JP2011050593A - Separator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a separator which can be miniaturized and accurately separate sucked matters. <P>SOLUTION: In the separator, a separator body having a predetermined length in a vertical direction is arranged, a driving part body having a sucking driving unit is arranged in an upper end of the separator body, a sucking port part and a discharge port part spaced apart from the sucking port part are arranged and a communication path communicating the sucking port part and the discharge port part is formed in the driving part body, a separating means separating solid and fluid sucked from the sucking port part is arranged inside of the separator body, and a discharge port part discharging the fluid is arranged below the separator body in the separator. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a separation device that can separate aspirated materials at different specific gravity or different types.

As a separation apparatus capable of separating the suctioned matter for each specific gravity, a technique shown in Patent Document 1 below has been proposed.
This has a suction drive device inside the separation device main body, the suction port portion and the exhaust port portion are arranged apart from each other at the upper part of the separation device main body, and the suction port portion and the exhaust port portion are arranged inside the separation device main body. Is formed so as to avoid sideways with respect to the suction drive device, and separation means for separating the solid and fluid sucked from the suction port portion is provided inside the separation device main body. A suction fan is disposed below, and a discharge port for discharging the fluid is led out from the lower part of the separation means so as to open at the side of the separation device main body.

Special table 2007-501046 gazette

  In the conventional separation device, the discharge port for discharging the fluid is provided so as to be led out from the lower portion of the separation means and opened at the side of the separation device main body. In this way, if the discharge port is configured to open at the side of the separation device main body, the separation device is increased in size in the lateral direction, and the height for accurately separating the fluid and the solid is secured. And separation of fluid and solid is likely to be uncertain.

  SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a separation apparatus that can achieve downsizing and can accurately perform separation of aspirated matter.

  The separation device according to the present invention is provided with a separation device body having a predetermined length in the vertical direction, a drive unit body having a suction drive device disposed at the upper end of the separation device body, and suction to the drive unit body. A solid portion that is provided with a mouth portion and an exhaust port portion that is spaced apart from the suction port portion and that has a communication passage that communicates the suction port portion and the exhaust port portion, and is sucked from the suction port portion into the separation device body And a separating means for separating the fluid, and a discharge port portion for discharging the fluid is provided at a lower portion of the separation device main body.

  Like the above configuration, the drive unit body is arranged at the upper end of the separation device body, the suction drive device is provided in the drive unit body, the suction port part is provided in the drive unit body, and the exhaust port part spaced apart from the suction port part is provided. The separation device main body is made compact by disposing a separating means for separating the solid and the fluid inside the separation device main body and providing a discharge port portion for discharging the fluid at the lower part of the separation device main body. It is possible to secure a height for separating the fluid and the solid.

The separation device according to the present invention is characterized in that the suction port portion is opened on the upper surface of the drive unit main body, and the discharge port portion is opened on the bottom wall of the separation device main body.
According to this configuration, a sufficient level difference between the suction port portion and the discharge port portion can be ensured, so that the accuracy of separating the suction material is improved.

In the separation device of the present invention, the exhaust port is opened to the upper surface of the drive unit main body to concentrate exhaust, and the exhaust is opened to the side of the drive unit main body to diffuse the exhaust. And the use of the concentrated exhaust port portion and the diffusion exhaust port portion is selectable.
According to this configuration, the exhaust port portion can be switched between a case where it is used as a central exhaust port portion and a case where the exhaust port portion is used as a diffusion exhaust port portion. Is diffused, so that noise reduction is achieved.

In the separation device of the present invention, a part or all of the separation device body is transparent.
According to the said structure, it becomes possible to judge the separation state of the suction | inhalation thing in a separation apparatus main body visually.

In the separation device of the present invention, the separation means is a separation filter provided at the lower part of the separation device body, and the separation filter is detachably provided at the lower part of the separation device body.
According to the above configuration, the suction object can be separated by the separation filter, and it is possible to select whether the separation filter is used or not.

The separation device according to the present invention is characterized in that a suction hose connected to the suction port portion is detachably provided, and a holding portion for holding a middle portion of the suction hose is provided at a lower portion of the separation device main body. .
According to the above configuration, when the separation device is moved while gripping the suction hose, the separation device is prevented from being overturned with the center of gravity when the separation device is moved as the lower portion of the separation device.

The separation device according to the present invention is characterized in that a filter capable of collecting dust is provided in the communication path, and the suction port portion and the exhaust port portion of the separation device having another similar configuration are configured to be connected to each other. .
According to the above configuration, the intake air can be cleaned and discharged through the plurality of dust collecting filters by the suction force of the plurality of suction driving devices.

The separation device according to the present invention is characterized in that the suction port portion and the discharge port portion of the separation device having another similar configuration are configured to be connected to each other.
According to the said structure, a fluid can be made to pass through a separation filter by the drive force of a suction drive device, and can be discharged | emitted from a discharge port part, and fixing can be made with a separation filter.

