CN216910901U - High-speed aluminum foil infrared radiation drying device - Google Patents

Abstract

The utility model relates to the field of aluminum foil drying devices, and discloses a high-speed aluminum foil infrared radiation drying device, aiming at the problems of high efficiency and high energy consumption of aluminum foil coating drying in the prior art, the high-speed aluminum foil infrared radiation drying device comprises a drying box, wherein a feeding port and a discharging port are respectively formed in two sides of the drying box, a heat-insulating cover is fixed on the outer wall of the drying box, rock wool heat-insulating materials are filled between the heat-insulating cover and the drying box, mounting seats are respectively arranged on the inner wall of the top of the drying box and the inner wall of the bottom of the drying box, a plurality of far infrared quartz tubes are respectively arranged on one side, opposite to the two mounting seats, of each mounting seat, and an air outlet is formed in the top of the drying box. The aluminum foil surface coating drying device is reasonable in structure, ingenious in design and simple to operate, effectively improves the drying efficiency of the aluminum foil surface coating, saves energy consumption, and is easy to popularize and use.

Description

High-speed aluminum foil infrared radiation drying device

Technical Field

The utility model relates to the field of aluminum foil drying devices, in particular to a high-speed aluminum foil infrared radiation drying device.

Background

The aluminum foil is a common metal material in daily life, and a layer of coating is sprayed on the surface of the aluminum foil in the process of producing the aluminum foil, so that the performance of the aluminum foil is improved. In order to accelerate the fixation speed of the aluminum foil surface coating, a drying device is generally used to dry the aluminum foil.

At present, the aluminum foil coating is dried by adopting a heated air circulation mode, so that the problems of high energy consumption, large heat loss, low production efficiency and the like are caused, and therefore, the high-speed aluminum foil infrared radiation drying device is designed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high-speed aluminum foil infrared radiation drying device, which solves the problems of high efficiency, low efficiency and high energy consumption of aluminum foil coating drying in the prior art.

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

a high-speed aluminum foil infrared radiation drying device comprises a drying box, wherein a feed inlet and a discharge outlet are respectively formed in two sides of the drying box, a heat-insulating cover is fixed on the outer wall of the drying box, rock wool heat-insulating materials are filled between the heat-insulating cover and the drying box, mounting seats are respectively installed on the inner wall of the top part and the inner wall of the bottom part of the drying box, a plurality of far infrared quartz tubes are respectively installed on one opposite sides of the two mounting seats, a vent hole is formed in the top part of the drying box, a fixing frame is installed at the top part of the vent hole, a motor is installed in the fixing frame, a transmission shaft is fixed at one end of an output shaft of the motor, a plurality of fan blades are installed outside the transmission shaft, a rotating shaft is fixedly connected to the inside of the drying box, the rotating shaft is in transmission connection with one end, located in the drying box, of the transmission shaft, fan plates are hinged to the inner walls of two sides of the drying box, and two ends of the rotating shaft are respectively connected with the two fan plates through a linkage mechanism, when the rotating shaft rotates, the two fan plates are driven to fan up and down.

Preferably, two electric telescopic handle is all installed to the one side that the mount pad was kept away from each other, electric telescopic handle's extension end and mount pad rigid coupling, electric telescopic handle's stiff end and the inner wall rigid coupling of stoving case.

Preferably, a driving bevel gear is fixed at one end of the transmission shaft, which is located inside the drying box, and a driven bevel gear meshed with the driving bevel gear is sleeved outside the rotating shaft.

Preferably, the linkage mechanism comprises a rotating wheel fixed at one end of the rotating shaft and a connecting rod hinged at one side of the rotating wheel and deviating from the circle center, and the other end of the connecting rod is hinged with the top surface of the fan plate through a connecting piece.

Preferably, the connecting piece comprises a loop bar fixedly connected to the top surface of the fan plate and a sliding sleeve movably sleeved outside the loop bar, and the other end of the connecting rod is hinged to the outside of the sliding sleeve.

Preferably, the loop bar is arranged in parallel with the top surface of the fan plate.

Preferably, the drying box is made of a stainless steel plate, and a layer of organic silicon aluminum powder paint is coated on the inner wall of the drying box.

In the utility model:

1. the front and back sides of the aluminum foil are heated respectively by adopting the upper layer far infrared quartz tube and the lower layer far infrared quartz tube for radiation heating, so that the drying efficiency of the aluminum foil is effectively improved, the heat loss in the drying box can be effectively avoided by arranging the heat-insulating cover and the rock wool heat-insulating material, and the distance between the far infrared quartz tube and the aluminum foil can be conveniently adjusted by arranging the electric telescopic rod;

2. through the cooperation between motor, transmission shaft, flabellum, pivot, link gear and the fan board, can accelerate the circulation of the inside air of stoving case to aluminium foil surface coating's stoving speed has been accelerated.

