JP2009097780A - Ice dispenser - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ice dispenser facilitating cleaning of a chute through which ice discharged from a discharge port passes and capable of being suitably mounted with the chute. <P>SOLUTION: The ice dispenser ID is equipped with an icemaker IM and an ice storage 19 for storing the ice produced by the icemaker IM in a body 25. The ice is discharged from the discharge port 63 formed on a front surface of the ice storage 19 and let out via the chute 24. The ice dispenser comprises a front surface panel 27 covering the ice storage 19 and the chute 24 from the front part to be freely opened/closed and a mounting plate 60 mounted to the ice storage 19 corresponding to the discharge port 63. The chute 24 is held by the mounting plate 60 at its upper/lower parts and attachable/detachable to the mounting plate 60 in a state of opening the front surface panel 27. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an ice dispenser that is installed in, for example, a restaurant or the like and generates and provides ice.

  Conventionally, this seed ice dispenser is equipped with an auger type ice making machine. This auger type ice making machine inserts an auger rotatably into a cooling cylinder having a cooler (refrigerant pipe) provided on the outer surface, and supplies ice making water from a water supply pipe into the cooling cylinder and rotates the auger by an auger motor. It is configured to drive and generate ice pieces continuously by scraping the ice generated on the inner wall of the cooling cylinder by cooling with a cooler while transferring and compressing it.

  In this case, in the ice dispenser that discharges the ice into the cup, the ice generated by the auger type ice making machine is stored in an ice storage provided above the cooling cylinder. When the release switch is pressed by the user (operation), the shutter (door body) formed at the lower part of the ice storage is opened and closed, and a predetermined amount of ice is discharged to the cup via the chute. .

  Here, the debris adheres to the inside of the chute by the passage of ice, and it melts and gets wet, so it is easy to get dirty. Therefore, in order to maintain hygienic shoots that may be contaminated or moldy, the chutes can be detached from the mounting plate that fixes the chutes to the outer surface of the ice storage and removed separately, and then washed separately. (For example, refer to Patent Document 1).

  However, in such a configuration, since the front of the chute is covered with a front panel fixed to the main body, there is a problem that the work of attaching and detaching the chute to the mounting plate becomes complicated.

In view of this, a front panel that covers the front of the chute is detachable from the main body, and a mounting plate fixed to the main body is provided with the chute so as to be detachable (see Patent Document 2).
JP-A-8-152241 JP 2000-320940 A

  However, in the conventional configuration as described above, the claw portion (engagement portion) provided at the lower end of the chute is detachably fixed to the attachment plate on the main body side. Therefore, since the upper end of the chute is not particularly fixed, it is easy to tilt and may be attached in a state shifted from the discharge port formed on the front surface of the ice storage. It is also conceivable that the upper end of the chute is tilted by the ice that is vigorously discharged from the discharge port. In this case, there is a problem that the ice discharged from the discharge port leaks not from the inside of the chute but from a gap formed by tilting the chute, and a smooth ice discharging operation cannot be realized.

  Moreover, in the said structure, since the water pipe which discharge | releases drinking water with ice was attached to the outer surface of a chute, it is said that it cannot perform the cleaning work which removes a chute unless it removes a water pipe. There was a problem.

  The present invention has been made in order to solve the conventional technical problem, and facilitates cleaning of a chute through which ice discharged from a discharge port passes, and ice capable of appropriately attaching the chute. Provide a dispenser.

  The ice dispenser of the present invention comprises an ice making machine and an ice storage for storing ice produced by the ice making machine in the main body, discharges ice from a discharge port formed on the front surface of the ice storage, and passes through a chute. A front panel that is attached to the front surface of the main body and covers the ice storage and the chute so as to be openable and closable from the front, and a mounting plate that is attached to the ice storage corresponding to the discharge port. The upper and lower portions are held by the mounting plate, and are detachable from the mounting plate with the front panel opened.

  According to a second aspect of the present invention, in the above invention, the mounting plate is placed on the upper part and holds the chute detachably, and is placed on the lower part so that the lower edge of the chute is detachable. And a lower holding frame.

  According to a third aspect of the present invention, in the first aspect of the present invention, the mounting plate includes an upper engaging portion that is located at the upper portion and is detachably engaged with the chute, and a lower edge of the chute that is located at the lower portion. And a lower holding frame that is detachably mounted.

