JP6222883B1 - Filtration device - Google Patents

Abstract

A conveyor device suitable for installation in a narrow space is provided. In a conveyor apparatus, a scraper conveyor 19 is adopted as a configuration of a solid-liquid recovery unit 8, and the scraper conveyor 19 includes an upper sprocket 16 provided on an upper side of a recovery tank 15 and a lower side of the recovery tank 15. In addition to being suspended between the lower sprocket 17 and the lower sprocket 17, the separated matter in the collection tank 15 is scraped up and conveyed to the solid-liquid collection unit outlet 18. The solid-liquid recovery unit discharge port 18 is provided so as to be located immediately below the terminal end 3 </ b> A of the oblique transport unit 3. [Selection] Figure 3

Description

  The present invention relates to a conveyor device that conveys a separated material separated from a liquid such as machining fluid used in machining in a machine tool, and is particularly suitable for installation in a narrow space.

  Conventionally, in a machine tool that performs machining while supplying machining fluid, in order to reuse the machining fluid used in the machining, the used machining fluid is divided into a liquid component and a solid component (for example, a used machine). And the separated liquid component can be reused by filtration, and the separated solid component is discharged as a separated product to the outside by a conveyor device.

  As this type of conveyor device, for example, a chip conveyor described in Patent Document 1 (hereinafter referred to as “conventional conveyor device”) is known. This conventional conveyor device is connected to a horizontal transfer unit (see the range indicated by reference numeral R1 in FIG. 4 of Patent Document 1) and the horizontal transfer unit as transfer means for transferring a separated product (chip) separated from the liquid. And an inclined conveying section (see the ranges indicated by reference numerals R2 and R3 in FIG. 4 of the same document 1), and the separated product is indicated by the end E2 of the inclined conveying section (reference numeral E2 in FIG. 4 of the same document 1). (Refer to the neighborhood).

  Referring to FIG. 10 of Patent Document 1, the conventional conveyor device injects coolant liquid as a cleaning liquid from the pipe (91) to the folded surface of the transport body (18) folded downward at the end of the horizontal transport section. The structure which collect | recovers by the storage tank (28) the structure which carries out, collect | recovered the separated liquid (chip) which fell from the turned surface of a conveyance body (18) by the injection, and a screw conveyor in a storage tank (28) (40) is provided, and the separation (chip) of the storage tank (28) is discharged to the outside by the screw conveyor (40).

  However, in the conventional conveyor apparatus, as described above, the screw conveyor (40) is adopted as means for discharging the separated matter (chip) from the storage tank (28) to the outside, and the adopted screw conveyor (40) is While being installed along the width direction of the conveyor device, the separated product (chip) is transported in the width direction of the conveyor device by screw blades (44).

  For this reason, according to the conventional conveyor device, the screw conveyor (40) is easily extended in the width direction of the conveyor device, and in addition to this, to receive the separated material (chip) conveyed by the screw conveyor (40). The dust box must be arranged in the width direction of the conveyor device (specifically, below the terminal end of the screw conveyor (40)), so that it is difficult to install in a narrow space. .

  In addition, the code | symbol in parenthesis in the above description is a code | symbol used by patent document 1. FIG.

JP 2002-233927 A

  The present invention has been made to solve the above problems, and an object of the present invention is to provide a conveyor device suitable for installation in a narrow space.

