JP2016093771A - Cleaning apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cleaning apparatus capable of reducing time for drying a cleaned object.SOLUTION: A cleaning apparatus 10 includes: an accommodation part 22 which includes a bottom plate part 38 for placing an object to be cleaned thereon and constitutes an accommodation space S for accommodating the object to be cleaned above the bottom plate part 38; a partition wall part 24 for partitioning off the accommodation space S into a first area Q1 and a second area Q2 adjacent to each other in a horizontal direction, and for inhibiting the movement of the object to be cleaned from the first area Q1 to the second area Q2; a receiving opening 26 for receiving the object to be cleaned into the first area Q1; a discharge opening 28 for discharging the cleaned object from the second area Q2; cleaning liquid supply means 32 for supplying a cleaning liquid to the first area Q1; cleaning liquid discharge means 34 for discharging the cleaning liquid from the accommodation space S; and conveyance means 30 for conveying the cleaned object in the first area Q1 to the discharge opening 28 through between the bottom plate part 38 and the partition wall part 24.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a cleaning apparatus for cleaning a large number of objects to be cleaned with a cleaning liquid.

  Conventionally, to-be-cleaned objects such as machine parts (for example, screws, rivets, gears), metal balls (for example, pachinko balls, ballpoint pen steel balls) and disk bodies (for example, coins, coins, medals) There is a cleaning device that can continuously clean with a cleaning liquid. The cleaning apparatus described in Patent Literature 1 includes a cleaning tank that stores a cleaning liquid, a cleaning drum provided inside the cleaning tank, and a drum drive mechanism that rotates the cleaning drum. A spiral partition and a polishing brush are provided on the inner surface of the cleaning drum. When the cleaning drum is rotated by the drum driving mechanism, the medal stored in the cleaning drum is pushed by the partition wall and moves in the cleaning liquid, and the dirt of the medal is removed by the polishing brush.

JP 2005-125026 A

  The cleaning apparatus described in Patent Document 1 has a problem that it takes a long time to dry the object to be cleaned because a large amount of cleaning liquid has adhered to the object to be cleaned discharged from the cleaning drum.

  The present invention has been made to address the above-described problems, and an object thereof is to provide a cleaning device that can shorten the time for drying an object to be cleaned.

  In order to achieve the above object, a cleaning device according to the present invention is a cleaning device for cleaning an object to be cleaned with a cleaning liquid, and has a bottom plate portion on which the object to be cleaned is placed, and the bottom plate A housing portion that constitutes a housing space for housing the object to be cleaned above the portion, and the housing space is divided into a first region and a second region that are adjacent in the horizontal direction, and from the first region to the first region. A partition for suppressing movement of the object to be cleaned to two areas, a receiving port for receiving the object to be cleaned in the first area, and for discharging the object to be cleaned from the second area A discharge port, a cleaning liquid supply means for supplying the cleaning liquid to the first area, a cleaning liquid discharge means for discharging the cleaning liquid from the storage space, and the object to be cleaned in the first area. And the discharge through the partition wall In further comprising a conveying means for conveying the. Here, the objects to be cleaned include mechanical parts (for example, screws, rivets, gears), metal balls (for example, pachinko balls, steel balls for ballpoint pen nibs) and disk bodies (for example, coins, coins, medals). and so on.

  In this configuration, the object to be cleaned that has been cleaned in the first region is conveyed between the bottom plate and the partition wall to the discharge port provided in the second region, so that a large amount of the object to be cleaned is discharged. It can prevent being discharged from the outlet at once. In addition, since the cleaning liquid is discharged from the storage space by the cleaning liquid discharging means, it is possible to suppress the used cleaning liquid from being discharged from the discharge port together with the object to be cleaned. Further, since the discharge port is provided in the second area, the object to be cleaned can be drained in the process of transporting the object cleaned in the first area to the discharge port. Therefore, for example, in the drying process subsequent to the cleaning process, the time for drying the object to be cleaned can be shortened.

  According to another feature of the present invention, the conveying means includes a rotating plate rotatably provided between the bottom plate part and the partition part, and a rotation driving means for rotating the rotating plate. In addition, the outer peripheral portion of the rotating plate is provided with a pressing portion for pressing the object to be cleaned toward the discharge port.

  In this configuration, the object to be cleaned that is received in the first region from the receiving port is moved toward the inner surface of the housing portion by the centrifugal force accompanying the rotation of the rotating plate, and then is pushed by the pressing portion and given to the discharge port. It is done. When the object to be cleaned is moved, the object to be cleaned is rubbed against other objects to be cleaned and the bottom plate portion, so that the object to be cleaned is coupled with the cleaning liquid supplied from the cleaning liquid supply means. Can effectively remove dirt.