  The invention of claim 4 is characterized in that, in each of the above inventions, a water pipe for discharging drinking water is provided, and the water pipe is attached to a mounting plate.

  According to the present invention, the main body is provided with an ice making machine and an ice storage for storing ice produced by the ice making machine, the ice is discharged from the discharge port formed on the front surface of the ice storage, and the chute is provided. In the ice dispenser for discharging, the front panel is attached to the front of the main body and covers the ice storage and the chute so that they can be opened and closed from the front, and the mounting plate attached to the ice storage corresponding to the discharge port. And the lower part is held by the mounting plate, and the front panel is opened, so that it can be attached to and detached from the mounting plate. By opening the front panel, the chute can be easily removed and cleaned. It becomes possible. This makes it very easy to clean a chute that is wet and dirty due to the passage of ice, and can always achieve sanitary ice discharge.

  In addition, since the upper and lower portions of the chute are detachably held by a mounting plate attached to the ice storage, it becomes possible to attach the upper and lower ends of the chute to appropriate positions. Therefore, it is possible to avoid the formation of a gap due to tilting, and it is possible to realize smooth discharge of ice.

  According to the invention of claim 2, in addition to the above-mentioned invention, the mounting plate is located at the upper part to hold the chute so that it can be inserted and removed, and at the lower part, the lower edge of the chute is detachable. With the lower holding frame placed on the upper holding frame, it can be held only by inserting the upper chute into the upper holding frame, and can be held only by placing the lower chute on the lower holding frame, The chute is easily positioned at a predetermined position on the mounting plate. As a result, the attachment / detachment of the chute becomes extremely easy, and the cleaning workability of the chute is remarkably improved.

  In particular, since the upper part of the chute is held by being inserted into the upper holding frame, it is possible to effectively suppress the disadvantage that the mounting position is shifted due to ice discharged from the discharge port of the ice storage. Smooth ice discharge can be realized.

  According to the invention of claim 3, in addition to the invention of claim 1 above, the mounting plate is located at the upper part and is located at the lower part and the upper engaging part where the chute is detachably engaged. And the lower holding frame on which the lower edge of the chute is detachably mounted, so that the upper portion of the chute is engaged with the upper engaging portion and the lower portion of the chute is held only by being placed on the lower holding frame. The chute can be easily positioned at a predetermined position on the mounting plate. As a result, the attachment / detachment of the chute becomes extremely easy, and the cleaning workability of the chute is remarkably improved.

  In particular, since the upper portion of the chute is held by being engaged with the upper engaging portion, it is possible to effectively suppress the disadvantage that the mounting position is shifted due to the ice discharged from the discharge port of the ice storage. Ice discharge can be realized.

  According to the invention of claim 4, in each of the above-mentioned inventions, the water pipe for discharging drinking water is provided, and the water pipe is attached to the mounting plate. Disappear. This makes it very easy to attach and detach the chute.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  1 is a perspective view of the ice dispenser ID of the present invention, FIG. 2 is a perspective view of the ice dispenser ID with the front panel 27 opened, and FIG. 3 is an auger type ice maker IM as an ice maker provided in the ice dispenser ID. 4 is a front view of the ice storage 19 portion of the ice dispenser ID, FIG. 5 is a vertical side view of the front portion of the ice storage 19 of FIG. 4, and FIG. 6 is a perspective view of the chute 24 and the mounting plate 60 of the ice dispenser ID. 7 is a front view of the ice storage 19 portion with the chute 24 removed, and FIG. 8 is an electric circuit diagram of the ice dispenser ID.

  The ice dispenser ID of the present embodiment is installed in a restaurant or the like, for example, and generates ice, and discharges ice and ice water to a cup set by an employee or a customer. An auger type ice making machine IM shown in FIG. A front panel 27 is provided on the front upper portion of the main body 25 so as to be openable and closable. In the present embodiment, the front panel 27 is a front door that is pivotably supported on one side of the main body 25 by a hinge member 69 and closed openably.

  On the non-pivot side surface of the front panel 27, a handle 27B used for an opening operation is formed, and a locking portion 27C for prohibiting the opening of the front panel 27 is provided. A door detection switch 54 for detecting opening / closing of the front panel 27 is provided on the non-pivot side of the main body 25, and the door detection switch 54 is provided at a corresponding position on the back surface of the front panel 27. A magnet 54M of the switch 54 is provided. Further, in this embodiment, a magnet 71 is provided on the non-pivot side of the main body 25, and a plate material 72 made of a steel plate material is provided at a corresponding position on the back surface of the front panel 27. Is provided. The closed state of the front panel 27 can be maintained by the magnetic force of the magnet 71 and the plate material 72.

