JP3667421B2 - Ice storage display stand - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ice storage type display stand for storing foods and beverages to be tasted in a cold state such as salads, fruits, drinks, etc. in a display container and holding them in a cooled state for display.
[0002]
[Prior art]
As one type of ice storage type display stand, as disclosed in Japanese Patent Publication No. 6-91857, an ice storage tank that is disposed at the upper part of the base and accommodates a required amount of chip-like ice, and a lower part of the base An ice making mechanism for generating ice to be supplied to the ice storage tank, and a display stand comprising a plurality of receiving members for receiving display containers disposed in the ice storage tank for containing food and drink is there. The ice storage type display stand of this type is provided with the intention of sequentially supplying chip-shaped ice into the ice storage tank without human intervention, and improving the display effect of food and drinks. .
[0003]
[Problems to be solved by the invention]
By the way, although the ice storage type display stand has a display effect of displaying various foods and drinks while being kept in a cooled state, there is no one that attracts people's attention around the display stand and improves the display effect. .
[0004]
Accordingly, an object of the present invention is to supply chip-shaped ice into the ice storage tank sequentially without human intervention, and supply the iced storage tank to the ice storage tank in an ice storage type display stand that can display food and drink in a cooled state. By devising the movement of the chip-shaped ice, the attention of the people around the display stand is strongly attracted to the movement of the chip-shaped ice, and the display effect of the food and drink in the cooled state is further exhibited.
[0005]
[Means for Solving the Problems]
The present invention relates to an ice storage type display stand, and the ice storage type display stand is disposed at an upper part of the base and stores an ice storage tank for accommodating a required amount of chip-shaped ice, and is disposed at the lower part of the base. An ice making mechanism for generating ice to be supplied to the tank, and a portion of the ice supplied from the ice making mechanism connected to the upper end of the ice making mechanism is supplied to the bottom of the ice storage tank as chip-like ice and the remaining ice is supplied An extruding mechanism that guides upward, and a transfer mechanism that is connected to the upper end of the extruding mechanism and that transports the ice guided from the extruding mechanism upward, discharges it as chip-like ice from the upper end, and drops it to the ice storage tank. The food and drink in the display container arranged above the ice storage tank is kept in a cooled state and displayed.
[0007]
Further, in the ice storage type display stand, the transfer mechanism is connected to a groove portion that guides the ice of the extrusion mechanism upward and extends upward, and faces the upper end opening portion of the transfer tube from the opening portion. A configuration comprising a refracting section that restricts the upward discharge of ice and refracts it to fall as chip-like ice, and a cylinder that surrounds the outer periphery of the transport pipe and blocks the transport pipe from outside air; And a configuration in which a tray for receiving a predetermined amount of chip-like ice discharged from the top end of the transport pipe is provided at the top end of the cylinder constituting the transfer mechanism, It can be set as the structure which arrange | positions the receiving plate which inclines and descends gradually to an outer periphery side.
[0008]
Further, in the ice storage type display stand, the upper opening of the ice storage tank is covered with a shielding plate having an opening through which the transfer mechanism passes and a display container arranged without gaps on both sides of the shielding plate. The opening part which the said shielding board has can be set as the structure which forms the shape which the chip-like ice from the said saucer passes and falls.
[0009]
[Operation and effect of the invention]
In the ice storage type display stand constructed in this way, the chip-shaped ice is discharged and dropped sequentially from the upper end of the transfer mechanism, so that the movement of the chip-shaped ice can attract the attention of the surrounding people, and the display The display effect of the food and drink in the container can be further exhibited.
[0010]
In the ice storage type display stand, the transfer mechanism is connected to a groove portion that guides the ice of the extrusion mechanism upward, and extends upward. The transfer mechanism faces the upper end opening of the transfer tube, and further above the ice from the opening. If the structure is provided with a refracting portion that regulates the discharge to the surface and refracts and falls as chip-shaped ice, and a cylindrical body that surrounds the outer periphery of the conveying tube and blocks the conveying tube from outside air, Of course, it can be discharged smoothly from the upper end of the transfer pipe, and since the cylinder blocks outside air to the transfer pipe, melting of ice moving in the transfer pipe is prevented in the same pipe. The melting amount of the ice does not reduce the discharge amount of chip ice.