In order to achieve the above object, the present invention comprises a horizontal transport unit and an inclined transport unit connected to the horizontal transport unit as transport means for transporting a separated product separated from a liquid, and the separated product is A conveyor device that discharges from the end of the inclined transport unit, the start end sprocket provided at the start end of the horizontal transport unit, the end sprocket provided at the end of the inclined transport unit, and between the start sprocket and the end sprocket An endless conveyor that is suspended and circulates between them to convey the separation to the end of the inclined conveyance unit, and a liquid ejection unit and a solid-liquid recovery unit provided under the end of the inclined conveyance unit, The liquid injection unit includes a cleaning nozzle that injects cleaning liquid onto the folded surface of the endless conveyor folded downward by the terminal sprocket. The solid-liquid recovery unit includes a recovery tank that recovers the cleaning liquid sprayed from the cleaning nozzle and the separated product that has fallen off from the folded surface of the endless conveyor, an upper sprocket provided on the upper side of the recovery tank, A lower sprocket provided on the lower side of the recovery tank, a solid-liquid recovery unit discharge port located on the fall trajectory line of the separated material immediately after being discharged from the end of the inclined conveyance unit, the upper sprocket and the lower sprocket, A scraper conveyor that suspends between the two and scrapes the separated matter in the recovery tank and conveys it to the discharge port of the solid-liquid recovery unit, and the width of the solid-liquid recovery unit and the inclined transfer unit and the cleaning solution is returned liquid returning to the inclined transporting unit portion of the width the recovery tank through the provided liquid return flow path is within the overlapping range of the solid-liquid In addition to being provided at the collecting unit discharge port, the falling trajectory of the separated object is slightly shifted to the front of the solid-liquid recovery unit by hitting the separated object discharged from the end of the inclined conveyance unit. And an entrainment prevention plate functioning as a means for preventing a part of the separated product from entering the recovery tank from the solid-liquid recovery unit discharge port .

  In the present invention, the liquid return flow path may be formed by a liquid return port having a structure opened from a rear side plate forming the recovery tank toward an inclined bottom of the inclined transfer unit.

  In the present invention, the liquid return flow path may be formed by a liquid return hose connected from the bottom plate forming the recovery tank to the inclined bottom of the inclined transfer section.

In the present invention, the folding surface of the endless conveyor may have a curved surface, and the cleaning nozzle may inject cleaning liquid onto the curved surface. Further, in the present invention, the liquid return section has a baffle plate provided in front of the liquid return path as means for preventing the separated material from flowing out from the liquid return path to the inclined transport section. The baffle plate is arranged near the tip of the baffle plate below the liquid level in the recovery tank to block the separation from separating the liquid from the liquid level in the recovery tank to the liquid return channel. May be a feature.

  In the present invention, a scraper conveyor is adopted as a specific configuration of the solid-liquid recovery unit in the conveyor device, and the adopted scraper conveyor is an upper sprocket provided on the upper side of the recovery tank and a lower part provided on the lower side of the recovery tank. It was suspended between the sprockets and circulated between them to scrape up the separated matter in the collection tank and transport it to the solid-liquid recovery unit outlet. For this reason, the path for discharging the separated matter from the recovery tank is in the direction from the lower sprocket to the upper sprocket, that is, along the vertical direction of the conveyor device, so that the path does not protrude in the width direction of the conveyor device. A conveyor device suitable for installation in a narrow space can be provided.

  In addition to this, according to the present invention, the separated material scraped up from the recovery tank by the scraper conveyor is discharged from the solid-liquid recovery unit discharge port located immediately below the terminal end of the inclined transport unit. The dust box for receiving the separated material to be discharged to the container may be installed under the end of the inclined conveyance unit, and it is not necessary to install the dust box in the width direction of the conveyor device, so it can be installed in a narrow space. A suitable conveyor device can be provided.

The top view of the conveyor apparatus (1st Embodiment) to which this invention is applied. Sectional drawing which looked at the conveyor apparatus of FIG. 1 from the side surface. FIG. 3 is an enlarged view of the vicinity of an end of an inclined conveyance unit in the conveyor device of FIGS. 1 and 2. Explanatory drawing of the conveyor apparatus (2nd Embodiment) to which this invention is applied.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the accompanying drawings.

  1 is a plan view of a conveyor device (first embodiment) to which the present invention is applied, FIG. 2 is a sectional view of the conveyor device of FIG. 1 viewed from the side, and FIG. 3 is an inclined conveyance in the conveyor device of FIGS. FIG.

