JP4532722B2 - Screw press - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a screw press used for the purpose of reducing the volume of an object to be processed and simplifying a subsequent process in water treatment such as sewage, industrial wastewater, agricultural settlement wastewater, human waste, and waste leachate.
[0002]
[Prior art]
When treating sewage, industrial wastewater, agricultural settlement wastewater, human waste, waste leachate, etc., in the process of concentrating and dewatering the processed material, in order to reduce the volume of the processed material and simplify the subsequent process, Conventionally, a press filter such as a belt press using a cloth, a filter press, a dehydrator / concentrator using a centrifugal force, a screw press, or the like has been used.
However, in recent years, with a screw press that is easy to deal with environmental problems such as noise problems, odor countermeasures, and power saving, in order to install treatment plants in residential areas where population is concentrated and downsize treatment facilities. A lot of processing came to be seen.
[0003]
A screw press generally has an object to be processed (for example, a slurry) in the drum 200 or 300 having a cone shape shown in FIG. 5A or a parallel tube type shown in FIG. ), Pressure rings 202, 302 and the like that can apply back pressure to the outlet side of the solid content are provided, and the object to be processed is forced by the conveying / extrusion forces of the screws 203, 303 provided inside the drum. Pressure / squeeze filter that creates volume change. The inputted processing object is squeezed and the liquid is squeezed. The separated liquid separated in the drum is discharged from a gap provided on the side walls of the drums 200 and 300, and the drained solid content is discharged from the solid content discharge ports 204 and 304. Of these conventional screw presses, a parallel tube type screw press will be described in more detail with reference to FIG.
[0004]
As shown in FIG. 4, a conventional screw press 100 includes a drum 101 having a filtration hole, a screw 102 that is rotatably supported coaxially within the drum 101 and rotates while sliding on the inner surface of the drum, Two openings 103 and 104 provided at both ends of the drum 101 for loading a workpiece into the rotating drum 101 and discharging solids discharged from the drum 101; And two hydraulic cylinders 105a and 105b for applying pressure from the solid content outlet side to the inside of the drum 101, and a separation liquid discharge port 106a for discharging the separation liquid coming out from the filtration hole of the drum 101 to the outside. And a casing 106.
[0005]
Next, the operation of the conventional screw press 100 configured as described above will be described. An object to be processed is supplied from a hopper, a chute, a head tank, or the like to the opening 103 that is open to the atmosphere. The supplied object to be processed is gravity filtered in the concentration zone while being conveyed by the screw 102, further filtered under pressure in the next filtration zone, drained, and conveyed to the pressing zone. The processed material which has been concentrated, filtered and reduced in volume before going to the pressing zone further increases the pressing pressure in the drum 101 from the outlet side of the solid content by the hydraulic cylinders 105a and 105b when passing through the pressing zone. Thus, the pressure is applied and the mixture is squeezed and discharged from the opening 104 as a solid content.
On the other hand, the separated liquid separated in the drum 101 is discharged to the outside from the separated liquid discharge port 106 a of the casing 106 through the filtration hole provided in the side wall of the drum 101.
[0006]
[Problems to be solved by the invention]
However, the conventional screw press 100 is a pressure / squeeze filter that conveys the object to be processed by the screw 102 and creates a volume change of the object to be processed using a pressurized state. Depending on
(1) A state in which the object to be processed is clogged between the axial directions of the screw blades 102a, that is, a so-called bridge occurs, the object to be processed adheres to the blade surface, and there is no movement in the axial direction. There is a problem that the liquid removal rate is different between the conveyance failure and the shaft 102b side of the screw 102 and the tip end side of the screw blade 102a.
(2) Moreover, in the to-be-processed object with a bad liquid removal rate, since the compression time (retention time) in the drum 101 was earned, the length of the drum 101 was long, and the shape tended to be large. Furthermore, since it is necessary to apply high pressure (for example, 0.5 MPa) according to the purpose at the outlet by the hydraulic cylinders 105a and 105b in order to increase the compression pressure inside the drum 101, a large-scale compression device (spring or hydraulic pressure) is required. There was a problem in terms of cost.
[0007]
The present invention has been made to solve the above-described problems, and can prevent the occurrence of a bridge between the axial directions of the screw blades, and can process an object to be processed that has a small shape but a low liquid removal rate. An object is to provide an inexpensive screw press that can be used.