  Another feature of the present invention is that the inner surface of the housing part is formed in a circular shape in plan view, the rotation center of the rotating plate is arranged at the center of the housing part, and the pressing part of the rotating plate is In addition, a holding space for holding the object to be cleaned that is pressed by the pressing portion is formed between the outer peripheral edge of the front portion located in the rotational direction and the inner surface of the housing portion.

  In this configuration, the object to be cleaned that is received in the first region from the receiving port is moved toward the inner surface of the housing portion by the centrifugal force accompanying the rotation of the rotating plate, and the outer peripheral edge of the front portion and the inner surface of the housing portion are moved. It is accommodated in the holding space between. Therefore, when the object to be cleaned is pushed by the pressing part, the outer peripheral edge of the front part and the inner surface of the container part can prevent the object to be cleaned from moving in the radial direction of the container part, and the object to be cleaned can be efficiently discharged to the discharge port. Can be transported.

  Another feature of the present invention is that an end edge of a downstream end located on the downstream side in the transport direction of the object to be cleaned among both ends of the partition wall is disposed on the inner surface of the accommodating portion or in the vicinity thereof. When assuming a virtual straight line passing through the edge of the downstream end and the rotation center of the rotating plate in plan view, the downstream end is inclined toward the first region with respect to the virtual straight line. It is to be arranged.

  In this configuration, the object to be cleaned that is received in the first region from the receiving port is moved toward the inner surface of the housing portion by the centrifugal force accompanying the rotation of the rotating plate, and is moved in the rotating direction by being pushed by the rotating plate. And pressed against the downstream end of the partition wall. Since the downstream end is inclined to the first region side with respect to the imaginary straight line, the object to be cleaned that is pressed against the downstream end is aligned with the inner surface of the container along the downstream end. Moved towards. As described above, since the object to be cleaned is moved toward the inner surface of the housing portion by the pressing force in the rotation direction in addition to the centrifugal force, the object to be conveyed can be efficiently given to the pressing portion.

  Another feature of the present invention is that a continuous portion that continues from the downstream end to the center in the partition wall is curved so as to approach the rotation center of the rotating plate from the downstream end toward the center. There is in doing.

  When the entire partition wall portion is formed in a straight line shape, if the downstream end of the partition wall portion is inclined with respect to the imaginary straight line toward the first region side, the volume of the first region is reduced and the covered portion is covered. There is a possibility that the moving distance of the cleaning object becomes short and the cleaning efficiency is lowered. In the above configuration, since the continuous portion is curved so as to approach the rotation center of the rotating plate as it goes from the downstream end to the center portion, the volume of the first region can be suppressed to be reduced, and the cleaning efficiency can be reduced. Can be prevented.

  Another feature of the present invention is that the partition wall is formed of an elastic material, and the lower end of the partition wall is a free end.

  In this configuration, since the lower end portion of the partition wall portion formed of an elastic material is a free end, when a pressing force is applied from the rotating plate to the object to be cleaned that is collected on the upstream side of the partition wall portion, the partition wall The lower end portion of the portion is elastically deformed, and the object to be cleaned is pushed into the second region. Thereby, it can suppress that a to-be-cleaned object stays in the upstream of a partition part, and can improve the conveyance property of a to-be-cleaned object.

  Another feature of the present invention is that the cleaning liquid discharging means corresponds to at least one first drain hole provided in a portion corresponding to the first region in the bottom plate portion and the second region in the bottom plate portion. At least one second drainage hole provided in the portion to be made, and the total opening area of the first drainage hole is made smaller than the total opening area of the second drainage hole It is in.

  In this configuration, the dirt component removed from the object to be cleaned can be discharged together with the used cleaning liquid from the first drain hole and the second drain hole. Further, since the total opening area of the first drainage holes is smaller than the total opening area of the second drainage holes, the residence time of the cleaning liquid becomes longer in the first region, and the object to be cleaned is effectively removed. Can be washed.

  Another feature of the present invention is that the cleaning liquid discharge means has a plurality of second drain holes provided in a portion of the bottom plate portion corresponding to the second region, and at least one of the second drain holes. The liquid hole is provided in a conveyance path of the object to be cleaned which is given to the discharge port.

  In this configuration, since the second drainage hole is provided in the conveyance path of the object to be cleaned, the object to be conveyed can be drained effectively.

It is a front view which shows the structure of the washing | cleaning apparatus which concerns on one Embodiment of this invention. It is a top view which shows the structure of the principal part of a washing | cleaning apparatus. It is sectional drawing which shows the structure of the principal part of a washing | cleaning apparatus. It is a disassembled perspective view which shows the structure of the principal part of a washing | cleaning apparatus. It is a perspective view which shows the structure of a part of rotation drive means. It is a top view which shows the use condition (cleaning process) of the principal part of a washing | cleaning apparatus. It is a top view which shows the use condition (conveyance process) of the principal part of a washing | cleaning apparatus.