  A recessed cup mounting portion 26 is formed below the front panel 27 of the main body 25, and an employee or a customer sets a cup on the cup mounting portion 26 when it is desired to put ice or ice water into the cup. become. A chute 24 (FIG. 4) for guiding ice from the auger type ice making machine IM in the main body 25 and discharging it into the cup is covered with a front panel 27 from the front together with an ice storage 19 to which the chute 24 is attached. The lower end 24A of the chute 24 faces the cup mounting portion 26 from the center of the lower surface 27A of the front panel 27. The chute lower end 24A may be covered with the front panel 27, or may extend below the lower surface 27A.

  A discharge switch 48 for instructing discharge of ice or ice water is provided at a position near the center of the front panel 27, and an operation panel 61 is formed on the right side thereof. The operation panel 61 has a switch 36 for instructing to switch whether to extract only ice, only drinking water, or both ice and drinking water (ice water) in addition to the display unit 36 composed of 7 segment LEDs. Various switches such as a power switch, ice making switch, forced drain switch, quantitative / continuous switch for instructing whether to discharge a certain amount of ice when the release switch 48 is pressed or when it is continuously pressed Is provided. Each of these switches (all of which are operation switches) and the display unit 36 are connected to an operation board 35 described later.

  A lock switch 53 is provided on the lower surface 27A of the front panel 27 at a position where it cannot be seen from the front or is difficult to see. The lock switch 53 is a switch for instructing the operation of each switch provided on the operation panel 61.

  The auger type ice making machine IM mounted on the ice dispenser ID is frozen together with an ice making unit 1 having a cooler 2 for generating ice from ice making water as shown in FIG. 3 and the cooler 2 of the ice making unit 1. A condenser 3, a compressor 4, an expansion valve 5, and a dehydrator 6 constituting a cycle are sequentially connected by a refrigerant pipe to constitute a cooling device. The capacitor 3 is provided with a condensing fan (not shown) for air-cooling the capacitor 3.

  In addition, a cistern 9 is provided for storing ice-making water to supply ice-making water (tap water) to the ice making unit 1, and this cis-turn 9 is connected to the water pipe 8 via a water supply valve (for ice making) WV1. Has been. The water pipe 8 is connected to a drinking water supply pipe 11 provided with a water supply valve (for drinking water) WV2. A water pipe 14, which will be described in detail later, is detachably connected to the end of the drinking water supply pipe 11.

  An overflow pipe 10 is connected to the cis turn 9, and a full water level switch 22 and a low water level switch 23 each including a float switch for detecting the full water level are provided in the cis turn 9. Water stored in the cistern 9 is introduced into the ice making unit 1 through a water supply pipe 12, and unnecessary water is discharged through a drain pipe 13. This drain pipe 13 is connected to a drain pipe 7 of an ice storage 19 described later via a drain valve WVD.

  On the other hand, the ice making unit 1 has an auger (rotary blade) 16 inserted concentrically and rotatably into a stainless steel cooling cylinder 15 whose inner wall has a smooth cylindrical inner surface, and a pipe is formed on the outer wall of the cooling cylinder 15. The cooler 2 is closely wound in a spiral manner. In addition, solder is injected into the gap between the cooling cylinder 15 and the cooler 2 for the purpose of combining them and improving heat transfer performance.

  The auger 16 is pivotally supported by a lower bearing 17 at the lower part and an upper bearing 18 constituting an ice compression path at the upper part. Further, the ice (ice pieces) compressed by the upper bearing 18 is led to an ice storage 19 provided above the cooling cylinder 15.

  The water supply pipe 12 and the drain pipe 13 communicate with the inside of the lower part of the cooling cylinder 15, respectively, and an auger motor 45 (described later) is provided below the cooling cylinder 15 to further rotate the auger 16. A drive device 20 is connected via a speed reducer 21.

  The ice storage 19 is constituted by a heat insulating box having an opening on the upper surface, and a lid member 19A is provided in the upper surface opening so as to be freely opened and closed. Further, the lid member 19A is provided with an ice storage switch 33 for detecting the amount of ice stored in the ice storage 19, and the ice storage 19 is connected to the upper end of the auger 16 so as to rotate synchronously with the auger 16. 62 is provided. Further, a discharge port 63 is formed in the front lower portion of the ice storage 19, and the discharge device 62 rotates to push the ice in the ice storage 19 to the discharge port 63.

