need develop a brand-new drying cabinet drying equipment urgently, in order to satisfy the needs of in actual use.

SUMMERY OF THE UTILITY MODEL

To exist not enough on the prior art, the utility model provides a high-efficient multistage combination formula drying cabinet, this novel simple structure, it is nimble convenient to use, and the commonality is good, can effectively satisfy the needs with different grade type material drying operation on the one hand, very big improvement flexibility and the convenience that equipment used, on the other hand simple structure, it is nimble convenient to use, can effectively simplify to drying cabinet drying equipment structure, when reducing equipment operation energy consumption, effectual improvement is to the drying efficiency of material.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an efficient multistage combined drying box comprises a bearing rack, a drying box, an object placing device, a heating pipe, an irradiation heating mechanism, a heating plate mechanism, a temperature sensor and a control circuit; the carrying rack is of a frame structure with the axis vertical to the horizontal plane, at least one drying box is embedded in the carrying rack and is connected with the inner surface of the carrying rack in a sliding mode through a guide sliding rail, the axis of the drying box is distributed in parallel with the axis of the carrying rack, the object placing devices are installed at the bottom of the inner surface of the drying box, the axis of the object placing devices is distributed in parallel with the axis of the drying box, at least two heating pipes are arranged, the heating pipes are respectively arranged on two sides of the inner surface of the drying box, a plurality of irradiation heating mechanisms are arranged on the outer surface of each heating pipe, the irradiation heating mechanisms are uniformly distributed around the axis of each heating pipe, the heating plate mechanisms are arranged at the bottom of the inner surface of the drying box, the heating plate mechanisms are respectively arranged on two sides of the object placing; the article placing device comprises a motor, a rotating shaft and an article placing disc; the drying oven is characterized in that the motor is arranged at the bottom of the inner surface of the drying oven, a rotating shaft is arranged at the output end of the top of the motor and is connected with the motor, at least two object placing discs are arranged on the outer surface of the rotating shaft, the object placing discs are sleeved on the rotating shaft, the axis of each object placing disc and the axis of the rotating shaft are coaxially distributed, and the two adjacent object placing discs are distributed at equal intervals from top to bottom; the heating disc mechanism comprises a rotating motor, a connecting shaft, rotating fan blades and a heating disc; the drying oven comprises at least one rotary motor, wherein the rotary motor is arranged at the bottom of the inner surface of the drying oven, rotary blades are arranged above the rotary motor, the rotary motor is connected to the rotary blades through a connecting shaft, at least two heating plates are arranged, the heating plates are respectively arranged on two sides of the rotary motor and are arranged below the rotary blades, and at least one heating resistance wire is arranged in each heating plate; at least one temperature sensor is embedded in the inner surface of the drying oven, the temperature sensors are uniformly distributed along the axis of the drying oven, the control circuit is mounted on the outer surface of the bearing rack through a chute and is respectively and electrically connected with the temperature sensor, a motor of the object placing device, a heating pipe, an irradiation heating mechanism, a rotating motor of the heating plate mechanism and a heating resistance wire of the heating plate.

Further, the irradiation heating mechanism is any one of an ultrasonic heating device, a far infrared heating device and an electromagnetic heating device.

Furthermore, the irradiation heating mechanisms are all arranged on the heating pipe through a turntable mechanism, the included angle between the axis of the irradiation heating mechanism and the axis of the heating pipe is 0-60 degrees, the irradiation heating mechanism rotates around the axis of the turntable mechanism by 0-360 degrees, and the turntable mechanism is electrically connected with a control circuit.

Furthermore, a plurality of holes are uniformly distributed on the outer surface of the object placing disc, the diameter of each hole is 0.2-5mm, and the total surface of the hole diameter of each hole is 1/10-1/4 of the area of the outer surface of the object placing disc.

Furthermore, the drying box comprises a heating pipe, a heat conduction layer, a heat insulation layer and a drying box wall; the drying box wall cladding is at the heat-conducting layer surface and with the coaxial distribution of heat-conducting layer axis, the heat preservation is located between drying box wall and the heat-conducting layer, and is a plurality of the heating tube connects in parallel and sets up between heat-conducting layer and heat preservation, and the heat-conducting layer surface equipartition has a plurality of heat transfer holes, the heating tube all with control circuit electrical connection.