The separation device of the present invention is characterized in that the exhaust port portion and the discharge port portion of a separation device having another similar configuration are configured to be able to communicate with each other.
According to the above configuration, the fluid and the solid in the separation device main body are separated with high accuracy.

  According to the separation device of the present invention, the drive unit main body is disposed at the upper end of the separation device main body, the suction drive device is provided in the drive unit main body, the suction port unit is provided in the drive unit main body, and the exhaust port unit spaced apart from the suction port unit By arranging a separating means for separating solid and fluid inside the separation device body and providing a discharge port for discharging the fluid at the lower part of the separation device body, It is possible to secure a height for separating the separation device main body fluid and the solid, and it is possible to improve the separation accuracy between the fluids having different specific gravity or between the fluid having different specific gravity and the solid.

1 is an external perspective view showing the overall configuration of a separation apparatus showing an embodiment of the present invention. Same front view Same side view The whole schematic perspective view which also saw through a part of the inside Similarly exploded perspective view Also exploded side view Similarly, a cross-sectional view of the separator body Similarly, a perspective view of a separation device main body and a perspective view of a separation filter The side view which similarly shows an example of the use condition of a separation apparatus It is sectional drawing which similarly shows the structure of a switching means, (a) is a use figure in a squeegee form, (b) is sectional drawing of the switching means in another use condition. Similarly, a cross-sectional view of the separation device Similarly, a plan view of the drive unit body (suction drive unit) Sectional view of the drive unit body showing the internal structure Sectional view of the drive unit body showing the internal structure Similarly, a perspective view from below of the drive unit main body and the closing device Single perspective view of dust collection filter Similarly perspective view from above of the closing device and dust collecting filter Side view showing usage example of separation device A side view showing another example of using the separation device A side view showing still another example of use of the separation device

Hereinafter, a separation device according to an embodiment of the present invention will be described with reference to the drawings.
1 is an external perspective view showing the overall configuration of the separation device, FIG. 2 is a front view, FIG. 3 is a side view, FIG. 4 is an overall schematic perspective view of a part of the inside, FIG. 5 is an exploded perspective view, FIG. 7 is an exploded side view, FIG. 7 is a sectional view of the separation device body, FIG. 8 is a perspective view of the separation device body and a perspective view of the separation filter, and FIG. 9 is a side view showing an example of the usage state of the separation device.
10 is a cross-sectional view showing the configuration of the switching means, FIG. 11 is an overall cross-sectional view of the separation device, FIG. 12 is a plan view of the drive unit main body (suction drive unit), and FIGS. 13 and 14 are drive units showing the internal structure. FIG. 15 is a perspective view from below of the drive unit main body and the closing device, FIG. 16 is a perspective view of the dust collecting filter, and FIG. 17 is a perspective view from above of the closing device and the dust collecting filter.
As shown in these drawings, the separation device 1 includes a separation device main body 2, a gantry device 3, and a drive unit main body 4. This separation device 1 separates a suction object by its specific gravity difference.

Here, the separator main body 2 will be described.
The separator main body 2 has a cylindrical main body side wall 5 and a main body bottom wall 6 made of a transparent synthetic resin, and is set to a predetermined length in the vertical direction with an upper end portion as an opening portion 7. The main body side wall 5 is formed in a tapered shape having a smaller diameter as it goes downward. The inclination angle of the taper surface is an angle necessary for punching, and is formed, for example, at 0.5 to 1.5 ° with respect to the vertical axis of the separation device body 2.

  A continuous portion of the main body side wall 5 and the main body bottom wall 6 is chamfered, and a flange 9 protruding downward is formed on the main body bottom wall 6, and is arranged on the inner surface of the flange 9 at equal intervals in the circumferential direction. A rib 8 is formed integrally with the flange 9 and the bottom wall 6 of the main body. By having such a flange 9, the separation device main body 2 is configured to be able to stand alone.

A drainage port 10 (corresponding to a discharge port portion) is formed in the lower portion of the separation device main body 2, that is, in the center of the main body bottom wall 6. An extension portion 11 extending downward in a cylindrical shape is integrally formed on the outer peripheral portion of the drainage port 10, and a nut member 12 is attached to the inner peripheral surface of the extension portion 11. The lower end portion of the core tube 14 of the separation filter 13 is detachably screwed in a form screwed to the nut member 12. That is, the lower part of the core tube 14 is inserted into the drainage port 10.
A mounting member 16 of the drainage hose unit 15 is mounted on the lower surface of the main body bottom wall 6 so as to cover the extension portion 11 from below. One end of a drainage hose 17, which is a flexible pipe constituting the drainage hose unit 15, is connected in communication with the lower end of the core tube 14.