<Outline of conveyor device>
Referring to FIGS. 1 to 3, the conveyor device 1 according to the first embodiment includes a horizontal transport unit 2 and an inclination connected to the horizontal transport unit 2 as transport means for transporting a separated material separated from a liquid. It has a transport unit 3 and functions to discharge the separated material from the terminal end 3 </ b> A of the inclined transport unit 3.

  As a configuration for obtaining the functions as described above, the conveyor device 1 of the first embodiment includes a start sprocket 4 provided at the start end 2A of the horizontal transfer unit 2 and a terminal sprocket provided at the end 3A of the inclined transfer unit 3. 5, an endless conveyor 6 that is suspended between the start sprocket 4 and the end sprocket 5 and circulates between the end sprocket 4 and the endless conveyor 6 that conveys the separated material to the end 3A of the inclined transport unit 3; And a liquid jet unit 7 and a solid-liquid recovery unit 8 provided in FIG.

  A start end shaft 4A supported by a bearing is provided at the start end 2A of the horizontal transport unit 2, and the start end sprocket 4 is attached to the start end shaft 4A. Further, a terminal shaft 5A supported by a bearing is provided at the terminal end 3A of the inclined conveying unit 3, and the terminal sprocket 5 is attached to the terminal shaft 5A.

<< Details of endless conveyor 5 >>

  In the conveyor apparatus 1 of the first embodiment, as an example of the endless conveyor 6, a conveyor of a system in which connected hinge pans are attached to a chain (a known hinge pan system) is adopted, but the present invention is not limited to this. In addition, other types of conveyors may be used as the endless conveyor 6.

  As means for accommodating the endless conveyor 6, the start sprocket 4, and the end sprocket 5, the conveyor apparatus 1 of FIG. 1 includes a horizontal case 9 and an inclined case 10 connected thereto.

  A connecting portion between the horizontal case 9 and the inclined case 10 is provided with an arcuate guide member 11A curved with a predetermined curvature upward from below, and the endless conveyor 6 is guided along the guide member 11A. Thus, the endless conveyor 6 is configured as a horizontal conveyor section 6 </ b> A that extends in the horizontal direction in the horizontal transport section 2, and is configured as an inclined conveyor section 6 </ b> B that rises obliquely upward in the inclined transport section 3.

  The top plate of the horizontal case 9 is provided with a liquid inlet 12 for pouring a liquid (a machining fluid containing machining scraps). In the conveyor device 1 according to the first embodiment, the liquid inlet The liquid is first poured into the endless conveyor 6 located in the horizontal transport section 2, that is, the horizontal conveyor section 6A by flowing the liquid from 12 into the horizontal case 9. .

  The liquid component (machining fluid) in the liquid charged as described above flows down from the endless conveyor 6 toward the inner bottom surface of the horizontal case 9 (inner bottom surface of the horizontal transport unit 2), and temporarily enters the horizontal case 9. It is stored in. This temporarily stored liquid is reused through filtration.

  On the other hand, most of the solid components (machined scraps) in the liquid charged as described above stop on the endless conveyor 6 as a separated product separated from the liquid, and the endless conveyor 6 terminates the end of the inclined transport unit 3. It is conveyed up to 3A.

  The endless conveyor 6 has a structure in which the endless conveyor 6 is continuous in an annular shape without being interrupted, and a structure in which the end sprocket 5 is folded downward and the start end sprocket 4 is folded upward.

  As a means for removing the slack of the endless conveyor 6 as described above, in the conveyor device 1 of the first embodiment, a long hole H1 having a shape along the inclination direction of the endless conveyor 6 is provided near the end 3A of the inclined conveyance unit 3. The terminal shaft 5A and the terminal sprocket 5 are slidable along the inclination direction of the endless conveyor 6 by passing the terminal shaft 5A through the elongated hole H1, and the terminal shaft 5A in such a direction can be slid. The slack of the endless conveyor 6 is removed by the sliding of the end sprocket 5.