[0008]
[Means for Solving the Problems]
The invention described in claim 1 of the screw press according to the present invention made to solve the above-mentioned problems has a filter hole provided in the casing.RotatingDrum and therotationIt is pivotally supported coaxially within the drum and isrotationA rotating screw that rotates while sliding in contact with the inner surface of the drum;rotationTwo openings formed at both ends of the drum, and the separation liquid is obtained by concentrating, filtering, and squeezing the object to be processed that is introduced from one of the openings.rotationIn the screw press for discharging the solid content discharged from the drum from the other opening, the rotary screw is provided so as to be rotatable forward and backward, and the blades of the rotary screw are formed in a spiral shape, and the spiral shape of the rotary screw is provided. A fixed screw composed of a spiral blade spiraling in the same direction as the blade of the rotary screw is provided around the rotational axis of the rotary screw so as to be disposed between the blades of the rotary screw,The rotational speed of the rotary drum is set to be higher than the rotational speed of the rotary screw, and the rotational direction of the rotary drum is such that the workpiece put into the rotary drum is moved along the fixed screw. A rotation direction conveyed from one opening to the other opening,The object to be processed is squeezed between two blades by alternately performing forward rotation and reverse rotation of the blades of the rotary screw.
[0009]
  According to the first aspect of the present invention, the fixed screw blades are disposed between the rotating screw blades that are rotatable in both forward and reverse directions, and the two screw blades are rotated by rotating the rotating screw in both forward and reverse directions. Because the processing object was squeezed between
(A)It is conveyed along the fixed screw by the rotation of the rotating drum.Workpiece is, With fixed screw and rotating screwSince it is repeatedly squeezed, a high liquid removal rate can be obtained even if the length of the drum is short. As a result, the apparatus can be miniaturized. Therefore, an inexpensive device can be provided.
(B)The rotating drum is conveyed along the blades of the fixed screw by rotation.Workpiece is, With fixed screw and rotating screwSince it is repeatedly squeezed, the workpiece is not attached to the blade surface and is moved in the axial direction, so that it is possible to prevent the occurrence of an axial bridge between the blades. As a result, the conveyance capacity is stabilized. Accordingly, maintenance work can be reduced.
(C) Since the workpiece is squeezed between the two blades, it is basically unnecessary to pressurize with high pressure from the solid content outlet side, which has been conventionally performed to increase the squeezing pressure inside the drum. It becomes. In addition, a pressure ring or the like is only necessary for applying a low pressure (for example, 0.1 MPa) as a preliminary back pressure for filling the object to be processed when the object to be processed is initially put into the rotating drum. Thus, a high-pressure device such as a conventional machine is not necessary.
[0010]
  The invention described in claim 2 of the screw press according to the present invention made in order to solve the above-mentioned problems,Said coveredThe processed material is pressurized with a pump and supplied into the rotating drum.The
[0011]
According to the invention of claim 2, the surroundings are conventionally sealed as compared with the case where the object to be processed is supplied from the hopper or the head tank to the opening portion opened to the atmosphere and subjected to gravity filtration in the concentration zone. Since the object to be processed is supplied in a state in which it is present, it is possible to perform pressure filtration using the supply pressure effectively. As a result, the concentration time of the object to be processed in the concentration zone is shortened.
[0012]
  The invention described in claim 3 of the screw press according to the present invention made to solve the above-mentioned problems is characterized in that a cleaning liquid supply pipe is disposed in the casing so as to face the rotating drum.The
[0013]
According to the invention of claim 3, even if the filtration hole of the rotating drum is clogged during operation, the rotating drum can be cleaned while operating the screw press. Therefore, since the cleaning can be performed without disassembling the casing or the like, the operation time can be improved. In addition, if the cleaning liquid is continuously supplied, it is possible to process even an object that is likely to be clogged.
[0014]
  The invention described in claim 4 of the screw press according to the present invention, which has been made to solve the above-mentioned problems, is characterized in that the rotating drum and the rotating screw according to the properties of the object to be processed.TimesSpeedDegreeIt is characterized by decidingThe
[0015]
  According to the invention of claim 4, the rotating drum and the rotating screw are adapted to the properties of the workpiece.TimesSpeedDegreeBy deciding, the screw press can be optimized.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
A screw press according to the present invention will be described with reference to the drawings. 1 is a longitudinal sectional view showing a first embodiment of a screw press according to the present invention, FIG. 2 is a longitudinal sectional view showing a second embodiment of the screw press according to the present invention, and FIG. 3 is according to the present invention. It is the longitudinal cross-sectional view of the screw press partially expanded for demonstrating the method of determining the rotation direction and rotational speed of a rotating drum and a rotating screw, and the installation / non-installation of a rotating screw by the property of the to-be-processed object of a screw press.