The drainage hose 17 extends in the longitudinal direction along the bottom wall 6 of the separator main body 2 toward the radially outer side of the separator main body 2, and is a lead-out recess formed in the front portion of the flange 9. 18 is derived. The other end of the drainage hose 17 is detachably held by a holder 20 provided on the outer surface of the main body side wall 5 of the separation device main body 2.
The other end of the drainage hose 17 is configured to be held by the holder 20 at a position higher than the upper end of the core tube 14. A cap 21 for opening and closing the other end opening of the drainage hose 17 is detachably provided in the other end opening.

Conductive holes 23 are formed in the cylindrical side wall 22 of the core tube 14 in a plurality of rows in the circumferential direction and spaced apart at regular intervals in the vertical direction.
A male screw 24 is formed on the outer periphery of the upper end of the core tube 14, and a holding member 25 that is detachably engaged with the male screw 24 is provided. A bellows-like separation filter 13 as a separation means is externally attached to the core tube 14 in the range of all the conduction holes 23.

  The separation filter 13 is for filtering and separating the sucked material sucked into the separation device main body 2 into a liquid and a solid. The upper and lower ends of the separation filter 13 are sandwiched between rigid synthetic resin sandwich plates 26, 26. The lower sandwich plate 26 contacts the upper surface of the main body bottom wall 6, and the upper sandwich plate 26 is pressed. The separation filter 13 is erected and held in the bottom wall 6 of the main body by being pressed downward by the member 25.

From this configuration, if the holding member 25 is unscrewed from the core tube 14, there is no need to clamp the clamping plates 26, 26 (separation filter 13). Can be removed.
The core tube 14 can be removed from the bottom wall 6 of the main body by unscrewing the nut member 12.

The edge of the opening 7 of the body side wall 5 is a locking edge 27 formed in an inverted U-shaped cross section, and this locking edge 27 can be locked by a locking member 28 described later provided in the drive unit body 4. Is formed.
At the rear upper part of the main body side wall 5, a hook 30 is provided for holding the separating apparatus main body 2 in a standing posture when the separating apparatus main body 2 is placed on the gantry device 3.
The flange portion 9 is formed with downwardly-opening fitting recesses 52B that fit into fitting fittings 52A described later from above, at intervals of 180 ° in the circumferential direction.
Handling handles 19 are formed on the outer peripheral surface of the opening 7 of the main body side wall 5 at intervals of 180 ° in the circumferential direction.

Next, the configuration of the gantry device 3 will be described.
The gantry device 3 has a configuration in which the separation device main body 2 can be detachably mounted. The gantry device 3 includes a base portion 31 made of synthetic resin, wheels 32 and 33 provided before and after the back surface of the base portion 31, and a handle member 34 erected on the rear side of the base portion 31. Have.

The base part 31 has a cylindrical support recess 35 that can fit and support the lower part of the separation device main body 2 on the upper surface of the front part.
A notch 36 is formed in the front part of the support recess 35 into which the middle part of the drainage hose 17 is inserted when the lower part of the separation device main body 2 is fitted into the support recess 35. The notch 36 is for inserting and supporting the middle part of the drainage hose 17 from above when the drainage hose 17 is detached from the holder 20 and tilted forward.
A holding portion 40 that locks a middle portion of a suction hose 38 (described later) is provided near the upper surface of the base portion 31. The holding part 40 is provided so as to suspend the notch 36 in the left-right direction, locks the middle part of the suction hose 38, and prevents the suction hose 38 from jumping upward by pulling forward. .
Both end portions of the holding portion 40 are detachably attached to the base portion 31 with attachment screws 37.

The separating device main body 2 and the gantry device 3 are provided with mounting means 52 that can be mounted in a normal position when the separating device main body 2 is mounted on the gantry device 3 from above.
The mounting means 52 includes a fitting convex portion 52A provided on the gantry device 3 side and a lower opening that is provided on the flange portion 9 (bottom portion) of the separation device body 2 and is fitted to the fitting convex portion 52A from above. It is comprised from the fitting recessed part 52B. The fitting convex portions 52A are arranged at 180 ° intervals in the circumferential direction on the gantry device 3 side, and the fitting concave portions 52B are arranged at 180 ° intervals on the separating device main body 2 side.
A pair of left and right hooks 30 are formed on the rear portion of the outer peripheral surface of the separating apparatus main body 2 so as to be engaged with a standing member 45 described later from above.

  The handle member 34 is formed in a portal shape when viewed from the front, from the left and right support columns 42, 42 and the grip 43 provided from the upper ends of the support columns 42, 42 to the support columns 42, 42. ing. On the rear side of the base portion 31, there is formed a mounting recess 44 in which the lower end portions of the support columns 42, 42 are inserted and mounted from above.

On the upper side of the column portions 42, 42 of the handle member 34, a standing member 45 is provided that extends in an arch shape between the column portions 42, 42.
On the rear surface of the hanging member 45, an extension hose 46 for connecting to the suction hose 38 and an upper locking piece 50 for attaching an attachment of a suction nozzle 48 attached to the tip of the suction hose 38 are arranged in the left-right direction. Is formed. A lower locking piece 51 is provided on the upper surface of the base portion 31 below the upper locking piece 50.