[0011]
Chips discharged from the upper end portion of the transport pipe are provided with a tray for receiving a predetermined amount of chip-like ice discharged from the upper end portion of the transport pipe at the upper end portion of the cylinder constituting the transfer mechanism. Since the ice ice is once received by the tray and falls, the display effect is further improved. In this case, if the receiving plate is configured such that a receiving plate that gradually descends and slopes from the central portion to the outer peripheral edge side, the chip-shaped ice is received almost uniformly on the receiving plate in a state of rising in the central portion on the receiving plate. The display effect is further improved.
[0012]
Further, in the ice storage type display stand, the upper opening of the ice storage tank is covered with a shielding plate having an opening through which the transfer mechanism passes, and a display container arranged without gaps on both sides of the shielding plate, If the opening part of the shielding plate is formed so that chip-shaped ice from the saucer passes and falls, the chip-like ice on the saucer can be stored without hindrance with the upper opening of the ice storage tank almost covered. It can be dropped into the tank. In this case, if transparent ones are used as the shielding plate and the display container, the chip-shaped ice group in the ice storage tank can be visually recognized, and the attention of the surrounding people is further attracted.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described with reference to the drawings. FIGS. 1 to 3 show the appearance of an ice storage type display stand according to an example of the present invention, and FIGS. 4 and 5 show the base of the display stand. Each component member assembled in is shown. The display table includes a base 10a, an ice storage tank 10b, an ice making mechanism 20, an extrusion mechanism 30a, a transfer mechanism 30b, an ice detection mechanism 30c, cold air circulation mechanisms 40a and 40b, a spray mechanism 50a, and a drainage mechanism 50b.
[0014]
The base 10a includes a rectangular frame-shaped support frame 11, four casters 12a assembled at four corners of the lower surface of the support frame 11, two legs 12b assembled at both front corners, and a support frame. 11, a pair of left and right drain pans 13a, 13b fixed to the lower portion of the frame 11, three open / close doors 14a, 14b, 14c assembled on the front surface of the support frame 11, and panels 15a, 15b fixed to the front surface, rear surface and side surfaces. 15c.
[0015]
Each leg 12b is configured to be able to advance and retreat in the vertical direction, and is assembled close to each caster 12a on the front side. In a state where each leg 12b is retracted and separated from the floor surface. Each caster 12a can be grounded and rolled on the floor surface, and the base 10a can be easily moved to a desired position.
[0016]
Further, in a state where each leg 12b is advanced and landed on the floor surface, each caster 12a on the front side is slightly lifted from the floor surface to be in a free state, and the base 10a is placed on the floor surface at each leg portion 12b. It is supported on the top and is restricted from moving easily. Accordingly, the display stand is operated in a stable state fixed on the floor surface, and the water supply pipe for the ice making mechanism 20 and the like, and the drain pipe for the drainage mechanism 50b and the like are prevented from being bent or damaged.
[0017]
As shown in FIGS. 6 to 9, the support frame 11 is framed in a rectangular shape. The support frame 11 is opened in a rectangular shape at the top, and a pair of left and right shelf portions 11a are provided in the middle in the vertical direction. The drain pans 13a and 13b are fixed to the lower part. Both shelves 11a support an ice storage tank 10b, which will be described later, and both shelves 11a are formed with water escape holes 11b at predetermined intervals at the front and rear corners. The drain pans 13a and 13b are fixed at a predetermined interval, and the leading ends of the drain pans 13a and 13b extend slightly inclined upward.
[0018]
In the support frame 11, the ice storage tank 10b inserted through the upper opening is supported by both shelves 11a. Further, an ice making mechanism 20 is disposed between the drain pans 13a and 13b at the lower portion of the support frame 11, a spray mechanism 50 is disposed above the left drain pan 13a, and drainage is performed on the right drain pan 13b. A mechanism 50b is provided.
[0019]
As shown in FIGS. 4, 5, and 10, the ice storage tank 10 b includes an ice storage tank portion 16 that opens upward and incorporates a heat insulating material, and a frame portion that projects outward to the upper edge of the cylindrical leg portion. The ice storage tank section 16 and the table 17 are inserted into the upper opening of the support frame 11, the ice storage tank section 16 is supported by the shelf 11a, and the table 17 is the ice storage tank. The upper end of the support frame 11 is supported by contacting the upper end of the portion 16. As shown in FIG. 9, the ice storage tank portion 16 is supported in the shelf portion 11 a of the support frame 11 so that the outer half of the water escape hole 11 b provided in the shelf portion 11 a is opened. In the ice storage tank 10 b, a plurality of display containers 18 a to 18 d are supported in a suspended manner in the opening 17 a of the table 17, and the display containers 18 b and 18 c are covered with a shielding plate 19.