[0017]
Initially, the screw press of 1st embodiment which concerns on this invention is demonstrated with reference to FIG.
As shown in FIG. 1, the screw press 1 of the first embodiment is
A rotating drum 2 having a filtering hole provided in the casing 13;
A rotary screw 3 that is coaxially supported in the rotary drum 2 so as to be rotatable forward and backward;
A fixed screw 4 provided between the screw blades 3a of the rotary screw 3 and provided so as to surround the screw shaft 3b of the rotary screw 3;
A pressure ring 5 for applying pressure from the solid content outlet 14 side to the inside of the rotary drum 2;
Sprockets 6 and 7 for transmitting a driving force from the outside to the rotating drum 2 and the rotating screw 3, respectively;
A workpiece supply pipe 8 for supplying a workpiece to the rotary drum 2;
A solid content discharge port 9 for discharging the processing object concentrated, filtered, and compressed in the rotary drum 2 to the outside as a dehydrated solid content;
A separation liquid discharge port 10 provided at a lower portion of the casing 13 for discharging the separation liquid drained in the rotary drum 2 to the outside;
The main part consists of
[0018]
  The rotary drum 2 has a cylindrical shape and is supported by a bearing bearing 12 a and a support roller 15 so as to be rotatable around a screw shaft 3 b of the rotary screw 3. The rotary drum 2 has a structure in which wedge wires or the like having a special cross-sectional shape (for example, trapezoid) are formed in a ring shape, and a slight gap is provided between the rings to be arranged and connected. Further, the interval between the rings (corresponding to the opening of the filter medium) is set so as to gradually become narrower from the input side of the workpiece to the discharge side of the solid content. For example, when the rotating drum is divided into four stages, the first stage opening is 0.5 mm, the second stage opening is 0.3 mm, the third stage opening is 0.2 mm, and the fourth stage opening is 0.4 mm. The opening is provided to be 0.1 mm. The rotational speed of the rotating drum 2 is 10 min.^-1At the following rotation speed, the rotation direction is always operated in a constant direction.
  And the rotation direction of the rotating drum 2 rotates in the direction which conveys the to-be-processed object thrown in in the rotating drum 2 to the solid content outlet 14 side along the fixed screw 4 mentioned later. The rotational speed of the rotary drum 2 is set higher than the rotational speed of the rotary screw 3 described later.
[0019]
  The rotary screw 3 is formed of a screw blade 3a and a screw shaft 3b. The screw blade 3a has a spiral shape and is fixed along the periphery of the screw shaft 3b. Since the pitch of the screw blades 3a is arranged so as to become narrower as it approaches the outlet of the solid content, the squeezing interval gradually becomes narrower and the squeezing force accompanying the volume change becomes stronger. The shape of the screw shaft 3b is a cylinder, and is supported by bearing bearings 11a and 11b so as to be rotatable forward and backward in the rotary drum 2. The rotary screw 3 rotates by rotating forward and reverse at regular intervals with respect to the rotary drum 2.The rotational speed of the rotary screw 3 is set lower than the rotational speed of the rotary drum 2 described later.
[0020]
The fixed screw 4 has a special structure such as a ribbon screw having only a spirally wound blade having no shaft core at the center, and the fixed screw 4 is sandwiched between the screw blades 3 a of the rotating screw 3. It is provided as follows. The both ends of the fixed screw 4 are fixed to the concentration zone via a metal bearing and the other end is fixed to the upper part of the pressure ring 5 on the pressing zone side so as to be stationary with respect to the rotating drum 2. . Moreover, the pitch of the fixed screw 4 is arrange | positioned so that it may become narrow as it approaches the exit 14 side of solid content similarly to the rotary screw 3. FIG.