The upper part of the extension hose 46 is fitted to the upper locking piece 50 from the rear, and the lower part of the extension hose 46 is held by the base part 31 by fitting to the lower locking piece 51 from the rear.
Each of the hooks 30 is configured to be locked from above on the left and right sides of the standing member 45.

  The separation device 1 according to the embodiment of the present invention can be used as a separation device 1 called a squeegee type. The squeegee type is a usage form in which the user does not move the entire separation device 1 by holding the suction hose 38 but moves the entire separation device 1 by holding the handle member 34.

For this reason, as shown in FIG. 9, a holding means 49 that can hold the suction nozzle 48 (attachment) on the front side of the base portion 31 is provided below the base portion 31.
The holding means 49 is configured by a link member 49B that is attached to the lower portion of the base portion 31 using an attachment angle 49A and that is extendable in the front-rear direction. A gripping member 48a that grips a predetermined portion of the suction nozzle 48 is provided at the tip of the link member 49B.

The suction nozzle 48A for squeegee is configured so that another suction hose 39 can be connected. The suction nozzle 48A is provided with a cylindrical receiving portion 59 to which another suction hose 39 can be attached (see FIG. 10).
The suction nozzle 48A is provided with a switching structure in which the suction path of the suction nozzle 48A is switched to the suction hose 39 side when the end 39a of the suction hose 39 to be used separately is inserted.
This switching structure includes a switching cylinder member 59A slidably provided inside the receiving port 59, and a direction in which the switching cylinder member 59A protrudes from the receiving port 59 (a direction in which the suction path of the suction nozzle 48A is opened). And a coil spring S that biases the spring.
One end of the switching cylinder member 59A is opened, the other end is closed, and an opening 59b is formed on one end of the body 59a. When the end 39a of the suction hose 39 is inserted into the receiving port 59 against the bias of the coil spring S, the switching cylinder member 59A moves, the opening 59b is opened to the suction path of the suction nozzle 48A, and suction is performed. The suction path of the nozzle 48 </ b> A is closed in the middle and switched to the suction hose 39 side. As a result, the suction hose 39 can be used.

Next, the configuration of the drive unit body 4 will be described.
The drive unit main body 4 is formed of a synthetic resin, and has a main body ceiling wall 60 and an annular main body peripheral wall 61 integrally formed so that the lower part is opened. The diameter of the drive unit main body 4 substantially matches the diameter of the separation device main body 2. The drive unit main body 4 is configured to be detachably provided on the separation device main body 2.

An attachment means 62 is provided for making the drive unit body 4 detachable from the separation device body 2. The attachment means 62 includes the locking edge 27 formed on the separation device main body 2 and the locking member 28 provided on the lower portion of the main body peripheral wall 61 of the drive unit main body 4.
The upper portion of the locking member 28 is rotatably attached to the main body peripheral wall 61, and the driving portion main body 4 is separated from the separating device by locking the locking piece 63 of the locking member 28 to the locking edge 27. The drive unit main body 4 can be detached from the separation device main body 2 by being attached to the main body 2 and detaching the locking piece 63 of the locking member 28 from the locking edge 27.

The drive unit main body 4 is provided with a suction port portion 64 in front of the main body ceiling wall 60, and a concentrated exhaust port portion 65 is provided at a position spaced rearward from the suction port portion 64.
The suction port portion 64 is provided at a position close to the front of the main body ceiling wall 60, and is extended from the suction port 66 so as to hang downward (inside the separation device main body 2) from the suction port 66. A passage forming cylinder 67. The communication path forming cylinder 67 is suspended along the main body side wall 5 of the separation apparatus main body 2, the lower end portion is closed, and an ejection hole 70 is formed in the cylinder wall 68 (side wall).

An end of the suction hose 38 is detachably connected to the suction port 66. From the suction hose 38, a liquid (water, oil, a mixture thereof) or a solid (dust, granular resin, glass, or the like) that is a suction material can be sucked. The sucked sucked material is ejected from the ejection hole 70 of the communication path forming cylinder 67 into the separation device main body 2.
The suction hose 38 is configured such that a suction nozzle 48 is detachably provided at the tip thereof. The length can be adjusted by attaching and detaching the extension hose 46.

A suction fan motor 71, which is a suction drive device, is mounted on the drive unit main body 4 in a state of being externally mounted on a housing 72. A portion of the housing 72 that faces the lower side of the suction fan motor 71 is opened to form an intake port 73. A portion of the housing 72 corresponding to the concentrated exhaust port portion 65 is an opening 74.
The sucked material is sucked from the tip end portion of the suction hose 38 when the suction fan motor 71 is driven and the fan rotates.