  Embodiments of a cleaning apparatus according to the present invention will be described below with reference to the drawings.

  FIG. 1 is a front view showing a configuration of a cleaning apparatus 10 according to an embodiment of the present invention. A cleaning apparatus 10 shown in FIG. 1 continuously cleans a large number of objects to be cleaned such as machine parts, metal balls, and discs with a cleaning liquid. A solid line arrow in FIG. 1 indicates the flow of the object to be cleaned, and a broken line arrow in FIG. 1 indicates the flow of the cleaning liquid. Moreover, the dashed-dotted arrow in FIG. 1 has shown the flow of the hot air.

(Configuration of the cleaning apparatus 10)
As shown in FIG. 1, the cleaning device 10 includes a frame 12, an object supply unit 14, a cleaning unit 16, and a drying unit 18. The frame 12 is a part constituting the skeleton of the cleaning device 10 and is constituted by a bar and a plate made of a metal such as iron. The article supply unit 14, the cleaning unit 16, and the drying unit 18 are attached to the frame 12 in this order from the top to the bottom.

  As shown in FIG. 1, the cleaning object supply unit 14 includes a hopper 20 for receiving the cleaning object. A discharge port 20 a is formed in the lower part of the hopper 20, and the discharge port 20 a is connected to the cleaning unit 16.

  FIG. 2 is a plan view showing the configuration of the main part of the cleaning apparatus 10, and FIG. 3 is a cross-sectional view showing the configuration of the main part of the cleaning apparatus 10. FIG. 4 is an exploded perspective view showing the configuration of the main part of the cleaning apparatus 10. The cleaning unit 16 shown in FIG. 1 cleans the object to be cleaned supplied from the hopper 20 with the cleaning liquid and drains the cleaning liquid adhering to the object to be cleaned. In the present embodiment, the object to be cleaned is configured with coins or coins for gaming machines.

  As shown in FIG. 2, the cleaning unit 16 divides the storage space 22 into the first space Q1 and the second space Q2 that are adjacent to each other in the horizontal direction. A partition wall 24 for receiving the object to be cleaned, a receiving port 26 for receiving the object to be cleaned in the first region Q1, and an outlet 28 for discharging the object to be cleaned from the second region Q2. In addition, the cleaning unit 16 includes a transport unit 30 for transporting the object to be cleaned in the first region Q1 to the discharge port 28 in the second region Q2. Further, as shown in FIG. 1, the cleaning unit 16 includes a cleaning liquid supply means 32 for supplying a cleaning liquid to the first region Q1, and a storage space S (in this embodiment, the first region Q1 and the second region Q2). And a cleaning liquid discharging means 34 for discharging the cleaning liquid from both. In the following, these components will be described in more detail.

  As shown in FIG. 3, the accommodating part 22 includes a bottomed cylindrical container part 36, a bottom plate part 38 provided inside the container part 36, a first lid 40 provided on the upper part of the container part 36, and And a second lid 42.

  As shown in FIG. 3, the container portion 36 has a bottom portion 44 and a peripheral wall portion 46. A first through hole 44 a is formed at the center of the bottom 44, and a support tube 48 for supporting the rotating shaft 118 of the transport means 30 is connected to the first through hole 44 a. A second through hole 44b is formed in a portion corresponding to the second region Q2 in the outer peripheral portion of the bottom portion 44, and an object to be cleaned discharged from the discharge port 28 is dried to the drying unit 18 in the second through hole 44b. A discharge pipe 50 for leading to (FIG. 1) is connected. Furthermore, a third through hole 44c is formed at an appropriate position of the bottom portion 44, and a tubular drain port 52 for discharging the used cleaning liquid is connected to the third through hole 44c.

  As shown in FIG. 4, the inner surface K of the peripheral wall portion 46 (that is, the inner surface of the housing portion 22) K is formed in a circular shape in plan view. A flange portion 54 is formed at the upper end portion of the peripheral wall portion 46, and a plurality of screw holes 56 are formed in the flange portion 54. As shown in FIG. 3, a cylindrical support portion 58 for supporting the bottom plate portion 38 is formed below the inner surface K of the peripheral wall portion 46. A liquid supply port 60 for supplying the cleaning liquid to the first region Q1 is formed in a portion corresponding to the first region Q1 in the peripheral wall portion 46. In addition, the structure of the support part for supporting the baseplate part 38 is not specifically limited, It replaces with the cylindrical support part 58, and a some rod-shaped support part (illustration omitted) may be used. In addition, a stepped support portion (not shown) formed on the inner surface K of the peripheral wall portion 46 may be used.

