CN215571425U - Teflon running water type ice tray - Google Patents

Abstract

The utility model relates to the technical field of water-flowing ice trays and discloses a Teflon water-flowing ice tray which comprises a bottom plate, a plurality of transverse plates, a plurality of longitudinal plates and an anticorrosive layer, wherein the transverse plates are arranged at intervals in sequence, the longitudinal plates are arranged at intervals in sequence, the transverse plates and the longitudinal plates are arranged in a crossed staggered manner to form a plurality of ice grids, and a water source enters the ice grids to be solidified to form ice blocks; the ice tray has the check wall, and the check wall is to enclose to close and arranges, and the anticorrosive coating includes the teflon layer, and the teflon layer is tiling and covers the check wall. Under the matching action of each transverse plate, each longitudinal plate and the bottom plate, a plurality of ice grids are formed, water enters the ice grids, and water is solidified into ice blocks through refrigeration; owing to set up the teflon layer, the teflon layer possesses the non-adhesion, and the ice-making process does not have the incrustation scale and remains, and the ice check is difficult to corrode, simultaneously, is convenient for take off ice, improves ice-making efficiency to, adopt the teflon layer, make the ice-cube of making accord with food grade edible requirement, improve the edible security of ice-cube.

Description

Teflon running water type ice tray

Technical Field

The utility model relates to the technical field of running water ice trays, in particular to a Teflon running water type ice tray.

Background

An ice making apparatus is a refrigerating machine that generates ice by cooling water through an evaporator by a refrigerating system.

The evaporator comprises an ice tray, a water supply pipe and a refrigerating piece, wherein the water supply pipe provides water to enter the ice tray, and the ice tray changes water into ice under the action of the refrigerating piece.

At present, ice trays of ice making equipment in the market are mainly made of copper materials, and chemical nickel layers are electroplated on the surfaces of the copper ice trays to prevent corrosion.

Therefore, the surface of the nickel layer is easy to corrode, discolor and oxidize, so that the ice making time and the ice removing time are prolonged, and the ice making efficiency is influenced; moreover, the manufactured ice blocks can have corrosive substances, and the requirements of food-grade eating are not met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a Teflon running water type ice tray, and aims to solve the problem that ice making by the ice tray does not meet food-grade eating requirements in the prior art.

The utility model is realized in such a way that the Teflon running water type ice tray comprises a bottom plate, a plurality of transverse plates, a plurality of longitudinal plates and an anticorrosive layer, wherein the transverse plates are arranged at intervals in sequence, the longitudinal plates are arranged at intervals in sequence, the transverse plates and the longitudinal plates are arranged in a crossed and staggered manner to form a plurality of ice grids, and a water source enters the ice grids to be solidified to form ice blocks; the ice tray has the check wall, the check wall is to enclose to close and arranges, the anticorrosive coating includes the Teflon layer, the Teflon layer is the tiling and covers the check wall.

Furthermore, the bottom plate is provided with a plate end face facing the ice tray, the Teflon layer is tiled to cover the plate end face, the ice tray is provided with a rear end opening, and the plate end face seals the rear end opening of the ice tray.

Furthermore, the bottom plate has the orientation the back terminal surface of ice check, heat conduction silica gel layer has been laid to the back terminal surface, heat conduction silica gel layer contradicts the cold source and arranges.

Further, the plurality of transverse plates, the plurality of longitudinal plates and the bottom plate are arranged in a die-casting mode.

Further, the cell walls include a treatment layer formed by sand blasting and having a plurality of fine pores, and a base oil layer; the bottom oil layer is paved to cover the treatment layer, and the Teflon layer is paved to cover the bottom oil layer.

Further, the cell wall comprises an upper wall surface, a lower wall surface, a left wall surface and a right wall surface, the upper wall surface and the lower wall surface are arranged in an up-down corresponding manner, the left wall surface and the right wall surface are arranged in a two-side corresponding manner, and the left wall surface, the upper wall surface, the right wall surface and the lower wall surface are sequentially arranged in a butt-joint surrounding manner; the Teflon layer is tiled to cover the left wall surface, the upper wall surface, the right wall surface and the lower wall surface respectively.