Below the suction fan motor 71, a closing device 76 configured to be guided in the vertical direction by the guide cylinder 75 is provided. The closing device 76 is configured to close the intake port 73 when the amount of liquid sucked into the separation device body 2 reaches a predetermined amount.
The closing device 76 includes a float member 78 that rises as the liquid upper surface rises, a closing member 80 that is disposed on the upper side of the float member 78 and closes the intake port 73, and the float member 78 and the closing member 80. It is comprised from the guide rod member 81 connected integrally.

The float member 78 is formed in a flat cylindrical shape from foamed resin, and a plurality of holes 77 penetrating in the vertical direction are formed for weight reduction. The closing member 80 is formed in a thin plate shape.
The guide rod member 81 is formed in a small bowl shape and is arranged along the vertical direction.
The float member 78 is fixed to the lower end portion of the guide rod member 81, the closing member 80 is fixed to the upper end portion of the guide rod member 81, and the guide rod member 81 is centered in the radial direction of each of the float member 78 and the closing member 80. It is inserted so as to be orthogonal.
In particular, the closing member 80 is preferably formed of a material that can reliably seal the air inlet 73. The float member 78 is preferably made of a material having as high a buoyancy as possible.

The closing device 76 has a guide member 82 for guiding the raising and lowering of the guide rod member 81. The guide member 82 is formed in a cross shape in plan view, and a guide hole 83 in which the guide rod member 81 can easily slide is formed in the center in the radial direction. The outer end portion of the guide member 82 is fixed to the inner surface of the guide cylinder 75.
The upper side of the guide cylinder 75 is opened, and a plurality of locking claws 75a that are detachably locked with respect to the housing 72 from below are formed at regular intervals in the circumferential direction. The locking claw 75a is configured to be locked to a predetermined portion of the housing 72 in the vertical direction.

A large number of intrusion holes 79 a are formed in the bottom wall 79 of the guide cylinder 75. The guide cylinder 75 is provided with a dust collecting filter (hereinafter referred to as “dust collection filter”) 84 detachably so as to cover the body of the guide cylinder 75.
By being configured in this manner, the liquid inside the separation device main body 2 can enter the guide cylinder 75.

The concentrated exhaust port portion 65 includes an exhaust port 85 that is open upward and a switching pipe 86 that is slidably provided in the exhaust port 85.
The switching pipe 86 is opened at the top, and an intake port 88 for taking in the exhaust toward the exhaust port 85 is formed at the bottom of the body portion 87.
The switching pipe 86 is biased upward by a coil spring 90 (see FIG. 11), and is located above the exhaust port 85 when not pressed downward, and the intake port 88 is formed by the peripheral wall surface of the exhaust port 85. It is closed.

When the filter device 91 for filtration (deodorization or virus removal) is inserted into the exhaust port 85 against the elasticity of the coil spring 90, the switching pipe 86 moves downward, the intake port 88 is opened, and the exhaust gas is removed. It is configured to be taken in from the inlet 88 and exhausted from the exhaust outlet 85 in a concentrated manner.
In this case, the communication path that connects the suction port 66 and the exhaust port 85 includes a communication path forming cylinder 67, a guide cylinder 75, an intake port 73 formed in the housing 72, and a switching pipe 86. ing.

  In the case where the filter device 91 is not used, exhaust is not performed from the exhaust port 85, but the concentrated exhaust port part is exhausted from a diffusion exhaust port part 61 a that is formed in the body peripheral wall 61 of the drive unit body 4 and diffuses the exhaust gas. 65 and the use of the diffusion exhaust port 61a are selectable.

In this case, the communication passage that connects the suction port 66 and the diffusion exhaust port portion 61 a is configured by a communication passage forming cylinder 67, a guide cylinder 75, and an intake port 73 formed in the housing 72. .
In any case, the air passage 73 has an air inlet 73 formed in the housing 72 as a configuration of the communication path, and the air inlet 73 is closed from below by the closing member 80, so that the driving of the suction fan motor 71 is stopped. It is configured to be.

A method of using the separation apparatus 1 having the above configuration will be described.
First, in order to attach the separation filter 13 to the separation device main body 2, as shown in FIG. 7, the male screw 24 of the core tube 14 is screwed into the nut member 12 and attached to the main body bottom wall 6. The separation filter 13 is attached to the core tube 14 so as to be fitted from above, and a pressing member 25 is screwed into a male screw 24 formed at the upper end of the core tube 14 so that the separation filter 13 is pressed against the bottom wall 6 of the main body. The separation filter 13 can be easily attached to the separation device body 2 by being sandwiched between the members 25.
The drainage hose unit 15 can be mounted on the separator main body 2 together with the drainage hose 17 by mounting the mounting member 16 on the lower surface of the bottom wall 6 of the main body.

