JP3166362U - Air flow rate measuring device for a floatator and the device kit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air flow rate measuring device for a floatator for directly measuring the amount of air in a pulp slurry layer in a state where air inside the floatator treatment tank is blown. An opening tip portion 2 inserted into a waste paper pulp slurry layer, a hollow barrel portion 1 for separating liquid and air in the pulp slurry layer, and a communication with an air flow meter C via a closing member B. The opening end portion 2 has an opening area of 50 cm 2 or more, and the hollow body portion 1 has a length such that the opening tip portion 2 is inserted into the pulp slurry layer. The length is such that the closing member B provided with the air flow meter C is projected above the floatator. [Selection diagram]

Description

  The present invention sequentially passes the waste paper raw material suspension through a plurality of processing tanks of the flowator, and causes ink particles to adhere to bubbles formed by air blown from an air diffuser installed at the bottom of each processing tank. The present invention relates to a device for measuring an air flow rate in each processing tank of a flowator for removing ink components by overflowing as a froth from the upper part of the processing tank, and a kit including a set of members necessary for assembling the apparatus.

  In recent years, demand for waste paper pulp has increased from the viewpoint of effective use of resources and environmental protection. In order to expand the use of waste paper pulp, it is extremely important to produce waste paper pulp with a low residual ink amount by removing ink from waste paper at a high level.

  A floatator is known as an apparatus for producing waste paper pulp with a small amount of residual ink. The floatator blows air into the raw material suspension from the bottom of the treatment tank to which the used paper raw material suspension is supplied, and adheres ink particles floating in the used paper raw material suspension to the surface of the formed bubbles. This is an apparatus for removing ink particles in a waste paper raw material suspension by causing air bubbles (floss) adhering to the ink particles to overflow from the upper part of the treatment tank.

  Inside the treatment tank of the floatator, it is important that air bubbles supplied from the air diffuser at the bottom are uniformly dispersed in the waste paper pulp suspension so that the ink particles and the air are in sufficient contact. For example, as disclosed in Japanese Examined Patent Publication No. 6-60473 and the like, various floatators have been conventionally proposed. Although these methods are expected to increase the contact between the ink particles and the air, the degree to which the air bubbles formed by the supplied air are actually uniform in each of the plurality of processing tanks of the floatator There is no known way to know if it is distributed.

  Inside the treatment tank of the floatator, pulp slurry and bubbles are mixed. Therefore, in order to measure the amount of air supplied into each treatment tank, a gas-liquid separation means for separating the pulp slurry and bubbles in each treatment tank is necessary. A plurality of methods for separating gas and liquid by gas-liquid separation means and measuring the flow rate of the separated gas have been proposed.

  For example, Japanese Patent No. 3750723 proposes a measuring device that supplies liquid in a liquid storage tank via a pipe to a liquid supply nozzle via a flow meter by means of a pump with a built-in gas-liquid separating means. Japanese Patent Publication No. 7-112880 discloses a gas-liquid that separates bubbles mixed in the pumped liquid prior to measuring and supplying the liquid pumped from the storage tank through a flow meter. A liquid supply apparatus including a separating unit has been proposed. Furthermore, Japanese Patent No. 3577669 proposes a gas-liquid separation device that separates liquid and gas during suction into the tank in a device that sucks liquid containing gas into the tank with a pump. However, in any method, the liquid and air in the pulp slurry inside the floatator treatment tank cannot be separated.

Japanese Patent No. 3750723 Japanese Patent Publication No. 07-112880 Japanese Patent No. 3577669

  An object of this invention is to provide the apparatus for measuring directly the state of the air quantity in the slurry layer in which the air is blowing in the processing tank of a flowmeter. In addition, the present invention provides a portable device kit that can easily assemble an air flow measuring device for a flowator having a cylindrical body portion of a length required according to the state in the treatment tank of the flowator. The purpose is to provide.

  The present invention relates to the following air flow measuring device for a flowator and an air flow measuring device kit for a flowator.

(1) An opening tip (2) inserted from the surface of the floss layer formed in the treatment tank of the floater, which is a used paper deinking facility, into the used paper pulp slurry layer substantially vertically, and the liquid in the pulp slurry A cylindrical body (A) having a hollow body (1) that constitutes a gas-liquid separation part that separates air and an opening rear end part (3), and a flow rate of air separated in the gas-liquid separation part Comprising a closing member (B) having an air flow meter (C) for measuring the opening and closing the opening rear end (3) of the cylindrical body (A), the cylindrical body (A) The opening area of the opening tip (2) is at least 50 cm ² , and the length of the hollow body (1) is such that the air flow meter (C) is inserted with the opening tip (2) inserted into the pulp slurry layer. The closure member (B) provided has a length that projects upward from the upper part of the floatator. An air flow measurement device for a floatator.

