JP2006235497A - Equipment for reusing or recycling device incorporating toner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide equipment for reusing or recycling a device incorporating toner, where workability of decomposition, cleaning, etc. is good and toner pollution is satisfactorily prevented. <P>SOLUTION: A periphery of a work space is covered with a surrounding plate 5, a ceiling plate 11, and a push air hood 12 except a portion of access for work. Furthermore, a lower face of the work space is made into a mesh (a fixed table 2 and a rotating table 3) to prevent toner from staying in the work space. The toner is prevented from flowing out of the equipment, by a downward air current caused by a fan 121 and suction toward the depth, which is caused by a flange 701. Air containing the toner is sucked down a work stand by a dust collector. Thus a work environment is prevented from being polluted by toner scattering from a work. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to equipment for performing operations such as disassembly for reuse or recycling of toner cartridges and other toner-containing devices. More specifically, the present invention relates to a toner built-in equipment reuse or recycling facility that prevents contamination by toner built into the equipment.

In many recent electrophotographic image forming apparatuses, toner is supplied to a developing device by a detachable toner cartridge. In some cases, the developing device itself is a cartridge type. Furthermore, there is also a cartridge type image forming unit including a photosensitive member. In such a cartridge type image forming apparatus, a cartridge in which toner is used up is generated. In order to effectively use resources, it is necessary to disassemble and reuse or recycle cartridges that have used up toner. Also, cleaning may be performed to remove toner without disassembling. Even if this type of cartridge has run out of toner, toner remains inside. Therefore, the surroundings may be contaminated by the scattering of toner inside during operations such as disassembly and cleaning. For this reason, some of the disassembly work facilities for the toner built-in device are designed to suppress contamination by toner (Patent Documents 1 and 2).
JP 2001-141273 A Japanese Patent No. 3470161

  However, the above-described conventional techniques do not take into account toner scattering on the work table, and work of disassembly and separation. For this reason, the toner may be scattered. Further, the workability is low even if the cartridge container or the like to which the toner is attached is cleaned or disassembled.

  The present invention has been made to solve the above-described problems of the prior art. That is, the problem is to provide a toner built-in device reuse or recycling facility that has good workability such as disassembly and cleaning, and toner contamination is well prevented.

  In order to solve this problem, the toner built-in device reuse or recycling facility of the present invention includes a perforated work table for disassembling the toner built-in device, a lower suction port provided below the work table, A toner built-in equipment reuse or recycling facility having a shroud provided to cover at least two of the three directions excluding the operator's position around the upper part of the table, the work table including a turntable, And a fixed table around the rotary table, and at least one of the rotary table and the fixed table is perforated.

  In this toner built-in equipment reuse or recycling facility, the work table is composed of a rotary table and a fixed table. That is, a part of the work table is a rotary table. For this reason, the rotary table can be rotated in a state where the toner built-in device as the object is placed on the rotary table. This makes it possible to easily change the orientation on the workbench without swinging the toner built-in device. For this reason, workability is good. Therefore, toner does not scatter due to poor workability. In addition, the toner that is generated when the toner built-in device is disassembled is sucked into the lower suction port through the hole of the work table. In this way, a toner built-in equipment reuse or recycling facility that provides good disassembly workability and prevents toner contamination is provided.

  The toner built-in device reuse or recycling facility of the present invention may further include a downflow generating means that is installed above the inside of the area defined by the edge of the workbench and generates a downward airflow. In this way, the toner that comes out of the device when the device with built-in toner is disassembled is pressed against the work table by a downward air flow (down flow). As a result, the toner smoothly passes through the work table and is sucked into the lower suction port. Therefore, the possibility of toner scattering outside the facility is further suppressed.

  Alternatively, the toner built-in device reuse or recycling facility of the present invention may be provided above the work table and have a table suction port for sucking air. In this way, the toner from the toner built-in device is also sucked by the table suction port. Therefore, the possibility of toner scattering outside the facility is further suppressed.

