CN214211156U - Rotary drying and coating equipment - Google Patents

Abstract

The utility model relates to a coating stoving technical field, in particular to gyration stoving coating equipment. The device comprises a frame body platform, an unreeling device for unreeling a base material and a coating device for coating the base material; the unwinding device and the coating device are sequentially arranged on the upper layer of the frame body platform; a drying box body used for drying the base material is arranged on the lower layer of the frame body platform; and a rotary drying room capable of turning the base material from the coating device to the drying box body is arranged on the side of the coating device. The rotary type drying room is used for realizing rotary type conveying and drying of the base material, the drying quality of the base material is improved, the occupied area of equipment is small, the space utilization rate is improved, and the production cost is reduced. The rotary drying room with the giant rollers is used for realizing rotary conveying of the base material, so that the base material is effectively prevented from being warped, rolled and broken in the conveying and drying processes, and the quality of coating and forming of the base material is improved.

Description

Rotary drying and coating equipment

Technical Field

The utility model relates to a coating stoving technical field, in particular to gyration stoving coating equipment.

Background

The coating machine is mainly used for surface coating process production of substrates such as films, paper and the like, and the coating machine is used for coating a layer of glue, paint or ink with a specific function on a coiled substrate, drying and then rolling.

Most of the existing production uses a linear coating machine, and because the coating is coated on the substrate, the substrate can shrink after coating, and the common linear coating machine easily causes the problems of edge lifting and rolling of the substrate in the coating and drying processes.

In addition, in the existing production process, the base material is generally coated by the coating device, and is dried by the drying device, and then is wound by the winding device, while the existing production equipment of the coating machine is in linear distribution, that is, the coating device, the drying device and other equipment are sequentially arranged and linearly distributed, and the linear coating machine has the problems of large area and large occupied space, and the floor area greatly increases the production cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a gyration stoving coating equipment adopts the utility model provides a technical scheme has solved current orthoscopic coating machine and has had the area great, and occupation space is big problem, and the area has increased manufacturing cost greatly to cause the substrate to stick up the problem of limit rolling up easily in the coating stoving process.

In order to solve the technical problem, the utility model provides a rotary drying and coating device, which comprises a frame platform (10), an unreeling device (20) for discharging the base material and a coating device (30) for coating the base material; the unreeling device (20) and the coating device (30) are sequentially arranged on the upper layer of the frame body platform (10); a drying box body (50) used for drying the base material is arranged on the lower layer of the frame body platform (10); and a rotary drying room (40) capable of turning the base material from the coating device (30) to the drying box body (50) is arranged on the side of the coating device (30).

Preferably, the rotary drying room (40) comprises a room body, a roller (41) which is arranged in the room body and used for turning and conveying the base material, a driving component (45) which is arranged on the side wall of the room body and used for driving the roller (41) to rotate, and a hot air component (42) communicated with the side wall of the room body; the hot air component (42) blows hot air towards the base material attached to the roller (41).

Preferably, the bottom of the rotary drying room (40) is also provided with a circulating pipeline (44) for communicating the room body with the hot air assembly (42).

Preferably, a feed inlet is formed in the side wall of the chamber body close to the coating device (30), and a guide roller (43) for guiding the base material to the roller (41) is arranged at the feed inlet in the chamber body.

Preferably, a feeding assembly (21) for conveying the base material to the unreeling device (20) is arranged on one side of the frame body platform (10).

Preferably, the drying oven body (50) comprises a plurality of temperature-control ovens.

Preferably, a winding device (60) is arranged at the tail end of the drying box body (50).

Preferably, the winding device (60) comprises a tractor (61) arranged at the tail end of the drying box body (50) and used for dragging the substrate and a winding machine (62) arranged on one side of the tractor (61).

From the above, use the utility model provides a can obtain following beneficial effect: the utility model discloses the scheme is through setting gradually unwinding device and coating unit in the upper strata of support body platform, utilize unwinding device to realize the blowing substrate, coat the substrate through coating unit, lower floor at the support body platform is provided with the stoving box that is used for the stoving substrate, one side that is close to coating unit in support body platform side is provided with gyration stoving room, can change over the substrate that accomplishes the coating process from coating unit to the stoving box of support body platform lower floor through gyration stoving room, and then realize the rotation through gyration stoving room and carry and dry the substrate, improve the oven-dry mass of substrate, and realize that equipment area occupied is little, improve space utilization, reduce production cost, and through laminating the substrate on huge running roller gyration, and then realize that the coating on the substrate is in a smooth curved surface before the solidification always, effectively prevent that the substrate from appearing sticking up the limit in carrying and drying process, And the quality of coating and forming of the base material is improved by coiling and breaking the belt.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments of the present invention or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive faculty.