Further, along deviating from the bottom plate direction, the lower wall face is gradually arranged downwards in an inclined mode.

Further, the left wall surface is arranged vertically, the right wall surface is arranged vertically, and the left wall surface and the right wall surface are arranged in parallel at intervals.

Furthermore, the left wall surface and one end of the lower wall surface are in arc transition connection arrangement, and the right wall surface and the other end of the lower wall surface are in arc transition connection arrangement.

Further, the Teflon running water type ice tray comprises a copper pipe, the copper pipe is used for conveying a refrigerant, the copper pipe is die-cast in the bottom plate, and the copper pipe conveys the refrigerant to enable water of the ice tray to be solidified into ice blocks.

Compared with the prior art, the Teflon running water type ice tray provided by the utility model forms a plurality of ice lattices under the matching action of the transverse plates, the longitudinal plates and the bottom plate, water enters the ice lattices, and water is solidified into ice blocks through refrigeration; owing to set up the teflon layer, the teflon layer possesses the non-adhesion, and the ice-making process does not have the incrustation scale and remains, and the ice check is difficult to corrode, simultaneously, is convenient for take off ice, improves ice-making efficiency to, adopt the teflon layer, make the ice-cube of making accord with food grade edible requirement, improve the edible security of ice-cube.

Drawings

Fig. 1 is a schematic perspective view of a teflon running water type ice tray provided by the present invention;

fig. 2 is a schematic perspective view of an ice tray of a teflon running water type ice tray provided by the present invention;

fig. 3 is a schematic layout view of an anticorrosive layer of a teflon running water type ice tray provided by the present invention;

fig. 4 is a schematic layout view of a copper pipe of a teflon running water type ice tray according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-4, preferred embodiments of the present invention are shown.

The Teflon running water type ice tray comprises a bottom plate 3, a plurality of transverse plates 1, a plurality of longitudinal plates 2 and an anticorrosive layer, wherein the transverse plates 1 are arranged at intervals in sequence, the longitudinal plates 2 are arranged at intervals in sequence, the transverse plates 1 and the longitudinal plates 2 are arranged in a crossed and staggered manner to form a plurality of ice grids 5, and a water source enters the ice grids 5 to be solidified to form ice blocks; the ice tray 5 is provided with a tray wall which is arranged in a surrounding way, the anti-corrosion layer comprises a Teflon layer 4, and the Teflon layer 4 is tiled to cover the tray wall.

Under the matching action of the transverse plates 1, the longitudinal plates 2 and the bottom plate 3, the Teflon running water type ice tray forms a plurality of ice lattices 5, water enters the ice lattices 5, and water is solidified into ice blocks through refrigeration; owing to set up teflon layer 4, teflon layer 4 possesses the non-adhesion, and the ice-making process does not have the incrustation scale to remain, and ice check 5 is difficult to corrode, simultaneously, is convenient for de-ice, improves ice-making efficiency to, adopt teflon layer 4, make the ice-cube of making accord with food grade edible requirement, improve the edible security of ice-cube.

In the prior art, the ice grids 5 are spliced manually, and then the transverse plates 1, the longitudinal plates 2 and the bottom plate 3 are fixedly arranged relatively by adopting a welding mode; the welding mode is susceptible to corrosion and does not meet food-grade eating requirements.

The bottom plate 3 is provided with a plate end face facing the ice tray 5, the Teflon layer 4 is flatly laid on the plate end face, the ice tray 5 is provided with a rear end opening, and the plate end face blocks the rear end opening of the ice tray 5; like this, the indisputable fluorine dragon layer 4 covers comprehensively, and the guarantee ice-cube that makes accords with food level edible requirement, improves the edible security of ice-cube.

