JPH08143136A - Viscous substance adhesion preventing structure of belt support roller in belt type continuous vacuum drying equipment - Google Patents

Abstract

PURPOSE: To provide a viscous substance adhesion preventing structure of a belt support roller in a novel belt type continuous vacuum drying equipment where the belt is not meandered or damaged by reducing the amount of the viscous substance adhering to the belt support roller, and removing the viscous substance even when it is adhered. CONSTITUTION: A belt support roller 20 to support a belt return part of a belt conveyor in a belt type continuous vacuum drying equipment is provided with projections 23 of the same height which are formed continuous and spiral toward one end or both ends of a roller body 21 by coiling the wire 22 over the circumferential surface of the roller body 21 having an extension part where one end or both ends are extended from the belt. The non-viscous adhesion preventing film 24 consisting of the fluororesin base material is provided so as to cover the surface of this roller body 21.

Description

Detailed Description of the Invention

[0001]

[Object of the invention]

BACKGROUND OF THE INVENTION The present invention uses raw materials such as paste,
The present invention relates to a belt-type continuous vacuum drying device for processing a porous dry product, and particularly to a belt support roller that assists running of a belt that transfers raw materials.

[0002]

BACKGROUND OF THE INVENTION A belt type continuous vacuum dryer is known as an apparatus for producing porous products. In this product, raw materials such as paste and liquid are transferred on a belt conveyor in a state of being spread and spread, while being heated, they are dried to produce a porous product. Conventionally, a belt support roller is brought into contact with the lower surface of the belt return portion, which is the belt return side of the belt conveyor, so that the belt travels smoothly.

However, this belt support roller may, on the contrary, hinder the smooth running of the belt. That is, among the dried products that have been transferred onto the belt conveyor and have been commercialized, there are those that adhere to the belt and do not fall at the end of the belt. Then, the adhered dried product is melted and becomes sticky when being heated by the radiant heat of a heating plate provided around the belt while moving on the belt return section. Then, the viscous substance adheres to the belt support roller supporting the belt return portion, and the viscous substance tends not to uniformly adhere to the belt support roller but to grow partially. Then, this growing mass of viscous material pulls on the belt, causing it to meander, causing the raw materials and dried products to fall, and also causing damage to the belt due to excessive force being applied to part of the belt. Was becoming.

[0004]

[Technical Items Attempted to Develop] The present invention has been made from such a background, and it is assumed that the viscous substance adhered to the belt support roller is reduced and the viscous substance adhered to the belt support roller is adhered. This is an attempt to develop a viscous material adhesion prevention structure for a belt support roller in a new belt type continuous vacuum drying device that can remove this.

[0005]

Configuration of the Invention

[Means for Achieving the Object] That is, the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus according to claim 1 places the raw material on a belt conveyor provided in a vacuum tank, and heat-treats it while the belt is proceeding. In the drying device for drying the raw material, the belt support roller supporting the belt return portion of the belt conveyor is provided with projections of the same height over the peripheral surface of the roller body, and is non-adhesive so as to cover the surface. It is characterized in that an anti-adhesion thin film is provided.

Further, in the structure for preventing adherence of viscous material on the belt support roller in the belt type continuous vacuum drying apparatus according to claim 2, in addition to the requirement according to claim 1, the projection is continuous toward one end or both ends of the roller body. It is characterized by being formed in a spiral shape.

Furthermore, in addition to the above requirements, the structure for preventing the viscous material from adhering to the belt support roller in the belt-type continuous vacuum dryer according to claim 3 is one in which the protrusion is formed by winding a wire around the roller body. It is characterized by.

Further, the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus according to claim 4 is characterized in that, in addition to the above requirements, the adhesion preventing thin film has a heat shrinkability. It consists of

In addition to the requirement of claim 4, the viscous material adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying device according to claim 5 is characterized in that the adhesion preventing thin film is made of a fluororesin material. It is characterized by.

Further, in the viscous material adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying apparatus according to a sixth aspect, in addition to the requirement according to the second, third, fourth or fifth aspect, the roller body is a belt. It is longer than the width, and is characterized in that one end or both ends thereof has a protruding portion protruding from the belt.