FIG. 1 is a front cross-sectional view of a rotary drying and coating apparatus according to an embodiment of the present invention,

FIG. 2 is a front view of a rotary drying and coating apparatus according to an embodiment of the present invention,

fig. 3 is a perspective view of the rotary drying and coating apparatus of the embodiment of the present invention.

Fig. 4 is the embodiment of the utility model provides an interior structure elevation of rotary drying room.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and 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.

In order to solve the above technical problems, the present embodiment provides a rotary drying and coating apparatus, as shown in fig. 2-3, including a frame platform 10, an unwinding device 20 and a coating device 30 are sequentially disposed on an upper layer of the frame platform 10, the unwinding device 20 is used for discharging a substrate, the coating device 30 is used for coating the substrate discharged from the unwinding device 20, a drying box 50 for drying the substrate is disposed on a lower layer of the frame platform 10, a rotary drying room 40 is disposed on a side of the frame platform 10 close to the coating device 30, the substrate subjected to a coating process by the coating device 30 can be transferred to the drying box 50 on the lower layer of the frame platform 10 through the rotary drying room 40, and rotary conveying and drying of the substrate are realized through the rotary drying room 40, so as to improve the drying quality of the substrate, and the layout realizes that the occupied area of the apparatus is small, and the space utilization rate is improved, the production cost is reduced, the giant roller 41 is arranged in the rotary drying room 40, the base material can be tightly attached to the circumferential curved surface of the roller 41 in a large area through the giant roller 41, the base material is effectively prevented from being warped, rolled and broken in the conveying and drying processes, and the quality of base material coating forming is improved.

Specifically, in order to realize the drying box 50 that the substrate that will accomplish the coating process from the coating device 30 is shifted into to the lower floor of the frame platform 10, please refer to fig. 1, fig. 4, the rotary drying room 40 includes the room body, the running roller 41 that is installed in the room body and used for turning to and carrying the substrate, and the hot air component 42 that communicates the lateral wall of the room body, the room body is disposed at one side of the frame platform 10 that is close to the coating device 30, the room body has a feed inlet opened above the lateral wall that is close to the coating device 30, a discharge outlet opened below the feed inlet, the substrate that the coating device 30 accomplished the coating process enters the room body through the feed inlet, and is further dried in the drying box 50 from the discharge outlet discharge.

The side wall of the house body is provided with a driving component 45 connected with the rotating shaft of the roller 41, the opposite side wall of the house body is provided with bearing seats, the shaft core extending out of the roller 41 is rotatably arranged on the bearing seats on the two side walls, and the large roller 41 can be rotatably arranged in the house body through the bearing and rotating action of the bearing seats. The driving assembly 45 is a driving motor, and can realize the linkage of the output end of the driving motor and the rotating shaft of the roller 41 by using transmission parts such as a gear belt, etc., and drive the roller 41 to rotate by the driving motor so as to drive the substrate to rotate, thereby realizing the drying box body 50 of the lower layer of the substrate from the upper layer of the frame body platform 10. The unwinding device 20 and the coating device 30 are conventional and mature devices, and will not be described in detail herein.

Because the substrate is thinner, the coating is coated above the substrate, the coated substrate can shrink, and the problem that the substrate is warped and rolled easily in the drying process during linear transmission is solved. The huge roller 41 can realize that the base material is tightly attached to the circumferential curved surface of the roller 41 in a large area, so that the coating is always on a flat curved surface before curing, wrinkles are prevented, the coating quality can be improved, the conditions of edge warping, rolling and belt breakage of the base material in the process of rotation turning and drying are effectively avoided, and the quality of base material coating forming is improved.

The guide roller 43 for guiding the base material to the roller 41 is installed at the feed inlet in the house body, the base material is guided and attached to the roller 41 through the guide roller 43, wherein the roller 41 is a giant roller, the discharge outlet is formed in the house body below the side wall close to the drying box body 50, the base material rotates from the upper layer of the frame body platform 10 to the lower layer through the roller 41, and is discharged through the discharge outlet and conveyed into the drying box body 50 of the lower layer.

Further, referring to fig. 1, a hot air assembly 42 is installed at one side of the house body, the hot air assembly 42 includes an air supply machine 422 disposed at one side of the house body, an air supply duct 421 communicating the air supply machine 422 with the house body, and an air outlet of the air supply duct 421 faces the circumferential surface of the roller 41. The air supply pipe of the hot air assembly 42 is communicated with the side wall of the house body, the air inlet faces to the circumferential surface of the roller 41, and when the base material is attached to the roller 41 for rotary transportation, the hot air assembly 42 blows off hot air towards the base material of the attached roller 41, so that the rotary drying room 40 has a drying function on the base material, the coating on the drying base material is realized, and the conditions of edge warping, rolling and belt breakage are effectively avoided. And still be equipped with the circulating line 44 of intercommunication room body and hot-blast subassembly 42 in gyration stoving room 40 bottom, the hot-blast circulation that passes through in the room body is utilized through circulating line 44 circulation, realizes reducing energy consumption, practices thrift manufacturing cost.