[0021]
The pressure ring 5 applies pressure to the rotary drum 2 from the solid content outlet 14 side when the workpiece is initially charged into the rotary drum 2, thereby increasing the pressure of the workpiece in the rotary drum 2. This pressure is applied by a spring 5a (or hydraulic pressure), and the applied pressure can be freely adjusted. However, the applied pressure is generally about 0.1 MPa, which is smaller than the conventional screw press.
[0022]
The sprockets 6 and 7 are chain gears for transmitting an external driving force to the rotary drum 2 and the rotary screw 3, respectively, and are connected to a reduction gear on the electric motor side via a chain (not shown).
[0023]
The workpiece supply pipe 8 is a pipe whose tip is opened in the rotary drum 2.
The workpiece supply pipe 8 is inserted through the hollow portion of the screw shaft 3 b and is arranged so that the workpiece can be supplied to the concentration zone in the rotary drum 2.
When supplying an object to be processed into the rotary drum 2, pressure filtration using the supply pressure can be performed effectively by sealing the pipe with a pipe and supplying it in a pressurized state without supplying the surroundings in an open state to the atmosphere. . As a result, the drainage time in the concentration zone can be shortened.
[0024]
  The operation of the screw press 1 of the first embodiment configured as described above will be described.
(1) The rotating drum 2 receives the driving force from the electric motor with a speed reducer via the sprocket 6, and the constant speed (for example, 10 min)^-1) To rotate in a certain direction.
(2) The fixed screw 4 is stationary with respect to the rotating drum 2.
Here, the rotating direction of the rotating drum 2 is rotated in a direction in which the object to be processed put into the rotating drum 2 is conveyed along the fixed screw 4 to the solid content outlet 14 side.
(3) The rotating screw 3 is transmitted with the driving force from the electric motor with a speed reducer via the sprocket 7, and rotates by rotating forward and reverse at regular intervals with respect to the rotating drum 2. The screw blade 3a of the rotary screw 3 rotates with the fixed screw (blade) 4 as a maximum stroke (rotational motion in the axial direction of the blade by inching motion). Here, forward rotation means rotation in the same direction as the rotating drum 2, and reverse rotation means rotation in the opposite direction to the rotating drum 2. The timing for switching the forward / reverse rotation direction is most efficiently in the vicinity where the fixed screw (blade) 4 and the screw blade 3a of the rotating screw 3 are in contact with each other, and thereby the workpiece between the blades is repeatedly squeezed in the forward and reverse directions. , Help to increase the drainage effect. Further, the screw press 1 of the first embodiment is designed such that this effect is continuously obtained from the entrance to the exit of the workpiece in the rotary drum 2.
  Even if the object to be processed moves to the inlet side of the object to be processed due to the compression of the rotating screw 3, the rotating speed of the rotating drum 2 is set higher than the rotating speed of the rotating screw 3 described later.
[0025]
(4) A slurry-like object to be processed is pressurized by a pump or the like (not shown) to the screw press 1 of the first embodiment set as described above, and a concentration zone in the rotary drum 2 from the object supply pipe 8 It is press-fitted into. In the concentration zone, the object to be processed is pre-concentrated by the pressure and the rotational movement of the screw. The pre-concentrated object to be processed is led to a subsequent filtration zone.
Thus, compared with the case where the object to be processed is conventionally supplied from the hopper, the head tank, etc. to the opening portion opened to the atmosphere and subjected to gravity filtration in the concentration zone, the object is sealed in a sealed state. Since the processed material is supplied, pressure filtration using the supply pressure effectively can be performed. As a result, the concentration time of the object to be processed in the concentration zone is shortened.
(5) In the filtration zone at the center of the rotary drum 2, the object to be treated is filtered and drained while receiving the squeezing force due to the volume change accompanying the movement in the rotary drum 2 and the repeated movement of the blades, and the separated liquid rotates. It is discharged from the gap between the wedge wires on the outer periphery of the drum 2 to the outside of the rotating drum 2 and guided to a predetermined tank or the like through the separation liquid discharge port 10 provided at the lower part of the casing 13.
In this way, in the filtration zone, the object to be processed concentrated in the previous process is subjected to a change in volume accompanying the movement in the rotary drum 2 and a pressing force due to repeated movement of the rotary screw 3 in the axial direction of the screw blade 3a. Since the filtration and drainage are gradually performed, the drainage rate is improved as compared with the case where the object to be treated is filtered and drained by only rotating in one direction in the fixed drum.