(2) Between the flanges (4, 4), the hollow body portion (1) abuts the openings of a plurality of cylindrical bodies (A) in which flanges (4) are formed on the periphery of the openings at both ends. The air flow rate measuring device for a flowtater according to (1), which is formed by a plurality of cylindrical bodies (A1, A2,...) Connected by coupling means (6, 7) that detachably couple the two. .

(3) The closing member (B) has an air flow meter (C) connected to and fixed to a communication pipe (8) penetrating the central part of the flat plate member (9) on the outer surface side, and the peripheral part is a cylinder. Floatator according to item (1) or (2), characterized in that it is connected to a flange (4) at the periphery of the opening rear end (3) of the opening (A) by a detachable connecting means Air flow measurement device.

(4) In any one of items (1) to (3), the separable coupling means is a coupling means for fixing with a bolt (6) and a nut (7) with a packing (5) interposed therebetween. The air flow rate measuring device for a flotator as described.

(5) A plurality of cylindrical bodies (A1, A2,...) Having the same inner diameter and having different lengths in which flanges (4) are formed on the periphery of the opening at both ends having an opening area of 50 cm ² or more, and a flat plate member The air flow meter (C) connected and fixed to the communication pipe (8) penetrating the central portion of (9) is provided on the outer surface side, and the peripheral edge is the rear open end of the cylindrical body (A1) ( 3) A closing member (B) which is a detachable connecting portion with the peripheral flange (4), an opening rear end (3) of the cylindrical body (A), a peripheral flange (4) and a closing member ( B) The number of connecting members (6, 6) required for the connection with the peripheral edge and the connection between the flanges (4, 4,...) Of the openings of the cylindrical bodies (A1, A2...). 7) A kit for an air flow rate measuring device for a flowator as described in any one of the above items (1) to (4).

(6) The closing member (B) having the air flow meter (C) on the outer surface side is hollow from the rear end (3) of the opening of the cylindrical body (A). For the flowtater according to (5), characterized in that it is integrally joined to the flange (4) at the periphery of the rear end of the opening of the cylindrical body in a state of being inserted into the body (1). Air flow measurement device kit.

  According to the air flow rate measuring device for a floatator of the present invention, the opening tip (2) of the cylindrical body (A) is substantially vertical from the surface side of the floss layer formed on the pulp slurry layer in the treatment tank. And placed in the waste paper pulp slurry layer mixed with bubbles formed by the air supplied from the diffuser tube at the bottom of the treatment tank, and outward from the top of the treatment tank Just by operating the protruding air flow meter (C), the waste paper pulp slurry liquid containing bubbles formed in the treatment tank is taken into the cylindrical body, and the bubbles taken into the cylindrical body are removed. The slurry liquid to be contained is sufficiently gas-liquid because a sufficiently long space is formed between the slurry liquid level inside the cylindrical body and the inner surface of the closing member (B) having the air flow meter (C). Separation is achieved and separated Air is discharged through the flow meter (C) installed in the closing member (B), and as a result, the amount of air supplied into the slurry liquid taken into the cylindrical body, that is, the measurement target It is possible to directly measure the air supply amount into the waste paper pulp slurry liquid in the treatment tank.

In the air flow rate measuring device of the present invention, the opening tip portion (2) intruded and disposed in the waste paper pulp slurry layer is an opening tip portion having a cross-sectional area (opening area) of at least 50 cm ^2. Therefore, it is possible to accurately measure the amount of air supplied into the slurry in the measurement target processing tank.

1 is an exploded view of an air flow measuring device for a flowator according to an embodiment of the present invention. FIG. 2 is an exploded view of an air flow rate measuring device for a flowator according to an embodiment of the present invention different from FIG. 1.

The material of the cylindrical body constituting the air flow rate measuring device for a floatator of the present invention is not particularly limited as long as it is stable in the raw waste paper pulp slurry liquid, and has an inner diameter with an opening tip of 50 cm ² or more. A synthetic resin tube body, particularly a polyvinyl chloride tube, is used.