  Liquid is attached to the separated matter discharged from the terminal end 3A of the inclined conveying unit 3. For this reason, it is unavoidable that the liquid drips (liquid dripping) from the end 3 </ b> A of the inclined conveyance unit 3 (specifically, near the turned-back end of the endless conveyor 9 turned back by the end sprocket 5).

  In the conveyor apparatus 1 of the first embodiment, as the means for preventing the occurrence position of the liquid dripping as described above from being displaced by the above-described loosening removal (hereinafter referred to as “liquid dripping position fixing means”) An arc-shaped guide member 11B is provided at a lower position in front of the sprocket 5, and an endless conveyor 6 is hung on the guide member 11B so that a part of the endless conveyor 6 immediately after being turned back by the end sprocket 5 is guided to the guide member 11B. It is configured to have a convex shape in the vicinity. In this case, the liquid drips from the apex of the convex portion, and the position of the convex portion does not fluctuate due to the above-described slack removal, so that the occurrence of liquid dripping is not displaced.

<< Details of Liquid Injection Unit 7 >>
As described above, the endless conveyor 6 is folded downward by the terminal sprocket 5, and the liquid ejecting unit 7 has the cleaning nozzle 13 that injects the cleaning liquid onto the downwardly folded surface 6 </ b> C of the endless conveyor 6 that is folded back. I have.

  The cleaning nozzle 13 is connected to the cleaning liquid supply means via a pipe with a valve (not shown), and in the conveyor device of the first embodiment, the cleaning liquid is pumped from the cleaning liquid supply means to the cleaning nozzle 13 through the pipe with a valve. Then, the cleaning liquid is sprayed from the cleaning nozzle 13 toward the downward folding surface 6 </ b> C of the endless conveyor 6. Thereby, the separated matter (machining waste) adhering to the downward folding surface 6C of the endless conveyor 6 can be washed away with the cleaning liquid and easily fall off the downward folding surface 6C of the endless conveyor 6.

  By adopting the liquid dripping position fixing means described above, the folded surface 6C of the endless conveyor 6 has a curved surface RS that is curved in an arc shape in the vicinity of the front and rear of the above-described convex shape portion. In addition, the hinge pan type conveyor employed in the first embodiment as an example of the endless conveyor 6 has a shape in which the two adjacent hinge pans are bent with the hinge as a base in the curved surface RS as described above. Therefore, the separated matter that is attached across at least two hinge pans is relatively easy to fall off. From this, the conveyor apparatus 1 according to the first embodiment is configured such that the cleaning liquid is ejected from the cleaning nozzle 13 onto the curved surface R.

<< Details of Solid-Liquid Recovery Unit 7 >>
Referring to FIG. 3, the solid-liquid recovery unit 7 includes a recovery tank 15 that recovers the cleaning liquid sprayed from the cleaning nozzle 13 as described above and a separated product that has fallen off from the folded surface 6 </ b> C of the endless conveyor 6. The upper sprocket 16 provided on the upper side, the lower sprocket 17 provided on the lower side of the recovery tank 15, the solid-liquid recovery unit discharge port 18 located immediately below the terminal end 3A of the inclined conveyance unit 3, the upper sprocket 16 and the lower sprocket The scraper conveyor 19 is suspended between the two and is wound around to scatter the separated material in the recovery tank 15 and transport it to the solid-liquid recovery unit discharge port 18, and the width and inclination of the solid-liquid recovery unit 7. Liquid return for returning the cleaning liquid in the recovery tank 15 to the inclined transport unit 3 through the liquid return channel 20 provided in the range W (see FIG. 1) where the width of the transport unit 3 overlaps. It is provided with a 21, a.

  The collection tank 15 is formed in a box shape with a bottom plate and side plates in the front-rear and left-right directions. As a specific configuration example of such a collection tank 15, in the conveyor device 1 of the first embodiment, as the rear side plate forming the collection tank 15, the inclined bottom of the inclined conveyance unit 3 (specifically, the inclined case). 10 inclined bottom plates 10A) are used.

