CN203274366U - Improved evaporation structure of ice maker - Google Patents

Abstract

The utility model provides an improved evaporation structure of an ice maker. The improved evaporation structure is used for the ice maker and has evaporating and condensing functions. The improved evaporation structure comprises an evaporator, a nano coating, a condenser pipe and a frame, wherein the evaporator is fixed to the frame, the nano coating coats the surface of the evaporator, the condenser pipe is fixed to the back side of the evaporator so that water flowing in the evaporator can be condensed into ice, the evaporator is provided with a plurality of longitudinal partition boards, a longitudinal groove is formed between two longitudinal partition boards, a plurality of transverse protruding ridges are arranged in each longitudinal groove so that when the water flows through the longitudinal grooves and is condensed into the ice, particle-shaped ice is formed under the blocking function of the transverse protruding ridges, and the nano coating comprises a teflon or nano silver ceramic material. Therefore, the improved evaporation structure is resistant to acid, alkali and corrosion, easy to clean due to the fact that mineral substances are not attached, and can solve the problems of rust, scaling and heavy metal pollution.

Description

The ice machine Steaming structure of improvement

Technical field

The utility model especially has the evaporimeter of a plurality of longitudinal baffles and a plurality of horizontal convex ridges relevant for a kind of ice machine Steaming structure of improvement, and covers whole evaporimeter by nano coating.

Background technology

In daily life, usually need ice cube, such as aquatic food needs the freshness of freezing low temperature to keep, or Ice needs ice cube to be used as main material.In the prior art field, the general ice machine that uses is with the manufacturing ice cube, and ice machine is mainly to utilize the condenser pipe contact evaporator that refrigerant is housed, and makes evaporimeter remain on low temperature below freezing, simultaneously water imported and flow through on evaporimeter, water can form ice cube because of condensation.Especially, general evaporimeter has the checker shape, can and form grid-like ice cube in order to accommodating water.

In order to improve the efficient of ice making, usually make evaporimeter with the copper material of high thermal conductivity coefficient.Yet evaporimeter can cause the surface of evaporimeter to be corroded and fouling long low temperature, icing reaching under water erosion, and affects the efficient of ice making, even pollutes the ice cube of made.So the solution of prior art is to form the metal level of protection use on the surface of evaporimeter with plating mode.

The shortcoming of above-mentioned prior art is, the electroplate liquid that uses in electroplated metal layer may cause the problem of heavy metal pollution, have a strong impact on soil and water quality in natural environment, and evaporimeter is for a long time repeatedly under ice making, can make the metal level of plating and the various ionizations in water, and discharge harmful metal ion in ice cube, affect eater's health.

Another shortcoming of prior art is, evaporimeter made of copper can produce burn into corrosion, fouling, and be not easy to clean, make and to utilize specific chemical, increase on the contrary the chance of polluting, even in the burn into corrosion, when fouling is serious, electroplating processes again also causes the problem of heavy metal pollution more.

Therefore, the ice machine Steaming structure that needs a kind of improvement, utilize nano coating and have the evaporimeter of a plurality of longitudinal baffles, a plurality of horizontal convex ridges, antiacid, alkali resistant, erosion-resisting characteristics are provided, and do not stick mineral matter, impurity, or fouling, not only convenient cleaning, can avoid heavy metal pollution, but also can improve ice making efficient, solve the problem of above-mentioned prior art.

The utility model content

Main purpose of the present utility model is providing a kind of ice machine Steaming structure of improvement, be used for ice machine so that the evaporative condenser function to be provided, comprise evaporimeter, nano coating, condenser pipe and framework, wherein nano coating is to be coated on the surface of evaporimeter, and evaporimeter is settle and be fixed in framework, and condenser pipe is the back side that arranges and be fixed in evaporimeter, and the cooling evaporimeter on the front of framework in order to import refrigerant makes the water condensable Cheng Bing in the front that from top to bottom flows into evaporimeter.

the front of evaporimeter has a plurality of longitudinal baffles, adjacent longitudinal baffle forms vertical irrigation canals and ditches, and each vertical irrigation canals and ditches has a plurality of horizontal convex ridges, make water flow through vertical irrigation canals and ditches and be condensed into when icing, can be because of the barrier effect of horizontal convex ridge to form granular ice, and can not form ice corresponding to the strip of whole vertical irrigation canals and ditches, wherein the granular size of ice is the width by vertical irrigation canals and ditches, the interval of the degree of depth and adjacent two horizontal convex ridges and deciding, that is the lateral dimension of ice is width and degree of depth decision by vertical irrigation canals and ditches, and the longitudinal size of ice is the interval determination by horizontal convex ridge.Therefore, vertically heal when large in the heal interval of large and horizontal convex ridge of the width of irrigation canals and ditches and the degree of depth, and the particle of ice can be healed greatly.Nano coating can comprise Teflon or Nano Silver ceramic material, can provide protective effect to evaporimeter, antiacid, the alkali resistant, anticorrosive of energy, and do not stick mineral matter, impurity, or fouling.

