CN221648940U - Ion purification baking dryer - Google Patents

Abstract

The utility model provides an ion purification baking dryer which comprises a shell, wherein two air duct isolation plates are vertically arranged at the inner bottom of the shell, a diaphragm is connected to the top side of each air duct isolation plate, a material bin is formed between each diaphragm and each air duct isolation plate, a plurality of air duct holes are formed in each air duct isolation plate in an array manner, a plurality of material trays are arranged in each material bin, and the two ends of each material tray correspond to the positions of each air duct hole; an air inlet is formed in the top side of the shell, an induced draft fan is arranged on the outer side of the air inlet, an auxiliary heater is arranged on the inner side of the air inlet, an air outlet I and an air outlet II are further formed in the top side of the shell respectively, and an air outlet pipe I communicated with the material bin is arranged in the air outlet I in a penetrating mode. According to the ion purification baking dryer provided by the utility model, hot air in the material bin is circulated through the blower, and the circulated hot air is sterilized and purified through plasma or negative ions generated by the ion electrode, so that the circulated hot air is cleaner, and the processing effect of materials is better.

Description

An ion purification baking and drying machine

Technical Field

The utility model belongs to the technical field of baking and drying, in particular to an ion purification baking and drying machine.

Background Art

Drying and baking are common process steps in material processing, which are common in industries such as food, medicine and chemical production. The drying operation requires the removal of moisture from the material at a specific temperature, while the baking operation is the thermal processing of the material under certain temperature and humidity conditions. Existing material thermal processing equipment often requires the use of separate equipment to dry and bake the material. The function of the device is relatively single. Although some dryers have a baking effect, the processing effect on the material is poor, which affects the quality of the material.

The existing material thermal processing equipment has a poor baking and drying effect on the materials. This solution aims to solve this technical problem.

Utility Model Content

The purpose of the utility model is to provide an ion purification baking and drying machine, which solves the technical problem that the existing equipment has a poor baking and drying effect on materials. The hot air from the material bin is circulated by a blower, and an ion electrode seat is arranged between the blower and the air inlet. The ion electrode seat is provided with an ion electrode connected to an ion generator. The circulating hot air is sterilized and purified by the plasma or negative ions generated by the ion electrode, so that the circulating hot air is cleaner and the material processing effect is better.

An ion purification baking dryer comprises a shell, wherein two air duct isolation plates are vertically arranged at the inner bottom of the shell, and a transverse partition is connected to the top side of the two air duct isolation plates, and a material bin is formed between the transverse partition and the two air duct isolation plates, and the two air duct isolation plates are both provided with a plurality of air duct holes in an array, and a plurality of material trays are arranged in the material bin, and the two ends of the material trays correspond to the positions of the air duct holes respectively;

An air inlet is provided on the top side of the shell, an induced draft fan is provided on the outer side of the air inlet, an auxiliary heater is provided on the inner side of the air inlet, exhaust port 1 and exhaust port 2 are respectively provided on the top side of the shell, exhaust port 1 is provided with exhaust pipe 1 connected to the material bin, exhaust port 2 is provided with exhaust pipe 2, a blower is provided above the transverse partition in the shell, the inlet of the blower is provided on one side of the exhaust port 1, and the outlet of the blower is provided toward the air inlet, an ion generator is provided on the top side of the shell, an ion electrode holder 1 is provided between the blower and the air inlet, an ion electrode connected to the ion generator is provided on the ion electrode holder 1, and a main heater is also provided in the shell.

Two bending plates are vertically fixed on the inner side of the shell, one side of the two bending plates is respectively connected to the shell, and the other side of the bending plates is respectively arranged toward the air duct holes of the air duct isolation plate.

The air inlet is provided with an air guide plate, one end of the air guide plate is connected to the transverse partition, and the other end of the air guide plate is a free end and is arranged toward the main heater.

Flow control valves are arranged inside the exhaust pipe 1 and the exhaust pipe 2.

A rotating frame is arranged in the material bin, a plurality of material trays are arranged on the rotating frame, and a motor connected to the rotating frame is arranged at the bottom of the shell.

An ion electrode seat 2 is arranged in the material bin, and an ion electrode connected to the ion generator is also arranged on the ion electrode seat 2.

The ion generator is a plasma generator or a negative ion generator.

The bottom of the shell is provided with legs with adjustable height.

Compared with the prior art, the beneficial effects of the utility model are:

(1) A blower is arranged in the shell, the inlet of the blower is arranged on one side of the exhaust port 1, and the outlet of the blower is arranged toward the air inlet. The hot air from the material bin is circulated by the blower. An ion electrode seat 1 is arranged between the blower and the air inlet. An ion electrode connected to an ion generator is arranged on the ion electrode seat 1. The circulating hot air is sterilized and purified by the plasma or negative ions generated by the ion electrode, so that the circulating hot air is cleaner and the material processing effect is better.

