CN219346861U - Ice making grid - Google Patents

Abstract

The utility model provides an ice making grid, and belongs to the technical field of ice molds. The technical problem that the demolding of the existing ice making grid is not convenient enough is solved. The ice making grid comprises an ice mold, wherein a blocking edge and a plurality of mold holes are formed in the ice mold, the blocking edge is downwards arranged, soft mold bowls for blocking the lower ends of the mold holes are connected to the lower port positions of the mold holes, the positions of the edges of the lower port positions of the mold holes are higher than the positions of the lower side edges of the blocking edge, and the bottom surface positions of the soft mold bowls are lower than the positions of the edges of the lower side edges of the blocking edge. The utility model ensures that the ice grid can be demolded more conveniently under the condition of stability.

Description

Ice making grid

Technical Field

The utility model belongs to the technical field of ice molds, and relates to an ice making grid.

Background

The ice tray is a living appliance for freezing ice blocks in a refrigerator after water is contained. Ordinary ice grid: the ice grid used at ordinary times is white, and the ice cubes made are square. At present, some supermarkets push out ice trays with various vivid colors and changeable shapes.

The patent of publication number CN217584966U discloses a novel ice cube box, including drain pan, epitheca and ice grid, the upper end of drain pan is equipped with the epitheca, be equipped with ice grid between drain pan and the epitheca, drain pan, epitheca and ice grid pass through the hasp structure and are connected, the inside of ice grid is equipped with a plurality of evenly distributed's hard shell piece, the bottom fixed connection soft shell piece of hard shell piece.

The device adopts the ice grid plate to extrude the ice blocks to realize demoulding, but the ice grid plate must be overturned and pressed again during demoulding, so that the operation is inconvenient, the ice blocks at the edge position can be not pressed in place, the ice blocks need to be independently pressed again, and the demoulding is not convenient enough.

Disclosure of Invention

The utility model aims at the problems existing in the prior art, and provides an ice making grid, which aims at solving the technical problems that: how to improve convenience of ice tray demolding.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides an ice making grid, includes the ice mould, have on the ice mould to keep off along and a plurality of nib, keep off along setting up downwards, the lower port department of nib all is connected with the soft mould bowl with nib lower extreme shutoff confined, its characterized in that, the position of nib lower port edge is higher than keep off along the position of lower side, the bottom surface position of soft mould bowl is lower than this position that keeps off along the downside border.

The ice mold is used for enabling a user to pour the drink to be frozen into the ice mold, small ice cubes with consistent sizes are formed after the drink is frozen in a low-temperature environment, the drink to be frozen is convenient for the user to enjoy, the inner wall of the mold hole and the inner wall of the soft mold bowl are matched to form a mold cavity with the closed bottom, the drink to be frozen can be used for accommodating the drink to be frozen, deformation can be easily generated by pressing the bottom of the soft mold bowl when demolding is carried out, the ice cubes in the ice mold are separated, and the blocking edge on the ice mold can form protection and shielding on the middle structure of the ice mold. Through setting up the nib lower port edge and being higher than and keeping off along the lower side, the bottom surface of soft mould bowl is less than should keep off along the lower side edge, after freezing like this, the user can take out the ice mould and tentatively push down whole ice mould on leveling the desktop, the bottom surface of soft mould bowl can receive extrusion deformation earlier and make the ice cake not hard up this moment, and keep off along can form the contact with the desktop when soft mould bowl is pressurized excessively and prevent to continue to push down, avoid soft mould bowl deformation too big influence soft mould bowl and ice mould's connection stability, avoid the too big direct departure of ice cake atress simultaneously, also do not need extra drawing of patterns instrument, make the ice tray drawing of patterns more convenient under the stable condition of guarantee.

In the ice making grid, the lower side edge of the blocking edge is higher than the bottom surface of the inner cavity of the soft mold bowl. Therefore, the phenomenon that only the soft mold bowl deforms after being pressed down is avoided, the ice blocks can truly generate displacement relative to the ice molds when the ice molds are pressed down to the stop edges to abut against the plane, and the demolding success rate is higher while demolding is convenient.