Further, the viscous material adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus according to claim 7 is such that, in addition to the requirements of claim 6, a small diameter portion is formed in the overhang portion of the roller body. However, it is characterized by providing a step.

In addition to the requirement of the sixth aspect, the structure for preventing the viscous material from adhering to the belt support roller in the belt-type continuous vacuum drying apparatus according to the eighth aspect further includes a scraper at the overhanging portion of the roller body. It is characterized by facing. The above objects are intended to be achieved by these inventions.

[0013]

First, in the state of the belt support roller which is in contact with the belt, the adhesion preventing thin film shrinks by heating and sticks along the shape of the protrusion of the roller body with almost no space. The belt support roller is rotated by the running of the belt while supporting the belt at the tip of the protrusion. Then, to the belt support roller in the above-described state, the dried product attached to the belt without falling at the end of the belt is melted by the radiant heat of the heating plate to be transferred as a viscous substance having an adhesive property. When the viscous substance comes into contact with the belt support roller, the amount of the viscous substance attached to the belt support roller is small because the protrusion is provided on the belt support roller and the contact area with the belt is small. Further, the anti-adhesion thin film is made of a non-adhesive substance such as Teflon, and it is difficult for viscous substances to adhere.

Further, for example, when the protrusions are formed in a continuous spiral shape and the overhanging portion is provided at the end of the roller,
The viscous substance attached to the belt support roller is transferred to the overhanging portion side while being sandwiched between the belt and the recessed portion between the protrusions. Then, the viscous material transferred to the overhanging portion is pushed down by the further transferred viscous material and drops downward from the tip of the overhanging portion.

Further, when a small diameter portion is formed on the overhanging portion and a step is provided between the belt supporting portion and the belt supporting portion, even a viscous material having a relatively strong adhesive property is dropped at the step portion, Removed from belt support roller.

Further, when the scraper faces the overhanging portion, the transferred viscous material does not stick to the overhanging portion forever, and even the viscous material having strong adhesiveness is scraped off by the scraper.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below with reference to illustrated embodiments. In FIG. 1, reference numeral 1 is a belt type continuous vacuum drying apparatus to which the present invention is applied, and this apparatus transfers a raw material in a paste form or a liquid form or a slurry form by a belt conveyor in a device kept in a vacuum, This is an apparatus for producing porous products by heating and cooling during the process and drying them.

The belt type continuous vacuum drying apparatus 1 is generally provided in a cylindrical vacuum tank 2 whose both ends are closed by a lid 2a and kept in a vacuum. In this embodiment, the belt conveyor 10 has three stages as an example. Is provided. Each belt conveyor 10 comprises a driving roller 11 and a driven roller 12,
A belt 13 made of glass cloth is wound between these as an example. The upper part of the running path of the belt 13 is defined as a belt drive part 13a, and the lower part is defined as a belt return part 13b. Drive roller 1
1 is rotationally driven by a drive motor provided outside the vacuum chamber 2 via a coupling or the like as appropriate. Reference numeral 14 is a pinch roller, and the pinch roller 14 prevents the belt 13 from slipping by increasing the winding angle of the belt 13 around the drive roller 11 and the driven roller 12. Reference numeral 6 is a scraper for dry products, and the dry product at the end of the belt drive unit 13a is scraped off to the discharge port 2b.

Further, the driven roller 12 is not fixed in the vacuum chamber 2, and the belt 13 is constantly pulled by the biasing spring 3 so that the belt 13 does not meander or deviate due to the weight of the raw material and is locked in the vacuum chamber 2. To be done. Belt 13
There are various methods for correcting the deviation of the bias, and the biasing spring 3 is an example thereof.

A plurality of heating plates 4 are provided below or above the belt driving unit 13a, and the raw material on the belt 13 is dried by the heat of the heating plates 4. Further, the nozzle 5 faces the driven roller 12 side, and the raw material is supplied from there.
The above configuration is a schematic configuration of a general belt-type continuous vacuum drying apparatus, but it goes without saying that a part of the configuration described above can be appropriately changed.