  Further, in the conveyor device 1 of the first embodiment, a part of the bottom plate of the collection tank 15 is configured as a curved bottom shape portion 15A curved with a predetermined curvature, and the cleaning liquid and the separated material are temporarily stored in the curved bottom shape portion 15A. It is configured to be stored.

  Furthermore, in the conveyor apparatus 1 of the first embodiment, the front side plate 15B of the collection tank 15 is inclined forward at a predetermined angle in order to scrape the separated material using the front side plate 15B (front plate) of the collection tank 15. The separated material is scraped up by the scraper conveyor 19 along the inclination.

  The upper sprocket 16 is attached to the upper shaft 22, and the lower sprocket 17 is attached to the lower shaft 23. The upper shaft 22 and the lower shaft 23 are supported by side walls of the solid-liquid recovery unit 7 (specifically, side plates in the left-right direction forming the recovery tank 15) via bearings (not shown). Further, the upper shaft 22 is rotationally driven by a motor (not shown) attached to a frame of the solid-liquid recovery unit 8 (specifically, a side plate in the left-right direction forming the recovery tank 15).

  The solid-liquid recovery unit discharge port 18 is located on the fall trajectory line of the separated material immediately after being discharged from the end 3 </ b> A of the inclined transport unit 3 by the endless conveyor 6. In addition, as a separator entrainment preventing means for preventing a part of the separated product thus discharged from entering the recovery tank 15 from the solid-liquid recovery unit discharge port 18, the first embodiment is used. In the conveyor apparatus 1, the entanglement prevention plate 24 is provided at the solid-liquid recovery unit discharge port 18, and the separation discharged as described above is configured to contact the entanglement prevention plate 24. The fall trajectory of the separated material immediately after being discharged from the container is configured to be slightly shifted in front of the solid-liquid recovery unit discharge port 18.

  Even if a slightly deviated configuration of the fall trajectory as described above is adopted, the fall trajectory T1 of the separated matter discharged from the terminal end 3A of the inclined conveyance unit 3 and the separated matter discharged from the solid-liquid recovery unit discharge port 18 Since the drop trajectory T2 substantially overlaps, only one dust box (not shown) for recovering the separately discharged separated matter may be arranged on any one of the fall trajectory lines.

  The scraper conveyor 19 has a chain 19A hung around the upper sprocket 16 and the lower sprocket 17, and a plurality of scraping members 19B attached to the chain 19A at a predetermined interval. In the conveyor apparatus 1 according to the first embodiment, the upper sprocket 16 and the lower sprocket 17 are arranged so as to be relatively shifted in the front-rear direction, so that the circumferential trajectory of the scraper conveyor 19 is the front side plate (front plate) of the collection tank 15. It is comprised so that it may incline along.

  Then, the upper shaft 22 and the upper sprocket 16 are rotated by the power of the motor (not shown), and the chain 19A is moved by the rotational force, so that the scraping member 19 is discharged from the inner bottom surface of the recovery tank 15 to the solid-liquid recovery unit discharge port. It moves obliquely upward in the direction of 18. At this time, in the conveyor device 1 according to the first embodiment, the scraping member 19 slides along the curved bottom shape portion 15A and the front side plate 15B of the collection tank 15, and thereby the separated material by the scraping member 19 is separated. A scraping operation is performed.

<< Detailed Configuration of Liquid Return Unit 21 >>
The liquid return channel 20 of the liquid return unit 21 is formed by a liquid return port 20A having a structure opened from the rear side plate forming the collection tank 15 toward the inclined bottom of the inclined transfer unit 3. In the conveyor apparatus 1 of the first embodiment, as described above, the inclined bottom of the inclined conveyance unit 3 (specifically, the inclined bottom plate 10A of the inclined case 10) is used as the rear side plate that forms the collection tank 15. Since it is used, the liquid return port 20A as described above is provided by opening a part of the rear side plate forming the collection tank 15. In this case, the liquid return port 20A is provided in a range W (see FIG. 1) in which the width of the solid-liquid recovery unit 7 and the width of the inclined transport unit 3 overlap each other due to its opening structure. The cleaning liquid is configured to flow into the inclined conveyance unit 3 through the liquid return port 20A at the shortest distance.