In the above ice making grid, the ice making grid further comprises an ice collecting box located below the ice mold, a supporting edge circumferentially arranged is arranged on the outer side wall of the ice collecting box, the blocking edge is annular, and the blocking edge is sleeved on the periphery of the ice collecting box and supported on the supporting edge. The ice blocks separated from the ice mold can be poured into the ice collecting box for storage after demolding, so that the ice collecting box is more sanitary and convenient, the annular blocking edge on the ice mold is sleeved on the periphery of the ice collecting box in the ice making process and is propped against the supporting edge on the outer side wall of the ice collecting box, the sealing of the joint of the ice mold and the ice collecting box is facilitated to be increased, the stored ice blocks are prevented from being polluted, and the ice collecting box is more sanitary and healthy.

In the ice making grid, a cover plate is arranged above the ice mold, the edge of the cover plate is provided with an annular turning edge which is downwards arranged, and the annular turning edge is vertically opposite to the blocking edge and is positioned and supported on the top surface of the ice mold. The cover plate can shield the top of the ice mold, so that the pollution probability is reduced, the annular turning edge of the cover plate is approximately aligned with the blocking edge of the ice mold vertically, the dust and impurity accumulation on the horizontal protruding structure is reduced, and the sanitation degree is improved.

In the ice making grid, the bottom surface of the cover plate is provided with a plurality of downward protruding bosses, the bosses are vertically opposite to the centers of the soft mold bowls one by one, and the lower end surfaces of the bosses are flush or approximately flush with the lower side edges of the annular overturning edges. When still partial ice cubes are not taken out after the initial demolding of the ice mold, the ice mold can be turned over and placed on the ice collecting box, the boss is pressed down through the cover plate to act on the center of the bottom surface of the soft mold bowl, and the soft mold bowl is only subjected to local action to be beneficial to producing larger deformation, so that the ice cubes which are not thoroughly demolded can be taken out.

In the ice making grid, the lower end edge of the boss is subjected to fillet transition treatment. Thus being beneficial to reducing the scratch damage possibly caused by the convex table to the bottom of the soft mold bowl in the demolding process.

In the ice making grid, the cover plate is provided with a plurality of jacks which vertically penetrate through and are opposite to the soft mold bowls one by one, and the jacks penetrate through the center of the boss. Therefore, the user can insert the clean stick into the grid groove through the jack, the probability that ice cubes are polluted can be reduced by plugging the jack by the stick, the stick can be fixedly connected with the ice cubes in the grid groove after demolding, the user can conveniently take the ice cubes by hand through the stick when eating the ice cubes, the boss is annular and can form better position constraint on the stick, and demolding is more convenient.

In the ice making grid, the lower port of the die hole is provided with a ring edge with the inner edge smoothly transiting with the inner wall of the die hole, and the soft die bowl is sleeved on the periphery of the ring edge and fixedly connected with the ring edge. The connecting area between the soft mould bowl and the ice mould is increased, the strength of connection and matching is increased, and the self-resetting is facilitated even if the soft mould bowl is separated from the annular edge by overlarge acting force.

Compared with the prior art, the utility model has the following advantages:

after the ice making grid is frozen, a user can take out the ice mould and initially downwards press the whole ice mould on the flat tabletop, at the moment, the bottom surface of the soft mould bowl can be firstly subjected to extrusion deformation to loosen ice cakes, and the stop edge can be in contact with the tabletop to prevent the continuous pressing down when the soft mould bowl is excessively pressed, so that the connection stability of the soft mould bowl and the ice mould is prevented from being influenced by the overlarge deformation of the soft mould bowl, meanwhile, the ice cakes are prevented from being directly flown out due to overlarge stress, additional demoulding tools are not needed, and the ice grid is more convenient to demould under the stable condition.

Drawings

Fig. 1 is a schematic perspective view of the present embodiment.

Fig. 2 is a schematic cross-sectional structure of the present embodiment.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of a three-dimensional exploded structure of the present embodiment.

Fig. 5 is a schematic view of a perspective exploded view of another angle of the present embodiment.

Fig. 6 is a schematic perspective view showing an inverted demolding state of the ice mold of the present embodiment.

Fig. 7 is a schematic sectional view of the ice mold in the inverted demolding state of the present embodiment.