The bottom plate 3 is provided with a back end face facing the ice tray 5, a heat conduction silica gel layer is laid on the back end face, and the heat conduction silica gel layer is arranged in a mode of abutting against a cold source; facilitating the conduction of the refrigeration source to the sole plate 3 and thereby facilitating the freezing of the water of the ice grid 5 into ice cubes.

The plurality of transverse plates 1, the plurality of longitudinal plates 2 and the bottom plate 3 are arranged in a die-casting manner; the die-casting efficiency is higher, the quality is better, and the manufacturing cost is favorably reduced.

The cell walls include a treatment layer 6 and a base oil layer 7, the treatment layer 6 is formed by sand blasting, and the treatment layer 6 has a plurality of fine pores; the bottom oil layer 7 is paved to cover the processing layer 6, and the Teflon layer 4 is paved to cover the bottom oil layer 7.

The surface of the lattice wall is subjected to sand blasting treatment, so that oil, impurities and the like on the surface of the lattice wall are cleaned by a physical method, and meanwhile, the treatment layer 6 is provided with a plurality of fine holes, so that the adhesion with the bottom oil layer 7 is enhanced, and the matching effect of the bottom oil layer 7 and the treatment layer 6 is improved.

The applicable base oil coating is selected and evenly sprayed on the surface of the treatment layer 6, and the thickness of the base oil layer 7 is about 10UM so as to be better combined with the treatment layer 6.

And (3) spraying a surface coating on the surface of the bottom oil layer 7, namely, realizing the spraying of the Teflon layer 4 based on a Teflon spraying process so as to facilitate the better combination of the bottom oil layer 7.

The lattice wall comprises an upper wall surface, a lower wall surface, a left wall surface and a right wall surface, the upper wall surface and the lower wall surface are arranged in an up-down corresponding manner, the left wall surface and the right wall surface are arranged in a two-side corresponding manner, and the left wall surface, the upper wall surface, the right wall surface and the lower wall surface are sequentially arranged in a butt-joint and surrounding manner; the Teflon layer 4 is respectively tiled to cover the left wall surface, the upper wall surface, the right wall surface and the lower wall surface; in this way, the formation of the ice tray 5 is facilitated, and the arrangement of the teflon layer 4 is also facilitated.

Along the direction departing from the bottom plate 3, the lower wall surface is gradually downwards obliquely arranged; like this, the ice-making is accomplished the back, and the switching is the heat conduction, makes the ice-cube be the deicing and arranges, and this moment, because the lower wall face is downward and is the slope and arranges, the ice-cube is based on the influence of gravity, changes and breaks away from ice tray 5, is convenient for follow-up ice-cube to making and collects.

The left wall surface is vertically arranged, the right wall surface is vertically arranged, and the left wall surface and the right wall surface are arranged in parallel at intervals; the formation of the ice tray 5 of being convenient for, the setting on the teflon layer 4 of also being convenient for, simultaneously, the water source of being convenient for is interactive between each ice tray 5.

One end of the left wall surface and one end of the lower wall surface are in arc transition connection arrangement, and the other end of the right wall surface and the other end of the lower wall surface are in arc transition connection arrangement; therefore, the ice blocks are easier to separate from the ice tray 5, and the made ice blocks are convenient to collect subsequently.

The bottom plate 3 is circular arc transitional coupling with the inner of left wall face and arranges, and like this, the ice-cube is changeed and is broken away from ice tray 5, is convenient for follow-up ice-cube to making and collects.

The bottom plate 3 is circular arc transitional coupling with the inner of right wall face and arranges, and like this, the ice-cube is changeed and is broken away from ice tray 5, is convenient for follow-up ice-cube to making and collects.

The bottom plate 3 is circular arc transitional connection with the inner end of the upper wall surface, so that ice blocks are easier to separate from the ice grids 5, and the subsequent collection of the made ice blocks is facilitated.

The bottom plate 3 is circular arc transitional coupling with the inner of lower wall face and arranges, and like this, the ice-cube is changeed and is separated from ice tray 5, is convenient for follow-up ice-cube to making and collects.