  As the “air flow rate measuring device” installed in the air flow rate measuring device for a flowmeter of the present invention, any device capable of measuring a gas flow rate can be used without particular limitation. For example, a flow meter type flow meter such as “RK1700” manufactured by Cofrock Co., Ltd. or “KNR-3100” manufactured by Kawaki Measurement Industry Co., Ltd. can be used.

Hereinafter, a specific example of an air flow rate measuring device for a floatator of the present invention will be described with reference to the attached drawings.
FIG. 1 is an exploded view of an air flow measuring device for a flowator according to an embodiment of the present invention. In FIG. 1, A is a cylindrical body, B is a closing member, C is an air flow meter, 1 is a hollow body portion of the cylindrical body A, 2 is an opening tip of the cylindrical body A, and 3 is a cylindrical body A. Opening rear end portion, 4 is a flange, 5 is packing, 6 is a bolt, 7 is a nut, 8 is a communication pipe connecting the flowmeter and the hollow body portion 1, and 9 is a closing portion for closing the opening rear end portion of the cylindrical body A It is a member.

  The disassembled state air flow measuring device for a flowator shown in FIG. 1 includes a closing member B having an air flow meter C connected and fixed to a communication pipe 8 penetrating the central portion of a flat plate member 9 on the outer surface side, and an opening tip It is comprised by the cylindrical body A which has the opening rear-end part 3 by which the flange 4 is formed in the part 2 and the periphery. And the opening rear end part 3 and the closure member B of the cylindrical body A can be combined so that disassembly and assembly can be repeated by the bolt 6 and the nut 7 with the packing 5 interposed therebetween.

  The air flow measuring device for a flowator in FIG. 1 opens an inspection window or the like on the upper part of the flowator, enters the processing tank almost vertically from the surface of the floss layer in the internal processing tank, and the opening tip 2 is bubbled. The pulp slurry is placed in a state where it is inserted to a level below the liquid level of the pulp slurry, and is used by a method of measuring the air flow rate through the air flow meter. By performing this measurement operation for all of the treatment tanks in the flowator, the air flow rate of each treatment tank is accurately confirmed, and the amount of air supplied from the diffuser tube at the bottom of each treatment tank is determined based on the confirmation result. It is possible to adjust the amount of air supply necessary for each processing tank.

FIG. 2 is a diagram showing an aspect in the case where a plurality of cylindrical bodies that can divide the cylindrical body A portion in FIG. 1 are assembled and formed.
2 that are the same as those used in the apparatus of FIG. 1 are the same as those in the apparatus of FIG. A1 in FIG. 2 is a portion corresponding to the cylindrical body A in FIG. 1, and the difference from the cylindrical body A is that a flange 4 is formed on the periphery of the opening end portion corresponding to the opening tip 2 of the cylindrical body A. There is in point. Further, a cylindrical body A2 for extending the length of the hollow body 1 in the apparatus of FIG. 1 is connected to the opening front end of the cylindrical body A1 corresponding to the opening front end 2 of the cylindrical body A. It has become. The cylindrical body A1 and the cylindrical body A2 are connected by abutting flanges 4 and 4 formed on the peripheral edges of the butt opening ends of both the cylindrical bodies A1 and A2 and connecting them with bolts 6 and nuts 7.

As described above, by extending the hollow body 1, the opening tip 2 is placed in the slurry layer only with the cylindrical body A prepared by lowering the slurry liquid level in a specific treatment tank. When it is impossible to insert and arrange, or when the scale of the measurement flowmeter is large and the distance from the upper part of the flowator to the slurry liquid surface is long, only one cylindrical body A is used to form the hollow body 1 by the cylindrical body. In the case where the length for the operation is insufficient, it is possible to easily cope with the problem by using the cylindrical body A1 instead of the cylindrical body A at the work site and adding the cylindrical body A2.
FIG. 2 shows an example in which the cylindrical body A2 is connected as a cylindrical body to extend the length of the hollow body 1, but the cylindrical body A2 is flanged at the periphery of the opening at both ends in the same manner as the cylindrical body A1. A plurality of them can be connected as having a structure in which the above is formed.

  The air flow rate measuring device for a flowator in FIG. 1 or FIG. 2 is not a device that is permanently installed in each processing tank of the flowator, but is located in the vicinity of the flowtater where measurement of the air supply amount of the processing tank is required. It is a device that is stored in or used from another storage location. For this reason, it is usually preferable to store a set of parts that can be adapted to any situation at the work site as a kit in a state of being divided (disassembled) into the respective apparatus parts shown in FIG. 1 and FIG.