In the figure, 1, an ice mold; 11. a blocking edge; 12. a die hole; 13. a ring edge;

2. a soft mold bowl;

3. an ice-collecting box; 31. a support edge;

4. a cover plate; 41. annular turning edge; 42. a boss; 43. and a jack.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1-7, the ice making grid comprises an ice mold 1, wherein a blocking edge 11 and a plurality of mold holes 12 are formed in the ice mold 1, the blocking edge 11 is arranged downwards, soft mold bowls 2 for sealing the lower ends of the mold holes 12 are connected to the lower port positions of the mold holes 12, the soft mold bowls 2 are silica gel material pieces, the positions of the edges of the lower port positions of the mold holes 12 are higher than the positions of the lower side edges of the blocking edge 11, and the positions of the bottom surfaces of the soft mold bowls 2 are lower than the positions of the lower side edges of the blocking edge 11. The ice mold 1 is used for pouring a beverage to be frozen into the ice mold 1 by a user, small ice cubes with consistent sizes are formed after the beverage is frozen in a low-temperature environment, the beverage to be frozen is convenient for the user to enjoy, the inner wall of the mold hole 12 and the inner wall of the soft mold bowl 2 are matched to form a mold cavity with the closed bottom, the beverage to be frozen can be used for accommodating the beverage to be frozen, deformation can be easily generated by pressing the bottom of the soft mold bowl 2 during demolding, the ice cubes can be separated from the inner ice cubes, and the blocking edge 11 on the ice mold 1 can form protection and shielding on the middle structure of the ice mold 1. Through setting up the lower port edge of nib 12 and being higher than and keeping off along 11 lower sides, the bottom surface of soft mould bowl 2 is less than should keep off along 11 lower sides, after freezing like this, the user can take out ice mould 1 and tentatively push down whole ice mould 1 on the level desktop, the bottom surface of soft mould bowl 2 can receive extrusion deformation earlier and make the ice-cube not hard up this moment, and keep off along 11 can form the contact with the desktop and prevent to continue to push down when soft mould bowl 2 is pressurized excessively, avoid soft mould bowl 2 deformation too big influence soft mould bowl 2 and ice mould 1's connection stability, avoid the too big direct departure of ice-cube atress simultaneously, also do not need extra drawing of patterns instrument, make the ice grid drawing of patterns more convenient under the stable condition of guarantee. Specifically, the lower side edge of the baffle edge 11 is higher than the bottom surface of the inner cavity of the soft mold bowl 2. The phenomenon that only the soft mould bowl 2 deforms after being pressed down is avoided, the ice blocks can truly generate displacement relative to the ice mould 1 when the ice mould 1 is pressed down to the stop edge 11 to abut against the plane, and the demoulding success rate is higher when demoulding is convenient. The ice making grid further comprises an ice receiving box 3 positioned below the ice mould 1, a supporting edge 31 which is circumferentially arranged on the outer side wall of the ice receiving box 3, a blocking edge 11 is annular, and the blocking edge 11 is sleeved on the periphery of the ice receiving box 3 and is supported on the supporting edge 31. The ice blocks separated from the ice mold 1 can be poured into the ice collecting box 3 for storage after demolding, so that the ice collecting box is more sanitary and convenient, the annular blocking edge 11 on the ice mold 1 is sleeved on the periphery of the ice collecting box 3 in the ice making process and abuts against the supporting edge 31 on the outer side wall of the ice collecting box 3, the sealing performance of the joint of the ice mold 1 and the ice collecting box 3 is improved, the stored ice blocks are prevented from being polluted, and the ice collecting box is more sanitary and healthy. The cover plate 4 is arranged above the ice mold 1, the edge of the cover plate 4 is provided with an annular turning edge 41 which is arranged downwards, the annular turning edge 41 is vertically opposite to the baffle edge 11 and is positioned and supported on the top surface of the ice mold 1, and specifically, the annular turning edge 41 is sleeved on the periphery of the top of the ice mold 1. The cover plate 4 can shield the top of the ice mold 1, so that the pollution probability is reduced, the annular turning edge 41 of the cover plate 4 is approximately aligned with the blocking edge 11 of the ice mold 1 vertically, the accumulation of dust and impurities on the horizontal protruding structure is reduced, and the sanitation degree is improved. The bottom surface of the cover plate 4 is provided with a plurality of bosses 42 protruding downwards, the bosses 42 are vertically opposite to the centers of the soft mold bowls 2 one by one, and the lower end surfaces of the bosses 42 are flush or approximately flush with the lower side edges of the annular turnup edges 41. Like this when still partial ice-cube is not deviate from after the preliminary drawing of patterns of ice mould 1, can overturn ice mould 1 and place on receiving ice box 3, push down through apron 4 and make boss 42 act on soft mould bowl 2's bottom surface center, soft mould bowl 2 only receives local effect at this moment and does benefit to producing bigger deformation, and then makes the incomplete ice-cube of drawing of patterns can deviate from. The lower edge of the boss 42 is rounded. This is advantageous in reducing the scratch damage that the boss 42 may cause to the bottom of the soft bowl 2 during the demolding process. The cover plate 4 is provided with a plurality of jacks 43 which are vertically penetrated and are opposite to the soft mould bowls 2 one by one, and the jacks 43 penetrate through the center of the boss 42. Therefore, the user can insert a clean club into the grid groove through the insertion hole 43, the club plugging insertion hole 43 can reduce the probability that ice cubes are polluted, the club can be fixedly connected with the ice cubes in the grid groove after demolding, the user can conveniently take the club by hand when eating the ice cube, sanitation and convenience are achieved, and the boss 42 is annular and can form better position constraint on the club, so that demolding is more convenient. The lower port of the die hole 12 is provided with a ring edge 13 with the inner edge smoothly transiting with the inner wall of the die hole 12, and the soft die bowl 2 is sleeved on the periphery of the ring edge 13 and fixedly connected with the ring edge 13 through glue. The joint area between the soft mould bowl 2 and the ice mould 1 is increased, the strength of connection and matching is increased, and the self-resetting is facilitated even if the soft mould bowl is separated from the annular edge 13 by an excessive acting force.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (8)