[0020]
The ice making mechanism 20 is an auger type ice making mechanism, and as shown in FIGS. 4, 10 and 11, the ice making mechanism 21, the compressor 22, the condenser 23, the cooling fan 24, the ice making water tank 25 and the like are the main constituent members. The upper end of the ice making mechanism 21 is disposed in the support frame 11 and is located in the vicinity of the center of the lower surface of the ice storage tank 16. The ice making mechanism portion 21 is composed of an ice making portion having an auger, an evaporator, a drive motor, and the like. The ice making mechanism portion 21 stands below the ice storage tank portion 16 and extends in the vicinity of the lower surface of the ice storage tank portion 16. It connects with the extrusion mechanism 30a mentioned later penetrated and assembled | attached to the approximate center part of the bottom part.
[0021]
In the ice making mechanism 20, the cooling medium is circulated and supplied to the cooling pipe 21c disposed around the outer periphery of the inner casing 21a between the inner and outer casings 21a and 21b constituting the ice making mechanism portion 21, and Ice making water is supplied to the inside of the inner casing 21a, and the ice generated in the casing 21a is gradually moved upward by the rotating operation of the auger 21d and compressed and supplied to the extruding mechanism 30a, through the extruding mechanism 30a. It is supplied into the ice storage tank 10b as chip-shaped ice having a length of about 1 to 2 cm.
[0022]
As shown in FIGS. 10 and 11, the push-out mechanism 30a is fitted on the tip of the inner casing 21a of the ice making mechanism 21 in a state of hermetically penetrating the bottom 16a of the ice storage tank 16 of the ice storage tank 10b. The fixed blade 21e is fixed to the upper end surface.
[0023]
The extruding mechanism 30a is composed of a columnar main body 31 having a predetermined length and a disc-shaped guide plate 32 fixed to the upper end of the columnar main body 31, and in the longitudinal direction provided at the center of the columnar main body 31. A bolt 33 inserted through the extending through-hole is fixed to the upper end portion of the fixed blade 21e fitted to the upper end portion of the inner casing 21a of the ice making mechanism portion 21, and protrudes to the substantially central portion of the bottom portion of the ice storage tank portion 16. ing.
[0024]
In the extrusion mechanism 30a, a plurality of first groove portions 31a and a plurality of second groove portions 31b extending in the longitudinal direction are formed on the outer periphery of the cylindrical main body 31. Each first groove portion 31a extends to the lower surface of the guide plate 32. When the push-out mechanism 30a is assembled to the ice storage tank portion 16, the first groove portion 31a is opened in a bent state inside the ice storage tank portion 16. Yes. Each second groove portion 31 b extends through the guide plate 32 and opens on the upper surface side of the guide plate 32.
[0025]
As shown in FIGS. 10 and 11, the transfer mechanism 30b is placed on a guide plate 32 constituting the push-out mechanism 30a and stands up and extends upward from a substantially central portion of the ice storage tank portion 16, A cylindrical body 34, a receiving tray 35 fixed to the upper end of the cylindrical body 34, a transport pipe 36 penetrating upward through the cylindrical body 34 and the receiving tray 35, and two receiving plates 37 placed on the receiving tray 35. It is composed of. In the cylindrical body 34, the lower end portion is placed on the guide plate 32 constituting the extrusion mechanism 30 a and is closed, and the upper end opening portion is closed by the receiving tray 35, and the upper end edge of the cylindrical body 34 is closed. A plurality of ejection holes 34a are formed around the periphery.
[0026]
The conveying pipe 36 is composed of a pair of pipe parts 36a and 36b, and the inner wall parts 36c of the pipe parts 36a and 36b protrude upward from the upper ends of the pipe parts 36a and 36b and are expanded in a trumpet shape. It is integrated in the state. The trumpet-shaped top portion 36d faces the upper end opening of each of the pipe portions 36a and 36b. The lower end opening of each pipe part 36a, 36b is opposed to and communicates with the upper end opening of each second groove 31b of the columnar body 31 constituting the extrusion mechanism 30a.
[0027]
As shown in FIGS. 12A to 12C, each receiving plate 37 includes protrusions 37 b that project downward at three portions of the linear edge of the semicircular plate portion 37 a. Therefore, a pair of recesses 37c are formed in the linear edge portion, and a central portion 37d is formed on the protruding portion with both the recesses 37c interposed therebetween. Each receiving plate 37 is placed on the receiving tray 35 with each recess 37c fitted to each tube portion 36a, 36b of the transport tube 36, and the plate portion 37a gradually moves from the linear edge to the arcuate edge. It is in a state of falling down.