  As a means for preventing the separated material from flowing out from the liquid return channel 20 to the inclined conveyance unit 3, the baffle plate 25 is provided in front of the liquid return channel 20 (liquid return port 20A) in the conveyor device 1 of the first embodiment. Is provided. The baffle plate 25 is separated from the vicinity of the liquid surface in the recovery tank 15 toward the liquid return channel 20 (liquid return port 20A) by arranging the vicinity of the tip of the baffle plate 25 below the liquid level in the recovery tank 15. Block the transfer of things.

<< Usage example of conveyor apparatus 1 >>
In machine tools that perform machining while supplying machining fluid, in order to reuse the machining fluid used in the machining, the used machining fluid is divided into liquid (oil) and solid (used machinery). And the separated liquid component can be reused by filtration, and the separated solid component is discharged as a separated product to the outside by a conveyor device. The conveyor device 1 of the first embodiment is used as this type of conveyor device.

<< Description of Operation of Conveyor Device 1 Overall >>
In the usage example of the conveyor device 1 as described above, the machining fluid used in machining (used machining fluid) is poured into the horizontal case 9 from the liquid inlet 12, thereby causing a horizontal conveyance unit. The endless conveyor 6 located at 2, that is, the horizontal conveyor section 6 </ b> A is first charged.

  Of the used machining fluid charged as described above, most of the solid component (machining waste) remains on the endless conveyor 6 as a separated product separated from the liquid (used machining fluid), It is conveyed by the endless conveyor 6 to the end 3 </ b> A of the inclined conveyance unit 3. On the other hand, of the used machining fluid charged as described above, the liquid component (machining fluid) flows down from the endless conveyor 6 toward the inner bottom surface of the horizontal case 9 and is temporarily stored in the horizontal case 9. The

  As described above, the separated product ((machined scraps) conveyed to the terminal end 3 </ b> A of the inclined conveying unit 3 falls downward and is discharged to the outside due to the endless conveyor 6 being turned back by the terminal sprocket 5.

  By the way, the cleaning liquid sprayed from the cleaning nozzle 13 is supplied to the downward folding surface 6C of the endless conveyor 6 folded by the terminal sprocket 5 and adheres to the downward folding surface 6C of the endless conveyor 6 by the cleaning liquid. The separated matter (machining waste) is washed away, dropped off, and recovered in the recovery tank 15 of the solid-liquid recovery unit 8. The cleaning liquid sprayed from the cleaning nozzle 13 is also dropped from the downward folded surface 6 </ b> C of the endless conveyor 6 and is recovered in the same recovery tank 15.

  At this time, in the solid-liquid recovery unit 8, the scraper conveyor 19 circulates between the upper sprocket 16 and the lower sprocket 17, and the separated matter (machining waste) accumulated in the recovery tank 15 by the recovery is Is scraped up by the scraping member 19B of the scraper conveyor 19 that circulates in this manner, conveyed to the solid-liquid recovery unit discharge port 18, and pushed out from the liquid dripping prevention plate 26 provided at the solid-liquid recovery unit discharge port 18. It is discharged by the method.

  On the other hand, the cleaning liquid collected in the recovery tank 15 by the recovery flows into the inclined transport unit 3 through the liquid return port 20A when the liquid level exceeds the liquid return port 20A. The cleaning liquid that has flowed into the inclined conveyance unit 3 reaches the horizontal conveyance unit 2 by flowing down along the inclined bottom of the inclined conveyance unit 3 and is temporarily stored in the horizontal case 9 as described above. Merges with the liquid component of the machining fluid (machining fluid).