  In this case, a flexible hose that connects the table suction port with the suction source may be provided. That is, it is preferable that the table suction port is provided at the tip of the flexible hose. In this case, the suction port on the table can be applied like a vacuum cleaner to the place where the toner is accumulated, such as on the work table in the disassembled toner built-in device. Thereby, the toner can be quickly removed. It is further preferable to have an auxiliary suction pipe having both ends disposed above the work table. In this way, when use such as a vacuum cleaner is unnecessary, a table-top suction port can be connected to one end of the auxiliary suction pipe. In this state, the other end of the auxiliary suction pipe sucks the toner floating in the air. In this state, the table suction port does not disturb the work. Note that both the table top suction port and the auxiliary suction pipe are installed below the downflow generating means when used together with the downflow generating means.

  In the reuse or recycling facility with a built-in toner according to the present invention, it is also useful to have a perforated drawer tray provided so that it can be pulled out below the work table. In that case, the hole in the drawer tray should be smaller than the hole in the workbench. In this way, small items such as screws and nuts generated by the disassembling work can be dropped from the hole of the work table and trapped by the drawer tray. Of course, the toner passes through the hole in the drawer tray and is sucked into the lower suction port.

  Alternatively, in the toner built-in device reuse or recycling facility of the present invention, it is desirable to have a plurality of component inlets that open to the space defined by the surrounding plate. As a result, the parts obtained by disassembly can be collected separately for each type.

  In addition, the toner built-in device reuse or recycling facility of the present invention has an air shower that is open to the space defined by the shroud and sucks air so that the operator can put in a hand. It is also preferable. If the operator's hand is contaminated with toner, it can be cleaned immediately in the air shower. It is further preferable that an air jet nozzle for ejecting air from the opening toward the back side is provided in the air shower portion.

  Further, in the toner built-in device reuse or recycling facility of the present invention, it is preferable to have work content guide means for guiding the work content of the disassembly of the toner built-in device to be disassembled to the operator. In this way, the worker does not get lost in the work contents. Specific examples of the guide include screen display and voice guidance.

  In this case, it further has a model acquisition means for acquiring information on the model of the toner built-in device to be disassembled, and the work content guide means is a work content for disassembling the corresponding model according to the information acquired by the model acquisition means. It is desirable to guide.

  According to the present invention, there is provided a toner built-in equipment reuse or recycling facility that has good workability such as disassembly and cleaning, and toner contamination is well prevented.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the best mode for embodying the present invention will be described in detail with reference to the accompanying drawings. The toner built-in device reuse or recycling facility according to the present embodiment is a facility for disassembling a device including toner (hereinafter referred to as “work”) such as a toner cartridge and a developing cartridge. The toner built-in device reuse or recycling facility of this embodiment is schematically configured as shown in the perspective view of FIG. That is, the toner built-in device reuse or recycling facility 1 of the present embodiment is a substantially rectangular parallelepiped device as a whole. The toner built-in device reuse or recycling facility 1 has a fixed table 2 at a middle height. A part of the rotary table 3 is rotatable by hand. The entire fixed table 2 and rotary table 3 constitute a work table. Both the fixed table 2 and the rotary table 3 are formed of mesh. The roughness of the eyes is such that small items such as screws and nuts removed from the work can pass through. For roughness (hole size), if the hole on the perforated surface is not a single size, the maximum aperture shall be said. A non-circular hole can be designed corresponding to the shape of the disassembled part. The heights of the fixed table 2 and the rotary table 3 are slightly higher than the height of the person's waist.

  A drawer tray 4 is provided immediately below the fixed table 2 and the rotary table 3. The drawer tray 4 can be pulled forward, that is, in the direction of arrow A in FIG. As shown in FIG. 2, the bottom surface 401 of the drawer tray 4 is formed of a mesh. However, the mesh of the drawer tray 4 is finer than that of the fixed table 2 and the rotary table 3. Specifically, the above-mentioned accessories can be caught. Note that a magnet may be provided between the work table and the drawer tray 4 to catch small iron items. In that case, it is better to use a non-magnetic material for each mesh to prevent magnetization. This is because some work contains a magnetic developer, and the magnetic developer is caught when the mesh is magnetized. A suction mechanism described later is provided further below the drawer tray 4.