[0028]
As shown in FIGS. 4, 5 and 13, the ice detection mechanism 30c includes a pair of left and right swing plates 38a, a support bar 38b fixed to the upper end edge of each swing plate 38a, and a tip of the support bar 38b. It consists of a provided detection plate 38c and a pair of proximity switches 38d, and each swing plate 38a can be rotated in the left-right direction while maintaining a predetermined distance in the left-right direction on the upper surface of the table 17 of the ice storage tank 10b. Each proximity switch 38d is assembled at a lower end portion of the support plate 38e with a predetermined distance between the left and right sides, and the lower end portion of each detection plate 38c is supported by the support plate 38e. It is opposed across the.
[0029]
The support plate 38e is positioned outside the ice storage tank portion 16, and is fixed in a state where the table 17 is sandwiched between the plate 38f placed on the surface side of the table 17 on the lower surface side of the upper end flange portion. Each detection plate 38c passes through a slit-like hole provided in the contact plate 38f and the table 17, and extends swingably between the support plate 38e and the shielding plate 38g provided outside thereof.
[0030]
Each swing plate 38a has a length that is substantially the same as the inner width of the table 17 and a height that is shorter than the depth of the ice storage tank portion 16 by a predetermined length. In the state of being supported above, the table 17 is in a state where it floats to the full inner width of the table 17 and a predetermined height from the bottom 16a of the ice storage tank section 16, and is suspended so as to be swingable in the horizontal direction of the ice storage tank section 16. Yes. Each swing plate 38a is located on the left and right with the transfer mechanism 30b interposed therebetween.
[0031]
In the ice detection mechanism 30c, when the swinging plates 38a are stationary, the detection plates 38c are also stationary, and the proximity switches 38d are inactive. When the chip-shaped ice supplied in sequence abuts on each rocking plate 38a, and each rocking plate 38a rocks and each detecting plate 38c rocks, each proximity switch 38d operates to form a chip-shaped ice. It detects that a predetermined amount of ice has been supplied.
[0032]
In addition, each swing plate 38a is suspended in the upper opening of the ice storage tank 10b, and the display containers 18a to 18d facing the inside of the ice storage tank section 16 and the shielding plate 19, together with the inside of the ice storage tank 10b. It is divided into a side cold air chamber R1, R2 located on the left-right side and a central cold air chamber R3 located in the center. Accordingly, each swing plate 38a also functions as a partition plate that partitions the ice storage tank section 16 into three cold air chambers R1, R2, and R3.
[0033]
As shown in FIGS. 2, 4 and 5, the display containers 18a to 18d constituting the side cold air chambers R1 and R2 are slightly smaller than the opening width of the opening 17a of the table 17 constituting the ice storage tank 10b. A flange having a predetermined width is formed on the outer peripheral edge of the upper end of the container portion having a short length and a predetermined width. Further, the shielding plate 19 constituting the central cold air chamber R3 is longer than the opening width of the opening portion 17a of the table 17 and has a predetermined width, and a flange portion 19a is formed on the left and right side edge portions. In the shielding plate 19, an oval first opening 19b is formed at the center thereof, and a circular second opening 19c having a smaller diameter is formed before and after the first opening 19b. Yes.
[0034]
The shielding plate 19 is positioned above both the swinging plates 38a of the ice detection mechanism 30c while being inserted into the transfer mechanism 30b at the first opening 19b, and covers the central portion of the opening 17a of the table 17. ing. Each display container 18a, 18d is suspended from the left and right sides of the table 17 in a state where its collar is hooked to the opening edge of the opening 17a of the table 17, and each display container 18b, 18c is suspended from its collar. Between the display container 18a and the shielding plate 19 and between the display container 18d and the shielding plate 19 in a state of being hooked on the opening edge of the opening 17a of the table 17 and the flanges 19a of the shielding plate 19. It is suspended by. In addition, small circular display containers 18e and 18f are suspended from each second opening 19c as compared with the display containers 18a to 18d.
[0035]
Accordingly, the display containers 18a to 18d and the shielding plate 19 are arranged in parallel with each other in contact with each other, and the entire surface of the opening 17a of the table 17 is closed, and a side cold air chamber is formed on the left side of the left swing plate 38a. A side cold air chamber R2 is formed on the right side of the right rocking plate 38a, and a central cold air chamber R3 is formed between both rocking plates 38a. In this state, a vertically long cool air passage P is formed between the outer periphery of each of the display containers 18a to 18d and the inner periphery of the ice storage tank 16 as shown in FIG. This cold air passage P is blocked between the side cold air chamber R1 and the central cold air chamber R3, and between the side cold air chamber R2 and the central cold air chamber R3 by the respective shielding plates 16b and 16c provided on the inner periphery of the ice storage tank section 16. .