(2) Two bent plates are vertically fixed on the inner side of the shell, one side of the two bent plates is connected to the shell respectively, and the other side of the bent plates is arranged toward the air duct holes of the air duct isolation plate respectively. The arrangement of the bent plates makes the hot air in and out of the material bin more uniform, further improving the material processing effect;

(3) Flow control valves are installed inside the exhaust pipe 1 and the exhaust pipe 2. The flow control valves are used to control the amount of hot air discharged from the outside, thereby further controlling the amount of hot air circulating in the material bin, making the flow control of hot air more convenient;

(4) An ion electrode seat 2 is provided in the material bin, and an ion electrode connected to an ion generator is also provided on the ion electrode seat 2. The plasma or negative ions generated by the electrode are used to sterilize and purify the material bin, thereby further improving the processing effect of the material.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the internal cross-sectional structure of the first embodiment of the present utility model.

FIG. 2 is a schematic diagram of the internal elevation structure of the first embodiment of the present utility model.

FIG3 is a schematic diagram of the operating state of the first embodiment of the utility model.

FIG. 4 is a schematic diagram of the internal cross-sectional structure of the second embodiment of the present utility model.

FIG. 5 is a schematic diagram of the internal elevation structure of the second embodiment of the present utility model.

Among them, in the figure: 1. Shell; 11. Exhaust duct 1; 12. Exhaust duct 2; 13. Air guide plate; 14. Leg; 2. Material bin; 21. Air duct isolation plate; 22. Transverse partition; 23. Air duct hole; 24. Rotating frame; 25. Motor; 3. Material tray; 4. Draft fan; 5. Auxiliary heater; 6. Blower; 7. Ion generator; 71. Ion electrode seat 1; 72. Ion electrode seat 2; 8. Main heater; 9. Bending plate.

DETAILED DESCRIPTION

In order to more clearly illustrate the technical features of this solution, this solution is described below through specific implementation methods.

Referring to FIGS. 1 to 5 , an ion purification baking and drying machine comprises a shell 1, two air duct isolation plates 21 are vertically arranged at the inner bottom of the shell 1, a transverse partition 22 is connected to the top side of the two air duct isolation plates 21, a material bin 2 is formed between the transverse partition 22 and the two air duct isolation plates 21, a plurality of air duct holes 23 are arranged in an array on the two air duct isolation plates 21, a plurality of material trays 3 are arranged in the material bin 2, and the two ends of the material tray 3 correspond to the positions of the air duct holes 23 respectively;

An air inlet is provided on the top side of the shell 1, an induced draft fan 4 is provided on the outside of the air inlet, an auxiliary heater 5 is provided on the inside of the air inlet, an exhaust port 1 and an exhaust port 2 are also provided on the top side of the shell 1, an exhaust pipe 11 connected to the material bin 2 is provided in the exhaust port 1, an exhaust pipe 2 12 is provided in the exhaust port 2, a blower 6 is provided above the transverse partition 22 in the shell 1, the inlet of the blower 6 is provided on one side of the exhaust port 1, and the outlet of the blower 6 is provided toward the air inlet, an ion generator 7 is provided on the top side of the shell 1, an ion electrode holder 71 is provided between the blower 6 and the air inlet, an ion electrode connected to the ion generator 7 is provided on the ion electrode holder 71, and a main heater 8 is also provided in the shell 1.

Two bent plates 9 are vertically fixed to the inner side of the shell 1 , one side of the two bent plates 9 is respectively connected to the shell 1 , and the other side of the two bent plates 9 is respectively arranged toward the air duct holes 23 of the air duct isolation plate 21 .

The air inlet is provided with an air guide plate 13 , one end of the air guide plate 13 is connected to the transverse partition 22 , and the other end of the air guide plate 13 is a free end and is arranged toward the main heater 8 .

Flow control valves are provided inside the exhaust pipe 1 1 and the exhaust pipe 2 12 .

An ion electrode holder 72 is provided in the material bin 2 , and an ion electrode connected to the ion generator 7 is also provided on the ion electrode holder 72 .

The ion generator 7 is a plasma generator or a negative ion generator, and the plasma or negative ions generated by the ion generator 7 are used to sterilize and purify the hot air.

The bottom of the housing 1 is provided with a height-adjustable support leg 14 .

The shell 1 is a well-sealed cavity, and is provided with an openable and closable operating door. Materials can be placed into the material tray 3 of the material bin 2 by opening the operating door.