The separation device main body 2 is attached to the gantry device 3 by using the attachment means 52. That is, the separation device main body 2 is mounted on the gantry device 3 so that the fitting concave portion 52B on the separation device main body 2 side is fitted to the fitting convex portion 52A on the gantry device 3 side from above. In this way, the separation device main body 2 can be attached only to the gantry device 3 at a normal position (the separation device main body 2 is located in the circumferential direction position with respect to the gantry device 3).
Further, when the fitting recess 52B is fitted into the fitting projection 52A, the separation device body 2 is restricted from being tilted in the front-rear direction. If the hook 30 is locked to the standing member 45 from above, the separation device main body 2 can be held in an extremely stable state with respect to the gantry device 3.

In order to attach the drive unit main body 4 to the separation device main body 2, the drive unit main body 4 is placed on the separation device main body 2, the locking member 28 is rotated and the locking piece 63 is engaged with the separation device main body 2. It is fixed by being locked to the stop edge 27.
The suction hose 38 can be mounted by inserting its end into the suction port 66. The extension hose 46 is appropriately attached to the suction hose 38 according to the environment in which the separation apparatus 1 is used. When the extension hose 46 is used, it is used so as to be removed from the upper locking piece 50 and the lower locking piece 51.

  In this way, with the drive unit body 4 attached to the separation device body 2 and the separation device body 2 attached to the gantry device 3, the suction fan motor 71 is driven, and the user holds the suction hose 38 and holds it. , For example, solids such as dust falling on the floor surface are sucked from the suction nozzle 48 attached to the suction hose 38 toward the suction port 64, reach the communication passage forming cylinder 67, and from the ejection hole 70. It is sucked into the separation device main body 2.

  When the separation device 1 is moved while holding the suction hose 38, the suction hose 38 is held by a holding portion 40 on the lower side of the separation device 1 (the gantry device 3 side), thereby separating the separation device 1. Since the lower part is pulled when moving, it is possible to suppress the separation device 1 from falling or causing an unstable behavior, and to move smoothly.

When the solid is sucked into the separation device body 2, intake air is drawn into the separation device body 2. Then, the sucked air AR sucked rotates along the main body side wall 5 along the main body side wall 5 to generate a cyclone.
If the filter device 91 is connected to the exhaust port 85, the intake port 88 of the switching pipe 86 is open, so that the suction air AR passes through the dust collection filter 84 and communicates with the communication path (the dust collection filter 84 and the guide). The air is exhausted from the central exhaust port 65 (exhaust port 85) through the gap between the cylinders 75 and between the locking claws 75a, through the intake port 73) of the housing 72.

If the filter device 91 is not connected to the exhaust port 85, the intake port 88 of the switching pipe 86 is closed, so that the suction air AR passes through the dust collection filter 84 and the communication path (the dust collection filter 84 and the guide tube). The air is exhausted from the diffusion exhaust port 61a to the outside through the gap between the bodies 75 and between the locking claws 75a, through the intake port 73) of the housing 72.
Then, due to the cyclone generated in the separator main body 2, the fixing with a high specific gravity tends to fall downward, and the solid with a low specific gravity tends to be captured by the dust collection filter 84.

In the separation device 1 in this embodiment, the suction port 66 is formed in the drive unit body 4, and the exhaust port 85 is not formed in the separation device body 2, but is provided in the drive unit body 4 in the same manner as the suction port 66. For this reason, the separation device 1 can be made compact.
In addition, since the exhaust port 85 is not formed in the separation device main body 2, most of the separation device main body 2 having a predetermined length with the vertical direction as the longitudinal direction can be used as the separation space.
For this reason, in this separation apparatus 1 using the separation method based on the difference in specific gravity of the suction material, the suction materials having different specific gravity can be separated with high accuracy. Moreover, since the separation apparatus main body 2 is transparent, the internal separation state can be visually confirmed.

When the liquid is sucked from the suction nozzle 48, the liquid accumulates from the bottom in the separation device main body 2. When the solid is mixed with the liquid, the solid with a low specific gravity moves upward, and the solid with a high specific gravity moves downward.
In this separation device 1, since most of the separation device main body 2 having a predetermined length with the up-down direction as the longitudinal direction can be used as a separation space, a separation method based on the specific gravity difference of the suction material is used. In this separating apparatus 1, the aspirated material can be separated with high accuracy.

  When discarding the sucked liquid, the tip of the drainage hose 17 is removed from the holder 20, and the tip of the drainage hose 17 is positioned at least below the liquid level. Then, the liquid passes through the separation filter 13 and the core tube 14 and is drained due to the height difference between the tip of the drainage hose 17 and the liquid level.

In the separation device 1 according to this embodiment, the drainage port 10 is disposed at the center of the main body bottom wall 6 which is the lowest level of the separation device main body 2. For this reason, most of the liquid in the separator main body 2 can be drained reliably.
For example, if the sucked liquid is a mixture of water and oil, water and oil can be separated with high accuracy in the separation device body 2 by selecting a separation filter 13 that separates water and oil in advance. In this state, oil or oil and solid can be captured by the separation filter 13 to drain the water.

