KR102503247B1 - Sludge drying apparatus - Google Patents

Abstract

The present invention relates to a sludge drying apparatus having a scattering preventing unit, and more specifically, to a sludge drying apparatus having a scattering preventing unit, in which the top of a conveyor is covered with a scattering preventing cloth to prevent low-specific gravity fine sludge from scattering when sludge is being dried while being transported on the conveyor, and in particular, the scattering preventing cloth repeats the relaxation-shrinkage operation to collect and detach the sludge, thereby preventing scattering and increasing drying efficiency. To this end, the sludge drying apparatus having a scattering preventing unit, according to the present invention, comprises: a conveyor which transfers sludge so that the sludge is dried; and the scattering preventing unit with a scattering preventing cloth to cover the top of the conveyor.

Description

Sludge drying apparatus with scattering prevention unit {SLUDGE DRYING APPARATUS}

The present invention relates to a sludge drying apparatus having a scattering prevention unit, and more particularly, to prevent scattering of fine sludge of low specific gravity when drying sludge while transferring it to a conveyor. Covering the top of the conveyor with a scattering prevention cloth, In particular, it relates to a sludge drying apparatus having a scattering prevention unit capable of increasing drying efficiency while preventing scattering by collecting and detaching sludge while repeating relaxation-contraction operations of the anti-scattering fabric.

The generation of domestic sewage or industrial wastewater is increasing for various reasons, such as economic development, population growth, and improvement in living standards. Accordingly, in order to prevent water pollution of major rivers and rivers, the facilities of wastewater treatment plants, which are basic facilities for water quality improvement, are inevitably increasing, and the amount of wastewater sludge, which is a secondary by-product, is also increasing.

On the other hand, as the interest and demand for new and renewable energy increases due to the ESG corporate evaluation of each company and the promotion of RE100 due to the danger signals of the global global environment, high calorific value as one of the renewable fuels that can be applied to public or individual power generation. A plan to dry and utilize wastewater sludge (less than 50% moisture content) or mushroom medium is emerging.

In particular, with the expansion of the domestic market for weight loss and the strengthening of standards for dry fuel, the demand for low specific gravity chemical sludge and bio-drying material with a specific gravity of 0.5 or less is increasing in the drying market.

However, fine sludge with a low specific gravity has a high scattering rate, so it is difficult to use a general drying method, so there is no suitable method other than the indirect heat source method. can do.

Therefore, as a drying method of low specific gravity sludge, the method of transporting and drying the sludge in a low temperature environment with the belt 12 can be said to be the optimal method, but this method has a vulnerability to scattering during drying, and this scattering is caused by the failure of the dust collection facility. Problems such as shortened lifespan and increased concentration of SS in condensate occurred, and there were limitations in applying it as a drying method for organic and inorganic sludge for the production of new and renewable energy.

For reference, there is Registered Patent No. 10-2219328 as a prior art related to this.

Accordingly, the present invention has been made to solve the above problems,

When the sludge is transferred to the conveyor and dried, the upper part of the conveyor is covered with anti-scattering cloth to prevent scattering of fine sludge of low specific gravity. It is an object of the present invention to provide a sludge drying apparatus equipped with a scattering prevention unit capable of increasing drying efficiency while preventing scattering.

In order to achieve the above object, the sludge drying apparatus having a scattering prevention unit according to the present invention,

A conveyor for conveying and drying the sludge; and

It characterized in that it comprises; scattering prevention unit having a scattering prevention cloth covering the upper part of the conveyor.

And in the sludge dryer equipped with a scattering prevention unit according to the present invention,

The scattering prevention unit is characterized in that it includes a shape shifting means for changing the contraction-relaxation state of the scattering prevention fabric.

In addition, in the sludge drying apparatus equipped with a scattering prevention unit according to the present invention,

The shape shifting means includes a plurality of powders arranged in left and right or front and rear directions constituting the scattering prevention fabric, a pivoting shaft member inserted and coupled to the connection part between each powder in the width direction, and the left and right or front and rear ends of the scattering prevention fabric to the inside. Or it is characterized in that it comprises a driving unit for pressing outward.

In addition, in the sludge drying apparatus equipped with a scattering prevention unit according to the present invention,

The conveyor is characterized in that it includes a belt that is maintained in a low-temperature dry state.