Next, the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus of the present invention will be described. This is related to a belt support roller indicated by reference numeral 20 in FIG. 1, and this belt support roller 20 abuts against and supports the lower surface of the belt return portion 13b to assist the traveling of the belt 13. .
Described in detail below, as shown in FIGS. 2 and 3A, a cylindrical roller body 21 having a length longer than the width of the belt 13.
The wire 22 is spirally wound around the roller body 21, and the projections 23 having the same height are provided on the circumferential surface of the roller body 21.
In FIG. 3A, the traveling direction of the belt return portion 13b is traveling toward the front side. Also the wire rod 22
In this embodiment, the coil is wound around the roller main body 21 by winding the coil in a spiral shape. When the coil is applied as the wire rod 22 in this way, it is very easy to provide the spiral protrusion 23 on the roller body 21 since the coil is formed in a spiral shape from the beginning. The roller main body 21 provided with the protrusions 23 on the peripheral surface is further provided with a heat-shrinkable tube adhesion preventing thin film 24 made of a fluororesin material (for example, a polymer of tetrafluoroethylene C ₂ F ₄ , that is, Teflon). Covered with. Further, reference numeral 25 is a rotation axis. The belt support roller 20 configured as described above is in contact with the lower surface of the belt return portion 13b, and has one end protruding from the belt 13. The portion of the belt support roller 20 that projects from the belt 13 is defined as a projecting portion 26 in the present invention.

The viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus of the present invention is constructed as described above, and when this is used, the belt 1 is first
When the belt support roller 20 is in contact with the protrusion 3, the adhesion preventing thin film 24 contracts due to the heat in the vacuum chamber 2 and the protrusion 2
It adheres along the shape of 3 with almost no gap. While supporting the belt 13 at the tip of the protrusion 23,
It is rotated by the running of the belt 13. With respect to the belt support roller 20 in the above state, the dried product attached to the belt 13 without falling at the end of the belt 13 is heated by the heating plate 4
It is melted by the radiant heat of and transferred with stickiness. When this member comes into contact with the belt support roller 20, the protrusion 23 is provided on the belt support roller 20 and the contact area with the belt 13 is small, so the amount of the viscous substance A adhering to the belt support roller 20 is small. . Further, the adhesion prevention thin film 24 is made of a fluororesin material (for example, Teflon under the trade name), and the viscous substance A does not easily adhere to it.

On the other hand, the viscous substance A adhering to the belt support roller 20 is gradually transferred to the projecting portion 26 side while being sandwiched between the belt 13 and the protrusion 23 as shown in FIG. 3 (a). Then, the viscous material A transferred to the overhanging portion 26
Is further pushed out by the viscous substance A that is further transferred and drops downward from the tip of the overhanging portion 26. The plate 30 may be placed above the overhanging portion 26 as shown in FIG. 4A so as to increase the transfer force at the overhanging portion 26.

[0024]

Other Embodiments The present invention is based on the above, but can be modified as follows. That is, FIG. 3B
In the example shown in (1), the wire 22 is spirally wound from the center of the roller body 21 toward both ends in different winding directions. The overhanging portions 26 are provided at both ends. When the belt support roller 20 is configured as described above, the viscous material A attached to the belt support roller 20
While being sandwiched between the belt 13 and the concave portion between the protrusions 23, it is transferred to the overhanging portions 26 at both ends and dropped downward from the tip of the overhanging portion 26. In addition, when the protrusions 26 are provided at both ends,
It is possible to shorten each of the overhanging portions 26, as compared with the case where only one end is provided. Therefore, even when a large space cannot be provided only on one end side, the protruding portion 26 can be provided. The spiral direction of the spiral protrusions 23 may be changed from the center of the roller body 21 as described above, or may be changed at an appropriate position.