  The range above the fixed table 2 and the rotary table 3 (range B in FIG. 1) in the toner built-in device reuse or recycling facility 1 is a space for disassembling work. This work space is surrounded by a transparent shroud 5 except for the front worker position (around the drawer tray 4). The enclosure plate 5 is formed of a transparent material such as an acrylic plate. From the range where there is no shroud 5, the operator can put in his hand and work inside. This range is working access. A flexible hose 6 is provided in the work space. The rear side is connected to a cyclone dust collector 17 described later. The suction port 601 at the tip of the flexible hose 6 can approach any position on the fixed table 2 and the rotary table 3 by the operator's operation.

  An auxiliary suction pipe 7 is also provided in the work space. Unlike the flexible hose 6, the auxiliary suction pipe 7 is fixedly provided. A funnel-shaped flange 701 is attached to one end thereof. The flange 701 is located on the back side in the work space. A suction port 601 of the flexible hose 6 can be connected to the other end 702 of the auxiliary suction pipe 7.

  In the work space, an air shower unit 8, a component input port 9, and a component input duct 10 are further provided. In the example of FIG. 1, there are two parts insertion ports 9. The air shower unit 8 is for blowing off toner on the hands of workers. The component input port 9 and the component input duct 10 are used to input components obtained by disassembly for each type. A dust box 19 described later is disposed below the component insertion port 9. The rear of the component input duct 10 is connected to the flexible container 101. Further, the upper part of the work space is covered with a ceiling plate 11 and a push air hood 12. A fan 121 is built in the push air hood 12.

  Hereinafter, each part of the toner built-in device reuse or recycling facility 1 will be described in detail.

  First, the rotary table 3 will be described with reference to FIGS. As shown in FIG. 3, the rotary table 3 includes a mesh table portion 301, a peripheral rim portion 302, and a central pin 303. In addition, a circular recess 201 that matches the planar shape of the rotary table 3 is formed in the fixed table 2 where the rotary table 3 is disposed. The recess 201 is also a mesh. A boss 202 is provided at the center of the recess 201. When the pin 303 is inserted into the boss 202, the state shown in FIG. In this state, the table portion 301 of the rotary table 3 and the portion of the fixed table 2 other than the recessed portion 201 are substantially flush with each other. In this state, the rotary table 3 can also be rotated manually.

  Next, the suction mechanism below the fixed table 2 (corresponding to the range C in FIG. 1) will be described with reference to FIG. As shown in FIG. 5, a suction duct 13 is provided under the fixed table 2 and the rotary table 3. The suction duct 13 has a shape in which the top is wide and the bottom is narrow, and is connected to the suction pipe 15 at the bottom. The tip of the suction pipe 15 is connected to the dust collector 16. As a result, the air in the work space on the fixed table 2 and the rotary table 3 is sucked. The aforementioned drawer tray 4 is arranged in the form inserted into the middle of the suction duct 13 from the front (left side in FIG. 5). A slope plate 14 is provided at a peripheral position in the suction duct 13 and above the drawer tray 4. The slope plate 14 is for guiding small articles that have passed through the mesh of the fixed table 2 and the rotary table 3 into the drawer tray 4.

  That is, downward air blown by the fan 121 acts on the work space from above, and suction by the dust collector 16 acts from below. As a result, as shown in FIG. 6, a downward airflow (downflow) D is generated in the work space and the suction duct 13. In FIG. 6, the drawer tray 4 and the like are not shown. A buffer member 131 (resin net, non-woven fabric that does not emit dust, etc.) is provided on the slope and bottom of the suction duct 13. This reduces the sound of falling parts and prevents damage when dropped.