  When draining, the separation device main body 2 may be removed from the gantry device 3. In this case, the separation device main body 2 is lifted upward with respect to the gantry device 3 so that the hook 30 is detached from the hanging member 45 and further lifted, the fitting recess 52B of the separation device main body 2 becomes the gantry device. 3, the separation device main body 2 can be removed from the gantry device 3 very easily.

  When sucking the sucked material on the floor, the suction nozzle 48 at the tip of the suction hose 38 is replaced with a squeegee attachment, and the suction nozzle 48 is attached to the gripping member 48a of the holding means 49. A person pushes and pulls the handle member 34 to move the separation device 1 together with the gantry device 3 so that the squeegee type separation device 1 can be used.

By the way, when the liquid is sucked and rises in the separation device main body 2, it enters the guide cylinder 75 through the entry hole 79a of the bottom wall 79 of the guide cylinder 75, reaches the float member 78, and further increases, the float member. 78 begins to rise. Since the closing member 80 is integrally provided on the float member 78 via the guide rod member 81, the closing member 80 is also raised by the amount that the float member 78 is raised.
Further, as the closing device 76, the portion that rises (lifts and lowers) is divided into the float member 78 and the closing member 80, and the portion that rises by the amount that is not integrated is reduced in weight. For this reason, the float member 78 can be raised with good sensitivity.

In particular, when bubbles are generated on the surface of the liquid, the buoyancy of the bubbles to the float member 78 and the buoyancy of the actual liquid surface to the float member 78 are smaller, so the float member 78 is smaller. Is hard to rise.
However, as the closing device 76, the ascending portion is divided into a float member 78 and a closing member 80, and the closing member 80 is connected to the float member 78 via the guide rod member 81, whereby the closing member 80 is connected to the air inlet 73. It is arranged near. With this configuration, therefore, even if the float member 78 receives buoyancy from the bubbles, the float member 78 can be raised with better sensitivity than in the case of a large float member.
As the float member 78 rises, the closing member 80 is guided to rise by the guide member 82 via the guide rod member 81, and the intake port 73 in the middle of the communication path is closed by the closing member 80. When this happens, the suction fan motor 71 stops and can no longer suck.

In this way, it is possible to reliably prevent bubbles and sucked liquid from entering the suction fan motor 71, thereby reliably protecting the suction drive unit.
Further, since the closing device 76 is protected by the dust collecting filter 84, dust can be prevented from adhering to the closing device 76, and the float member 78 can be raised or lowered smoothly.

  The separation apparatus 1 of the present invention can be used in various ways. Various usage methods are possible as the U1 and U2 (referred to as separation device units) in which the separation device main body 2 is mounted on the gantry device 3 and the drive unit main body 4 is attached to the separation device main body 2. These methods of use will be described with reference to the drawings.

First, an example of use shown in FIG. 18 will be described.
This is a configuration in which the exhaust port 85 of one separator unit U1 and the suction port 66 of the other separator unit U2 are connected by a connection hose 92.
With this configuration, the suction fan motor 71 of both separation device units U1 and U2 can suck the air, so that a high head can be realized, and the suction object (solid) is separated by both separation device units U1 and U2. Therefore, it becomes possible to separate the sucked materials having different specific gravities with higher accuracy.

Next, a usage example shown in FIG. 19 will be described.
This is a configuration in which the drainage port 10 (see FIGS. 7 and 11) of one separation device unit U1 and the suction port 66 of the other separation device unit U2 are connected by a connection hose 93.
With this configuration, the liquid filtered by the separation filter 13 in one separator unit U1 can be filtered again by the separation filter 13 of the other separator unit U2. It can be separated with accuracy.

Next, a usage example shown in FIG. 20 will be described.
This is a configuration in which the drainage port 10 (see FIGS. 7 and 11) of one separator unit U1 and the exhaust port 85 of the other separator unit U2 are connected by a connection hose 94.
With this configuration, the exhaust from the exhaust port 85 is supplied from the drainage port 10 into the separation device main body 2 of the one separation device unit U1 via the connection hose 94. In this case, since the exhaust gas is supplied from the inside to the separation filter 13 of the separation device body 2 of the one separation device unit U1, the liquid is sucked into the separation device body 2 of the one separation device unit U1. For example, bubbles can be generated in the liquid. Then, the solids in the liquid are stirred by the bubbles, and in particular, solids having different specific gravities can be separated with higher accuracy.

For the use shown in FIGS. 18 to 20, it is preferable that the drainage hose 17 and the suction hose 38 be connected to each other.
Further, in the example shown in FIGS. 18 to 20, the case where two separation device units U <b> 1 and U <b> 2 are provided and connected for use has been described.
However, the present invention is not limited to connecting two separation device units U1 and U2, but it is also possible to connect three or more separation device units. By doing so, it is possible to separate the sucked materials having different specific gravities from each other with higher accuracy.