[0036]
The cool air circulation mechanisms 40a and 40b are circulation fan devices having the same configuration, and as shown in FIGS. 4, 10 and 14, are composed of a fan motor 41 and a circulation fan unit 42. It is fixed to the outside of the side wall portion 16d of the ice storage tank portion 16 that constitutes, and the drive shaft 41a penetrates the side wall portion 16d in an airtight and rotatable manner and protrudes into the ice storage tank portion 16. The circulation fan part 42 is assembled at the tip of the drive shaft 41a.
[0037]
The circulation fan unit 42 includes a fan 42a fixed to the tip of the drive shaft 41a and a fan cover 42b that covers the fan 42a. The fan cover 42b has a large number of cool air suction ports 42c formed on the front surface, and a large number of cool air discharge ports 42d formed on the outer peripheral surface. The fan cover 42b has a plurality of cool air discharge ports 42d formed on the same side of the side cool air chambers R1 and R2. Has been placed. The circulation fan unit 42 is arranged in an inclined state in which the cold air discharge port 42d side is lowered toward the front.
[0038]
Thus, in the cold air circulation mechanisms 40a and 40b, the cold air in the side cold air chambers R1 and R2 is sucked from the cold air suction port 42c of the fan cover 42b, and is transferred from the cold air discharge port 42d to the side cold air chambers R1 and R2. It is discharged obliquely downward.
[0039]
As shown in FIGS. 4, 15 and 16, the spray mechanism 50a includes a mist generator 51, a blower 52, and a water storage tank 53. The blower 52 includes a transfer mechanism 30b via a hose 54a. The water storage tank 53 is connected to the cylinder 34 constituting the ice making mechanism 21 and is connected in the middle of the water supply hose 21f to the ice making mechanism 21 constituting the ice making mechanism 20 via the hose 54b.
[0040]
In the spray mechanism 50 a, a large amount of mist is generated from the water in the water storage tank 53 by the operation of the vibrator of the mist generator 51, and the generated large amount of mist is supplied to the inside of the cylinder 34 of the transfer mechanism 30 b by the blower 52. Is done. A large amount of mist supplied into the cylindrical body 34 is cooled in the cylindrical body 34 and is ejected to the outside from the respective ejection holes 34 a provided in the upper end portion of the cylindrical body 34.
[0041]
As shown in FIGS. 4, 17 and 18, the drainage mechanism 50 b includes a drainage tank 55, a drainage hose 56, and a drainage pipe 57. On the side of the drainage tank 55, a discharge hole 55a slightly above the bottom is provided and is disposed in the drain pan 13b on the right side. The drain hose 56 is connected to a discharge hole 16 e provided at the bottom of the ice storage tank 16 at its upper end opening, and its lower end faces the bottom of the drain tank 55. In addition, the eye plate 56a which has a small hole in the center part is inserted in the discharge hole 16e. The small hole of the eye plate 56a is formed in a size that allows water to flow out and restricts the flow of chip-shaped ice, and is easily detachably inserted.
[0042]
The drain pipe 57 is a single cylindrical body, and has a small hole 57a formed in the center in the vertical direction. The drain pipe 57 is liquid-tightly fitted to the drain pan 13b in a state of penetrating the bottom. . In this fitted state, the drain pipe 57 has a small hole 57a positioned above the drain pan 13b, and an upper end opening of a connection hose 58 having one end connected to a drain hole 55a provided in the drain tank 55. The other end is connected.
[0043]
A drain hose 21g of the ice making mechanism 21 and a drain hose 25a from the ice making water tank 25 face the drain tank 55.
[0044]
The ice storage type display stand configured in this manner is supported by being hooked on the edge of the opening 17a of the table 17 that houses the desired food and drink in each of the display containers 18a to 18d and constitutes the ice storage tank 10b. And each display container 18e, 18f is inserted and supported in each 2nd opening part 19c of the shielding board 19, and operation | movement is started. The operation of the ice storage type display stand is controlled by the control device 60. FIG. 19 schematically shows the state of the ice storage tank 10b during operation of the ice storage type display stand. During operation of the ice storage type display stand, the ice making mechanism 20, the cold air circulation mechanisms 40a and 40b, and the spray are shown. While the mechanism 50a operates, the ice detection mechanism 30c and the discharge mechanism 50b operate.