Further, the aperture of the heat transfer holes is 0.5-13mm, and the total area of the aperture of the heat transfer holes is 1/6-1/2 of the area of the outer surface of the heat conduction layer.

Furthermore, at least one transparent observation window is arranged on one side of the drying box.

Furthermore, the control circuit is an automatic control circuit based on an industrial single chip microcomputer, and a data communication device is additionally arranged on the control circuit.

Adopt above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model provides a high-efficient multistage combination formula drying cabinet, this novel simple structure, the flexible use is convenient, and the commonality is good, can effectively satisfy the needs with the dry operation of different grade type material on the one hand, very big improvement flexibility and convenience that equipment used, on the other hand simple structure, the flexible use is convenient, can effectively simplify the drying cabinet drying equipment structure, when reducing equipment operation energy consumption, effectual improvement is to the drying efficiency of material.

Drawings

Fig. 1 is a schematic structural view of a high-efficiency multistage combined drying box of the present invention;

fig. 2 is a schematic structural diagram of the drying box of the present invention.

Detailed Description

For making the utility model discloses the technological means, creation characteristic, achievement purpose and efficiency that realize are easily understood and are known, combine specific implementation below, further explain the utility model discloses:

therefore, the following detailed description of the embodiments of the present invention, which is provided in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention, and all other embodiments that can be obtained by one of ordinary skill in the art without any inventive effort based on the embodiments of the present invention are within the scope of the invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, and the two elements may be connected through an intermediate medium.

In conjunction with FIG. 1: a high-efficiency multistage combined drying box comprises a bearing rack 1, a drying box 2, a storage device 3, a heating pipe 4, an irradiation heating mechanism 5, a heating disc mechanism 6, a temperature sensor 7 and a control circuit 8; the bearing rack 1 is a frame structure with the axis vertical to the horizontal plane, at least one drying box 2 is embedded in the bearing rack 1 and is connected with the inner surface of the bearing rack 1 in a sliding manner through a guide slide rail 10, the axis of the drying box 2 is distributed in parallel with the axis of the bearing rack 1, the storage device 3 is arranged at the bottom of the inner surface of the drying box 2, the axis of the storage device 3 is distributed in parallel with the axis of the drying box 2, at least two heating pipes 4 are arranged, the heating pipes 4 are respectively arranged at two sides of the inner surface of the drying box 2, a plurality of irradiation heating mechanisms 5 are arranged on the outer surface of each heating pipe 4, each irradiation heating mechanism 5 is uniformly distributed around the axis of each heating pipe 4, the heating plate mechanisms 6 are arranged at the bottom of the inner surface of the drying box 2, and the heating plate mechanisms 6 are, the axis of the heating disc mechanism 6 is parallel to the axis of the object placing device 3; the article placing device 3 comprises a motor 31, a rotating shaft 32 and an article placing disc 33; the motor 31 is arranged at the bottom of the inner surface of the drying box 2, the output end of the top of the motor 31 is provided with a rotating shaft 32, the rotating shaft 32 is connected with the motor 31, at least two object placing discs 33 are arranged, the object placing discs 33 are arranged on the outer surface of the rotating shaft 32, the object placing discs 33 are sleeved on the rotating shaft 32, the axes of the object placing discs 33 and the axis of the rotating shaft 32 are coaxially distributed, and the adjacent two object placing discs 33 are distributed at equal intervals from top to bottom; the heating disc mechanism 6 comprises a rotating motor 61, a connecting shaft 62, rotating fan blades 63 and a heating disc 64; at least one rotating motor 61, the rotating motor 61 is arranged at the bottom of the inner surface of the drying box 2, rotating blades 63 are arranged above the rotating motor 61, the rotating motor 61 is connected to the rotating blades 63 through a connecting shaft 62, at least two heating plates 64 are arranged, the heating plates 64 are respectively arranged on two sides of the rotating motor 61, the heating plates 64 are arranged below the rotating blades 63, and at least one heating resistance wire is arranged in each heating plate 64; the utility model discloses a drying cabinet, including drying cabinet 2, control circuit 8, temperature sensor 7, control circuit 4, radiation heating mechanism 5, heating plate mechanism 6, heating plate 64, the heating resistance wire electrical connection of temperature sensor 7, motor 31, heating pipe 4, radiation heating mechanism 5, heating plate mechanism 6, heating plate mechanism 64, heating device 3, the control circuit is installed at the frame that bears 1 surface of bearing frame through spout 20.