  Next, piping in the work space will be described with reference to FIG. As described above, the working space is provided with the flexible hose 6 and the fixed auxiliary suction pipe 7. The rear of the flexible hose 6 is connected to a cyclone dust collector 17. Thereby, an arbitrary position in the work space can be sucked by the suction port 601 at the tip of the flexible hose 6. Further, as shown in FIG. 8, the suction port 601 of the flexible hose 6 can be inserted into one end 702 of the auxiliary suction pipe 7. In this state, the entire air in the work space is sucked from the worker side toward the flange 701.

  Next, the air shower unit 8 will be described with reference to FIG. The air shower part 8 is a box body opened upward as a whole. The upper opening 801 faces the aforementioned working space. A suction pipe 802 is connected to the lower portion of the air shower unit 8. The tip of the suction pipe 802 is connected to the dust collector 16 described above. On the edge of the opening 801, a slope-like edge 803 that hangs downward is formed. The edge portion 803 is provided on two sides of the front side and the rear side. Just below that, an air jet nozzle 804 is arranged. The air jet nozzle 804 is attached in a direction for ejecting an airflow downward. The air jet nozzle 804 may be supplied with compressed air from an appropriate compressed air source. Furthermore, a light detection sensor 805 is provided at the left or right position slightly below the opening 801. When the light detection sensor 805 detects the entry of an object, the air jet nozzle 804 ejects an air current. As a result, when the operator puts the hand 806 into the air shower 8 from the opening 801, an air flow is jetted from the air jet nozzle 804.

  Next, the dust box 19 below the component insertion port 9 will be described with reference to FIGS. FIG. 10 is a plan view of the fixed table 2, the rotary table 3, the air shower 8, and the component insertion port 9. Of the rear surface (upper side in FIG. 10) of the toner built-in device reuse or recycling facility 1, there is an opening / closing door below the fixed table 2 (corresponding to the range C in FIG. 1) and corresponding to the component insertion port 9. 18 is provided. Further, as shown in FIG. 11, a caster 20 is provided at the lower part of the dust box 19. Thus, the dust box 19 can be easily pulled out to the rear of the reuse or recycling facility 1 with the toner built-in device when the door 18 is opened. It should be noted that the dust box 19 may be provided with a sensor using light or the like, and the number of inserted parts may be counted. Then, the amount of parts already stored in the dust box 19 can be managed. Or you may replace with this by providing a weight scale.

  In summary, the air suction system of the toner built-in equipment reuse or recycling facility 1 is as shown in the block diagram of FIG. That is, two suction pumps of the dust collector 16 and the cyclone dust collector 17 are used. The dust collector 16 is in charge of two-line suction of the air shower unit 8 and the suction duct 13. The cyclone dust collector 17 is in charge of suction through the suction port 601 of the flexible hose 6. Of course, the present invention is not limited to this, and all suction may be performed with a single suction pump. Conversely, a total of three suction pumps may be used, one for each series.

  A disassembly work line equipped with a plurality of toner built-in equipment reuse or recycling facilities 1 will be described with reference to FIG. This disassembly work line has a belt conveyor 22 and a plurality of toner built-in equipment reuse or recycling facilities 1 installed on the side of the belt conveyor 22. An automatic cleaning device 23 is arranged downstream of the last toner built-in device reuse or recycling facility 1. In this disassembly work line, a work such as a used toner cartridge to be disassembled is loaded from the left end of the belt conveyor 22 in the figure. One worker 21 is attached to each toner built-in device reuse or recycling facility 1, and the work is disassembled in the toner built-in device reuse or recycling facility 1. The workpiece from which the small parts have been removed by the disassembling work is returned to the belt conveyor 22 again. The workpiece is subjected to air blow by the automatic cleaning device 23 and then collected at the right end of the belt conveyor 22 in the drawing and is recycled.