  An opening / closing door device 29 for opening and closing the discharge port 63 is provided on the front surface (outer surface) of the ice storage 19. The opening / closing door device 29 includes a base 64 attached to the front surface of the ice storage 19, a solenoid (driving means comprising an electromagnetic solenoid) 28 attached to the top of the base 64, and a downward projecting downward from the solenoid 28. The upper end of the plunger (solenoid plunger) 66 and a horizontal rotation shaft 70 provided below the base 64 are pivotally supported to open and close the discharge port 63 of the ice storage 19. The shutter 68 is configured.

  A slider 78 extending obliquely downward is attached to the lower edge of the discharge port 63 on the front surface of the ice storage 19. The slider 78 is provided over the entire width (or more) of the discharge port 63 in the lateral width direction, and guides the ice discharged from the discharge port 63 into the chute 24 described later.

  A cover member 67 (see FIG. 2) for concealing the opening / closing door device 29 and other devices disposed on both sides of the front opening 27 of the main body 25 is located behind the front panel 27. It is attached. The cover member 67 is formed so as to bypass the chute 24 attached to the attachment plate 60 described later. Thereby, in the cleaning work around the chute 24, the finger is not directly in contact with the opening / closing door device 29 and the like, and the attaching / detaching work of the chute 24 is facilitated.

  A mounting plate 60 is attached to the outer surface (front surface) of the ice storage 19, and the chute 24 described above is held by the mounting plate 60. The mounting plate 60 is formed by bending a single steel plate to form a front wall portion 37, a water pipe housing portion 38, and a lower holding frame 39 as shown in FIG.

  The front wall portion 37 is formed along the lower front surface of the ice storage 19 and is screwed to the outer surface of the ice storage 19. And the front wall part 37 is exhibiting the substantially U-shape opened upwards so that the discharge port 63 of the ice storage 19 may be enclosed, and it is located in the left-right side of the discharge port 63 in this both sides | surfaces. Upper engaging portions 49 and 49 for holding the upper portion of the chute 24 so as to be freely disengaged are provided. In the present embodiment, the upper engaging portion 49 has a substantially cylindrical cross section with a notch formed in the front made of synthetic resin, for example, and the engaging portion 24A formed in the chute 24 from the front. The upper part of the chute 24 is held detachably by inserting / removing.

  The water pipe housing portion 38 is formed by bending the lower end of the front wall portion 37 along the lower surface of the ice storage 19 and then bending downward at a predetermined angle, thereby opening the housing portion opened forward. Has been. On the front surface of the water pipe accommodating portion 38, pipe engaging portions 50 and 50 are provided for holding the water pipe 14 formed in a substantially L shape so as to be freely disengaged. The pipe engaging part 50 has substantially the same configuration as the upper engaging part 49.

  The lower holding frame 39 is formed by bending forward from the lower end of the water pipe accommodating portion 38, and an opening 51 (rectangular opening) for holding the lower edge of the chute 24 is formed on the upper surface. ) Is formed.

  On the other hand, as shown in FIG. 6, the chute 24 has a substantially rectangular cylindrical shape which is formed of a hard synthetic resin and is long in the vertical direction. The chute 24 is open up and down, and the upper part of the rear surface is also open rearward. In addition, a cylindrical engagement portion 24A that protrudes outward and extends vertically is integrally formed on the upper left and right side walls of the chute 24. Further, the lower edge of the chute 24 is formed as a holding side 24 </ b> B that is notched on the left and right sides and positioned above the other front and left and right edges. Accordingly, only the lower edge 24 </ b> C constituted by the front edge and the left and right edges extending to the lower side than the holding side 24 </ b> B can be inserted into the opening 51 of the lower holding frame 39. At this time, the holding edge 24B contacts the upper edge of the opening 51 of the lower holding frame 39, whereby the lower edge of the chute 24 is held.

  Then, the lower edge 24C of the chute 24 is inserted into the opening 51 of the lower holding frame 39, and the holding side 24B is placed on the upper edge of the opening 51. In this state, the upper part of the chute 24 is pushed backward to engage the engaging part 24A. Is engaged with the upper engaging portion 49 of the mounting plate 60 to attach the chute 24. Thereby, the chute 24 exposed by opening the front panel 27 is reliably moved in the state where it cannot move up and down, left and right, and front and rear by the upper engaging portion 49 and the lower holding frame 39 of the mounting plate 60, and It is held detachably.