1. The utility model provides an ice making grid, includes ice mould (1), have on ice mould (1) and keep off along (11) and a plurality of nib (12), keep off along (11) setting down, nib (12) lower port department all is connected with and keeps off confined soft mould bowl (2) of nib (12) lower extreme shutoff, a serial communication port, nib (12) lower port edge's position is higher than keep off along the position of side under (11), the bottom surface position of soft mould bowl (2) is less than the position that should keep off along (11) downside border.

2. Ice making grid according to claim 1, characterised in that the lower edge of the blocking rim (11) is located higher than the bottom surface of the cavity of the flexible mould bowl (2).

3. Ice making tray according to claim 1 or 2, characterized in that the ice making tray further comprises an ice receiving box (3) positioned below the ice mould (1), a supporting edge (31) arranged around the circumference is arranged on the outer side wall of the ice receiving box (3), the blocking edge (11) is in a ring shape, and the blocking edge (11) is sleeved on the periphery of the ice receiving box (3) and is supported on the supporting edge (31).

4. A grid according to claim 3, characterized in that a cover plate (4) is arranged above the ice mould (1), the edge of the cover plate (4) is provided with an annular turning edge (41) arranged downwards, and the annular turning edge (41) is vertically opposite to the baffle edge (11) and is positioned and supported on the top surface of the ice mould (1).

5. The ice making grid according to claim 4, wherein the bottom surface of the cover plate (4) is provided with a plurality of downward protruding bosses (42), the bosses (42) are vertically opposite to the center of the soft mold bowl (2) one by one, and the lower end surface of the bosses (42) is flush or approximately flush with the lower side edge of the annular turning edge (41).

6. Ice making grid according to claim 5, wherein the lower end edge of the boss (42) is rounded.

7. The ice making grid according to claim 5, wherein the cover plate (4) is provided with a plurality of jacks (43) which are vertically penetrated and are opposite to the soft mould bowls (2) one by one, and the jacks (43) penetrate through the center of the boss (42).

8. Ice making grid according to claim 1 or 2, characterized in that the lower port of the die hole (12) is provided with a ring edge (13) with the inner edge smoothly transiting with the inner wall of the die hole (12), and the soft die bowl (2) is sleeved on the periphery of the ring edge (13) and fixedly connected with the ring edge (13).

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