阅读说明：本技术 一种薄膜生产用的高温加工装置 (High-temperature processing device for film production ) 是由 王士凯 于 2020-12-24 设计创作，主要内容包括：本发明公开了一种薄膜生产用的高温加工装置,涉及薄膜生产技术领域,包括机体,所述机体的下端设置有喷头,所述机体的下端的一侧设置有侧板,所述喷头的内部设置有喷嘴。本发明通过震动拨片与拨板的设置,用于在移动时,通过拨板将震动拨片拨动,使其产生震动,以将薄膜原料与震板之间产生间隙,使薄膜脱离震板,以便于之后对薄膜的清理,通过震板与喷嘴的分离式设计,使得在加热过程中,由于震板的脱离,使得在加热过程中,由于震板的脱离,由于震板与脱离结构之间的相互膨胀挤压,使得脱离结构的膨胀程度相比于喷嘴的膨胀程度较大,使得后续在降温冷缩过程中,震板的回弹范围较大,以便于与薄膜原料之间分离。(The invention discloses a high-temperature processing device for film production, which relates to the technical field of film production and comprises a machine body, wherein a sprayer is arranged at the lower end of the machine body, a side plate is arranged on one side of the lower end of the machine body, and a nozzle is arranged inside the sprayer. According to the invention, the vibration plectrum and the poking plate are arranged, so that the vibration plectrum is poked through the poking plate to generate vibration when moving, a gap is generated between the film raw material and the vibration plate, the film is separated from the vibration plate, and the film is convenient to clean later, and through the separated design of the vibration plate and the nozzle, in the heating process, due to the separation of the vibration plate, the expansion degree of the separation structure is larger than that of the nozzle due to the mutual expansion and extrusion between the vibration plate and the separation structure, so that in the subsequent cooling and cold-shrinking process, the rebound range of the vibration plate is larger, and the separation between the vibration plate and the film raw material is convenient.)

1. The utility model provides a high temperature processing device of film production usefulness, includes organism (1), the lower extreme of organism (1) is provided with shower nozzle (2), one side of the lower extreme of organism (1) is provided with curb plate (3), its characterized in that: the inner part of the spray head (2) is provided with a spray nozzle (21), and two sides of the inner part of the spray nozzle (21) are fixedly connected with a separation structure (22).

2. A high-temperature processing apparatus for producing a thin film according to claim 1, wherein: the inside of disengaging structure (22) is provided with shakes board (221), shake board (221) and be close to one side fixedly connected with that nozzle (21) shakes pole (225), the external fixed surface of shaking pole (225) is connected with shakes plectrum (226), one side fixedly connected with dead lever (223) that nozzle (21) is close to shakes board (221), dead lever (223) are close to one end fixedly connected with that shakes board (221) and dial board (224), shake fixedly connected with spring (222) between board (221) and spring (222).

3. A high-temperature processing apparatus for producing a thin film according to claim 2, wherein: the shock plate is characterized in that a separation block (2211) is arranged inside the shock plate (221), an air cavity (2212) is formed inside the separation block (2211), a connecting rod (2213) is fixedly connected between the upper end and the lower end of the air cavity (2212), an arc protrusion (2214) is formed in one end, away from the nozzle (21), of the air cavity (2212), and an inner air cavity (2215) is formed inside the arc protrusion (2214).

4. A high-temperature processing apparatus for producing a thin film according to claim 3, wherein: the vibrating plate (221) is designed in a convex shape, a chamfer is formed in the edge of the narrow end of the vibrating plate (221), and a chamfer is formed in the edge of the nozzle (21) which is in contact with the corner of the vibrating plate (221).

5. A high-temperature processing apparatus for producing a thin film according to claim 3, wherein: the arc protrusions (2214) are in a semicircular design, and the distance between every two arc protrusions (2214) is large.

Technical Field

The invention relates to a high-temperature processing device, relates to the technical field of film production, and particularly relates to a high-temperature processing device for film production.

Background

In the production process of the film, the raw material of the film needs to be melted at high temperature, then extruded through a nozzle, and then extruded into the film. The following problems exist in the prior art:

1. in the prior art, the nozzle has the problem that a part of film raw materials are remained in the nozzle along with the cooling of the device after the film raw materials are extruded, so that the nozzle is blocked;

2. among the prior art, can increase the clearance degree of difficulty to some production workman, and then can not reach the use original intention of convenient production, this processingequipment's suitability variation, consequently need carry out the structure innovation and solve specific problem.

Disclosure of Invention

The invention aims to provide a high-temperature processing device for producing a thin film, which is used for separating a thin film raw material from the inner wall of a nozzle and solving the problem that the thin film raw material is adhered to the inside of the nozzle after being cooled and is difficult to clean.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a high temperature processingequipment of film production usefulness, includes the organism, the lower extreme of organism is provided with the shower nozzle, one side of the lower extreme of organism is provided with the curb plate, the inside of shower nozzle is provided with the nozzle, the equal fixedly connected with in both sides of the inside of nozzle breaks away from the structure.