  With the chute 24 positioned at a predetermined position, the upper end of the chute 24 is positioned in front of the discharge port 63 of the ice storage 19 and the lower part projects downward from the mounting plate 60 into the cup mounting portion 26. (Figure 4) At this time, the slider 78 extends from the lower edge of the discharge port 63 into the chute 24 and guides the ice discharged from the discharge port 63 into the chute 24.

  Thus, by opening the front panel 27, the chute 24 can be easily removed and cleaned as compared with the conventional case where the chute 24 is operated from the lower side of the front panel. As a result, the cleaning of the chute 24, which is easily wetted and dirty, becomes extremely easy, and it becomes possible to always realize sanitary ice discharge.

  Further, the chute 24 engages an engaging portion 24A provided on the upper portion thereof with an upper engaging portion 49 of an attaching plate 60 attached to the ice storage 19, and holds the lower edge 24C on the lower portion of the attaching plate 60. It can be held only by being placed on the frame 39. Thereby, it becomes possible to attach the upper end and the lower end of the chute 24 so as to be at appropriate positions, and it is possible to avoid the formation of a gap due to the inclination, and to smoothly discharge ice. Accordingly, the attachment / detachment of the chute 24 becomes extremely easy, and the cleaning workability of the chute 24 is remarkably improved.

  In particular, since the upper portion of the chute 24 is held by engaging the engaging portion 24A with the upper engaging portion 49, it is effective to prevent the mounting position from being shifted due to ice discharged from the discharge port 63 of the ice storage 19. It is possible to suppress ice and to smoothly discharge ice.

  Moreover, since the water pipe 14 which discharge | releases drinking water is attached to the water pipe accommodating part 38 of the attachment plate 60 so that attachment or detachment is possible, it becomes unnecessary to remove the water pipe 14 with the attachment or detachment operation | work of the chute | shoot 24. Thereby, the attaching / detaching operation of the chute 24 becomes extremely easy.

  In the present embodiment, when the front panel 27 is opened, the opening / closing door device 29 other than the chute 24 and the attachment portion, for example, is closed by the cover member 67 as described above. In addition, it is possible to avoid the inconvenience that a finger touches these parts, and it is possible to improve safety.

  Next, the electric circuit of the ice dispenser ID will be described with reference to FIG. In FIG. 8, K is a control device to which a capacitor sensor 31 for detecting the temperature of the capacitor 3, a cooler sensor 32 for detecting the temperature of the cooler 2, and an ice storage switch 33 for detecting the amount of ice stored in the ice storage 19 are connected. As a control board. The control board K is composed of a general-purpose microcomputer (control means) and receives power from the board transformer 34. A relay contact 52 of a board relay R4 is connected to the board transformer 34 so as to be positioned between the board board 34 and the control board K.

  In addition to the sensors 31, 32, 33, the operation board 35, the full water level switch 22, and the low water level switch 23 are connected to the control board K. The commercial AC power source includes a compressor relay contact 40 for turning on and off the compressor motor 51 of the compressor 4, a start capacitor 41, an operation capacitor 42, a compressor motor start relay 43, and a compressor motor overload relay 44 in series. It is connected. Further, the control board K is connected between the compressor motor start relay 43 and the compressor motor overload relay 44.

  The commercial AC power source has a lock switch 53 and a minute current relay R3 connected in series, and is turned on by the proximity of the magnet 54A and detects the closing of the front panel 27, Substrate relay R4 is connected in series.

  The control board K is connected to a compressor relay R1 for turning on and off the compressor relay contact 40, a relay R5 connected to the condensing fan motor 56 of the condensing fan, and a drain valve WVD. A relay R6, a relay R7 connected to the solenoid 28 of the open / close door device 29, a relay R8 connected to the water supply valve WV1, and a relay R9 connected to the water supply valve WV2 are provided. The control board K is connected to a relay R2 connected to the auger motor 45 and the operating capacitor 46. Reference numeral 47 is an overload relay of the auger motor 45, and 57 is an overload relay of the solenoid 28.

  The operation board 35 is provided with the release switch 48, the display unit 36, the power switch, the ice making switch, the forced drain switch, the quantitative / continuous switch, and the changeover switch. The microcomputer of the control board K has an operation time timer, which will be described later, as its function.