  Various parts other than the work returned to the belt conveyor 22 are sorted according to type and accumulated in one of the drawer tray 4, the part input port 9, and the part input duct 10. Depending on the type, it is discarded, reused, or recycled. It should be noted that all the parts obtained by disassembling may be sorted and accumulated in either the part input port 9 or the part input duct 10. In that case, the automatic cleaning device 23 and below in the disassembling work line of FIG. 13 is unnecessary. Further, the belt conveyor 22 in this disassembly work line is preferably provided with a cover for preventing toner scattering. Furthermore, it is more preferable if an automatic lifting / lowering device for a workpiece is provided at each toner built-in device reuse or recycling facility 1. Further, in the case of a line including a plurality of toner built-in device reuse or recycling facilities 1 as described above, the dust collectors 16 and 17 are independently provided for each individual toner built-in device reuse or recycling facility 1 and a large dust collector. Either of the concentrated methods may be used.

  Next, the operation of the toner built-in device reuse or recycling facility 1 will be described. When reusing the work in the toner built-in equipment reuse or recycling facility 1, the fan 121 and the dust collector 16 are operated. As a result, a downward airflow D is generated in the facility as shown in FIG. The downward airflow D does not include a directional component toward the front side where the worker is present. This is because the position of the fan 121 is above the inside of the region defined by the edge (enclosure plate 5) of the work table. Further, the inside of the air shower unit 8 is also sucked by the dust collector 16. Further, the cyclone dust collector 17 is also operated. Then, as shown in FIG. 8, the suction port 601 of the flexible hose 6 is inserted into the end 702 of the auxiliary suction pipe 7. As a result, the air in the entire work space is sucked from the worker side toward the flange 701. In addition, an appropriate sensor is provided on the front side of the toner built-in device reuse or recycling facility 1, and the fan 121, the dust collector 16, and the cyclone dust collector 17 are automatically operated when the worker reaches the working position. May be.

  In this state, the work carried on the belt conveyor 22 is placed on the fixed table 2 or the rotary table 3, and the operator performs the disassembling work. At this time, small items such as screws removed from the workpiece fall through the mesh of the fixed table 2 or the rotary table 3. Small items are accumulated on the bottom surface 401 of the drawer tray 4. The toner adhering to the small objects passes through the mesh on the bottom surface 401 and is sucked into the dust collector 16. By placing the work on the turntable 3 and rotating the turntable 3 by hand, the direction of the work can be easily changed. For this reason, the workability when removing screws around the work is good. When the work is disassembled, the toner remaining inside may rise. The soared toner is directed downward by the downward airflow D and passes through the mesh such as the fixed table 2 and is sucked into the dust collector 16 or is sucked into the cyclone dust collector 17 through the flange 701. Therefore, almost no toner comes out on the front side where the worker is present.

  If some parts are removed from the workpiece, the toner remaining inside may be exposed. In that case, the toner can be sucked locally using the flexible hose 6. That is, the suction port 601 may be pulled out from the end 702 of the auxiliary suction tube 7 and the residual toner 25 in the work 24 may be sucked in the manner of a cleaner as shown in FIG. The toner collected between the mesh holes of the fixed table 2 or the rotary table 3 can be sucked by the suction port 601 in the same manner. Note that the entire outer surface of the work may be first sucked by the suction port 601 before starting the work disassembling work. When the suction is finished, the suction port 601 is inserted into the end 702 of the auxiliary suction pipe 7 again.

  If the operator's hand is contaminated with toner during work, the dirty hand may be put into the air shower unit 8. As shown in FIG. 9, when the light detection sensor 805 detects the hand 806, the air jet nozzle 804 ejects an air current. The toner attached to the hand 806 is blown off by the airflow. The blown toner is sucked into the suction pipe 802 and travels to the dust collector 16. Here, the airflow from the air jet nozzle 804 may be weak immediately after the hand 806 is detected, and gradually increase thereafter. This is because when a strong air current is suddenly ejected, the toner blown from the hand 806 may stray and leak out of the work space. When the hand 806 is removed from the air shower section 8, the air flow of the air jet nozzle 804 is also stopped. Suction to the suction pipe 802 is continued.