Sludge drying apparatus equipped with a scattering prevention unit according to the present invention,

The top of the conveyor can be covered with a scattering prevention cloth to prevent scattering of sludge transported and dried sludge, especially low specific gravity fine sludge,

In particular, by periodically changing the contraction-relaxation state of the anti-scattering fabric, it is possible to increase the anti-scattering effect and drying efficiency through the collection and detachment of scattering products,

While the contraction-relaxation operation of the anti-scattering fabric is performed stably, there is an effect of not interfering with the transport and drying of the sludge.

1 is a schematic front view of a conveyor according to the present invention;
Figure 2 is a side view schematically showing a main part of the sludge drying apparatus having a scattering prevention unit according to the present invention.
3 and 4 are front views schematically showing the operation of the shape shifting means according to the present invention.
Figure 5 is a main part cross-sectional view for explaining the powder mounting structure of the scattering prevention cloth according to the present invention.

Since the present invention can have various changes and various forms, the implementation examples (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to a specific posting form, and it should be understood to include all changes, equivalents, or substitutes included in the spirit and technical scope of the present invention.

In each drawing, the same reference numeral, in particular, the same number of tens and ones digits, or the same reference numerals having the same tens digit, ones digit, and alphabet indicate members having the same or similar functions, and unless otherwise specified, each of the drawings Members indicated by reference numerals may be understood as members conforming to these standards.

In addition, the components in each drawing are expressed in exaggeratedly large (or thick) small (or thin) or simplified expressions in size or thickness in consideration of convenience of understanding, etc., but the scope of protection of the present invention is thereby limited. It shouldn't be.

Terms used in this specification are only used to describe a specific embodiment (aspect, aspect, aspect) (or embodiment), and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, terms such as ~comprising~ or ~consisting of are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

~First~, ~Second~, etc. described in this specification will only be referred to to distinguish different components from each other, regardless of the manufacturing order, and the names in the detailed description and claims of the invention may not match.

In describing the sludge drying apparatus equipped with the anti-scattering unit according to the present invention, if a non-rigid approximate direction standard is specified with reference to FIG. 1 for convenience, , and the detailed description and claims of the invention related to the other drawings specify and describe the direction according to this criterion unless otherwise specified.

Hereinafter, a sludge drying apparatus having a scattering prevention unit according to the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the present invention relates to a sludge drying apparatus having a scattering prevention unit, and is largely composed of a conveyor 10 and a scattering prevention unit 20.

Specifically, the present invention,

Conveyor 10 for conveying and drying sludge (S) and

A scattering prevention unit 20 having a scattering prevention cloth 21 covering the top of the conveyor 10 is included.

The conveyor 10 and the anti-shattering unit 20 are installed inside a separate drying room (not shown), and two or more conveyors 10 may be installed in a multi-layered structure by spaced apart at a predetermined interval up and down, in this case The conveying direction by the conveyor 10 is formed opposite to each other for each layer, so that the sludge (S) is sequentially transported in a falling form after horizontally moving in a zigzag pattern, and then discharged after being transported downward.

In the conveyor 10, a separate slitter (not shown) may be additionally installed on the upper side of each sludge input unit, so that the sludge S may be introduced into the conveyor 10 in a thin and long cut state.

The conveyor 10 is a type of belt conveyor 10 composed of a sprocket 11 and a belt 12, and the shape of the belt 12 may vary depending on the drying method.

For example, when drying is performed by injecting hot air into the drying chamber, the upper and lower surfaces of the belt 12 may be formed with a plurality of perforated pores, such as a mesh belt, to increase the hot air drying efficiency.

However, since the present invention suppresses the scattering of the sludge (S) through the scattering prevention unit 20 and does not require the installation of additional dust collection facilities, the low temperature drying state (here, low temperature refers to a relatively low temperature range in the temperature range in which drying is possible) .) may further include a belt 12 that is maintained, and at this time, the belt 12 maintains a low temperature state through embedding of a hot wire.

Next, the scattering prevention unit 20, which is the core of the present invention, will be described.

The scattering prevention unit 20 covers the upper part of the conveyor 10 on which the sludge S is seated to form an airtight structure, and there is no limitation in its material or shape.