[0026]
On the other hand, the solid content that has been filtered and drained is further transported to the squeezing zone, and while receiving the squeezing force due to the volume change accompanying the movement and the repetitive motion of the rotating screw 3, the end 2a of the rotating drum 2 and the pressure ring 5 The rotary screw 3 guides to the solid content outlet 14 formed between the presser 5b.
Thus, in the squeezing zone, the pitch of the screw blade 3a and the fixed screw (blade) 4 of the rotary screw 3 is reduced, so that the highest squeezing force acts on the workpiece. However, since the squeezing force by the rotational motion is forcibly applied not only in the radial direction of the rotating drum 2 but also in the axial direction, the workpiece can always be moved forward and backward in the rotating drum 2. This can prevent the occurrence of bridging. In addition, compared with the conventional case where the workpiece is squeezed only in one direction of rotation in a fixed drum, the squeezing force by the rotational motion is forcibly applied also in the axial direction, so the diameter is small. As a result of the solid content also being trapped between the blades, the yield and the liquid drainage rate of the solid content that has been drained are improved.
(6) In the vicinity of the solid content outlet 14, the sufficiently compressed solid content is pushed out of the pressure ring 5 b of the pressure ring 5 having a predetermined pressure and discharged on the circumference while being drained. It is recovered from the solid content outlet 9 provided in the lower part of the casing. It should be noted that the pressure force of the pressure ring 5 only needs to function to fill the inside of the drum with the workpiece to be initially charged, so that the pressure force is applied to the screw blade 3a of the rotating screw 3 and the fixed screw (blade) 4. Smaller than the squeezing force between.
[0027]
In this way, the fixed screw blades are arranged between the rotating screw blades that can rotate in both forward and reverse directions, and the workpiece is moved between the two blades by rotating the rotating screw in both forward and reverse directions. Squeezed
(A) Since the object to be treated is repeatedly squeezed while being conveyed by a screw, a high liquid removal rate can be obtained even if the length of the drum is short. As a result, the apparatus can be miniaturized. Therefore, an inexpensive device can be provided.
(B) Since the object to be processed is repeatedly squeezed while being conveyed by the screw, the object to be processed does not adhere to the blade surface, and the movement in the axial direction is also performed, so that an axial bridge between the blades is generated. Can be prevented. As a result, the conveyance capacity is stabilized. Accordingly, maintenance work can be reduced.
(C) Since the workpiece is squeezed between the two blades, it is basically unnecessary to pressurize with high pressure from the solid content outlet side, which has been conventionally performed to increase the squeezing pressure inside the drum. It becomes. In addition, a pressure ring or the like is only necessary for applying a low pressure (for example, 0.1 MPa) as a preliminary back pressure for filling the object to be processed when the object to be processed is initially put into the rotating drum. Thus, a high-pressure device such as a conventional machine is not necessary.
[0028]
Next, the screw press of 2nd embodiment is demonstrated with reference to FIG. In the screw press 20 of the second embodiment, a cleaning liquid supply pipe 21 is disposed inside the casing of the screw press of the first embodiment so as to face the outer peripheral wall surface of the rotary drum.
In addition, the same code | symbol is attached | subjected and demonstrated about the same member as the screw press of 1st embodiment.
The cleaning liquid supply pipe 21 is a manifold (manifold pipe) fixed in the longitudinal direction of the upper portion of the casing 13. The cleaning liquid is pressurized and supplied to the cleaning liquid supply pipe 21 by a pump or the like (not shown), and the cleaning liquid is directed from the plurality of spray nozzles 21 a, 21 a,. Inject.
By rotating the rotating drum 2 in the casing 13 and spraying the cleaning liquid from the outside of the rotating drum 2, the rotating drum can be cleaned uniformly. Further, even if the filter hole of the drum is clogged during operation, the rotary drum 2 can be cleaned while operating the screw press 20. Accordingly, it is not necessary to disassemble the casing 13 for cleaning the rotary drum 2, so that the operation time can be improved. In addition, if the cleaning liquid is continuously supplied, it is possible to process even an object that is likely to be clogged.
[0029]
  Next, in the screw press according to the present invention, the rotating drum and the rotating screw are matched to the properties of the object to be processed.TimesAdjust the rotation speedAn example will be described. In addition, reference examples in the case where the rotating screw does not rotate and the case where the rotating screw is not provided will also be described.