In this embodiment, the irradiation heating mechanism 5 is any one of an ultrasonic heating device, a far-infrared heating device, and an electromagnetic heating device.

In this embodiment, the irradiation heating mechanisms 5 are all mounted on the heating pipe 4 through the turntable mechanism 30, an included angle of 0-60 degrees is formed between the axis of the irradiation heating mechanism 5 and the axis of the heating pipe 4, the irradiation heating mechanism 5 rotates around the axis of the turntable mechanism 30 by an angle of 0-360 degrees, and the turntable mechanism 30 is electrically connected with the control circuit 8.

In this embodiment, the outer surface of the object tray 33 is uniformly provided with a plurality of holes 40, the diameter of each hole 40 is 0.2-5mm, and the total surface of the hole diameters of the holes 40 is 1/10-1/4 of the area of the outer surface of the object tray 33.

In this embodiment, the drying box 2 includes a heating tube 21, a heat conduction layer 22, an insulation layer 23, and a drying box wall 24; the drying box wall 24 is coated on the outer surface of the heat conduction layer 22 and is coaxially distributed with the axis of the heat conduction layer 22, the heat preservation layer 23 is positioned between the drying box wall 24 and the heat conduction layer 22, the heating tubes 21 are arranged between the heat conduction layer 22 and the heat preservation layer 23 in parallel, a plurality of heat transfer holes 25 are uniformly distributed on the outer surface of the heat conduction layer 22, and the heating tubes 21 are all electrically connected with the control circuit 8.

In the embodiment, the aperture of the heat transfer holes 25 is 0.5-13mm, and the total aperture area of the heat transfer holes is 1/6-1/2 of the area of the outer surface of the heat conduction layer.

In this embodiment, at least one transparent observation window 50 is disposed on one side of the drying box 2.

In this embodiment, the control circuit 8 is an automatic control circuit based on an industrial single chip, and the control circuit is additionally provided with a data communication device.

This is novel in the concrete implementation, at first to bearing frame, drying cabinet, putting thing device, heating pipe, irradiation heating mechanism, heating plate mechanism, temperature sensor and control circuit and carry out the equipment connection.

When the drying box is used for drying, firstly, the material to be dried is placed on the placing disc of the placing device, and the rotating shaft is driven by the motor to rotate so that the placing disc rotates, so that the material to be dried on the placing disc can be in full contact with hot air, and the moisture in the material can be evaporated quickly; meanwhile, the heating pipes on the box body of the drying box, the electric heating wires of the heating pipes and the irradiation heating mechanisms are opened at the same time or a plurality of the heating mechanisms are opened to heat, warm and dry the environment in the drying box, so that the drying operation of the materials can be effectively realized, meanwhile, the rotating motor drives the connecting shaft to rotate, so that the rotating fan blades rotate along with the rotating fan blades, the heat emitted by the heating plate is quickly accelerated, and the heat distribution is more uniform; the drying effect is better.

In addition, in the drying operation process, the heating temperature in the drying box can be detected through the temperature sensor, the detected temperature is used as a control signal, and the control circuit regulates and controls the running states and the running efficiency of the electric heating wire of the heating pipe, the irradiation heating mechanism, the heating resistance wire of the heating plate and the heating pipe, so that the aim of accurately regulating and controlling the drying temperature of the drying box is fulfilled, and the working efficiency of the drying operation is improved.

Meanwhile, the working angle and the position of the irradiation heating mechanism are adjusted through the rotary table mechanism, so that convenience, flexibility and universality of the drying equipment during application are improved.

This novel simple structure, it is nimble convenient to use, and the commonality is good, can effectively satisfy the needs with the operation of different grade type material drying operation on the one hand, very big improvement flexibility and the convenience that equipment used, on the other hand simple structure, it is nimble convenient to use, can effectively simplify the drying cabinet drying equipment structure, when reducing equipment operation energy consumption, effectual improvement is to the drying efficiency of material.

The present embodiment is not intended to limit the shape, material, structure, etc. of the present invention in any form, and all of the technical matters of the present invention belong to the protection scope of the present invention to any simple modification, equivalent change and modification made by the above embodiments.