The technical scheme of the invention is further improved as follows: the separation structure is characterized in that a vibration plate is arranged inside the separation structure, one side of the vibration plate, which is close to the nozzle, is fixedly connected with a vibration rod, the outer surface of the vibration rod is fixedly connected with a vibration shifting sheet, one side of the nozzle, which is close to the vibration plate, is fixedly connected with a fixed rod, one end of the fixed rod, which is close to the vibration plate, is fixedly connected with a shifting plate, and a spring is fixedly connected between the vibration plate and the spring.

The technical scheme of the invention is further improved as follows: the shock plate is characterized in that a separation block is arranged inside the shock plate, an air cavity is formed inside the separation block, a connecting rod is fixedly connected between the upper end and the lower end of the air cavity, an arc protrusion is formed in one end, away from the nozzle, of the air cavity, and an inner air cavity is formed inside the arc protrusion.

The technical scheme of the invention is further improved as follows: the vibrating plate is designed in a convex shape, a chamfer is formed in the edge of the narrower end of the vibrating plate, and a chamfer is formed in the edge of the nozzle, which is in contact with the corner of the vibrating plate.

The technical scheme of the invention is further improved as follows: the arc protrusions are in a semicircular design, and the distance between every two arc protrusions is large.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the technical progress that:

1. the invention provides a high-temperature processing device for producing a film, which is ingenious in design, adopts the arrangement of a vibration shifting sheet and a shifting plate, is used for shifting the vibration shifting sheet through the shifting plate to generate vibration when moving, so that a gap is generated between a film raw material and the vibration plate to separate the film from the vibration plate, so that the film can be cleaned conveniently later, and due to the separation of the vibration plate and a nozzle in the heating process, due to the separation of the vibration plate, due to the mutual expansion and extrusion between the vibration plate and a separation structure, the expansion degree of the separation structure is larger than that of the nozzle, so that the rebound range of the vibration plate is larger in the subsequent cooling and shrinking process, so that the separation between the vibration plate and the film raw material is convenient.

2. The invention provides a high-temperature processing device for film production, which ensures that the expansion degree of the side edge of an air cavity is larger through the expansion of the gas in the air cavity and the self expansion of the air cavity in the thermal expansion process by adopting the convex design of a vibrating plate and the arrangement of the air cavity, so that the gap between the vibrating plate and a nozzle is reduced, and the melted film raw material cannot enter, thereby ensuring the practicability of the invention, the invention is used for limiting the expansion degree of the end surface of a breaking-away block through the design of a connecting rod, preventing the end part of the breaking-away block from being broken due to the expansion of the air in the air cavity, simultaneously playing the role of strengthening the stability of the breaking-away block, and a curved surface can be formed between the film raw material and the breaking-away block through the semicircular design of an arc bulge, and when in cooling, the gap between the film raw material and the arc bulge is easier to be formed by utilizing the difference of the thermal expansion and contraction degrees, through the vibration generated between the film and the shifting plate and between the film and the vibrating shifting sheet, the film can be separated more quickly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side sectional view of the showerhead of the present invention;

FIG. 3 is a schematic view of the internal structure of the detachment structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the seismic plate of the present invention;

fig. 5 is an enlarged schematic view of the area a in fig. 3 according to the present invention.

In the figure: 1. a body; 2. a spray head; 21. a nozzle; 22. a detachment structure; 221. vibrating plate; 222. a spring; 223. fixing the rod; 224. dialing a plate; 225. a shock rod; 226. vibrating the plectrum; 2211. a disengagement block; 2212. an air cavity; 2213. a connecting rod; 2214. a circular arc bulge; 2215. an inner air cavity; 3. side plates.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

example 1

As shown in fig. 1-3, the present invention provides a high temperature processing apparatus for producing a thin film, which includes a machine body 1, a nozzle 2 disposed at a lower end of the machine body 1, a side plate 3 disposed at one side of the lower end of the machine body 1, a nozzle 21 disposed inside the nozzle 2, and a separation structure 22 fixedly connected to both sides of the inside of the nozzle 21.

Wherein, the inside of the separation structure 22 is provided with a vibration plate 221, one side of the vibration plate 221 close to the nozzle 21 is fixedly connected with a vibration rod 225, the outer surface of the vibration rod 225 is fixedly connected with a vibration shifting sheet 226, one side of the nozzle 21 close to the vibration plate 221 is fixedly connected with a fixed rod 223, one end of the fixed rod 223 close to the vibration plate 221 is fixedly connected with a shifting plate 224, and a spring 222 is fixedly connected between the vibration plate 221 and the spring 222.