The one shown in FIG. 4 (b) has an overhanging portion 26.
Is provided with a small diameter portion 27 having a diameter smaller than that of the roller body 21,
This is an example in which a step 28 is provided between the belt 13 and a portion that supports the belt 13. When the belt support roller 20 is configured in this manner, even the viscous material A having relatively strong adhesiveness is dropped at the step 28, and the belt support roller 2
Removed from zero. The rotating shaft 25 on the side where the viscous material A is removed is made long so as to secure a space for dropping the viscous material A, so that the rotating shaft 25 substantially functions as the small diameter portion 27. Can be fulfilled In this case, since the rotary shaft 25 is considered to be one configuration of the roller body 21, the rotary shaft 25 having such a configuration is adopted.
Is defined as the small diameter portion 27 in the present invention.

Further, FIG. 5A shows an embodiment in which a viscous substance-excluding scraper 29 is made to face below the overhanging portion 26 of the belt support roller 20 in which the wire 22 is spirally wound. . The viscous material removing scraper 29 is faced so as to face the rotation direction of the belt support roller 20 as shown in FIG.
As shown in FIG. 5 (b), the viscous material A can be made to face the feeding direction. As described above, when the viscous substance-removing scraper 29 faces the overhanging portion 26 of the belt support roller 20, the transferred viscous substance A does not stick to the overhanging portion 26 indefinitely, and the adhesiveness Even the viscous substance A is scraped off by the viscous substance removing scraper 29.

In addition to winding the wire rod 22, the protrusion 23
It may be formed integrally with the roller body 21, or as shown by the discontinuous small projection 23 in FIG. 6A or the ring-shaped continuous projection 23 in FIG.
An appropriate shape can be selected as long as it has the same height over the peripheral surface. Although the viscous substance A adhered cannot move in the illustrated one, the belt support roller 20 and the belt 13
Since the contact surface with is reduced, the adhered viscous substance A is also reduced. The shape of the protrusions 23 can be selected as appropriate, but if the heights of the protrusions 23 are not the same, the belt support roller 20 repels the belt 13 and causes the belt 13 to meander.

Although the solid tube-shaped thin film is applied as the adhesion preventing thin film 24 in the above-mentioned basic embodiment, for example, a liquid fluororesin material or the like may be applied on the surface.

[0029]

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus according to the first aspect of the invention, the protrusions 23 having the same height are first provided over the peripheral surface of the roller body 21. Laura 2
0, the contact surface between the belt 13 and the viscous substance A can be reduced. Further, since the adhesion preventing thin film 24 is provided on the surface of the belt support roller 20, the viscous substance A is less likely to adhere. Further, when the non-adhesiveness of the anti-adhesion thin film 24 decreases, the non-adhesiveness can be easily and inexpensively restored by reattaching or re-applying. Further, from the above, the viscous substance A attached to the belt support roller 20 pulls the belt 13, and the belt 13 meanders to drop the raw material or the dried product, or an excessive force is applied to a part of the belt 13 to cause the belt 13 to fall. Is much less likely to be damaged than in the past.

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus of the second aspect, the protrusion 23 is formed in a spiral shape continuous toward one end or both ends of the roller body 21. For,
The adhered viscous substance A can be moved to the end portion of the roller body 21 and eliminated.

According to the viscous material adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus of the third aspect, the wire rod 22 is wound around the roller body 21 and the projection 23 is formed.
Since the protrusions are formed, the protrusions 23 can be easily and inexpensively formed.

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying device according to the fourth aspect, since the adhesion preventing thin film 24 has heat shrinkability, for example, the solid tube is used as the adhesion preventing thin film 24. -Shaped film can be applied, and the surface can be easily covered by covering the belt support roller 20, and at the time of use, it is covered along the shape of the projection 23 with almost no gap, and thus the projection 2
The action of preventing the sticky substance A from adhering by 3 is not hindered.

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying device according to the fifth aspect, since the adhesion preventing thin film 24 is made of a fluororesin material such as Teflon, it is non-adhesive and heat resistant. Excellent in chemical resistance, chemical resistance and hygiene.

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying apparatus of the sixth aspect, since the belt support roller 20 has the overhanging portion 26, the adhered viscous substance A is stretched. There is no chance that the belt 13 and the belt support roller 20 will be greatly grown between the belt 13 and the belt support roller 20.