<< Other Embodiments of the Present Invention >>
FIG. 4 is an explanatory view of a conveyor device (second embodiment) to which the present invention is applied. In FIG. 4, the same members as those of the conveyor device 1 of the first embodiment described above are denoted by the same reference numerals, and detailed descriptions thereof are omitted because they are duplicated. Only different configurations will be described below.

  Referring to FIG. 4, the conveyor device 1 of the second embodiment also has means for removing the slack of the endless conveyor 6, as with the conveyor device 1 of the first embodiment, but means for removing the slack is as follows. This differs from that of the conveyor device 1 of the second embodiment.

  That is, in the conveyor apparatus 1 of the second embodiment, as a means for removing the slack of the endless conveyor 6, a long hole H2 extending in the horizontal front-rear direction is provided in the vicinity of the terminal end 3A of the inclined conveyance unit 3, and the long hole H2 is provided in the long hole H2. By passing the end shaft 5A, the end shaft 5A and the end sprocket 5 can be slid in the horizontal front-rear direction. The slack of the endless conveyor 6 is eliminated by sliding the end shaft 5A and the end sprocket 5 in such a direction. Is done.

  Similarly to the conveyor device 1 of the first embodiment, the conveyor device 1 of the second embodiment also has a liquid return unit 21, but the liquid return channel 20 of the liquid return unit 21 is the same as that of the second embodiment. It differs from that of the conveyor device 1.

  That is, in the conveyor device 1 of the second embodiment, the liquid return channel 20 of the liquid return unit 21 is inclined from the bottom plate forming the collection tank 15 to the inclined bottom of the inclined transfer unit 3 (specifically, the inclined case 10 is inclined). Formed by a liquid return hose 20B connected to the bottom plate 10A). This liquid return hose 20B is also provided in a range W (see FIG. 1) in which the width of the solid-liquid recovery unit 7 and the width of the inclined transport unit 3 overlap each other due to its connection structure.

  The method of forming the liquid return channel 20 by the liquid return hose 20B as described above may be applied to the conveyor device 1 of the first embodiment.

  According to the conveyor apparatus 1 of 1st and 2nd embodiment demonstrated above, the scraper conveyor 19 is employ | adopted as a structure of the solid-liquid collection | recovery unit 8, and the employ | adopted scraper conveyor 19 is the upper part provided in the upper part side of the collection tank 15. It is suspended between the sprocket 16 and a lower sprocket 17 provided on the lower side of the recovery tank 15, and circulates between them to scrape up the separated matter in the recovery tank 15 and convey it to the solid-liquid recovery unit discharge port 18. Configured. For this reason, since the path | route which discharges | separates a separated substance from the collection tank 15 becomes a direction which goes to the upper sprocket 16 from the lower sprocket 17, ie, the up-down direction of the conveyor apparatus 1, this path | route is a width | variety (FIG. It is suitable for installation in a narrow space without projecting in the direction).

  In addition to this, according to the conveyor apparatus 1 of the first and second embodiments, the separated material scraped up from the recovery tank 15 by the scraper conveyor 19 is a solid-liquid recovery unit located immediately below the terminal end 3A of the inclined transport unit 3. Since it becomes the structure discharged | emitted from the discharge port 18, what is necessary is just to install the dust box for receiving the isolate | separated material discharged | emitted in that way under the terminal | terminus 3A of the inclination conveyance part 3, and this dust box is set to the width | variety ( It is also suitable for installation in a narrow space because it does not need to be installed in the direction (see the range indicated by the symbol W in FIG. 1).

  The present invention is not limited to the embodiments described above, and many modifications can be made by those having ordinary knowledge in the art within the technical idea of the present invention.