  As shown in FIG. 2, the bottom plate portion 38 is a circular plate-like member on which an object to be cleaned received from the receiving port 26 in the first region Q1 is placed. The diameter of the bottom plate portion 38 is smaller than the inner diameter of the peripheral wall portion 46 and larger than the inner diameter of the support portion 58. At least one (a plurality in the present embodiment) first drain hole 62 is formed in a portion of the bottom plate portion 38 corresponding to the first region Q1. In the portion corresponding to the second region Q2 in the bottom plate portion 38, at least one (a plurality in the present embodiment) second drain holes 64 and a discharge port 28 for discharging the object to be cleaned are formed. Yes. In the present embodiment, the discharge port 28 is provided in the outer peripheral portion of the bottom plate portion 38 apart from the partition wall portion 24, and the transport path R for transporting the object to be cleaned to the discharge port 28 is the outer peripheral portion of the bottom plate portion 38. Is provided. That is, the discharge port 28 is located on the upstream side in the transport direction of the object to be cleaned with respect to the downstream end 74 on the downstream side in the transport direction of the object to be cleaned, on both ends of the partition wall 24 to be described later. It is formed at a position close to the upstream end 76. At least one second drainage hole 64 is provided in the transport path R. Further, the total opening area of the first drainage hole 62 is made smaller than the total opening area of the second drainage hole 64 so that the time during which the cleaning liquid stays in the first region Q1 becomes longer.

  As shown in FIG. 3, a through hole 66 into which a support tube 48 provided on the bottom 44 of the container portion 36 is inserted is formed at the center of the bottom plate 38, and a discharge port on the lower surface of the bottom plate 38 is formed. A recess 68 is formed in a portion corresponding to 28. When the bottom plate portion 38 is installed inside the container portion 36, the outer peripheral portion of the bottom plate portion 38 is placed on the upper surface of the support portion 58, and the upper end portion of the discharge pipe 50 is fitted into the recess 68. Accordingly, the bottom plate portion 38 is supported inside the container portion 36 and the bottom plate portion 38 is prevented from rotating. In a state where the bottom plate portion 38 is installed inside the container portion 36, the space above the bottom plate portion 38 becomes the accommodation space S, and the space below the bottom plate portion 38 stores the used cleaning liquid V. It becomes.

  As shown in FIG. 2, the first lid 40 is a semicircular plate-like member for closing the opening 70a of the container portion 36 corresponding to the first region Q1. A plurality of through holes 40 a are formed in the arc-shaped outer peripheral portion of the first lid 40, and the male screw 40 b inserted into each through hole 40 a corresponds to the corresponding screw hole 56 (see FIG. 4). The first lid 40 is formed with a receiving port 26 for receiving an object to be cleaned in the first region Q1. The second lid 42 is a semicircular plate-like member for closing the opening 70 b corresponding to the second region Q <b> 2 of the container portion 36. A plurality of through holes 42 a are formed in the arc-shaped outer peripheral portion of the second lid 42, and the male screws 42 b inserted into the respective through holes 42 a correspond to the corresponding screw holes 56 (see FIG. 4). In the present embodiment, the first lid 40 and the second lid 42 are formed of a transparent acrylic plate, and the inside of the container portion 36 can be visually recognized from above the first lid 40 and the second lid 42.

  As shown in FIG. 2, the partition wall 24 partitions the first region Q1 and the second region Q2, and suppresses the movement of the object to be cleaned from the first region Q1 to the second region Q2. It is formed in a strip shape by an elastic material such as rubber. Of the both ends of the partition wall 24, the end located on the downstream side in the conveyance direction of the object to be cleaned is defined as a downstream end 74, and the end located on the upstream side in the conveyance direction of the object to be cleaned is defined as an upstream end 76. When this is done, the edge 74a of the downstream end 74 and the edge 76a of the upstream end 76 are on the inner surface K or in the vicinity thereof along the inner surface K of the accommodating portion 22 (ie, the inner surface of the peripheral wall portion 46). It is arranged extending in the vertical direction.

  As shown in FIG. 2, when assuming a virtual straight line L1 passing through an edge 74a of the downstream end 74 and a rotation center P of the rotating plate 100 described later in plan view, the downstream end 74 is assumed to be virtual. It is arranged to be inclined toward the first region Q1 with respect to the straight line L1. The continuous portion 80 that continues from the downstream end 74 to the central portion 78 in the partition wall 24 is curved so as to approach the rotation center P of the rotating plate 100 from the downstream end 74 toward the central portion 78.

  As shown in FIG. 4, the upper end portion of the partition wall portion 24 is sandwiched by the sandwiching portion 82 so as to maintain the curved shape of the partition wall portion 24, and both longitudinal ends of the sandwiching portion 82 are attached to a pair of attachments. It is attached to the container part 36 via the member 84.