Claims

1. The utility model provides a high-efficient multistage combination formula drying cabinet which characterized in that: comprises a bearing frame, a drying box, a storage device, a heating pipe, an irradiation heating mechanism, a heating disc mechanism, a temperature sensor and a control circuit; the carrying rack is of a frame structure with the axis vertical to the horizontal plane, at least one drying box is embedded in the carrying rack and is connected with the inner surface of the carrying rack in a sliding mode through a guide sliding rail, the axis of the drying box is distributed in parallel with the axis of the carrying rack, the object placing devices are installed at the bottom of the inner surface of the drying box, the axis of the object placing devices is distributed in parallel with the axis of the drying box, at least two heating pipes are arranged, the heating pipes are respectively arranged on two sides of the inner surface of the drying box, a plurality of irradiation heating mechanisms are arranged on the outer surface of each heating pipe, the irradiation heating mechanisms are uniformly distributed around the axis of each heating pipe, the heating plate mechanisms are arranged at the bottom of the inner surface of the drying box, the heating plate mechanisms are respectively arranged on two sides of the object placing; the article placing device comprises a motor, a rotating shaft and an article placing disc; the drying oven is characterized in that the motor is arranged at the bottom of the inner surface of the drying oven, a rotating shaft is arranged at the output end of the top of the motor and is connected with the motor, at least two object placing discs are arranged on the outer surface of the rotating shaft, the object placing discs are sleeved on the rotating shaft, the axis of each object placing disc and the axis of the rotating shaft are coaxially distributed, and the two adjacent object placing discs are distributed at equal intervals from top to bottom; the heating disc mechanism comprises a rotating motor, a connecting shaft, rotating fan blades and a heating disc; the drying oven comprises at least one rotary motor, wherein the rotary motor is arranged at the bottom of the inner surface of the drying oven, rotary blades are arranged above the rotary motor, the rotary motor is connected to the rotary blades through a connecting shaft, at least two heating plates are arranged, the heating plates are respectively arranged on two sides of the rotary motor and are arranged below the rotary blades, and at least one heating resistance wire is arranged in each heating plate; at least one temperature sensor is embedded in the inner surface of the drying oven, the temperature sensors are uniformly distributed along the axis of the drying oven, the control circuit is mounted on the outer surface of the bearing rack through a chute and is respectively and electrically connected with the temperature sensor, a motor of the object placing device, a heating pipe, an irradiation heating mechanism, a rotating motor of the heating plate mechanism and a heating resistance wire of the heating plate.

2. The high efficiency multi-stage combined drying cabinet according to claim 1, wherein: the irradiation heating mechanism is any one of an ultrasonic heating device, a far infrared heating device and an electromagnetic heating device.

3. The high-efficiency multistage combined drying box according to claim 1 or 2, characterized in that: the irradiation heating mechanisms are all installed on the heating pipe through the rotary table mechanism, the included angle between the axis of the irradiation heating mechanism and the axis of the heating pipe is 0-60 degrees, the irradiation heating mechanism rotates around the axis of the rotary table mechanism by 0-360 degrees, and the rotary table mechanism is electrically connected with the control circuit.

4. The high efficiency multi-stage combined drying cabinet according to claim 1, wherein: the outer surface of the object placing disc is uniformly provided with a plurality of holes, the diameter of each hole is 0.2-5mm, and the total surface of the hole diameter of each hole is 1/10-1/4 of the area of the outer surface of the object placing disc.

5. The high efficiency multi-stage combined drying cabinet according to claim 1, wherein: the drying box comprises a heating pipe, a heat conduction layer, a heat insulation layer and a drying box wall; the drying box wall cladding is at the heat-conducting layer surface and with the coaxial distribution of heat-conducting layer axis, the heat preservation is located between drying box wall and the heat-conducting layer, and is a plurality of the heating tube connects in parallel and sets up between heat-conducting layer and heat preservation, and the heat-conducting layer surface equipartition has a plurality of heat transfer holes, the heating tube all with control circuit electrical connection.

6. The efficient multistage combined drying box of claim 5, wherein: the aperture of the heat transfer holes is 0.5-13mm, and the total area of the aperture of the heat transfer holes is 1/6-1/2 of the area of the outer surface of the heat conduction layer.

7. The high efficiency multi-stage combined drying cabinet according to claim 1, wherein: at least one transparent observation window is arranged on one side of the drying box.

8. The high efficiency multi-stage combined drying cabinet according to claim 1, wherein: the control circuit is an automatic control circuit based on an industrial single chip microcomputer, and a data communication device is additionally arranged on the control circuit.