The Teflon flowing water type ice tray comprises a copper pipe 8, the copper pipe 8 is used for conveying a refrigerant, the copper pipe 8 is die-cast in the bottom plate 3, and the copper pipe 8 conveys the refrigerant to enable water in the ice tray 5 to be solidified into ice blocks; under the action of the copper pipe 8, the ice tray 5 is refrigerated or the ice tray 5 is deiced.

This application adopts the die-casting to form the ice dish, does not need the manual work to assemble the ice dish, directly comes out the ice dish die-casting shaping, and copper pipe spare 8 inlays to be established in bottom plate 3 in addition, has saved the equipment manual work, and welding jig, cost of labor such as welding equipment, the ice dish can not warp moreover, helps reducing the production degree of difficulty of ice dish.

The copper pipe fittings 8 are completely die-cast into the bottom plate 3, all areas of the copper pipe fittings 8 participate in ice making and ice removing, energy waste is reduced, ice making cycle time is shortened, and daily ice making yield is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The Teflon running water type ice tray is characterized by comprising a bottom plate, a plurality of transverse plates, a plurality of longitudinal plates and an anticorrosive layer, wherein the transverse plates are arranged at intervals in sequence, the longitudinal plates are arranged at intervals in sequence, the transverse plates and the longitudinal plates are arranged in a crossed and staggered mode to form a plurality of ice grids, and a water source enters the ice grids and is solidified to form ice blocks; the ice tray has the check wall, the check wall is to enclose to close and arranges, the anticorrosive coating includes the Teflon layer, the Teflon layer is the tiling and covers the check wall.

2. A teflon running water type ice tray as claimed in claim 1, wherein the bottom plate has a plate end face facing the ice tray, the teflon layer is laid flat over the plate end face, the ice tray has a rear end opening, and the plate end face closes the rear end opening of the ice tray.

3. The Teflon running water type ice tray as claimed in claim 2, wherein the bottom plate has a back end surface facing the ice tray, and a heat conductive silica gel layer is laid on the back end surface and is abutted against a cold source.

4. The teflon running water type ice tray as claimed in any one of claims 1 to 3, wherein a plurality of the transverse plates, a plurality of the longitudinal plates and the bottom plate are die-cast in an arrangement.

5. A teflon water flowing type ice tray as claimed in any one of claims 1 to 3, wherein the cell walls include a processed layer and a bottom oil layer, the processed layer being formed by sand blasting, the processed layer having a plurality of fine pores; the bottom oil layer is paved to cover the treatment layer, and the Teflon layer is paved to cover the bottom oil layer.

6. The Teflon water-flowing type ice tray as claimed in any one of claims 1 to 3, wherein the cell walls include an upper wall surface, a lower wall surface, a left wall surface and a right wall surface, the upper wall surface and the lower wall surface are arranged in an up-down correspondence, the left wall surface and the right wall surface are arranged in a two-side correspondence, and the left wall surface, the upper wall surface, the right wall surface and the lower wall surface are arranged in a sequential butt-joint and closed arrangement; the Teflon layer is tiled to cover the left wall surface, the upper wall surface, the right wall surface and the lower wall surface respectively.

7. A teflon running water type ice tray as claimed in claim 6, characterized in that the lower wall surface is arranged to be inclined downward gradually in a direction away from the bottom plate.

8. The Teflon running water type ice tray as set forth in claim 6, wherein the left wall surface is vertically arranged, the right wall surface is vertically arranged, and the left wall surface and the right wall surface are spaced apart in parallel.

9. The Teflon water-flowing type ice tray as set forth in claim 6, wherein the left wall surface is disposed in arc transition with one end of the lower wall surface, and the right wall surface is disposed in arc transition with the other end of the lower wall surface.

10. The Teflon water flow type ice tray as claimed in any one of claims 1 to 3, wherein the Teflon water flow type ice tray includes a copper pipe member for conveying a cooling medium, the copper pipe member is die-cast in the base plate, and the copper pipe member conveys the cooling medium to promote water of the ice tray to be solidified into an ice block arrangement.

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