  FIG. 3 (a) shows an example of the structure of a screw press when processing an object to be processed which has a fine solid particle size (less than 5 micrometers) in a slurry-like object and has a high compaction property when pressed. Is shown.
  The screw press is operated, for example, when the rotational speed of the rotary drum 2 is 2 min.^-1The fixed screw 4 is stationary, and the rotating screw 3 rotates forward and backward and moves in the same direction as the rotating drum 2 for 1 min.^-11 min in the opposite direction to the rotating drum 2^-1Rotates at regular intervals. Therefore, when the rotary screw 3 moves forward to the solid content discharge side, 2 + 1 = 3 min.^-1When the rotary screw 3 moves backward to the workpiece input side, 2-1 = 1 min^-1Between the fixed screw 4 and 0 ± 1 = ± 1min.^-1The object to be processed will be squeezed. The average screw press is 2 min on average^-1It will be rotated and squeezed.
  In this way, the rotary screw 3 can be rotated in both forward and reverse directions to repeatedly squeeze the workpiece between the two blades and forcefully squeeze not only in the vertical direction but also in the axial direction. Even small solids can be captured between the blades, and the amount of leakage of solids from the inside of the rotary drum 2 to the outside is reduced and the liquid removal rate is improved as compared with the conventional screw press. Also, since a force acts to rotate the workpiece in the front-rear direction of the screw shaft 3b, starting from one point between the screw blade 3a and the fixed screw (blade) 4 of the rotary screw 3, conventionally, between the blades Since the object to be processed that remains without being conveyed by the force is forcibly subjected to the longitudinal force of the shaft, it is easy to move. As a result, the prevention of bridging and the conveyance of the workpiece are stabilized. In addition, even if the compactness of the object to be processed is large, it does not squeeze and drain at once, but apparently repeatedly squeezes forward and backward, so the drainage rate (squeezing effect) is high improves.
[0030]
  FIG. 3 (b)It is a reference example when the rotating screw does not rotate,An example of the structure of a screw press for treating an object to be processed having a relatively large solid content (5 to 40 micrometers) in a slurry-like object and a medium compactness when squeezed. It is a thing. The rotational speed of the rotary drum 2 of this screw press is 2 min.^-1The fixed screw 4 and the rotating screw 3 are operated in a stationary state. Thus, by rotating only the rotating drum 2 and holding the rotating screw 3 and the fixed screw 4 in a stationary state, a drum rotating screw press structure is obtained. Concentrated, filtered, and squeezed while the material to be processed passes between the plurality of screw blades formed from the rotating drum 2, the rotating screw 3, and the fixed screw 4, and the separated liquid and the dehydrated solid are discharged respectively. Is done.
[0031]
  FIG. 3 (c)It is a reference example when no rotating screw is provided,It shows an example of the structure of a screw press when processing an object to be processed having a large solid particle size (40 micrometers to several millimeters) in a slurry-like object and having a small compactness when pressed. is there. The rotational speed of the rotary drum 2 of this screw press is 2 min.^-1The screw is operated with only the fixed screw 4 installed and no rotating screw 3 installed. Thus, by rotating only the rotating drum 2 and holding the stationary screw 4 in a stationary state, the structure is similar to that of a conventional drum rotating screw press. However, the number of screw blades is small and the screw pitch is large compared to FIG. 3B (the pressure / squeezing force on the workpiece is small). While the object to be processed passes between the rotating drum 2 and the blades of the fixed screw 4, it is concentrated, filtered, and squeezed, and the separated liquid and the dewatered solid are discharged.
[0032]
Thus, by adjusting the rotation direction and rotation speed of the rotary drum and rotary screw of the screw press according to the properties of the object to be processed, or by determining the installation / non-installation of the rotary screw provided in the rotary drum, the optimum It can be squeezed.
[0033]
【The invention's effect】
  According to the present invention having the above configuration and operation, the following effects can be obtained.
1) According to the invention of claim 1, between the two blades, the fixed screw blades are disposed between the blades of the rotary screw that can rotate in both forward and reverse directions, and the rotary screw is rotated. In order to squeeze the workpiece,
(A)It is conveyed along the fixed screw by the rotation of the rotating drum.Workpiece is, With fixed screw and rotating screwSince it is repeatedly squeezed, a high liquid removal rate can be obtained even if the length of the drum is short. As a result, the apparatus can be miniaturized. Therefore, an inexpensive device can be provided.