The specific working process of this utility model:

When in use, the operating door is opened, the material is placed on the material tray 3 in the material bin 2, the shell 1 is closed, and the shell 1 is in a sealed state, and then the induced draft fan 4 is started to introduce external air into the shell 1 through the air inlet, and the air is heated by the auxiliary heater 5, so that the air becomes hot air. After the hot air is heated again by the main heater 8, it flows through the bending plate 9, and the hot air is evenly distributed to the air duct holes 23 of the air duct isolation plate 21 through the bending plate 9, and is blown to the corresponding material tray 3 by the air duct to heat the material on the material tray 3;

After the material is heated, the hot air takes away the moisture in the material, and a part of the hot air is discharged outside the shell 1 through the exhaust pipe 12 of the material bin 2, and the amount of hot air discharged is controlled by the flow control valve of the exhaust pipe 12, and the other part flows through the exhaust pipe 11, and the amount of hot air discharged through the exhaust pipe 11 is controlled by controlling the flow control valve of the exhaust pipe 11. Finally, the remaining part of the hot air passes through the blower 6 and is discharged by the blower 6, and then is sterilized by the negative ions or plasma generated by the ion electrode of the ion generator 7, and then is mixed with the hot air introduced by the induced draft fan 4 at the air inlet. The mixed hot air enters the main heater 8 for heating, and then enters the material bin 2 to heat the material on the material tray 3 again. The ion electrode in the material bin 2 can also sterilize the material, so that the quality of the material is better.

By controlling the flow control valves of exhaust duct 1 11 and exhaust duct 2 12, the amount of circulating hot air can be adjusted. Since the hot air passing through the material bin 2 will take away moisture, the drying and baking states of the material during heating can be adjusted by controlling the flow control valves, so that the processing effect of the material is better and the adjustment and control are more convenient.

Embodiment 2: Based on Embodiment 1, see Figures 4 and 5 for details. A rotating frame 24 is provided in the material bin 2, and several material trays 3 are arranged on the rotating frame 24. A motor 25 connected to the rotating frame 24 is provided at the bottom of the shell 1.

The rotating frame 24 is driven to rotate by the motor 25, and the rotating frame 24 drives the material tray 3 to rotate, so that the drying and baking of the material in the material tray 3 are more uniform, and the quality of material processing is further improved.

Technical features not described in the present invention can be achieved through or by adopting existing technologies, and will not be elaborated here. Of course, the above description is not a limitation of the present invention, and the present invention is not limited to the above examples. Changes, modifications, additions or substitutions made by ordinary technicians in this technical field within the essential scope of the present invention should also fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides an ion purification baking dryer, includes casing (1), its characterized in that, the interior bottom of casing (1) is provided with two wind channel division boards (21) vertically, and two the top side of wind channel division board (21) is connected with diaphragm (22), diaphragm (22) and two form material storehouse (2) between wind channel division board (21), two wind channel division board (21) are all arrayed and are offered a plurality of wind channel holes (23), be provided with a plurality of material trays (3) in material storehouse (2), the both ends of material tray (3) respectively with the position correspondence of wind channel hole (23);

The utility model discloses a drying machine, including casing (1), air intake has been seted up to the top side of casing (1), the outside of air intake is provided with draught fan (4), the inboard of air intake is provided with auxiliary heater (5), the top side of casing (1) still is provided with air exit one and air exit two respectively, wear to be equipped with in the air exit one with exhaust pipe one (11) of material storehouse (2) intercommunication, be provided with exhaust pipe two (12) in the air exit two, in casing (1) in diaphragm (22) top is provided with air-blower (6), the entry setting of air-blower (6) is in one side position of air exit one, the export orientation of air-blower (6) the air intake sets up, the top side of casing (1) is provided with ionizer (7), air-blower (6) with be provided with between the air intake ion electrode seat one (71), be provided with on the ion electrode seat one (71) with the ion electrode that ionizer (7) are connected, still be provided with in casing (1) heater (8).

2. The ion purification baking dryer according to claim 1, wherein two bending plates (9) are vertically fixed on the inner side of the housing (1), one sides of the two bending plates (9) are respectively connected with the housing (1), and the other sides of the bending plates (9) are respectively arranged towards air duct holes (23) of the air duct isolation plates (21).

3. The ion purification baking dryer according to claim 2, characterized in that the air inlet is provided with an air deflector (13), one end of the air deflector (13) is connected with the diaphragm (22), and the other end of the air deflector (13) is a free end and is arranged towards the main heater (8).

4. The ion cleaning baking dryer according to claim 3, wherein the exhaust pipe I (11) and the exhaust pipe II (12) are provided with flow control valves.

5. The ion purification baking dryer according to claim 4, wherein a rotating frame (24) is arranged in the material bin (2), a plurality of material trays (3) are arranged on the rotating frame (24), and a motor (25) connected with the rotating frame (24) is arranged at the bottom of the shell (1).

6. The ion purifying baking dryer according to claim 4, wherein the material bin (2) is internally provided with a second ion electrode seat (72), and the second ion electrode seat (72) is also provided with an ion electrode connected with the ion generator (7).

7. The ion cleaning baking dryer according to claim 6, characterized in that the ion generator (7) is a plasma generator or a negative ion generator.

8. The ion purifying baking dryer according to claim 4, characterized in that the bottom of the housing (1) is provided with height-adjustable legs (14).