The aluminum foil surface coating drying device is reasonable in structure, ingenious in design and simple in operation, effectively improves the drying efficiency of the aluminum foil surface coating, saves energy consumption, and is easy to popularize and use.

Drawings

Fig. 1 is a front cross-sectional view of the present invention.

Fig. 2 is a left side cross-sectional view of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Reference numbers in the figures: 1. a drying box; 2. a heat-preserving cover; 3. rock wool heat insulation material; 4. a fixing frame; 5. a motor; 6. a drive shaft; 7. a fan blade; 8. a drive bevel gear; 9. a driven bevel gear; 10. a rotating wheel; 11. an electric telescopic rod; 12. a connecting rod; 13. a mounting seat; 14. a fan plate; 15. a rotating shaft; 16. a loop bar; 17. and (4) a sliding sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, the high-speed aluminum foil infrared radiation drying device comprises a drying box 1, wherein a feed inlet and a discharge outlet are respectively formed in two sides of the drying box 1, a heat-insulating cover 2 is fixed on the outer wall of the drying box 1, rock wool heat-insulating materials 3 are filled between the heat-insulating cover 2 and the drying box 1, and the heat in the drying box 1 can be effectively prevented from dissipating through the arrangement of the heat-insulating cover 2 and the rock wool heat-insulating materials;

the inner walls of the top and the bottom of the drying box 1 are respectively provided with an installation seat 13, one side of each of the two installation seats 13, which is opposite to each other, is provided with a plurality of far infrared quartz tubes, the drying box 1 is made of a stainless steel plate, the inner wall of the drying box 1 is coated with a layer of organic silicon aluminum powder paint, and the organic silicon aluminum powder paint can effectively prevent radiation of the far infrared quartz tubes from overflowing;

the electric telescopic rods 11 are mounted on the sides, far away from each other, of the two mounting seats 13, the extending ends of the electric telescopic rods 11 are fixedly connected with the mounting seats 13, the fixed ends of the electric telescopic rods 11 are fixedly connected with the inner wall of the drying box 1, and the distance between the two mounting seats 13 is adjusted through the stretching of the electric telescopic rods 11, so that the distance between the far infrared quartz tubes and the aluminum foil can be adjusted, and the drying speed and the drying effect are controlled;

the top of the drying box 1 is provided with an air outlet, the top of the air outlet is provided with a fixed frame 4, a motor 5 is installed in the fixed frame 4, one end of an output shaft of the motor 5 is fixed with a transmission shaft 6, a plurality of fan blades 7 are installed outside the transmission shaft 6, the top of the fixed frame 4 is provided with an opening, a protective screen is installed in the opening, and the fan blades 7 are driven by the motor 5 to rotate, so that water vapor in the drying box 1 is discharged to the outside of the drying box 1;

a rotating shaft 15 is fixedly connected inside the drying box 1, the rotating shaft 15 is in transmission connection with one end, located inside the drying box 1, of the transmission shaft 6, a driving bevel gear 8 is fixed at one end, located inside the drying box 1, of the transmission shaft 6, a driven bevel gear 9 meshed with the driving bevel gear 8 is sleeved outside the rotating shaft 15, and the rotating shaft 15 can be driven to rotate by the rotation of the transmission shaft 6 through the meshing between the driving bevel gear 8 and the driven bevel gear 9;

the inner walls of two sides of the drying box 1 are hinged with fan plates 14, two ends of a rotating shaft 15 are respectively connected with the two fan plates 14 through a linkage mechanism, wherein when the rotating shaft 15 rotates, the two fan plates 14 are driven to fan up and down, the linkage mechanism comprises a rotating wheel 10 fixed at one end of the rotating shaft 15 and a connecting rod 12 hinged at one side of the rotating wheel 10 and deviating from the circle center, the other end of the connecting rod 12 is hinged with the top surface of the fan plates 14 through a connecting piece, the connecting piece comprises a sleeve rod 16 fixedly connected with the top surface of the fan plates 14 and a sliding sleeve 17 movably sleeved outside the sleeve rod 16, the other end of the connecting rod 12 is hinged with the outside of the sliding sleeve 17, the sleeve rod 16 is arranged in parallel with the top surface of the fan plates 14, when the rotating shaft 15 rotates, the rotating wheel 10 rotates to drive the connecting rod 12 to move up and down, the connecting rod 12 moves up and down to drive the sliding sleeve 17 to move up and down, and the sliding sleeve 17 can slide along the sleeve rod 16 in the process of the up and down movement, thereby enabling the fan plate 14 to fan up and down, and further achieving the purpose of accelerating the air circulation in the drying box 1.