(B)The rotating drum is conveyed along the blades of the fixed screw by rotation.Workpiece is, With fixed screw and rotating screwSince it is repeatedly squeezed, the workpiece is not attached to the blade surface and is moved in the axial direction, so that it is possible to prevent the occurrence of an axial bridge between the blades. As a result, the conveyance capacity is stabilized. Accordingly, maintenance work can be reduced.
(C) Since it is squeezed between two blades, basically no pressure is required on the outlet side of the solid content, and the pressure ring or the like is a low pressure as a preliminary back pressure for the initial charging of the workpiece ( For example, a high-pressure device such as a conventional machine is unnecessary because it is necessary only to apply 0.1 MPa).
2) According to the invention of claim 2, compared with the case where the object to be processed is conventionally supplied from the hopper or the head tank to the opening portion opened to the atmosphere and subjected to gravity filtration in the concentration zone, Since the object to be treated is supplied in a sealed state, pressure filtration using the supply pressure effectively can be performed. As a result, the concentration time of the object to be processed in the concentration zone is shortened.
3) According to the invention of claim 3, the drum can be cleaned while the screw press is operated even if the filter hole of the rotating drum is clogged during the operation. Therefore, since the cleaning can be performed without disassembling the casing or the like, the operation time can be improved. In addition, if the cleaning liquid is continuously supplied, it is possible to process even an object that is likely to be clogged.
4) According to the invention of claim 4, the rotating drum and the rotating screw are adapted to the properties of the workpiece.TimesSpeedDegreeBy deciding, the screw press can be optimized.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a first embodiment of a screw press according to the present invention.
FIG. 2 is a longitudinal sectional view showing a second embodiment of the screw press according to the present invention.
FIG. 3 is a partially enlarged screw for explaining a method for determining the rotational direction and rotational speed of the rotating drum and the rotating screw and the installation / non-installation of the rotating screw according to the properties of the processing object of the screw press according to the present invention. It is a longitudinal cross-sectional view of a press.
FIG. 4 is a longitudinal sectional view of a screw press according to a conventional first embodiment.
FIG. 5A is a longitudinal sectional view of a screw press according to a conventional second embodiment.
(B) It is a longitudinal cross-sectional view of the screw press of conventional 3rd embodiment.
[Explanation of symbols]
1,20 screw press
2 Rotating drum
3 Rotating screw
3a Screw blade
3b Screw shaft
4 Fixed screw
5 Pressure ring
5a Spring
5b Pressa
6,7 sprocket
8 Material supply piping
9 Solids outlet
10 Separation liquid outlet
11a, 11b Bearing bearing
12a Bearing bearing
13 Casing
14 Solid content outlet
15 Support roller

Claims (4)

A rotary drum which have a filter holes provided in the casing, a rotary screw that rotates while coaxially rotatably axially supported against the inner surface in sliding of the rotary drum in the rotary drum,
Two openings formed at both ends of the rotating drum,
In a screw press that concentrates, filters, and squeezes the workpiece to be introduced from one opening, and the separated liquid is discharged from the rotating drum, and the drained solid content is discharged from the other opening.
The rotary screw is provided so as to be rotatable forward and backward, and the blades of the rotary screw are formed in a spiral shape,
A fixed screw comprising a spiral blade spiraling in the same direction as the blade of the rotary screw is provided around the rotational axis of the rotary screw so as to be disposed between the spiral blades of the rotary screw;
The rotational speed of the rotating drum is set higher than the rotational speed of the rotating screw,
The rotating direction of the rotating drum is a rotating direction in which the object to be processed put into the rotating drum is transported from the one opening to the other opening along the fixed screw.
A screw press characterized in that a workpiece is squeezed between two blades by alternately performing forward rotation and reverse rotation of the blades of the rotary screw. The screw press according to claim 1, wherein the object to be treated is pressurized with a pump and supplied into the rotary drum. The screw press according to claim 1 or 2, wherein a cleaning liquid supply pipe is disposed in the casing so as to face the rotating drum. Screw press according to any one of claims 1 to 3, characterized in that determining the rotation speed of the object to be treated the rotating screw and the rotary drum in accordance with the nature of.

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