KR101271490B1 - Cylinder drum dryer using multi-flow channels and syphon - Google Patents

Abstract

The present invention relates to a cylinder drum dryer using a multi-channel and siphon action, and more particularly, a groove plate is installed inside a drum of a cylinder to form a triangular multi-channel, and the condensed water is forcedly transported and condensed by the multi-channel. Condensed water is discharged by siphoning through the condensate discharge pipe by using the steam pressure and the siphon, so that the steam flowing into the drum is prevented from being discharged with the condensate discharge in a multi-channel method without siphon. The increase in the rotational speed of the cylinder and the improvement of the drying capacity increase the output of papermaking drying, and by manufacturing the devices to facilitate the installation of the groove plate made of a triangular flow path inside the drum of the cylinder, It can be installed on the drum to expand the supply There is a feature that the practicality is increased.

Description

Cylindrical drum dryer using multi-flow channels and syphon

The present invention relates to a cylinder drum dryer using a multi-channel and siphon action, and more particularly, a groove plate is installed inside a drum of a cylinder to form a triangular multi-channel, and the condensed water is forcedly transported and condensed by the multi-channel. Condensed water is discharged by siphoning through the condensate discharge pipe by using the steam pressure and the siphon, which prevents a large amount of steam flowing into the drum along with the condensate discharge in the multiple-channel system without siphon. The increase in the rotational speed of the cylinder and the improvement of the drying capacity increase the output of papermaking drying, and by manufacturing the devices to facilitate the installation of the groove plate made of a triangular flow path inside the drum of the cylinder, It can be installed on the drum to expand the supply Relates to a drum dryer cylinder with a multi-flow passage and the siphon action is poorly soluble is increased.

Drying in the paper industry is often driven at a high speed of 300 m / min or higher, so improving the drying performance is an important technical field that is directly connected to productivity. In the drying process, it is very necessary to improve the drying speed.

The paper drying process in paper mills mainly uses a cylinder dryer using steam and a heat conduction drying method in which the paper comes into contact with the paper mill, and removes a large amount of water after the paper is molded from the pulp slurry to promote the bonding of fibers. In order to dry the compressed paper, the paper is dried by indirect heat while passing through the surface of 50 to 60 cylinders heated by steam, and the paper industry uses about 90% of the cylinder drum dryer.

Generally, the cylinder dryer is divided into 50 to 60 independent cylinder dryers, and 5 to 12 kg / ㎠ steam is used inside the cylinder, the steam used in the cylinder is condensed and the condensate is discharged by differential pressure through the cyphon. It is made of a drying process.

Conventional cylinder dryers encounter heat transfer resistances of various processes during the heat transfer from the steam supplied to the dryer drum to the dry matter on the outer surface of the dryer drum, and the most problematic of the heat transfer resistances is the inner surface of the dryer drum. The heat transfer coefficient of the condensate layer accumulates in the reactor decreases significantly as the cylinder speed increases, which acts as a major cause of lowering the drying efficiency.In general, the total heat transfer resistance is 15% when the drum speed is 300 m / min. In the case of 1000 m / min, it is reported to increase to 40%.

In addition, the cylinder dryer has a heat transfer in the stop state of the steam inside the cylinder drum, there is a problem in that a large amount of steam is discharged with the discharge of condensate by forming a rectangular multi-channel without siphon in the prior patent.

However, in the rectangular multi-channel system, there are many contact portions between the grooves of the rectangular channel and the cylinder drum in the drum, so that heat resistance due to poor contact increases, and the steam in the cylinder drum transfers heat in a stopped state. In the cylinder drum drying method, the heat transfer coefficient is decreased by the condensate layer as the drum speed increases, so that the drying capacity decreases due to the increase in the rotation speed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems,

A groove plate is installed inside the drum of the cylinder to form a triangular multiple channel, and the condensate is discharged by siphoning through the condensate discharge pipe by forcibly transferring the condensate and discharging the condensate by using steam pressure and siphon. As a result, the steam flowing into the drum is prevented from being leaked with condensate discharge in a large flow path without siphon, thereby increasing the heat transfer efficiency, thereby increasing the rotational speed of the cylinder and improving the drying capacity. It is an object to provide a cylinder drum dryer using this increasing multi-channel and siphon action.