[0045]
In the ice storage type display stand, ice generated by the ice making mechanism 20 is sequentially supplied to the extrusion mechanism 30a, and is supplied to the first groove portions 31a and the second groove portions 31b in the extrusion mechanism 30a. The ice supplied to each first groove portion 31a collides with the guide plate 32 of the extrusion mechanism 30a and is folded to become chip-like ice from the opening of each first groove portion 31a as shown by the solid line arrow in FIG. 16 are sequentially supplied. The group of chip-shaped ice is pushed outward by the pushing force of the chip-shaped ice that is sequentially supplied and diffused to the entire bottom portion 16 a of the ice storage tank section 16.
[0046]
On the other hand, the ice supplied to each of the second groove portions 31b of the extrusion mechanism 30a is supplied to each of the tube portions 36a and 36b of the transfer tube 36 of the transfer mechanism 30b as indicated by broken line arrows in FIG. It rises, collides with the top portion 36d of the transport pipe 36, is folded, becomes chip-like ice, and falls onto each receiving plate 37 disposed on the receiving tray 35. Since each receiving plate 37 is gradually inclined downward toward the outer peripheral edge of the receiving tray 35, the chip-shaped ice diffuses throughout the hem with the central portion of the receiving tray 35 as the apex, and the chip-shaped ice protrudes from the outer peripheral edge of the receiving tray 35. The ice falls into the ice storage tank 16 through the first opening 19 b of the shielding plate 19. The accumulation state of the chip-shaped ice on the receiving tray 35 and the falling state from the outer peripheral edge of the receiving tray 35 exert an effect of raising the atmosphere for displaying food and drink in the display container.
[0047]
When the chip-shaped ice in the ice storage tank section 16 reaches a predetermined amount during the supply of ice from the ice making mechanism 20, the rocking plates 38a constituting the ice detection mechanism 30c are pushed by the chip-shaped ice supplied. The detection plates 38c are swung to the left and right outside. As a result, each proximity switch 38d is operated to detect that the chip-shaped ice in the ice storage tank section 16 has reached a predetermined amount, and this detection signal is output to the control device 60. The control device 60 outputs a signal for stopping the operation of the ice making mechanism 20 based on the detection signal, and stops only the operation of the ice making mechanism 20.
[0048]
Each cold air circulation mechanism 40a, 40b operates during operation of the ice storage type display stand, sucks the cold air in each side cold air chamber R1, R2 from the cold air suction port 42c of the circulation fan part 42, and the circulation fan part 42 The cold air discharge port 42d discharges into the respective side cold air chambers R1 and R2. Since the cool air sucked into the circulation fan section 42 is discharged obliquely downward from the cool air discharge port 42d located below the cool air suction port 42c, the cool air in each of the side cool air chambers R1 and R2 is indicated by a solid arrow in FIG. As shown in Fig.
[0049]
The spray mechanism 50a operates during operation of the ice storage type display stand, and a large amount of mist generated by the mist generator 51 is supplied by the blower 52 into the cylinder 34 constituting the transfer mechanism 30b. The mist is cooled in the cylindrical body 34 and ejected as a white mist from each ejection hole 34 a provided in the upper end portion of the cylindrical body 34. The sprayed mist slowly flows on the display containers 18a to 18f as shown by the solid lines in FIG. 19, covers the upper side of the food and drink, prevents the food and drink from drying, and exhibits the effect of raising the display atmosphere. .
[0050]
In the ice storage type display stand, the chip-shaped ice in the ice storage tank section 16 is gradually melted to generate water in the ice storage tank section 16, and the generated water is provided at the bottom 16 a of the ice storage tank section 16. From the exhaust hole 16e, it flows out to the drainage tank 55 through the drainage hose 56 constituting the drainage mechanism 50b, and once it stays in the drainage tank 55, it is discharged through the connection hose 58 and the drainage pipe 57. In the drainage mechanism 50b, as shown in FIGS. 17 and 18, the discharge hole 55a of the drainage tank 55 is located higher than the bottom of the drainage tank 55, and a predetermined amount of water always stays at the bottom of the drainage tank 55. However, since the lower end of the drainage hose 56 faces the remaining water, the propagation of odor from the drainage groove or the like to the drainage hose 56 is blocked.