  As shown in FIG. 4, the clamping part 82 has the 1st clamping piece 82a and the 2nd clamping piece 82b of strip | belt-plate shape which consist of high intensity | strength materials, such as iron. A plurality of screw holes (not shown) are formed in the first clamping piece 82a at intervals in the longitudinal direction, and a plurality of through holes (not shown) corresponding to these screw holes are formed in the second clamping piece 82b. (Omitted) is formed. Then, the male screw 86 inserted into each through hole of the second clamping piece 82b is inserted into a through hole (not shown) formed in the upper end portion of the partition wall 24, and into the screw hole of the first clamping piece 82a. It is screwed.

  As shown in FIG. 4, the attachment member 84 is formed in an L shape in plan view with a high-strength material such as iron. A through hole (not shown) is formed in one side 84 a of the attachment member 84, and the one side 84 a is fixed to the holding portion 82 by a male screw 88 inserted through the through hole. A screw hole 90 is formed in the other side 84 b of the attachment member 84, and a through hole 92 corresponding to the screw hole 90 is formed in the container portion 36. The male side 94 inserted into the through hole 92 is screwed into the screw hole 90, whereby the other side 84 b is fixed to the container part 36.

  As shown in FIG. 3, the lower end 98 of the partition wall 24 is a free end in a state where the partition wall 24 is supported in the accommodation space S by the sandwiching portion 82. The lower end edge 98 a of the partition wall portion 24 is spaced upward from the bottom plate portion 38 and is disposed in parallel to the upper surface of the bottom plate portion 38. Thereby, between the bottom plate portion 38 and the partition wall portion 24, the rotating plate 100 is disposed and a gap W through which an object to be cleaned passes is secured. The interval between the rotating plate 100 and the partition wall portion 24 is set to be smaller than the height of the object to be cleaned in order to prevent the object to be cleaned from being conveyed from between these.

  As shown in FIG. 2, the conveying means 30 conveys the object to be cleaned in the first region Q <b> 1 to the discharge port 28 through the gap W between the bottom plate portion 38 and the partition wall portion 24. The rotating plate 100 is rotatably provided between the unit 24 and the rotation driving means 102 for rotating the rotating plate 100.

  As shown in FIG. 3, the rotating plate 100 moves the object to be cleaned received from the receiving port 26 to the first region Q <b> 1 toward the inner surface K of the housing portion 22 by centrifugal force and presses it in the rotating direction. Is. The rotating plate 100 of this embodiment is a plate-like member having a constant thickness, and the thickness of the rotating plate 100 is larger than the height of the object to be cleaned. A through hole 104 into which a support tube 48 provided in the container portion 36 is inserted is formed at the center of the rotating plate 100, and the rotation center P of the rotating plate 100 is arranged at the center of the accommodating portion 22. Yes.

  As shown in FIG. 2, a pressing portion 106 for pressing the object to be cleaned toward the discharge port 28 is provided on the outer peripheral portion of the rotating plate 100. Holding for holding an object to be cleaned pressed by the pressing portion 106 between the outer peripheral edge 108a of the front portion 108 and the inner surface K of the housing portion 22 which are located further in the rotation direction than the pressing portion 106 in the rotating plate 100. A space F is configured. In plan view, when the rotating plate 100 is bisected by the virtual straight line L2 passing through the pressing portion 106 and the rotation center P of the rotating plate 100, the area of the rear portion 110 located behind the virtual straight line L2 in the rotation direction is the virtual straight line. It is made smaller than the area of the front part 108 located in the rotational direction ahead of L2. Thus, when the rear portion 110 moves in the second region Q2, the effective opening area of the second drainage hole 64 becomes larger than when the front portion 108 moves in the second region Q2, and the cleaning liquid is discharged from the second region Q2. It becomes easy to be discharged from the liquid hole 64.

  As shown in FIG. 1, the rotational drive means 102 includes a drive motor 112 provided on the frame 12, and a rotational force transmission mechanism 114 for transmitting the rotational force of the drive motor 112 to the rotating plate 100 (FIG. 3). Have. As shown in FIG. 3, the rotational force transmission mechanism 114 has a bearing portion 116 incorporated in a support tube 48 provided in the housing portion 22, and a rotating shaft 118 that is rotatably supported by the bearing portion 116. ing. A rotating block 120 is attached to the upper end portion of the rotating shaft 118, and the rotating plate 100 is attached to the lower surface of the rotating block 120 using a plurality of male screws 122. A cover 121 is attached to the top of the rotating block 120.

  FIG. 5 is a perspective view showing a partial configuration of the rotation driving means 102. As shown in FIG. 5, the rotational force transmission mechanism 114 further includes a first gear 126 provided on the output shaft 124 of the drive motor 112 (FIG. 1), a second gear 128 provided on the rotational shaft 118, A chain 130 for transmitting the rotational force of the first gear 126 to the second gear 128. A third gear 132 for transmitting the rotational force of the rotating shaft 118 to the gear 170 of the drying unit 18 is attached to the lower end portion of the rotating shaft 118. When the drive motor 112 (FIG. 1) is driven, the rotational force is transmitted to the rotary shaft 118 via the first gear 126, the chain 130, and the second gear 128, and the rotary block 120 and the third gear 132 shown in FIG. As a result, the rotating plate 100 and the gear 170 (FIG. 5) are rotated.