Therefore, the utlity model has antiacid, alkali resistant, erosion-resisting characteristic, and do not stick mineral matter or impurity and fouling especially is easy to clean, avoid heavy metal pollution.

Description of drawings

Fig. 1 shows the schematic perspective view of the ice machine Steaming structure of the utility model improvement.

Fig. 2 shows the schematic perspective view of condenser pipe in the ice machine Steaming structure of the utility model improvement.

Fig. 3 shows the cut-away view of evaporimeter in the ice machine Steaming structure of the utility model improvement.

Fig. 4 shows the schematic diagram of the ice machine Steaming structure of another embodiment improvement of the utility model.

Wherein, description of reference numerals is as follows:

10,10A evaporimeter

12 longitudinal baffles

The vertical irrigation canals and ditches of 12a

14 horizontal convex ridges

20 nano coatings

30 condenser pipes

40 frameworks

50 carrying bodies

H1, H2 height

W water

The specific embodiment

Below coordinate accompanying drawing and Reference numeral to do more detailed description to embodiment of the present utility model, make and have the knack of those skilled in the art and can implement according to this after studying this specification carefully.

With reference to figure 1, the schematic diagram of the ice machine Steaming structure of the utility model improvement.As shown in Figure 1, the ice machine Steaming structure of improvement of the present utility model mainly comprises evaporimeter 10, nano coating 20, condenser pipe 30 and framework 40, wherein nano coating 20 is to be coated on the surface of evaporimeter 10, and framework 40 is to settle evaporimeter 10 and condenser pipe 30 being combined into one, and framework 40 can be further vertical or tiltably-mounted or be arranged in the ice machine (not shown).Therefore, the utility model can be used for ice machine and the function of evaporative condenser is provided, and makes the water W that from top to bottom flows into evaporimeter 10 form the ice cube of default size through condensation.

Particularly, nano coating 20 can comprise Teflon or Nano Silver ceramic material, provides protective effect to evaporimeter, especially has antiacid, alkali resistant, anticorrosive, and the characteristic of non-scaling, and can not stick mineral matter or impurity, is easy to clean, maintain.

Evaporimeter 10 is settle and be fixed in framework 40, and the front of evaporimeter 10 has a plurality of horizontal longitudinal baffles 12 side by side, and form vertical irrigation canals and ditches 12a between adjacent two longitudinal baffles 12, and the surface of each vertical irrigation canals and ditches 12a has the horizontal convex ridge 14 of a plurality of vertical Uniform Dispersion configurations, can be in order to the water W of appropriate stop portions from the top inflow.

In addition, please also refer to Fig. 2, the schematic perspective view of condenser pipe in the ice machine Steaming structure of the utility model improvement, wherein condenser pipe 30 is better for the bending mode, such as the curved shape in figure, and settle and be fixed in the back side of evaporimeter 10, wherein can import the refrigerant of tool cooling effect, make the water W that is flowed into the front of evaporimeter 10 in Fig. 1 by the top, can flow through vertical irrigation canals and ditches 12a, and the appropriateness that is subject to horizontal convex ridge 14 stops and retardation, and therefore, laterally convex ridge 14 can further be strengthened the condensation of 30 couples of water W of condenser pipe.Especially as shown in the cut-away view of Fig. 3, laterally height (or degree of depth) H1 of convex ridge 14 is height (or degree of depth) H2 less than longitudinal baffle 12, so water W still can continue toward current downflow, and form the graininess ice cube between two adjacent horizontal convex ridges 14, the granular size of its medium floe is to be decided by the interval of the width of vertical irrigation canals and ditches 12a, the degree of depth and adjacent two horizontal convex ridges 14, that is the lateral dimension of ice cube is to be determined by the width of vertical irrigation canals and ditches 12a and the degree of depth, and the longitudinal size of ice cube is the interval determination by horizontal convex ridge 14.Therefore, vertically heal when large in the heal interval of large and horizontal convex ridge 14 of the width of irrigation canals and ditches 12a and the degree of depth, and the particle of ice cube can be healed greatly.

Particularly, the horizontal convex ridge 14 in Fig. 3 is downward-sloping tabulars, uses flowing of guiding water W, and can make the ice cube that condenses easily drop and break away from evaporimeter 10 downwards.But be noted that horizontal convex ridge 14 also available other shape convex ridge and realize, such as the triangle convex ridge.

In addition, for strengthening the attaching degree between evaporimeter 10 and condenser pipe 30, use the condensation effect of giving full play to condenser pipe 30, can be as shown in Figure 3, the back side of evaporimeter 10 has a plurality of arcs of the round tube shape that can coordinate condenser pipe 30.Nano coating 20 also can coat the back side and the condenser pipe 30 of evaporimeter 10, and evaporimeter 10 and condenser pipe 30 are mutually combined.