[0051]
On the other hand, water generated by condensation on the outer periphery of the ice storage tank 10b or the like falls on each drain pan 13a, 13b, but the water dropped on the drain pan 13b passes through the small pipe 57a provided in the drain pipe 57 through the drain pipe 57. It is discharged after. In addition, the water which fell to the drain pan 13a is also discharged | emitted through the same drain pipe from the small hole provided in the drain pipe similar to the drain pipe 57 provided in the drain pan 13a.
[0052]
Thus, in the ice storage type display stand, since the chip-shaped ice is sequentially discharged and dropped from the upper end portion of the transfer pipe 36 constituting the transfer mechanism 30b, the surrounding people are careful about the movement of the chip-shaped ice. It can attract, and the display effect of the food and drink in each display container 18a-18f can be exhibited further.
[0053]
Further, in the ice storage type display stand, the transfer mechanism 30b is communicated with the second groove 31b that guides the ice of the push-out mechanism 30a upward, and extends upward, and the upper end opening of the transfer pipe 36 faces the same. A refracting portion (top portion 36d) that refracts by restricting the upward discharge of ice from the opening and refracts and falls as chip-like ice, and surrounds the outer periphery of the conveying tube 36 to block the conveying tube 36 from the outside air. Since the cylindrical body 34 is provided, the chip-shaped ice can be smoothly discharged from the upper end portion of the transport pipe 36, and the cylindrical body 34 blocks the outside air from the transport pipe 36. The melting of the ice moving in the transfer pipe 36 in the transfer pipe 36 is prevented. For this reason, the discharge amount of the chip-shaped ice does not decrease due to the melting of the ice in the transport pipe 36.
[0054]
Further, the upper end of the cylinder 34 constituting the transfer mechanism 30b is provided with a receiving tray 35 for receiving a predetermined amount of chip-like ice discharged from the upper end of the transfer tube 36. The chip-like ice discharged from the section falls once after being received by the tray 35, and the display effect is further improved. In addition, since the receiving plate 37 is disposed on the receiving tray 35 so as to gradually descend and incline from the central portion toward the outer peripheral edge, the chip-shaped ice is almost universally spread on the receiving tray 35 in a state where it rises to the central portion on the receiving tray 35. The display effect is further improved.
[0055]
Further, in the ice storage type display stand, the upper opening 17a of the ice storage tank 10b is arranged with the shielding plate 19 having the opening 19b through which the transfer mechanism 30b passes, and each display arranged without gaps on both sides of the shielding plate 19. Since it is configured so as to be covered with the containers 18a to 18d and the opening 19b of the shielding plate 19 has a shape in which chip-shaped ice from the tray 35 passes and falls, the upper opening of the ice storage tank 10b With the entire portion 17a covered, the chip-shaped ice on the tray 35 can be dropped into the ice storage tank 10b without hindrance.
[0056]
In this case, if transparent ones are used as the shielding plate 19 and the display containers 18a to 18f, the chip-shaped ice group in the ice storage tank 10b can be visually recognized, and the attention of the surrounding people is further attracted.
[Brief description of the drawings]
FIG. 1 is a front view of an ice storage type display stand according to an example of the present invention.
FIG. 2 is a plan view of the display stand.
FIG. 3 is a side view of the display stand.
FIG. 4 is a front view showing a state where the ice storage tank of the display stand is vertically cut.
FIG. 5 is a plan view showing a state where each display container of the display stand is removed.
FIG. 6 is a front view of a support frame constituting the base of the display stand.
FIG. 7 is a plan view of a lower frame portion in the support frame.
FIG. 8 is a plan view of an upper frame portion in the support frame.
FIG. 9 is a plan view showing a part of the support state of the ice storage tank with respect to the support frame.
FIG. 10 is a side view of a vertical section of an ice storage tank showing the relationship between an ice making mechanism and an ice storage tank constituting the display stand.
FIG. 11 is a partially longitudinal side view showing a relationship among an ice making mechanism, an extrusion mechanism, and a transfer mechanism constituting the display stand.
FIG. 12 is a plan view (a) of a tray and a receiving plate constituting the transfer mechanism, a plan view (b) of the receiving plate, and a front view (c) of the receiving plate.
FIG. 13 is a perspective view of an ice detection mechanism constituting the display stand.
FIG. 14 is a partly longitudinal side view showing a mounting state of a circulation fan device which is a cold air circulation mechanism constituting the display stand.
FIG. 15 is a front view of a spray mechanism constituting the display stand.
FIG. 16 is a side view of the spray mechanism.
FIG. 17 is a front view of a drainage mechanism constituting the display stand.