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying device according to the seventh aspect, the small diameter portion 27 is formed in the overhang portion 26, and the step 28 is formed.
Because of the provision of step 2, even with viscous material A, which has relatively strong adhesiveness, there is a step 2
It is possible to promote the removal of the viscous substance A that is dropped by the item 8.

According to the viscous substance adhesion preventing structure of the belt support roller in the belt type continuous vacuum drying device of the eighth aspect, since the viscous substance eliminating scraper 29 faces the overhanging portion 26, the adhesiveness is extremely strong. Even the viscous material A is scraped off from the roller.

[Brief description of drawings]

FIG. 1 is a schematic side view showing the inside of a belt type continuous vacuum drying device as seen through.

FIG. 2 is a front view of a belt support roller provided with a viscous substance adhesion preventing structure for the belt support roller in the belt type continuous vacuum drying apparatus of the present invention.

FIG. 3 is a front view of the same as above, a cross-sectional view of a belt and a heating plate above the belt support roller, a front view of a belt support roller in which protrusions are formed in a continuous spiral toward both ends, and a belt above the belt support roller. It is sectional drawing of a heating plate.

FIG. 4 shows a belt-type continuous vacuum drying apparatus of the present invention showing an embodiment in which a plate faces an overhanging portion of a belt support roller and an embodiment in which a small diameter portion is formed in the overhanging portion of a roller body to provide a step. FIG. 3 is a front view of a viscous substance adhesion preventing structure of a belt support roller and a cross-sectional view of a belt and a heating plate above the viscous substance adhesion prevention structure.

FIG. 5 is a front view of a viscous substance adhesion preventing structure for a belt support roller in a belt-type continuous vacuum drying apparatus of the present invention showing two types of embodiments in which a viscous substance-excluding scraper faces the overhanging portion of the belt support roller. FIG. 3 is a cross-sectional view of a belt located on the upper part of the belt.

FIG. 6 is a front view of a viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying apparatus of the present invention showing two types of embodiments in which the shapes of the protrusions of the belt support roller are different.

[Explanation of symbols]

 1 Belt Type Continuous Vacuum Dryer 2 Vacuum Tank 2a Lid 2b Discharge Port 3 Energizing Spring 4 Heating Plate 5 Nozzle 6 Dried Product Scraper 10 Belt Conveyor 11 Drive Roller 12 Driven Roller 13 Belt 13a Belt Drive 13b Belt Return Part 14 Pinch roller 20 Belt support roller 21 Roller body 22 Wire rod 23 Protrusion 24 Adhesion prevention thin film 25 Rotating shaft 26 Overhang 27 Small diameter 28 Step 29 Scraper for removing viscous material 30 Plate A Viscous material

Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location F26B 17/04 Z 25/20

Claims (8)

[Claims] 1. In a drying device for placing a raw material on a belt conveyor provided in a vacuum tank and heating the raw material to dry the raw material while the belt is traveling, in a belt support roller for supporting a belt return portion of the belt conveyor. , With the protrusions of the same height over the circumference of the roller body,
A viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying device, characterized in that a non-adhesive adhesion preventing thin film is provided so as to cover the surface. 2. The viscous material adhered to a belt support roller in a belt type continuous vacuum drying apparatus according to claim 1, wherein the protrusion is formed in a spiral shape continuous toward one end or both ends of the roller body. Prevention structure. 3. The viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying apparatus according to claim 1, wherein the protrusion is formed by winding a wire around a roller body. . 4. The viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying device according to claim 1, wherein the adhesion preventing thin film has heat shrinkability. 5. The viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying device according to claim 4, wherein the adhesion preventing thin film is made of a fluororesin material. 6. The roller body according to claim 2, wherein the roller body is longer than the width of the belt, and one end or both ends of the roller body has a protruding portion protruding from the belt. Structure to prevent viscous substances from adhering to the belt support roller in the belt type continuous vacuum dryer. 7. The viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying apparatus according to claim 6, wherein a small diameter portion is formed on the overhanging portion of the roller body and a step is provided. 8. The viscous substance adhesion preventing structure for a belt support roller in a belt type continuous vacuum drying apparatus according to claim 6, wherein a scraper faces the overhanging portion of the roller body.