  Further, as shown in FIG. 2, in order to make it possible to extend the hollow body 1 to an arbitrary length, a cylindrical body in which flanges are formed on the peripheral edges of both opening ends like the cylindrical body A1. For example, three 1.5 m cylinders corresponding to the cylinder A1 and three 1 m and 0.5 m long cylinders with flanges formed at the peripheral edges of both opening ends. It is preferable to store as a kit in which a plurality of cylindrical bodies having different lengths are set, such as setting a cylindrical body.

  Further, in order to prevent the air flow meter from being damaged by an impact applied when the kit is moved or transported, the air flow meter C installation surface of the closing member B is directed to the opening rear end 3 of the cylindrical body A or the cylindrical body A1. In the state where the air flow meter C is inserted into the cylindrical body A or the cylindrical body A1, the closing member B is combined with the flange of the cylindrical body A or A1 to prevent damage to the air flow meter. preferable.

  According to the air flow rate measuring device for a flowmeter of the present invention having the structure and function described above, the air flow rate in each processing tank of the flow meter can be easily measured. Thus, it is possible to efficiently remove ink particles by optimizing the operating conditions of the flowator so that the amount of air in each treatment tank becomes uniform.

  The specific embodiments of the present invention have been described with reference to the drawings. However, the air amount measuring device according to the present invention is not limited to the specific examples described with reference to the drawings, and the scope of the utility model registration request is as follows. Various modifications are possible within the scope of the technical idea described in.

A, A1, A2: Cylindrical body B: Closing member C: Air flow meter 1: Hollow body part 2: Opening tip part 3: Opening rear end part 4: Flange 5: Packing 6: Bolt 7: Nut 8: Communication pipe 9: Flat plate member

Claims (5)

The opening tip (2) inserted from the surface of the floss layer formed in the treatment tank of the floater, which is a used paper deinking facility, into the used paper pulp slurry layer substantially vertically, and the liquid and air in the pulp slurry. A cylindrical body (A) having a hollow body (1) constituting a gas-liquid separation part to be separated and an opening rear end part (3), and a flow rate of air separated in the gas-liquid separation part are measured. An air flow meter (C) includes a closing member (B) that closes the opening rear end (3) of the cylindrical body (A), and the cylindrical body (A) has an opening tip. The opening area of (2) is at least 50 cm ² , and the length of the hollow body (1) includes the air flow meter (C) with the opening tip (2) inserted into the pulp slurry layer. The length is such that the closing member (B) protrudes upward from the upper part of the floatator. An air flow measurement device for a floatator   The hollow body (1) can separate between the flanges (4, 4) by abutting the openings of a plurality of cylindrical bodies (A) having flanges (4) formed at the periphery of the opening at both ends. The air flow rate measuring device for a flowtater according to claim 1, wherein the air flow rate measuring device is formed by a plurality of cylindrical bodies (A1, A2,...) Connected by coupling means (6, 7) coupled to the flowmeter.   The closing member (B) has an air flow meter (C) connected and fixed to a communication pipe (8) penetrating the central part of the flat plate member (9) on the outer surface side, and the peripheral part is a cylindrical body ( The air flow rate measuring device for a flowtater according to claim 1 or 2, wherein the air flow rate measuring device is connected to the flange (4) at the peripheral edge of the opening rear end (3) of A) by a separable coupling means.   The air flow rate for a flowtater according to any one of claims 1 to 3, wherein the separable coupling means is a coupling means for fixing with a bolt (6) and a nut (7) with a packing (5) interposed therebetween. measuring device. A plurality of cylindrical bodies (A1, A2...) Having the same inner diameter and different lengths, each having a flange (4) formed at the periphery of the opening at both ends having an opening area of 50 cm ² or more, and a flat plate member (9) The air flow meter (C) connected and fixed to the communication pipe (8) penetrating the central part of the cylindrical body (A1) is provided on the outer surface side, and the peripheral part is the peripheral edge of the rear end (3) of the cylindrical body (A1). A closing member (B) which is a coupling part detachably coupled to the flange (4), a flange (4) at the periphery of the rear end (3) of the cylindrical body (A) and the closing member (B). The number of coupling members (6, 7) necessary for coupling with the peripheral portion and between the flanges (4, 4,...) At the peripheral portion of the opening between the cylindrical bodies (A1, A2...). The kit of the air flow rate measuring device for a flowator according to any one of claims 1 to 4, wherein the kit is combined.

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