  As shown in FIG. 1, the cleaning liquid supply means 32 communicates the cleaning liquid tank 136 that stores the cleaning liquid, the spray nozzle 138 provided in the liquid supply port 60 of the storage unit 22, and the cleaning liquid tank 136 and the spray nozzle 138. And a pump 142 for pumping the cleaning liquid in the cleaning liquid tank 136 toward the spray nozzle 138. Therefore, the cleaning liquid in the cleaning liquid tank 136 can be ejected vigorously from the spray nozzle 138 to the object to be cleaned in the first region Q1. The number of spray nozzles 138 is not particularly limited, and a plurality of spray nozzles 138 may be used.

  As shown in FIG. 3, the cleaning liquid discharging means 34 corresponds to a plurality of first drain holes 62 provided in a portion corresponding to the first region Q1 in the bottom plate portion 38 and the second region Q2 in the bottom plate portion 38. A plurality of second drain holes 64 provided in the portion and a drain port 52 provided in the container portion 36 are provided. As shown in FIG. 1, the cleaning liquid discharging means 34 includes a drain pipe 146 for communicating the drain port 52 and the cleaning liquid tank 136, and a filter 148 provided in the cleaning liquid tank 136. . Therefore, the cleaning liquid discharged from the first drain hole 62 and the second drain hole 64 (FIG. 3) is supplied to the filter 148 through the drain pipe 146, filtered by the filter 148, and then returned to the cleaning liquid tank 136. It is.

  As shown in FIG. 1, the drying unit 18 includes a drying cylinder 150, a conveying blade 152, and a hot air blowing device 154. The drying cylinder 150 has an airtight outer cylinder 156 and an inner cylinder 158 provided with a plurality of ventilation holes (not shown). A receiving port 160 is provided at one end of the drying cylinder 150 for receiving an object to be cleaned discharged from the cleaning unit 16. The discharge pipe 50 and the receiving port 160 of the cleaning unit 16 pass through the conveyance path 162. It is communicated through. A discharge port 164 for discharging the object to be cleaned is provided at the other end of the drying cylinder 150. The inner cylinder 158 of the present embodiment is provided away from the inner surface of the outer cylinder 156, and a gap 166 communicating with the internal space of the inner cylinder 158 is formed between the inner cylinder 158 and the outer cylinder 156. ing.

  As shown in FIG. 1, the conveyance blade 152 conveys an object to be cleaned from the receiving port 160 toward the discharge port 164 by being rotated together with the drying tube 150, and spirally formed on the inner surface of the drying tube 150. Is provided. The drying cylinder 150 is rotatably supported by a plurality of support rollers 168. A gear 170 is provided on the outer peripheral surface of the drying cylinder 150, and the gear 170 meshes with the third gear 132 of the rotation driving means 102. Therefore, when the driving motor 112 of the rotation driving means 102 is driven and the third gear 132 is rotated, the rotational force is transmitted to the gear 170, and the drying cylinder 150 and the conveying blade 152 are rotated.

  The hot air blowing device 154 shown in FIG. 1 blows hot air from the receiving port 160 of the drying cylinder 150 toward the discharge port 164, and includes a blowing unit 172, a heating unit 174, and a duct unit 176. Yes. The air blown from the blowing unit 172 is heated by the heating unit 174 and then given to the receiving port 160 through the duct unit 176. Therefore, in the drying cylinder 150, the region on the receiving port 160 side is hotter than the region on the outlet port 164 side.

(Operation of the cleaning device 10)
Below, operation | movement of the washing | cleaning apparatus 10 shown in FIG. 1 is demonstrated. FIG. 6 is a plan view showing a usage state (cleaning process) of the main part of the cleaning device 10, and FIG. In FIG. 6 and FIG. When the cleaning object M is cleaned using the cleaning apparatus 10, the cleaning object M is put into the hopper 20 of the cleaning object supply unit 14 shown in FIG. Then, as shown in FIG. 6, the object to be cleaned M is received from the receiving port 26 of the cleaning unit 16 into the first region Q1 and is directed toward the inner surface K of the storage unit 22 by the centrifugal force accompanying the rotation of the rotating plate 100. It is moved and accommodated in the holding space F between the outer peripheral edge 108 a of the front portion 108 and the inner surface K of the accommodating portion 22. Further, the cleaning object M is moved in the rotation direction by the pressing force of the rotating plate 100 and is pressed against the one end 74 of the partition wall 24. Since the downstream end 74 of the partition wall 24 is arranged to be inclined toward the first region Q1 with respect to the virtual straight line L1, the object M to be cleaned pressed against the downstream end 74 is: It is moved toward the inner surface K of the accommodating portion 22 along the downstream end 74 and is accommodated in the holding space F. In the first region Q1, the cleaning object M is cleaned by the cleaning liquid sprayed from the spray nozzle 138.