However, in order to form the powder 211 of the shape shifting means 22 to be described later, it is preferable to be made of a material that is not completely soft but has a certain strength and maintains its shape.

On the other hand, the anti-shattering unit 20 includes a shape shifting means 22 for changing the contraction-relaxation state of the anti-shattering cloth 21 .

The shape shifting means 22 is a rotating shaft member that is inserted into and coupled in the width direction to a connection portion between a plurality of powders 211 constituting the scattering prevention cloth 21 arranged left and right or front and rear, and each powder 211 (23), and a drive unit 24 for pressing the left and right or front and rear ends of the scattering prevention cloth 21 inward or outward.

The anti-scattering cloth 21 is coupled with a structure in which the powders 211 can rotate with each other, such as a chain or a hinge structure, and enables the displacement of the entire shape of the anti-scattering cloth 21.

The pivoting shaft member 23 functions as a pivoting shaft by hinge-joining the powder bodies 211 adjacent to each other, and may be configured in the form of a rod-shaped shaft or a side roller.

The driving unit 24 displaces the flat shape of the remaining inner powders 211 by pressing (pushing or pulling) the powders 211 at the outermost ends of the anti-shattering cloth 21, especially the left and right or front and rear ends. .

The driving unit 24 includes a driving arm capable of pushing or pulling the powder 211 by receiving power from a motor or cylinder.

In particular, the contraction-relaxation state of the anti-shattering fabric 21 is periodically changed through the shape shifting means 22 through a separate timer or programming operation.

Therefore, when the conveyor 10 operates to transport the sludge S, the shape shifting means 22 pulls (relaxes) the powders 211 outward by the drive unit 24 to ) completely cover the upper sludge (S) of the belt 12 to collect the scattering sludge (S) to prevent scattering.

And when some drying occurs over a certain period of time, the drive unit 24 pushes the powders 211 inward (contraction), and the powders 211 inside rotate and the shape of the emergency bag is displaced in a bending structure. , after a certain period of time, it is restored to its original form (relaxation).

Accordingly, when the sludge (S) is being transported along one conveyor 10, when the contraction-relaxation state of the anti-shattering cloth 21 by the shape displacement means 22 is repeatedly changed, the anti-shattering cloth 21 The sludge (S) collected on the bottom surface of the belt 12 is seated on the upper surface of the belt 12 by desorption due to impact during shape displacement.

When the contraction-relaxation cycle of the anti-scattering cloth 21 is repeated, the trapping and desorption of the scattering sludge (S) is repeatedly performed, and the drying efficiency for the sludge (S) can be increased with the effect of preventing scattering during transport. effect can be provided.

In particular, the present invention can be dried in a state in which scattering is suppressed, regardless of the specific gravity of the sludge (S), especially to fine sludge (S) of low specific gravity, so its utilization is widened, and separate It does not cause environmental pollution even without additional installation of dust collection equipment, and it can be used for production of high-calorie steam coal by stable drying of sludge (S).

On the other hand, the rotational structure of the powders 211 may deteriorate the bonding stability of the powders 211 due to shock, high temperature and humid temperature conditions, entrapment of flying products, etc. due to the contraction-relaxation operation of the anti-scattering fabric 21. The invention solves the above problems by forming a rotational structure of the powders 211 in the structure shown in FIG. 5 .

First, the rotation shaft member 23 is connected by protruding from both left and right ends of the powder body 211, and has a rotation shaft portion 231 having an inner non-screw portion 231a and an outer screw portion 231b,

The powder body 211 includes shaft coupling portions 212 provided at both front and rear ends and fitted into the non-screw portion 231a,

It includes a bearing member 25 inserted into the non-screw portion 231a to support the shaft coupling portion 212, and a fixing nut N fastened to the screw portion 231b to fix the bearing member 25. .

And it includes a nut fixing fitting member (W) that prevents the fixing nut (N) from being loosened from the threaded portion (231b).

Further, the pivoting shaft portion 231 is a type of bolt having a partial thread, and prevents the bearing member 25 from being separated by fastening the fixing nut N.

In addition, the present invention further includes a nut fixing fitting member (W) that prevents the fixing nut (N) from being loosened.