  The various parts removed from the workpiece are sorted by type and loaded into the component loading port 9 and the component loading duct 10. It is specified in advance which parts are to be put in. As a result, various parts are accumulated in the dust box 19 and the flexible container 101 for each type. The workpiece from which the parts have been removed is returned to the belt conveyor 22. The disassembled work returned to the belt conveyor 22 is further air-washed by the automatic cleaning device 23 and then collected.

  Here, a tag or a panel indicating a component to be input may be installed in the vicinity of each component input port 9 and the component input duct 10. Further, the type of workpiece may be determined, and the disassembly work may be automatically guided according to the determination result. For this purpose, a display panel 30 as shown in FIG. The display panel 30 shown in FIG. 15 includes a liquid crystal screen 31, a main switch 32, a speaker 33, an antenna 34, a keyboard 35, and a hinge 36. Then, the visual guide by the illustration or characters of the liquid crystal screen 31 and the voice guide by the speaker 33 are performed. Guidance by only one of visual and audio is also possible. The contents of the guide include the order in which the workpiece screws are removed, how to remove the parts, where to place the removed parts (whether it is the part insertion port 9 or the part insertion duct 10), work process diagram (including progress) Etc.

  Information necessary for discrimination of the type of workpiece is automatically acquired by communication with the antenna 34 when the workpiece has a built-in microchip. When the work does not have a built-in microchip, the operator acquires the work model number by inputting it with the keyboard 35. Alternatively, when the speaker 33 also serves as a microphone, the dictation of the operator can be obtained by voice recognition. Further, when the model is displayed on the workpiece by a code such as a bar code, the toner built-in device reuse or recycling facility 1 may be provided with a code reader to read the model information. It should be noted that by acquiring information on the model of the workpiece, it is possible to control the airflow and duration of the downflow D according to the model.

  The installation position of the display panel 30 is not particularly limited, but it is preferable that the display panel 30 be easily visible to the operator and does not interfere with the work. The display panel 30 can be turned by a hinge 36. For this reason, it is only necessary that the worker has an orientation that is easy to see. Note that the position and direction of the hinge 36 are not limited to those shown in FIG. Although it depends on the installation position, a horizontal hinge may be provided so that it can be turned like a ring.

  As described in detail above, in the toner built-in device reuse or recycling facility 1 according to this embodiment, the work space is covered with the surrounding plate 5, the ceiling plate 11, and the push air hood 12 except for the work access portion. Yes. As a result, the work space and the outside are shut off except for the work access portion. Further, the lower surface of the work space is a mesh (fixed table 2 and rotary table 3) so that toner does not stay in the work space. The downward flow of air D by the fan 121 and the backward suction by the flange 701 prevent the toner from flowing out of the equipment. In addition, air containing toner is sucked by the dust collector 16 and the cyclone dust collector 17. As a result, a toner built-in equipment reuse or recycling facility 1 that prevents contamination of the work environment due to scattering of toner from the workpiece is realized.

  And the air shower part 8 opened with respect to the working space is provided. As a result, even if the operator's hand is soiled with toner, the operator can clean the hand without taking it out of the work space. Further, the drawer tray 4 is provided under the work table, and the component input port 9 is arranged with the component input duct 10 facing the work space. As a result, the parts obtained by disassembly can be separated and collected without taking them out of the work space. In addition, since a part of the work table is the rotary table 3, the workability at the time of disassembling work is excellent. Furthermore, as a particularly preferable aspect, a part of the workbench is rotatable and perforated, and the airflow from above flows downward without much trouble. For this reason, there is little toner scattering in the lateral direction, and the working environment of the worker is very good. Also, by displaying the disassembly procedure, etc., the work can be done more efficiently and without error. This also contributes to a reduction in toner scattering as a whole.

  Note that this embodiment is merely an example, and does not limit the present invention. Therefore, the present invention can naturally be improved and modified in various ways without departing from the gist thereof. For example, the specific shape of each part may not be as illustrated. The number of the air shower unit 8, the component input port 9, and the component input duct 10 is also arbitrary. Further, instead of the fan 121, an air flow from an appropriate compressed air source may be used.