In order to further fully dry the substrate, the drying box body 50 comprises a plurality of temperature control ovens, the temperature control oven of the embodiment has three sections, the temperature of the baking can be adjusted in real time by each section of temperature control oven, so that the substrate is fully dried, a plurality of rollers are arranged in each section of temperature control oven along the conveying direction of the substrate, the substrate is guided by the rollers, and the substrate is conveyed in the temperature control oven.

In order to realize the winding of the base material which finishes the coating and drying processes, the winding device 60 is arranged at the tail end of the drying box body 50, the winding device 60 comprises a tractor 61 and a winding machine 62, traction force is provided through the tractor 61, the base material is dragged to be conveyed, and then the winding machine 62 is used for winding the base material which finishes the coating.

Because unwinding device sets up on support body platform 10 upper strata, in order to realize with the substrate material loading of lapping to support body platform 10 on, be equipped with the material loading subassembly 21 that is used for conveying the substrate to unwinding device 20 in support body platform 10 one side, wherein, material loading subassembly 21 can be for the arbitrary device that has the lifting function such as lifting fork truck.

To sum up, the utility model discloses the scheme is through setting gradually unwinding device and coating unit in the upper strata of support body platform, utilize unwinding device to realize the blowing substrate, coat the substrate through coating unit, be provided with the stoving box that is used for drying the substrate in the lower floor of support body platform, one side that is close to coating unit in support body platform side is provided with the gyration stoving room, can change over the substrate that accomplishes the coating process from coating unit to the stoving box of support body platform lower floor through gyration stoving room, and then realize the rotation through gyration stoving room and carry and dry the substrate, improve the oven-dry quality of substrate, and realize that equipment area occupied is little, improve space utilization, reduce manufacturing cost, and through laminating the substrate and turning over on huge running roller, and then realize that the coating is in a smooth curved surface before the solidification always, effectively prevent that the substrate from appearing sticking up the limit in carrying and drying process, And the quality of coating and forming of the base material is improved by coiling and breaking the belt.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (9)

1. The utility model provides a gyration stoving coating equipment which characterized in that: comprises a frame platform (10), an unreeling device (20) for unreeling the base material and a coating device (30) for coating the base material; the unreeling device (20) and the coating device (30) are sequentially arranged on the upper layer of the frame body platform (10); a drying box body (50) used for drying the base material is arranged on the lower layer of the frame body platform (10); and a rotary drying room (40) capable of turning the base material from the coating device (30) to the drying box body (50) is arranged on the side of the coating device (30).

2. The spin dry coating apparatus of claim 1, wherein: the rotary drying room (40) comprises a room body, a roller (41) which is arranged in the room body and used for steering and conveying the base material, a driving component (45) which is arranged on the side wall of the room body and used for driving the roller (41) to rotate, and a hot air component (42) which is arranged on the side of the room body; the hot air assembly (42) is communicated with the side wall of the house body and faces the circumferential surface of the roller (41).

3. The spin dry coating apparatus of claim 2, wherein: hot-blast subassembly (42) including set up in air supply fan (422), the intercommunication of room body one side air supply fan (422) and air supply pipe (421) of the room body, the air outlet orientation of air supply pipe (421) the periphery of running roller (41).

4. The spin dry coating apparatus of claim 2, wherein: a feed inlet and a discharge outlet are respectively formed in the side wall of the house body and close to the coating device (30) and the drying box body (50), and a guide roller (43) for guiding the base material to the roller (41) is arranged at the feed inlet in the house body; the roller (41) diverts and conveys the base material from the coating device (30) to the drying box (50).

5. The spin dry coating apparatus of claim 3, wherein: and a circulating pipeline (44) communicated with the room body and the hot air assembly (42) is further arranged at the bottom of the rotary drying room (40).

6. The spin dry coating apparatus of claim 1, wherein: and a feeding assembly (21) used for conveying the base material to the unreeling device (20) is arranged on one side of the frame body platform (10).

7. The spin dry coating apparatus of claim 4, wherein: the drying box body (50) comprises a plurality of sections of temperature control ovens capable of adjusting drying temperature, and the temperature control ovens are internally provided with rollers (51) capable of conveying the base materials.

8. The spin dry coating apparatus of claim 1, wherein: and a winding device (60) is arranged at the tail end of the drying box body (50).

9. The spin dry coating apparatus of claim 8, wherein: the winding device (60) comprises a tractor (61) arranged at the tail end of the drying box body (50) and used for dragging the base material and a winding machine (62) arranged on one side of the tractor (61).

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