In the structure described above, the operation of the ice dispenser ID of the present invention will be described. When the power switch on the operation panel 61 is pressed (operated), the ice dispenser ID is ready for operation. Next, when the ice making switch is pressed (operation), the next initial cleaning process is started.
(1) Initial cleaning process In this initial cleaning process, the low water level switch 23 is ON, and the microcomputer on the control board K opens the water supply valve WV1 and the drain valve WVD to supply water into the cooling cylinder 15 and drain the water. Do. In the initial cleaning process and the ice making process described later, the microcomputer performs a draining operation in which the drain valve WVD is opened for 30 seconds (timed drainage time) every hour (timed drainage interval) in an initial setting state. Thereby, the ice-making water in the cooling cylinder 15 is discarded, and the cooling cylinder 15 is cleaned. Therefore, the drain valve WVD is also opened for 30 seconds in this initial cleaning process.

Further, the microcomputer keeps the water supply valve WV1 open even after the drain valve WVD is closed, and water is supplied until the full water level switch 22 is turned ON in this initial cleaning process. Note that the amount of water supplied from the water supply pipe 12 is set so that the amount of water is larger than the amount of water discharged from the drain pipe 13. After a lapse of time, the low water level switch 23 is turned off. Simultaneously with the start of the initial cleaning process, the auger motor 45 is energized and the auger 16 is driven to rotate.
(2) Ice making process When the full water level switch 22 is turned on, the microcomputer subsequently enters the ice making process, turning off the water supply valve WV1, and turning on the compressor 4 (compressor motor 51) and the fan motor 56 to make ice. . In this ice making process, ice formed on the inner wall of the cooling cylinder 15 is scraped and transferred upward by the auger 16 and compressed in the ice compression path of the upper bearing 18 to continuously generate ice pieces. . The generated ice (ice pieces) is led out and stored in an ice storage 19 provided at the top thereof.

In this ice making process, when the ice making water in the cistern 9 runs out, the low water level switch 23 is turned on, so the microcomputer of the control board K opens the water supply valve WV1 and starts water supply. When the full water level switch 22 is turned ON, the water supply valve WV1 is closed.
(3) Ice storage process After the ice making and water supply operations are repeated, when the ice storage switch 33 detects full ice, the microcomputer of the control board K turns off the compressor 4 and the fan motor 56 after 30 seconds, and then 90 When seconds elapse, the auger motor 45 is turned off, the ice making process (ice making operation) is stopped, and the ice storing process is started.

  In this ice storage process, 150 seconds after the ice storage switch 33 no longer detects full ice, the microcomputer on the control board K determines that ice making has started, turns on the auger motor 45 and opens the drain valve WVD. Here, since the water is drained once, the low water level switch 23 is turned ON. At the same time as the low water level switch 23 is turned ON, the microcomputer of the control board K opens the water supply valve WV2 and continues water supply until the full water level switch 22 detects full water.

When the full water level switch 22 is turned on, the process proceeds to the ice making process again, and the ice making is resumed by turning on the compressor 4 (compressor motor 51) and the fan motor 56. In this way, a predetermined amount of ice is always stored in the ice storage 19.
(4) Ice discharging operation Next, the ice discharging operation from the ice storage 19 by the opening / closing door device 29 will be described. When the fixed amount is selected by the fixed amount / continuous switch, the microcomputer of the control board K opens the discharge port 63 by the shutter 68 as will be described later every time the discharge switch 48 is pressed once (operation), and a predetermined period of time elapses. Close later to release a certain amount of ice. If continuous is selected, the microcomputer opens the discharge port 63 by the shutter 68 while the discharge switch 48 is being pressed (operation), and continues to discharge ice until the hand is released from the discharge switch 48. When the switch 48 is no longer pressed, the shutter 68 is closed.

  Further, while the discharge port 63 is opened by the shutter 68, the microcomputer of the control board K turns on the auger motor 45 to rotate the auger 16 and the discharge device 62 so that the ice in the ice storage 19 is directed toward the discharge port 63. Extrude.

  As a result, the discharging device 62 is rotated while the shutter 68 is opened, so that the ice in the ice storage 19 is pushed out of the discharging port 63 that is open, slides on the slider 78 and falls into the chute 24. Then, it passes through the chute 24 and is discharged into the cup placed on the cup placing portion 26.