  As shown in FIG. 7, the object to be cleaned M accommodated in the holding space F in the first area Q1 is pushed by the pressing portion 106 and conveyed to the second area Q2, and is given to the discharge port 28 through the conveyance path R. . When the cleaning object M is discharged from the discharge port 28, the cleaning object M is received inside the drying cylinder 150 through the conveyance path 162 and the receiving port 160 shown in FIG. The cleaning object M received in the drying cylinder 150 is dried by the hot air blown from the hot air blowing device 154, transported to the discharge port 164 by the transport blade 152, and discharged to the outside from the discharge port 164. .

  According to the present embodiment, the following effects can be achieved by the above configuration. That is, as shown in FIG. 3, the object to be cleaned that has been cleaned in the first region Q1 is conveyed to the discharge port 28 provided in the second region Q2 through the gap W between the bottom plate portion 38 and the partition wall portion 24. As a result, it is possible to prevent a large amount of objects to be cleaned from being discharged from the discharge port 28 at once. Further, since the cleaning liquid is discharged from the accommodation space S by the cleaning liquid discharging means 34, it is possible to suppress the used cleaning liquid from being discharged from the discharge port 28 together with the object to be cleaned. Furthermore, since the discharge port 28 is provided in the second area Q2, the object to be cleaned can be drained in the process of transporting the object cleaned in the first area Q1 to the discharge port 28. Therefore, it is possible to shorten the time for drying the object to be cleaned in the drying process subsequent to the cleaning process.

  The object to be cleaned received from the receiving port 26 shown in FIG. 6 into the first region Q1 is moved toward the inner surface K of the accommodating portion 22 by the centrifugal force accompanying the rotation of the rotating plate 100, and then pressed to the pressing portion 106. And supplied to the discharge port 28. When the object to be cleaned is moved, the object to be cleaned is rubbed against other objects to be cleaned and the bottom plate portion 38. Therefore, coupled with the cleaning with the cleaning liquid supplied from the cleaning liquid supply means 32, It is possible to effectively remove the dirt of the cleaning object.

  The object to be cleaned M received in the first region Q1 from the receiving port 26 shown in FIG. 6 is moved toward the inner surface K of the housing portion 22 by the centrifugal force accompanying the rotation of the rotating plate 100, and the outer peripheral edge of the front portion 108. It is accommodated in the holding space F between 108 a and the inner surface K of the accommodating portion 22. Therefore, when the object to be cleaned M is pushed by the pressing portion 106, the outer peripheral edge 108a of the front portion 108 and the inner surface K of the accommodating portion 22 can prevent the object M to be moved in the radial direction of the accommodating portion 22, The cleaning object M can be efficiently conveyed to the discharge port 28.

  The object to be cleaned M received in the first region Q1 from the receiving port 26 shown in FIG. 6 is not only moved toward the inner surface K of the accommodating portion 22 by the centrifugal force accompanying the rotation of the rotating plate 100, but also the rotating plate. Since it is pushed in the rotational direction at 100 and moved toward the inner surface K of the accommodating portion 22, the conveyed object M can be efficiently given to the pressing portion 106.

  As shown in FIG. 2, the continuous portion 80 of the partition wall portion 24 is curved so as to approach the rotation center P of the rotating plate 100 from the downstream end portion 74 toward the central portion 78, so the volume of the first region Q <b> 1. Can be suppressed, and a reduction in cleaning efficiency can be prevented.

  As shown in FIG. 4, since the lower end 98 of the partition wall 24 formed of an elastic material is a free end, the pressing force is applied from the rotating plate 100 to the object to be cleaned collected on the upstream side of the partition wall 24. Is applied, the lower end 98 of the partition wall 24 is elastically deformed and the object to be cleaned is pushed into the second region Q2. Thereby, it can suppress that a to-be-cleaned object stays in the upstream of the partition part 24, and can improve the conveyance property of a to-be-cleaned object. In particular, the object to be cleaned tends to stay at the edge 74a of the downstream end 74, but when the lower end 98 of the downstream end 74 is elastically deformed, the space between the inner surface K of the housing portion 22 and the edge 74a. Therefore, the object to be cleaned can be conveyed from the gap, and the stay of the object to be cleaned can be suppressed.