The working principle is as follows: when the materials are dried, the aluminum foil is input into the drying box 1 from the feed inlet, then the aluminum foil passes through the two mounting seats 13 and then is output from the discharge outlet, when the aluminum foil passes through the drying box 1, the far infrared quartz tube is started, the motor 5 is started at the same time, the far infrared quartz tube carries out radiant heating on the front and back surfaces of the aluminum foil, the motor 5 drives the transmission shaft 6 to rotate when rotating, thereby the fan blades 7 are rotated, at the same time, the transmission shaft 6 rotates to drive the rotating shaft 15 to rotate, the rotating shaft 15 drives the two rotating wheels 10 to rotate, after the two rotating wheels 10 rotate, the linkage mechanism works, so that the two fan plates 14 are fanned up and down along with the rotation of the two wheels 10, thereby accelerating the circulation of air in the drying box 1, and further, the drying speed of the coating on the surface of the aluminum foil is accelerated, and water vapor generated after drying is exhausted to the outside of the drying box 1 from the air outlet hole through the suction of the fan blades.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. The high-speed aluminum foil infrared radiation drying device comprises a drying box (1) and is characterized in that a feeding port and a discharging port are respectively formed in two sides of the drying box (1), a heat-insulating cover (2) is fixed on the outer wall of the drying box (1), rock wool heat-insulating materials (3) are filled between the heat-insulating cover (2) and the drying box (1), mounting seats (13) are respectively installed on the inner wall of the top and the inner wall of the bottom of the drying box (1), a plurality of far infrared quartz tubes are respectively installed on one opposite sides of the two mounting seats (13), an air outlet is formed in the top of the drying box (1), a fixed frame (4) is installed at the top of the air outlet, a motor (5) is installed in the fixed frame (4), a transmission shaft (6) is fixed at one end of an output shaft of the motor (5), and a plurality of fan blades (7) are installed outside the transmission shaft (6), the inside of stoving case (1) is changeed and is connected with pivot (15), and pivot (15) are connected with the one end transmission that transmission shaft (6) are located stoving case (1), all articulate on the both sides inner wall of stoving case (1) has fan board (14), the both ends of pivot (15) are connected through link gear respectively with between two fan boards (14), and wherein, when pivot (15) rotate, the fan moves about two fan boards (14) of drive.

2. The high-speed aluminum foil infrared radiation drying device as claimed in claim 1, wherein an electric telescopic rod (11) is installed on one side of each of the two installation seats (13) far away from each other, the extending end of the electric telescopic rod (11) is fixedly connected with the installation seat (13), and the fixed end of the electric telescopic rod (11) is fixedly connected with the inner wall of the drying box (1).

3. The high-speed aluminum foil infrared radiation drying device as claimed in claim 1, wherein a driving bevel gear (8) is fixed at one end of the transmission shaft (6) located inside the drying box (1), and a driven bevel gear (9) meshed with the driving bevel gear (8) is sleeved outside the rotating shaft (15).

4. The high-speed aluminum foil infrared radiation drying device as claimed in claim 1, wherein the linkage mechanism comprises a rotating wheel (10) fixed at one end of a rotating shaft (15) and a connecting rod (12) hinged at a position deviating from the center of a circle on one side of the rotating wheel (10), and the other end of the connecting rod (12) is hinged with the top surface of the fan plate (14) through a connecting piece.

5. The high-speed aluminum foil infrared radiation drying device as claimed in claim 4, wherein the connecting member comprises a sleeve rod (16) fixedly connected to the top surface of the fan plate (14) and a sliding sleeve (17) movably sleeved outside the sleeve rod (16), and the other end of the connecting rod (12) is hinged to the outside of the sliding sleeve (17).

6. A high-rate aluminum foil IR radiation drying unit as claimed in claim 5, characterized in that said loop bars (16) are arranged parallel to the top surface of the fan plate (14).

7. The high-speed aluminum foil infrared radiation drying device according to claim 1, wherein the drying box (1) is made of a stainless steel plate, and a layer of organic silicon aluminum powder paint is coated on the inner wall of the drying box (1).

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