In this embodiment, the arrangement of the vibration pick-up 226 and the pick-up plate 224 is used for shifting the vibration pick-up 226 through the pick-up plate 224 to generate vibration when the temperature is 2321 shifted, so as to generate a gap between the film material and the vibration plate 221 and separate the film from the vibration plate 221, so as to clean the film later, through the separation design of the vibration plate 221 and the nozzle 21, during the heating process, due to the separation of the vibration plate 221, due to the mutual expansion and extrusion between the vibration plate 221 and the separation structure 22, the expansion degree of the separation structure 22 is larger than that of the nozzle 21, so that during the subsequent cooling and cooling process, the rebound range of the vibration plate 221 is larger, so as to facilitate the separation from the film material.

Example 2

As shown in fig. 4-5, on the basis of embodiment 1, the present invention provides a technical solution: shake the inside of board 221 and be provided with and break away from piece 2211, break away from the inside of piece 2211 and seted up air cavity 2212, fixedly connected with connecting rod 2213 between the upper and lower end of air cavity 2212, the one end that nozzle 21 was kept away from to air cavity 2212 has seted up circular arc protrusion 2214, interior air cavity 2215 has been seted up to the inside of circular arc protrusion 2214.

The vibrating plate 221 is designed in a convex shape, a chamfer is formed in the edge of the narrow end of the vibrating plate 221, a chamfer is formed in the edge of the nozzle 21 contacting with the corner of the vibrating plate 221, the arc protrusions 2214 are designed in a semicircular shape, and the distance between every two arc protrusions 2214 is large.

In this embodiment, through the convex design of the vibrating plate 221 and the arrangement of the air cavity 2212, during the thermal expansion process, the expansion degree of the side edge of the air cavity 2212 is relatively large, so that the gap between the vibrating plate 221 and the nozzle 21 is reduced, and the melted film material cannot enter, thereby ensuring the practicability of the invention, through the design of the connecting rod 2213, the expansion degree of the end surface of the breaking block 2211 is limited, the end part of the breaking block 2211 is prevented from being burst by the expansion of the air in the air cavity 2212, and the stability of the breaking block 2211 is enhanced, through the semicircular design of the arc protrusion 2214, a curved surface exists between the film material and the breaking block 2211, during cooling, the gap between the film material and the arc protrusion 2214 is formed more easily by utilizing the difference of the thermal contraction and contraction degrees between two different materials, through the vibration generated between the vibrating plate 224 and the vibrating pull sheet 226, the film can be separated more quickly, the friction between the film and the arc protrusion 2214 is smaller when the film falls off due to the semicircular design, so that the film can fall off conveniently, the friction between the separating block 2211 and the film raw material can be reduced due to the arrangement of the gap between the arc protrusions 2214, so that the film raw material can be separated conveniently, and the vibrating plate 221 can be reset through the tension between the inclined surface and the spring 222 when the vibrating plate 221 is reset due to the arrangement of the chamfer, so that the normal use of the film vibrating plate is ensured.

The working principle of the high-temperature processing apparatus for producing the thin film will be described in detail below.

As shown in fig. 1-5, when in use, the nozzle 2 is heated first to expand the air in the air cavity 2212 and the inner air cavity 2215, the vibration plate 221 and the arc 2214 expand to make the vibration plate 221 and the nozzle 21 closely attached, then the film is extruded out, after the use of the raw materials in the film is finished, the machine body 1 is closed, the temperature in the nozzle 2 is reduced to gradually solidify the film, meanwhile, due to the principle of thermal expansion and cold contraction, the vibration plate 221 and the nozzle 21 are separated, meanwhile, the vibration plate 221 is pulled along the direction opposite to the nozzle 21 by the viscosity of the film, during the movement of the vibration plate 221, the vibration rod 225 is driven to move together, so that the vibration pick 226 is scraped by the pick 224 to generate vibration, the vibration plate 221 vibrates together through the transmission inside, and simultaneously, due to the cold contraction phenomenon of the arc 2214 and the air in the inner air cavity 2215, a gap is generated between the arc 2214 and the film, the circular arc protrusion 2214 vibrates along with the circular arc protrusion 2214 through force transmission, the film is hard at the moment, so that the gap between the circular arc protrusion 2214 and the film is increased, the vibration plate 221 is stretched during cooling of the film, the vibration pulling piece 226 and the pulling plate 224 are continuously vibrated, the contact surface between the film and the circular arc protrusion 2214 and the separation block 2211 is gradually reduced through vibration, the cooled film can be separated from the inner wall of the spray head 2, after the vibration plate 221 is separated from the film, the vibration plate 221 is pulled back through the spring 222, the vibration plate 221 is pulled back through the inclined surface and the force applied to the vibration plate 221 by the spring 222 when the vibration plate 221 is clamped with the spray nozzle 21, the vibration plate 221 is reset, and the film is cleaned after being cooled.

The present invention has been described in general terms in the foregoing, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto based on the present invention. Therefore, modifications or improvements are within the scope of the invention without departing from the spirit of the inventive concept.