  Further, since the first region Q1 is formed so that the width gradually decreases toward the end edge 74a of the downstream end 74 in plan view, the object to be cleaned is gradually sent to the second region Q2. Thus, the clogging of the discharge port 28 can be prevented, and the cleaning object can be kept in the first region Q to promote the contact time with the cleaning liquid and the rubbing between the plurality of cleaning objects, thereby enhancing the cleaning effect.

  As shown in FIG. 2, since the total opening area of the first drainage hole 62 is smaller than the total opening area of the second drainage hole 64, the cleaning liquid stays longer in the first region Q1. Thus, the object to be cleaned can be effectively cleaned.

  As shown in FIG. 7, since the second drain hole 64 is provided in the transport path R of the cleaning object M, the transporting object M can be drained effectively.

  In carrying out the present invention, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the object of the present invention. For example, in the above embodiment, at least one first drainage hole 62 is formed in the portion corresponding to the first region Q1 in the bottom plate portion 38, but the first drainage hole 62 may be omitted. .

  Further, the end edge 74 a of the downstream end 74 of the partition wall 24 may be configured to be in close contact with the inner surface K of the housing portion 22, but a predetermined gap is formed with respect to the inner surface K. It can also be configured. According to this, the object to be cleaned can be sent out from the first region Q1 to the second region Q2 by elastic deformation of the edge 74a. In this case, the gap between the edge 74a of the downstream end 74 and the inner surface K of the container 22 is set to be equal to or greater than the thickness of the object to be cleaned, so that the edge 74a and the inner surface K of the container 22 are separated. A thing to be cleaned can be sandwiched between them to prevent a reduction in distribution efficiency of the object to be cleaned.

Q1 ... 1st area | region, Q2 ... 2nd area | region, S ... Accommodating space, 10 ... Cleaning apparatus, 22 ... Accommodating part,
24 ... partition wall part, 26 ... receiving port, 28 ... discharge port, 30 ... conveying means, 32 ... cleaning liquid supply means, 34 ... cleaning liquid discharging means, 38 ... bottom plate part

Claims (8)

A cleaning device for cleaning an object to be cleaned with a cleaning liquid,
An accommodating portion that has a bottom plate portion on which the object to be cleaned is placed, and that constitutes an accommodating space for accommodating the object to be cleaned above the bottom plate portion;
Partitioning the housing space into a first region and a second region adjacent in the horizontal direction, and a partition for suppressing movement of the object to be cleaned from the first region to the second region;
A receiving port for receiving the object to be cleaned in the first region;
A discharge port for discharging the object to be cleaned from the second region;
Cleaning liquid supply means for supplying the cleaning liquid to the first region;
Cleaning liquid discharging means for discharging the cleaning liquid from the housing space;
A cleaning apparatus comprising: transport means for transporting the object to be cleaned in the first region to the discharge port through the bottom plate portion and the partition wall portion. The conveying means includes a rotating plate rotatably provided between the bottom plate portion and the partition wall portion, and a rotation driving means for rotating the rotating plate,
The cleaning apparatus according to claim 1, wherein a pressing portion for pressing the object to be cleaned toward the discharge port is provided on an outer peripheral portion of the rotating plate. The inner surface of the accommodating portion is formed in a circular shape in plan view,
The rotation center of the rotating plate is arranged at the center of the accommodating portion,
A holding space for holding the object to be cleaned that is pressed by the pressing portion is provided between the outer peripheral edge of the front portion located in the rotation direction ahead of the pressing portion in the rotating plate and the inner surface of the housing portion. The cleaning device according to claim 2, which is configured. The edge of the downstream end located on the downstream side in the transport direction of the article to be cleaned among the both ends of the partition wall is disposed on the inner surface of the accommodating part or in the vicinity thereof,
Assuming a virtual straight line passing through the edge of the downstream end and the rotation center of the rotating plate in plan view, the downstream end is inclined toward the first region with respect to the virtual straight line. The cleaning device according to claim 2 or 3, wherein   The continuous part which continues from the said downstream end part to the center part in the said partition part is curving so that it may approach the rotation center of the said rotating plate as it goes to the said center part from the said downstream end part. The cleaning device described. The partition wall is made of an elastic material,
The cleaning apparatus according to claim 1, wherein a lower end portion of the partition wall portion is a free end. The cleaning liquid discharging means includes at least one first drain hole provided in a portion corresponding to the first region in the bottom plate portion, and at least one provided in a portion corresponding to the second region in the bottom plate portion. Two second drainage holes,
The cleaning device according to any one of claims 1 to 6, wherein a total opening area of the first drainage hole is smaller than a total opening area of the second drainage hole. The cleaning liquid discharging means has a plurality of second drain holes provided in a portion corresponding to the second region in the bottom plate portion,
The cleaning apparatus according to claim 1, wherein at least one second drain hole is provided in a conveyance path of the object to be cleaned that is provided to the discharge port.

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