  Note that the ice discharge operation based on the operation of the discharge switch 48 is such that when the front panel 27 as described above is opened and the magnet 54M moves away from the door detection switch 54, the relay contact 52 of the board relay R4 is turned off. Thus, the power supply from the board transformer 34 to the control board K is stopped.

  Accordingly, since power is not supplied to the control board K of the ice dispenser ID when the front panel 27 is opened, it is possible to avoid the inconvenience that a finger or the like touches the operated internal device. , Can improve safety. Therefore, the attaching / detaching operation of the chute 24 and the cleaning operation of the chute 24 and its surroundings can be performed safely.

  Next, as Example 2, the configuration of another example of the mounting plate 60 of the chute 24 in the above example will be described with reference to FIG. The mounting plate 80 in this embodiment includes a front wall portion 37, a water pipe housing portion 38, and a lower holding frame 39, as in the above embodiment.

  Upper engagement holes 81, 81 for detachably holding the upper portion of the chute 82 located on the left and right sides of the discharge port 63 are formed on both side surfaces of the front wall portion 37 screwed to the outer surface of the ice storage 19. Is formed. Note that the configurations of the water pipe accommodating portion 38 and the lower holding frame 39 are the same as those in the above embodiment, and thus the description thereof is omitted.

  On the other hand, like the chute 24 in the above embodiment, the chute 82 has a substantially rectangular tube shape that is long in the vertical direction, opens up and down, and the upper rear surface also opens rearward. Engaging claws 82 </ b> A and 82 </ b> A extending rearward are integrally formed on the upper left and right side walls of the chute 82. The engaging claw 82A is inserted into the upper engaging hole 81 of the mounting plate 80 and is engaged and held by the claw portion. The front end extends to the front portion of the chute 82, and the engagement between the engagement claw 82A and the upper engagement hole 81 can be released by operating the front end toward the side wall of the chute 82. The shape of the lower end of the chute 82 is the same as that of the chute 24 and will not be described.

  Then, the lower edge 24C of the chute 82 is inserted into the opening 51 of the lower holding frame 39, the holding side 24B is placed on the upper edge of the opening 51, and the upper part of the chute 82 is pushed backward in this state to engage the engaging claw 82A. Is engaged with the upper engagement hole 81 of the attachment plate 60 to attach the chute 82. Thereby, the chute 82 exposed by opening the front panel 27 is reliably moved in the state where it cannot move up and down, left and right, and front and rear by the upper engagement hole 81 and the lower holding frame 39 of the mounting plate 80, and It is held detachably.

  Therefore, the chute 82 can be easily removed and cleaned, and it becomes very easy to clean the chute 82 which is wet and dirty due to the passage of ice, and it is possible to always realize sanitary ice discharge. It becomes like this.

  Further, the chute 82 engages an engaging claw 82A provided at the upper part thereof with an upper engaging hole 81 of an attaching plate 80 attached to the ice storage 19, and a lower edge thereof is a lower holding frame of the attaching plate 80. It can be held only by being placed on 39. Thereby, it becomes possible to attach the upper end and the lower end of the chute 82 so as to be at appropriate positions, and it is possible to avoid the formation of a gap due to tilting, and to smoothly discharge ice. Therefore, the attachment / detachment of the chute 82 becomes extremely easy, and the cleaning workability of the chute 82 is remarkably improved.

  In particular, since the upper portion of the chute 82 is held by engaging the engaging claw 82A with the upper engaging hole 81, the inconvenience that the mounting position is shifted due to ice discharged from the discharge port 63 of the ice storage 19 is effective. It is possible to suppress ice and to smoothly discharge ice.

  Next, as Example 3, the configuration of another example of the mounting plate 60 of the chute 24 in Example 1 will be described with reference to FIG. The mounting plate 85 in this embodiment includes a front wall portion 37, a water pipe housing portion 38, and a lower holding frame 39 as in the above embodiment.

  Upper holdings in which openings 87 are formed on both side surfaces of the front wall portion 37 screwed to the outer surface of the ice storage 19 so as to be positioned on the left and right sides of the discharge port 63 so as to hold the upper portion of the chute 88 removably. A frame 86 is formed. It is assumed that the opening 87 is formed to have a size capable of holding the chute 88 so that it can be inserted and removed. Note that the configurations of the water pipe accommodating portion 38 and the lower holding frame 39 are the same as those in the first embodiment, and thus the description thereof is omitted.