In addition, the present invention by making the device to facilitate the mounting of the groove plate consisting of a triangular flow path in the drum of the cylinder, the installation is also made in the existing cylinder drum is possible to expand the use of multi-channel and siphon action to increase the practicality It is an object to provide another cylinder drum dryer.

In order to achieve the above object, the present invention is a cylinder drum dryer for drying the dry matter using steam,

A double pipe formed at one end of the drum to allow steam to flow in and discharge of condensate at the same time; a steam transfer pipe formed to transfer the steam spaced apart from an inner hole of the double pipe; and a flow of steam introduced through the steam transfer pipe. A cylinder configured to transfer a heat source to the outer circumference to dry the dry matter and at the same time a condensate is generated on the inner circumference, and a shaft formed on the other side of the drum to rotate the drum;

A groove plate provided at an inner circumference of the drum and formed of a plurality of flow paths to transfer condensed water to a double pipe;

A support part which contacts the inner circumference of the groove plate so that the groove plate is provided and fixed to the drum to support the groove plate by applying a force in an outer multi-direction;

A vapor flow blocking plate disposed on an inner side surface of the drum and having a conveying path for condensate to communicate with a flow path of the groove plate;

It is formed inside the steam conveying pipe, vertically penetrates one end surface of the steam conveying pipe and is provided in the conveying path of the steam flow blocking plate, and siphons the condensed water collected through the flow path of the groove plate and collected in the conveying path. It relates to a cylinder drum dryer using a multi-channel and siphon action, characterized in that it comprises a; condensate discharge pipe discharged to the outside by the.

As described above, the cylinder drum dryer using the multi-channel and siphon action of the present invention has a groove plate installed inside the drum of the cylinder and is formed as a triangular multi-channel, and the condensed water is forcedly transferred and condensed by the multi-channel. Condensed water is discharged by siphoning through the condensate discharge pipe by using the steam pressure and the siphon, so that the steam flowing into the drum is prevented from being discharged with the condensate discharge in a multi-channel method without siphon. This increases, thereby increasing the rotational speed and drying capacity of the cylinder has the effect of increasing the production of paper drying.

In addition, the present invention by making the device to facilitate the mounting of the groove plate consisting of a triangular flow path in the drum of the cylinder, it is possible to expand the installation is made to the existing cylinder drum has the effect of increasing the practicality.

1 is a partial cross-sectional perspective view showing a cylinder drum dryer according to an embodiment of the present invention,
Figure 2 is a cross-sectional view showing a cylinder drum dryer according to an embodiment of the present invention,
3 is an enlarged view illustrating a portion B of FIG. 2;
4 is a cross-sectional view showing a portion AA of FIG.
Figure 5 is an exploded perspective view showing a groove plate according to an embodiment of the present invention,
Figure 6 is a front view showing a support according to an embodiment of the present invention,
7 is a perspective view showing a support according to an embodiment of the present invention.

The present invention has the following features to achieve the above object.

The present invention is a cylinder drum dryer for drying a dry matter using steam,

A double pipe formed at one end of the drum to allow steam to flow in and discharge of condensate at the same time; a steam transfer pipe formed to transfer the steam spaced apart from an inner hole of the double pipe; and A cylinder configured to transfer a heat source to the outer circumference to dry the dry matter and at the same time a condensate is generated on the inner circumference, and a shaft formed on the other side of the drum to rotate the drum;

A groove plate provided at an inner circumference of the drum and formed of a plurality of flow paths to transfer condensed water to a double pipe;

A support part which contacts the inner circumference of the groove plate so that the groove plate is provided and fixed to the drum to support the groove plate by applying a force in an outer multi-direction;

A vapor flow blocking plate disposed on an inner side surface of the drum and having a conveying path for condensate to communicate with a flow path of the groove plate;