1 is a perspective view showing an overall configuration of a toner built-in device reuse or recycling facility according to an embodiment. It is a perspective view showing a drawer tray which is a part of a toner built-in device reuse or recycling facility. It is an exploded sectional view showing the structure of a turntable. It is sectional drawing which shows the structure of a turntable. It is sectional drawing which shows the suction duct under a fixed table. It is a figure which shows the airflow by a fan and a suction duct. It is a perspective view explaining piping on a work table. It is a perspective view explaining piping on a work table. It is sectional drawing which shows the structure of an air shower part. It is a top view of a work table. It is a side view which shows a dust box. It is a block diagram showing an air suction system of a toner built-in device reuse or recycling facility. It is a top view which shows the disassembly work line provided with the toner built-in apparatus reuse or recycling equipment. FIG. 6 is a perspective view illustrating a state in which residual toner is sucked by a flexible hose. It is a perspective view which shows a display panel.

Explanation of symbols

1 Reuse or recycling equipment with built-in toner 2 Fixed table 3 Rotating table 4 Drawer tray 5 Enclosure 6 Flexible hose 7 Auxiliary suction pipe 8 Air shower section 9 Component input port 10 Component input duct (component input port)
13 Suction duct (lower suction port)
30 Display panel (work content guide means)
31 LCD screen (work content guide means)
33 Speaker (work content guide means, model acquisition means)
34 Antenna (model acquisition means)
35 Keyboard (model acquisition means)
121 fan (down flow generating means)
601 Suction port (table suction port)
701 Flange 804 Air jet nozzle

Claims (9)

A perforated work table for disassembling the toner built-in device, a lower suction port provided below the work table, and at least two directions out of three directions excluding an operator position around the work table In a toner built-in equipment reuse or recycling facility having a shroud provided in a shape to cover
On the workbench,
A rotating table,
A fixed table around the rotary table,
At least one of the rotary table and the fixed table is perforated, and a toner built-in apparatus reuse or recycling facility is provided. In the toner built-in equipment reuse or recycling facility according to claim 1,
A toner built-in apparatus reuse or recycle facility, characterized in that it has downflow generating means installed above the inside of the area defined by the edge of the work table and generating downward airflow. In the toner built-in equipment reuse or recycling facility according to claim 1 or claim 2,
The rotary table is perforated;
A toner built-in apparatus reuse or recycle facility, characterized in that it has a bench top suction port that is disposed above the work bench and sucks air. In the toner built-in equipment reuse or recycling facility according to claim 3,
A flexible hose connecting the above-mentioned table suction port with its suction source;
A toner built-in apparatus reuse or recycling facility comprising an auxiliary suction pipe having both ends disposed above the workbench. In the toner built-in equipment reuse or recycling facility according to claim 1,
A perforated drawer tray provided so as to be capable of being pulled out below the workbench;
A toner built-in equipment reuse or recycling facility, wherein the hole of the drawer tray is smaller than the hole of the work table. In the toner built-in equipment reuse or recycling facility according to claim 1,
A toner built-in apparatus reuse or recycle facility comprising a plurality of component inlets opened to a space defined by the surrounding plate. In the toner built-in equipment reuse or recycling facility according to claim 1,
An air shower unit that is open to a space defined by the surrounding plate and sucks air so that an operator can put a hand;
A toner built-in apparatus reuse or recycling facility, comprising: an air jet nozzle provided in the air shower section and ejecting air from the opening toward the back side. In the toner built-in equipment reuse or recycling facility according to claim 1,
A toner built-in device reuse or recycle facility, characterized by having work content guide means for guiding a work content of disassembly of a toner built-in device to be disassembled to an operator. In the toner built-in device reuse or recycling facility according to claim 8,
It has a model acquisition means to acquire the model information of the toner built-in device to be disassembled
The work content guide means guides the work contents of disassembling the corresponding model according to the information acquired by the model acquisition means, and the toner built-in apparatus reuse or recycling facility.

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