DESCRIPTION OF SYMBOLS 1 Conveyor apparatus 2 Horizontal conveyance part 2A Starting end 3 of horizontal conveyance part 3 Inclined conveyance part 3A End of inclined conveyance part 4 Start end sprocket 4A Starting end shaft 5 End sprocket 5A End shaft 6 Endless conveyor 6A Horizontal conveyor part 6B Inclined conveyor part 6C Endless conveyor Folded surface 7 Liquid injection unit 8 Solid-liquid recovery unit 9 Horizontal case 10 Inclined case 10A Inclined bottom plates 11A, 11B Guide member 12 Liquid inlet 13 Washing nozzle 15 Recovery tank 15A Curved bottom shape portion 15B of recovery tank Recovery tank Front side plate (front plate)
16 Upper sprocket 17 Lower sprocket 18 Solid-liquid recovery unit discharge port 19 Scraper conveyor 19A Chain 19B Scraping member 20 Liquid return channel 20A Liquid return port 20B Liquid return hose 21 Liquid return portion 22 Upper shaft 23 Lower shaft 24 Entrainment prevention plate 25 Baffle plate 26 Liquid dripping prevention plate H1, H2 Long hole W Range where the width of the solid-liquid recovery unit overlaps with the width of the inclined transport section RS Curved surface near the folding surface of the endless conveyor

Claims (5)

A conveyor device that includes a horizontal transport unit and an inclined transport unit connected to the horizontal transport unit as transport means for transporting the separated product separated from the liquid, and discharges the separated product from the end of the tilted transport unit. And
A starting sprocket provided at the starting end of the horizontal conveying section;
A terminal sprocket provided at the terminal of the inclined conveying section;
An endless conveyor that is suspended between the start sprocket and the end sprocket, and conveys the separated matter to the end of the inclined conveyance unit by circling between the sprocket and the end sprocket;
A liquid ejecting unit and a solid-liquid recovery unit provided below the end of the inclined conveyance unit,
The liquid ejecting unit includes:
A cleaning nozzle for injecting a cleaning liquid onto the folded surface of the endless conveyor folded downward by the terminal sprocket;
The solid-liquid recovery unit is
A recovery tank for recovering the cleaning liquid sprayed from the cleaning nozzle and the separated matter that has fallen off from the folded surface of the endless conveyor;
An upper sprocket provided on the upper side of the recovery tank;
A lower sprocket provided on the lower side of the recovery tank;
A solid-liquid recovery unit discharge port located on the fall trajectory line of the separated material immediately after being discharged from the end of the inclined conveyance unit;
A scraper conveyor that is suspended between the upper sprocket and the lower sprocket, and circulates between the upper sprocket and the separated matter in the recovery tank to convey it to the solid-liquid recovery unit discharge port;
A liquid return unit for returning the cleaning liquid in the recovery tank to the inclined transfer unit through a liquid return channel provided in a range where the width of the solid-liquid recovery unit and the width of the inclined transfer unit overlap;
The solid-liquid recovery unit discharge port and a state in which the fall trajectory of the separated object slightly deviates to the front of the solid-liquid collecting unit by hitting the separated object discharged from the end of the inclined conveyance unit. And a wrapping prevention plate functioning as a means for preventing a part of the separated product from entering the recovery tank from the solid-liquid recovery unit discharge port . 2. The conveyor device according to claim 1, wherein the liquid return channel is formed by a liquid return port having a structure opened from a rear side plate forming the recovery tank toward an inclined bottom of the inclined conveyance unit. . The conveyor apparatus according to claim 1, wherein the liquid return channel is formed by a liquid return hose connected from a bottom plate forming the recovery tank to an inclined bottom of the inclined conveyance unit. The folded surface of the endless conveyor has a curved surface,
The conveyor apparatus according to claim 1, wherein the cleaning nozzle sprays a cleaning liquid onto the curved surface.   The liquid return part has a baffle plate provided in front of the liquid return flow path as a means for preventing the separated material from flowing out from the liquid return flow path to the inclined transport section,
  The baffle plate is arranged near the tip of the baffle plate below the liquid level in the collection tank, thereby blocking the transfer of separated material from the liquid level in the collection tank to the liquid return channel side.
  The conveyor apparatus according to claim 1.