It is formed inside the steam conveying pipe, vertically penetrates one end surface of the steam conveying pipe and is provided in the conveying path of the steam flow blocking plate, and siphons the condensed water collected through the flow path of the groove plate and collected in the conveying path. It characterized in that it comprises a; condensate discharge pipe discharged to the outside by.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

Before describing the various embodiments of the present invention in detail with reference to the accompanying drawings, it can be seen that the application is not limited to the details of the configuration and arrangement of the components described in the following detailed description or shown in the drawings. will be. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a partial cross-sectional perspective view showing a cylinder drum dryer according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a cylinder drum dryer according to an embodiment of the present invention, Figure 3 shows part B of Figure 2 4 is a cross-sectional view showing a portion AA of Figure 2, Figure 5 is an exploded perspective view showing a groove plate according to an embodiment of the present invention, Figure 6 shows a support according to an embodiment of the present invention 7 is a front view, and FIG. 7 is a perspective view showing a support unit according to an embodiment of the present invention.

As shown in FIGS. 1 to 7, the cylinder drum dryer using the multi-channel and siphon action of the present invention is used for drying paper (paper), and steam is introduced into the inside to contact the outside of the dryer by a heat source of steam. It consists of the cylinder 10, the groove plate 20, the support part 30, the steam flow blocking plate 40, and the condensate discharge pipe 50 so as to dry the paper.

1 and 2, the cylinder 10 is a body of the dryer 60, is connected to a drive device (not shown) installed on the outside is rotated by the drive device to be dried on the outer periphery It consists of a double pipe 12, a drum 11, and a shaft 15 so as to make paper contact and dry by the heat source of the steam which flowed in.

Here, the drum 11 is cylindrical and is large enough to allow a user to enter the inside of the present invention, and an entrance (not shown) is formed at one end of the outer circumference to allow the user to enter the inside of the drum 11. .

In addition, steam is introduced into the drum 11 through the double pipe 12, and a heat source of the steam is delivered to the outer circumference of the drum 11 to dry papermaking, and the steam which transfers the heat source to the paper drying is It becomes condensed water and is produced in the inner periphery of the drum 11.

The present invention is described below, characterized by a structure that can easily discharge the condensate generated in the inner periphery of the drum 11 to the outside.

Here, the double pipe 12 is formed through the end surface of the drum 11, as shown in Figure 2 so that the inlet of the steam and discharge of the condensed water at the same time to the inside of the double pipe 12 is formed with a hole 13 A space between the inner circumference of the hole 13 and a predetermined interval is formed to penetrate the steam transport pipe 14 connected to the outside. In addition, the steam is introduced into the drum through the steam transport pipe 14, the condensed water is discharged to the outside between the outer periphery of the steam transport pipe 14 and the inner periphery of the hole (13).

In addition, the end portion of the steam transport pipe 14 penetrates through the central portion of the steam flow blocking plate 40 installed on the inner end surface of the drum 11 and protrudes into the drum 11.

In addition, a shaft 15 is formed on the other side of the drum 11 (opposite side on which the double tube 12 is installed), connected to an external driving device to rotate the drum 11, and the double tube 12 is also shafted. (15) It also serves to support when rotating by this drive.

As shown in Figure 1 and 5, the groove plate 20 is provided on the inner periphery of the drum 11 is a plate plate consisting of a multi-channel 21 to convey the condensate water to the double pipe. That is, the multi-channel 21 is that the surface of the groove plate 20 is bent several times like the uneven portion, thereby forming a flow path.

Here, the groove plate 20 is a plate plate formed in a cylindrical shape is divided into a plurality of pieces (piece) in the circumferential direction so that it can be easily installed on the inner circumference of the drum. That is, as shown in Fig. 5, one groove plate 20 is divided into a plurality of pieces so as to form an arc in cross section, and these are connected to each other to form one cylindrical groove plate 20.

In addition, both ends of the groove plate 20 may be provided with a groove plate 20 so as not to contact the inner both sides of the drum 11 to form a space in which condensed water may be transferred.