Specifically, in order to prevent loosening of the fixing nut (N),

The pivoting shaft portion 231 includes a sliding groove B13 formed in the longitudinal direction on an outer circumferential surface of one side of the screw portion 231b and a guide groove B14 formed in the longitudinal direction on both wall surfaces of the sliding groove B13,

The nut fixing fitting member (W) is inserted into the sliding groove (B13) and is movable, but a wedge-shaped interference fitting portion (W1) protruding outside the screw bone (B12) of the threaded portion (231b), and the interference fitting portion ( The wing portion W2 protrudes from both sides of W1) and is inserted into the guide groove B14, and the striking portion W3 connected to protrude outward from the screw thread of the screw portion 231b from the interference fit portion W1. include

The sliding groove B13 and the guide groove B14 are machined in the longitudinal direction of the threaded portion 231b and connected to the boundary of the non-threaded portion 231a.

And the nut fixing fitting member (W) has a '+'-shaped cross-sectional structure corresponding to the sliding groove (B13) and the guide groove (B14), but the outer surface (right side in the drawing) of the interference fitting part (W1) is wedged It is pointed in shape and its end is formed to protrude more than the bottom surface of the screw bone (B12) of the screw part (231b), and the striking part (W3) is forced to protrude higher than the outer diameter of the screw thread (B11) of the screw part (231b) It is connected to the fitting part (W1).

At this time, unlike the drawing, it is more preferable if the interference fit portion (W1) has a wedge shape in which the thickness becomes narrower toward the distal end.

Accordingly, in a state in which the nut fixing fitting member (W) is separated from the threaded portion (231b), when the fixing nut (N) is fastened to the threaded portion (231b), the screw coupling is not interfered.

And in the state in which the fixing nut (N) is fastened to the threaded portion (231b) of the rotation shaft portion 231, the nut fixing fitting member (W) is inserted into contact with one surface of the fixing nut (N) and then pushed and moved, such as a hammer When the hitting portion W3 is hit with a tool of , the interference fit portion W1 digs into the screw hole of the fixing nut N and is forcibly fitted.

At this time, due to the wedge shape of the interference fit portion (W1), the thread (N1) of the fixing nut (N) is cut in the longitudinal direction of the rotation shaft portion (231), and the interference fit portion (W1) is inserted into the fixing nut (N). The interference-fitting portion W1 inserted in this way blocks the rotational path of the threads B11 and N11, and as a result, the rotation of the fixing nut N becomes impossible, so that the fixing nut N is loosened due to vibration or the like. can prevent

In the above description of the present invention, the sludge drying apparatus equipped with a scattering prevention unit has been mainly described with reference to the accompanying drawings, but the present invention can be variously modified, changed, and replaced by those skilled in the art, and these modifications, changes, and replacements It should be construed as falling within the protection scope of the present invention.

*Description of the main parts of the drawing*
10: conveyor 11: sprocket
12 : Belt
20: scattering prevention unit 21: scattering prevention cloth
22: form displacement means 23: pivoting shaft member
24: driving unit

Claims (4)

A conveyor for conveying and drying the sludge; and
A scattering prevention unit having a scattering prevention cloth covering the top of the conveyor; includes,
The scattering prevention unit includes a shape shifting means for changing the contraction-relaxation state of the scattering prevention fabric,
The shape shifting means includes a plurality of powders arranged in left and right or front and rear directions constituting the scattering prevention fabric, a pivoting shaft member inserted and coupled to the connection part between each powder in the width direction, and the left and right or front and rear ends of the scattering prevention fabric to the inside. Or sludge drying apparatus with a scattering prevention unit, characterized in that it comprises a drive unit for pressing outward.
According to claim 1,
A sludge drying apparatus with a scattering prevention unit, characterized in that two or more conveyors are installed in a multi-layer structure at a predetermined interval apart from each other up and down inside the drying room, and the conveying directions of each conveyor are opposite to each other for each layer.
According to claim 1,
The drive unit comprises a drive arm capable of pushing or pulling powder by receiving power from a motor or cylinder.
According to any one of claims 1 to 3,
The conveyor is a sludge drying apparatus with a scattering prevention unit, characterized in that it comprises a belt that maintains a low-temperature dry state.

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