  The separation device 1 according to the embodiment of the present invention can be used by removing the drive unit body 4 including the suction fan motor 71 from the separation device body 2. In this case, for example, a pail can may be used instead of the separation device main body 2, and the drive unit main body 4 may be placed on the pail can so as to suck a different suction object for each pail can.

As a method of using the separating device 1, a commercially available plastic bag is prepared and inserted into the separating device body 2 with the opening portion of the plastic bag facing upward, and the opening edge is inserted into the locking edge 27 of the separating device body 2. It is conceivable to attach the drive unit body 4 to the separation device body 2 so as to cover the outside and insert the communication path forming cylinder 67 of the drive unit body 4 into the plastic bag.
By driving the suction fan motor 71 in this manner, the suction object is stored in the plastic bag.

  DESCRIPTION OF SYMBOLS 1 ... Separation device, 2 ... Separation device main body, 3 ... Mounting device main body, 4 ... Drive part main body, 5 ... Main body side wall, 6 ... Main body bottom wall, 7 ... Opening part, 9 ... Gutter part, 10 ... Drainage port, 11 DESCRIPTION OF SYMBOLS ... Extension part, 13 ... Separation filter, 14 ... Core tube, 16 ... Mounting member, 17 ... Drainage hose, 18 ... Derivation recess, 19 ... Handle for handling, 22 ... Side wall of cylinder, 23 ... Conduction hole, 25 ... Holding member 27 ... Locking edge, 28 ... Locking member, 29 ... Suction hose, 30 ... Hook, 31 ... Base part, 34 ... Handle member, 35 ... Support recess, 36 ... Notch, 38 ... Suction hose, 40 ... Holding , 42 ... column part, 43 ... gripping part, 44 ... mounting recess, 45 ... standing member, 46 ... extension hose, 48 ... suction nozzle, 48a ... gripping member, 49 ... holding means, 52 ... mounting means, 52A ... Fitting convex part, 52B ... fitting concave part, 60 ... main body top wall, 61 ... main body peripheral wall, 61a ... for diffusion Air port part 62 ... Mounting means 63 ... Locking piece 64 64 Suction port part 65 ... Concentrated exhaust port part 66 ... Suction port 67 ... Communication passage forming cylinder body 68 ... Cylinder wall 70 ... Ejection hole 71 ... Suction fan motor, 72 ... Housing, 73 ... Intake port, 74 ... Opening, 75 ... Guide cylinder, 76 ... Closure device, 77 ... Hole, 78 ... Float member, 79 ... Bottom wall, 79a ... Intrusion hole, DESCRIPTION OF SYMBOLS 80 ... Closing member, 81 ... Guide rod member, 82 ... Guide member, 83 ... Guide hole, 84 ... Dust collection filter, 85 ... Exhaust port, 86 ... Switching pipe, 87 ... Trunk part, 88 ... Intake port, 91 ... Filter device, AR ... Suction air

Claims (9)

A separator main body having a predetermined length in the vertical direction is provided, and a drive unit main body having a suction drive device is disposed at the upper end of the separator main body,
A suction port portion and an exhaust port portion spaced apart from the suction port portion are provided in the drive unit main body, and a communication path that connects the suction port portion and the exhaust port portion is formed.
Separating means for separating the solid and fluid sucked from the suction port portion is disposed inside the separation device body, and a discharge port portion for discharging the fluid is provided at the lower portion of the separation device body. Separation device.   2. The separation apparatus according to claim 1, wherein the suction port portion is opened to the upper surface of the drive unit main body, and the discharge port portion is opened to the bottom wall of the separation device main body.   The exhaust port part is composed of a concentrated exhaust port part that is opened on the upper surface of the drive unit body to concentrate exhaust and a diffusion exhaust port part that is opened on the side surface of the drive unit body and diffuses exhaust gas. 3. The separation apparatus according to claim 1, wherein use of the concentrated exhaust port portion and the diffusion exhaust port portion is selectable.   The separation apparatus according to any one of claims 1 to 3, wherein a part or all of the separation apparatus main body is transparent.   5. The separation device according to claim 1, wherein the separation means is a separation filter provided at a lower portion of the separation device body, and the separation filter is detachably provided at a lower portion of the separation device body. A separator according to any of the above.   6. A suction hose connected to the suction port portion is detachably provided, and a holding portion for holding an intermediate portion of the suction hose is provided at a lower portion of the separation device main body. The separation device according to any one of the above.   4. The separation device according to claim 3, wherein a filter capable of collecting dust is provided in the communication path, and the suction port portion and the exhaust port portion of another separation device having the same configuration can be connected to each other. .   6. The separation device according to claim 5, wherein the suction port portion and the discharge port portion of another separation device having the same configuration are configured to be connected to each other.   6. The separation device according to claim 5, wherein the exhaust port portion and a discharge port portion of another separation device having the same configuration are configured to be connected to each other.

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