Further, with reference to figure 4, the schematic diagram of the ice machine Steaming structure of another embodiment improvement of the utility model, be similar to the embodiment of Fig. 1, mainly comprise evaporimeter 10A, nano coating 20, condenser pipe 30 and carrying body 50, wherein carry body 50 for columned carrier, be combined into one in order to settle evaporimeter 10A and condenser pipe 30, and evaporimeter 10A is cylindric, and nano coating 20 covers on the surface of evaporimeter 10A.

Especially, condenser pipe 30 (dotted portion) is the inside that is placed in evaporimeter 10A, and is attached at the inwall of evaporimeter 10A, and condenser pipe 30 better can be the spiral circle tubulose, condensation is provided in order to import refrigerant.Therefore, the water W that flows into from the top can flow down along the outer surface of evaporimeter 10A, and condensation is dropped to form ice cube.

Therefore the technical characterictic of remaining component repeats no more as the embodiment of Fig. 1.

In sum, characteristics of the present utility model are that the surface of evaporimeter is to be covered by nano coating, and antiacid, alkali resistant, erosion-resisting characteristics can be provided, and can not stick mineral matter, impurity, or the formation fouling, convenient cleaning, maintenance, and have advantages of the heavy metal pollution of avoiding.

In addition, another characteristics of the present utility model are that the front of evaporimeter has a plurality of longitudinal baffles to form vertical irrigation canals and ditches, can guide the flow direction of water, and vertically irrigation canals and ditches have a plurality of horizontal convex ridges, can appropriateness stop that current are to strengthen condensation effects, allow simultaneously water form the graininess ice cube of default size, thereby improve ice making efficient, and simplify overall structure.

Above said content is only in order to explain preferred embodiment of the present utility model; be not that attempt is done any pro forma restriction to the utility model according to this; therefore; all have do relevant any modification of the present utility model or change under identical creation spirit, all must be included in the category of the utility model intention protection.

Claims (8)

1. the ice machine Steaming structure of an improvement, in order to settle or to be arranged in an ice machine, is characterized in that, comprising:

One evaporimeter, comprise a positive and back side, and the front of this evaporimeter has a plurality of horizontal longitudinal baffles side by side, and form vertical irrigation canals and ditches between two adjacent longitudinal baffles, and the surface of each vertical irrigation canals and ditches has the horizontal convex ridge of a plurality of vertical Uniform Dispersions configurations, and the height of this horizontal convex ridge is the height less than this longitudinal baffle;

One nano coating comprises Teflon or Nano Silver ceramic material, covers the whole surface of this evaporimeter;

One condenser pipe is arranged at the back side of this evaporimeter, in order to import a refrigerant, provides condensation; And

One framework, in order to settling this evaporimeter and this condenser pipe being combined into one,

Wherein vertical irrigation canals and ditches of this evaporimeter are past dirty from the water of top in order to guiding, and the horizontal convex ridge in these vertical irrigation canals and ditches is in order to the past dirty water of stop portions, make the condensation of this condenser pipe allow the water-cooled ice cube that congeals into, and the size of this ice cube is decided by the interval of width, the degree of depth and the adjacent two horizontal convex ridges of these vertical irrigation canals and ditches.

2. the ice machine Steaming structure of improvement as claimed in claim 1, is characterized in that, the lateral dimension of this ice cube is to be determined by the width of these vertical irrigation canals and ditches and the degree of depth, and the longitudinal size of this ice cube is the interval determination by this interval of adjacent two horizontal convex ridges.

3. the ice machine Steaming structure of improvement as claimed in claim 1, is characterized in that, this horizontal convex ridge is tabular convex ridge or triangle convex ridge.

4. the ice machine Steaming structure of improvement as claimed in claim 1, is characterized in that, this condenser pipe is round tube shape, and have a plurality of curved shapes, and the back side of this evaporimeter has a plurality of arcs that coordinate this condenser pipe, uses attaching this condenser pipe.

5. the ice machine Steaming structure of improvement as claimed in claim 1, is characterized in that, this nano coating coats the back side and this condenser pipe of this evaporimeter, and this evaporimeter and this condenser pipe are mutually combined.

6. the ice machine Steaming structure of an improvement, in order to settle or to be arranged in an ice machine, is characterized in that, comprising:

One evaporimeter is for cylindric;

One nano coating comprises Teflon or Nano Silver ceramic material, covers the whole surface of this evaporimeter;

One condenser pipe is placed in the inside of this evaporimeter, and is attached at the inwall of this evaporimeter, in order to import a refrigerant, provides condensation; And

One carrying body is columned carrier, is combined into one in order to settle this evaporimeter and this condenser pipe,

Wherein this evaporimeter in order to guiding from the water of top toward dirty, make the condensation of this condenser pipe allow the water-cooled ice cube that congeals into.

7. the ice machine Steaming structure of improvement as claimed in claim 6, is characterized in that, this condenser pipe is the spiral circle tubulose.

8. the ice machine Steaming structure of improvement as claimed in claim 6, is characterized in that, this nano coating coats inwall and this condenser pipe of this evaporimeter, and this evaporimeter and this condenser pipe are mutually combined.

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