  On the other hand, the chute 88 has a substantially rectangular cylindrical shape that is long in the vertical direction, like the chute 24 in the above-described embodiment, and is open up and down, and the upper part of the rear surface is also opened rearward. The shape of the lower end of the chute 88 is the same as that of the chute 24 and will not be described.

  Then, the upper edge of the chute 88 is inserted into the opening 87 of the upper holding frame 86 and lifted, and then the lower edge 24C of the chute 88 is dropped into the opening 51 of the lower holding frame 39 so that the holding side 24B becomes the upper edge of the opening 51. The chute | shoot 88 is attached by mounting. Thereby, the chute 88 exposed by opening the front panel 27 is reliably moved in the state where it cannot move up and down, left and right, and front and back by the upper holding frame 86 and the lower holding frame 39 of the mounting plate 85, and Removably held.

  Therefore, the chute 88 can be easily removed and cleaned, and it becomes very easy to clean the chute 88 that gets wet and gets dirty due to the passage of ice, and it is possible to always realize sanitary ice discharge. It becomes like this.

  Further, the chute 88 can be held only by inserting the upper part of the chute into the upper holding frame 86, and can be held only by placing the lower part of the chute on the lower holding frame 39. The chute 88 can be easily attached. The plate 85 is positioned at a predetermined position. As a result, the attachment / detachment of the chute 88 becomes extremely easy, and the cleaning workability of the chute 88 is remarkably improved.

  In particular, since the upper portion of the chute 88 is held by being inserted into the upper holding frame 86, it is possible to effectively suppress the disadvantage that the mounting position shifts due to ice discharged from the discharge port of the ice storage 19. It becomes possible, and smooth ice discharge can be realized.

It is a perspective view of the ice dispenser of the present invention. It is a perspective view in the state where the front door (front panel) of the ice dispenser was opened. It is a block diagram of the auger type ice making machine as an ice making machine provided in the ice dispenser. It is a front view of the ice storage part of an ice dispenser. It is a vertical side view of the ice storage front part of FIG. It is a perspective view of a chute and a mounting plate of an ice dispenser. Example 1 It is a front view of the ice storage part of the state which removed the chute. It is an electric circuit diagram of an ice dispenser. It is a perspective view of the chute | shoot and mounting plate of the ice dispenser as another Example. (Example 2) It is a perspective view of the chute | shoot and mounting plate of the ice dispenser as another Example. (Example 3)

Explanation of symbols

ID Ice dispenser IM Auger type ice making machine WV1 Water supply valve (for ice making)
WV2 water supply valve (for drinking water)
WVD Drain valve K Control board 1 Ice making part 2 Cooler 14 Water pipe 15 Cooling cylinder 16 Auger 19 Ice storage 24, 82, 88 Chute 24A, 50 Engaging part 25 Main body 26 Cup mounting part 27 Front panel (front door)
DESCRIPTION OF SYMBOLS 29 Opening / closing door apparatus 34 Substrate transformer 35 Operation board 37 Front wall part 38 Water pipe accommodating part 39 Lower holding frame 48 Release switch 49 Upper engaging part 54 Door detection switch 54M Magnet 60, 80, 85 Mounting plate 63 Release port 67 Cover Member 68 Shutter 78 Slider

Claims (4)

In an ice dispenser that includes an ice maker in the main body and an ice storage that stores ice produced by the ice maker, discharges ice from a discharge port formed on the front surface of the ice storage, and discharges it through a chute.
A front panel attached to the front surface of the main body and covering the ice storage and the chute so as to be openable and closable from the front,
A mounting plate attached to the ice storage corresponding to the discharge port,
An ice dispenser characterized in that the chute is detachably attached to the mounting plate with its upper and lower portions held by the mounting plate and with the front panel opened.   The mounting plate includes an upper holding frame that is positioned at an upper portion and that removably holds the chute, and a lower holding frame that is positioned at a lower portion and on which a lower edge of the chute is detachably mounted. The ice dispenser according to claim 1.   The mounting plate includes an upper engaging portion that is positioned at an upper portion and that is detachably engaged with the chute, and a lower holding frame that is positioned at a lower portion and on which a lower edge of the chute is detachably mounted. The ice dispenser according to claim 1, comprising:   The ice dispenser according to any one of claims 1 to 3, further comprising a water pipe for discharging potable water, wherein the water pipe is attached to the mounting plate.

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