In addition, the multi-channel 21 of the groove plate 20 is formed in the shape of a triangle in cross-section so that the thermal resistance to contact the condensate, the flow path 21 is spaced apart from each other in the circumferential direction of the groove plate 20 It is formed in plural, one flow path 21 is formed long in the longitudinal direction of the groove plate 20 is to be a condensate transfer flow path.

Then, the condensed water is formed to be transferred to the double pipe 12 by the steam pressure through the flow path 21, and the transfer of the condensed water is generally performed by the steam pressure larger than the centrifugal force generated by the drum 11 to rotate. 21).

2 and 3, the condensate discharge pipe 50 is formed through the inside of the steam transport pipe 14 is provided in the drum 11, the outer periphery of the groove plate 20 The condensate generated is discharged to the outside by the siphon action.

Here, the condensate discharge pipe 50 is provided in the drum 11 through the inside of the steam transport pipe 14 from the outside, by being formed to vertically penetrate one end surface of the steam transport pipe 14, The steam is transferred between the inner circumference of the steam transport pipe 14 and the outer circumference of the condensate discharge pipe 50.

In addition, the condensate discharge pipe 50 is bent in a cross-sectional shape "a" is provided in the transfer path 43 of the steam flow blocking plate 40, the end of the condensate discharge pipe 50, the steam flow blocking plate 40 It is formed to be spaced apart from each other, the transfer path 43 of the, the pressure in the drum 11 is increased condensate water is introduced into the condensate discharge pipe 50 by the siphon action. At this time, the condensate discharge pipe 50 is branched in the "T" or multi-direction as well as the "b" shape on the cross-section is possible to change the design so that the condensate can be introduced from several places during rotation of the cylinder.

As shown in FIGS. 2, 6, and 7, the support part 30 includes a support plate such that the groove plate 20 is provided on the inner circumference of the drum 11 to fix the groove plate 20 so that the groove plate 20 is not detached. 31) and an adjusting unit (32).

Here, the support plate 31 is in direct contact with the inner circumference of the groove plate 20 to support the groove plate 20, the support plate 31 is formed in an arc-shaped band so that a plurality of interconnected in one circle Is formed.

At this time, the connection of the support plate 31 and the support plate 31 is connected by the adjustment unit 32 consisting of bolts and nuts, the end of the support plate 31 is bent at a right angle so that the bolt and nut is installed, The bolt and the nut are formed through the bent end, respectively, and the bolt formed at the end of the support plate 31 is coupled to the nut formed at the end of the other support plate 31.

Thus, the support portion 30 is formed, the circular support plate 31 is applied to the outer multi-direction in a manner that the circular size of the support portion 30 is adjusted by the adjustment of the bolt, the support portion 30 The groove plate 20 can be supported by this.

As shown in FIG. 4, the steam flow blocking plate 40 is spaced apart at regular intervals on both inner sides of the drum 11, thereby between the steam flow blocking plate 40 and the inner surface of the drum 11. The condensate transfer path 43 is formed in the condensate, and the condensed water is transferred to the double pipe 12 along the transfer path 43 by a vapor pressure greater than the centrifugal force generated through the rotation of the drum 11.

Here, the steam flow blocking plate 40 is formed in the same shape as the inner circumference of the groove plate 20 which the outer circumference is in contact with the circular plate. That is, the triangular protrusion 41 is formed in accordance with the triangular flow passage 21 of the groove plate 20.

In addition, the vapor flow blocking plate 40 is divided into a plurality of pieces radially on the basis of the center (center point) to be easily installed when installed on both inner side surfaces of the drum. That is, the shape is formed in the form of slices of pizza, the number depends on the size of the drum (11).

In addition, the steam flow blocking plate 40 is divided into a plurality of pieces, the assembly structure plate 42 is connected to the interconnection portion on one end surface of the plurality of steam flow blocking plates 40 are interconnected by a coupling member. Each is installed to form a plurality of steam flow blocking plate 40 as a circular steam flow blocking plate 40.