FIG. 18 is a partially longitudinal side view showing an arrangement state of drainage tanks constituting the drainage mechanism.
FIG. 19 is a schematic view showing the inside and the upper part of the ice storage tank during operation in the display stand.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10a ... Base, 11 ... Support frame, 11a ... Shelf part, 11b ... Water escape hole, 12a ... Caster, 12b ... Leg part, 13a, 13b ... Drain pan, 14a-14c ... Open / close door, 15a-15c ... Panel, 10b DESCRIPTION OF SYMBOLS ... Ice storage tank, 16 ... Ice storage tank part, 16a ... Bottom part, 16b, 16c ... Blocking board, 16d ... Side wall part, 16e ... Discharge hole, 17 ... Table, 18a-18d ... Display container, 18e, 18f ... Display container, 19 DESCRIPTION OF SYMBOLS ... Shielding plate, 19a ... collar part, 19b ... 1st opening part, 19c ... 2nd opening part, 20 ... ice making mechanism, 21 ... ice making mechanism part, 21a, 21b ... casing, 21c ... cooling pipe, 21d ... auger, 21e ... fixed blade, 21f ... water supply hose, 21g ... drain hose, 22 ... compressor, 23 ... condenser, 24 ... cooling fan, 25 ... ice making water tank, 25a ... drainage hose, 30a ... 31: cylindrical body, 31a: first groove, 31b: second groove, 32: guide plate, 33: bolt, 30b: transfer mechanism, 34: cylinder, 34a: ejection hole, 35: saucer, 36 ... transport pipe, 36a, 36b ... pipe part, 36c ... side wall part, 36d ... top part, 37 ... receiving plate, 37a ... plate part, 37b ... projection part, 37c ... recess, 37d ... central part, 30c ... ice detection mechanism 38a ... peristaltic plate, 38b ... support rod, 38c ... detection plate, 38d ... proximity switch, 38e ... support plate, 40a, 40b ... cool air circulation mechanism, 41 ... fan motor, 41a ... drive shaft, 42 ... circulation fan section, 42a ... fan, 42b ... fan cover, 42c ... cold air suction port, 42d ... cold air discharge port, 50a ... spray mechanism, 51 ... mist generator, 52 ... blower, 53 ... water storage tank, 54a, 54b ... hose, 50b ... drainage mechanism, 5 ... drain tank, 55a ... exhaust hole, 56 ... drain hose, 56a ... perforated plate, 57 ... water discharge pipe, 57a ... small hole, 58 ... connecting hose, P ... cool air passage, R1, R2, R3 ... cold air chamber.

Claims (5)

An ice storage tank that is disposed at the top of the base and accommodates a required amount of chip-shaped ice, an ice making mechanism that is disposed at the bottom of the base and generates ice to be supplied to the ice storage tank, and an upper end of the ice making mechanism an extrusion mechanism for guiding the rest of the ice upward and supplies to the bottom of the ice storage tank a portion of the ice supplied from the ice-making mechanism is connected to a chip-like ice, the is connected to an upper end portion of the pushing mechanism Food and drink in a display container arranged above the ice storage tank, having a transfer mechanism for transferring the ice guided from the extrusion mechanism upward, discharging it from the upper end as chip ice and dropping it into the ice storage tank An ice storage type display stand that is held in a cooled state for display. 2. The ice storage type display stand according to claim 1, wherein the transfer mechanism includes a transfer pipe that communicates with a groove that guides the ice of the push-out mechanism upward and extends upward, and an opening that faces the upper end opening of the transfer pipe. A refracting portion that restricts the upward discharge of ice from the refracted portion and refracts and falls as chip-like ice, and a cylindrical body that surrounds the outer periphery of the conveying tube and blocks the conveying tube from the outside air ice type display stand, characterized in that is. The ice storage type display stand according to claim 2 , further comprising a tray for receiving a predetermined amount of chip-like ice discharged from the upper end portion of the transfer pipe at the upper end portion of the cylindrical body constituting the transfer mechanism. An ice storage type display stand. 4. The ice storage type display stand according to claim 3, wherein a receiving plate that gradually descends and slopes from the central portion to the outer peripheral edge side is disposed on the tray. The ice storage type display stand according to at least one of claims 1 to 4 , wherein an upper opening portion of the ice storage tank constituting the display stand includes a shielding plate having an opening portion through which the transfer mechanism passes, and the shielding plate. It is covered with a display container arranged without a gap at the side, and the opening of the shielding plate is formed in a shape in which chip-shaped ice from the tray passes and falls. Ice storage display stand.

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