10 cylinder 11 drum
12: double tube 13: hole
14: steam transfer pipe 15: shaft
20 groove plate 21 euro
30 support part 31 support plate
32: control unit 40: steam flow blocking plate
41: projection 42: assembly structure board
43: transfer path 50: condensate discharge pipe
60: dryer

Claims (8)

In the cylinder drum dryer 60 for drying the dried matter using steam,
The double tube 12 formed on one end surface of the drum 11 and the steam formed to transport the steam spaced apart from the inner hole 13 of the double tube 12 so that the inflow of the steam and discharge of the condensate can be simultaneously performed. A pipe 11 and a drum 11 which delivers a heat source of steam introduced through the steam transport pipe 14 to the outer periphery to dry the dried material and at the same time generate condensed water at the inner periphery, and the other of the drum 11. A cylinder 10 formed on the side and configured to have a shaft 15 for rotating the drum 11;
A groove plate 20 provided at an inner circumference of the drum 11 and formed of a plurality of flow paths 21 to transfer condensed water to the double pipe 12;
A support part 30 supporting the groove plate 20 by contacting the inner circumference of the groove plate 20 so that the groove plate 20 is provided and fixed to the drum 11 to apply the force in the outer multi-direction;
A vapor flow blocking plate 40 disposed on an inner side surface of the drum 11 so as to communicate with the flow path 21 of the groove plate 20, and a conveying path 43 of condensate;
Is formed in the steam transport pipe 14, and is provided in the transfer path 43 of the steam flow blocking plate 40 to vertically penetrate one end surface of the steam transport pipe 14, the groove plate 20 It is configured to include; condensate discharge pipe 50 for transporting through the flow path 21 of the c) discharged to the outside by the siphon action condensed water collected in the transport path 43,
Between the outer periphery of the steam transfer pipe 14 and the inner periphery of the hole 13, the condensed water generated between the inner periphery of the drum 11 and the groove plate 20 is discharged to the outside, the condensate discharge pipe 50 is The end portion is bent in a cross-sectional shape and is formed to be spaced apart from each other in the transfer path 43 of the steam flow blocking plate 40, and the condensed water discharge pipe 50 by the siphon action while the pressure in the drum 11 rises. ),
The groove plate 20 is formed in a cylindrical shape and is divided in the circumferential direction so as to be easily installed on the inner circumference of the drum 11. The groove plate 20 includes a plurality of pieces of the flow path 21 of the groove plate 20. Is formed in the cross-sectional uneven portion of the cross-sectional shape so that the thermal resistance is in contact with the cylinder drum is formed in a plurality of circumferential direction of the groove plate 20 is provided with multiple flow paths, one flow path 21 is the groove plate 20 The cylinder drum dryer using a multi-channel and siphon action, characterized in that the length is formed in the longitudinal direction of the conveyed condensed water.
The method of claim 1,
The support portion (30)
A plurality of support plates 31 formed of an arc-shaped band so as to be in direct contact with the inner circumference of the groove plate 20;
The ends of the support plate 31 and the support plate 31 are interconnected by bolts and nuts to form a support plate 31 in a circular shape, and the bolts are adjusted so that the circular support plate 31 is exerted with force in an outer multi-direction. Adjusting unit 32 for adjusting the circle size;
Cylinder drum dryer using a multi-channel and siphon action, characterized in that comprising a.
The method of claim 1,
The steam flow blocking plate 40 is formed in the same shape as the inner circumference of the groove plate 20 in which the outer circumference is in contact with the circular plate, the center of the center so that it can be easily installed on both sides of the inside of the drum (11) The radially divided cylinder drum dryer using a multi-channel and siphon action, characterized in that consisting of a plurality of pieces (piece).
The method of claim 3, wherein
The steam flow blocking plate 40 divided into a plurality of pieces is a cylinder drum using a multi-channel and siphon action, characterized in that the assembly structure plate 42 is installed on the interconnection portions so as to be interconnected at one end surface. dryer.
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