CN215260671U - C-shaped ice evaporator for ice maker - Google Patents

Abstract

The utility model discloses a C shape ice evaporimeter for ice maker, including the system ice strip, open at system ice strip middle part has refrigerant passageway, refrigerant passageway pipe connection inlet tube, the system ice strip is equipped with a plurality ofly, and parallel arrangement from top to bottom is followed, and the refrigerant passageway of adjacent system ice strip passes through the return bend and connects, the return bend forms snakelike evaporation pipeline with refrigerant passageway, and upper and lower adjacent system ice strip passes through the buckle and connects, forms the system ice face, and system ice strip buckle connection water guide strip the top, evenly distributed has a plurality of well parting beads on the system ice face, and both ends are equipped with the side strake, well parting bead vertically cuts apart into even a plurality of little system ice regions with the system ice face. The section of the ice block made by the device is similar to a letter C, and the ice shape is beautiful; the ice template and the evaporating pipe are integrally constructed, so that the heat exchange area is large, and the phenomenon of desoldering of the ice template and the evaporating pipe is fundamentally avoided. The evaporator with various models can be constructed by adopting the assembly, and the market requirement can be met.

Description

C-shaped ice evaporator for ice maker

Technical Field

The utility model relates to an ice machine technical field, concretely relates to C shape ice evaporator for ice machine.

Background

An ice maker is a refrigeration machine that produces ice by cooling water through an evaporator with a refrigerant in a refrigeration system. The shapes of the generated ice are different according to different principles of evaporators and generation processes, and people generally divide ice machines into a particle ice machine, a flake ice machine, a plate ice machine, a tube ice machine, a shell ice machine and the like according to the shapes of the ice. The most of the granular ice products are square ice, round ice, bullet ice, cup ice, crescent ice and the like, but the market still expects new ice shapes.

The evaporator is used as an important component in the ice maker, the principle is that high-pressure refrigerant liquid is evaporated in the evaporating pipe through the throttling device, the refrigerant is gasified and absorbs heat to achieve the refrigerating effect, the evaporating pipe transmits cold energy to an ice template in the ice maker, and water which is poured into the ice template is frozen to form ice blocks, so that the ice maker can be used.

An ice template and an evaporation tube of an evaporator of the existing ice maker are separately arranged, the evaporation tube is coiled and welded on a bottom plate of the evaporator, the contact area is small, only one side of the bottom surface is used for refrigerating, the energy transfer efficiency is low, and the energy efficiency is low. In order to ensure that the evaporating pipe can reliably refrigerate the ice mold plate, and therefore, to ensure the compactness of the evaporating pipe and the ice mold plate during manufacturing and assembling, in the prior art, the manufacturing process here is as follows: the method comprises the steps of firstly plating tin on the surfaces of an ice template and an evaporation tube, then coating solder paste between the evaporation tube and the ice template, clamping a copper tube and the ice template by a clamp, putting the copper tube and the ice template into a heating furnace for heating, taking out the copper tube and the ice template after heating for a certain time at a specified temperature, cooling and then cleaning by a reagent. By adopting the welding assembly process, although the close connection between the ice template and the evaporating pipe can be ensured, the defects of complex process and high process requirement exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a C shape ice evaporator for ice machine to solve the problem of mentioning in the background art. In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a C shape ice evaporimeter for ice machine, includes the ice making strip, open at the ice making strip middle part has refrigerant passageway, refrigerant passageway pipe connection business turn over pipe, the ice making strip is equipped with a plurality ofly, and along upper and lower parallel arrangement, the refrigerant passageway of adjacent ice making strip passes through the return bend connection, the return bend forms snakelike evaporation pipeline with refrigerant passageway, the business turn over pipe is located snakelike evaporation pipeline's both ends, and upper and lower adjacent ice making strip passes through the buckle and connects, forms the ice making face, and the ice making strip buckle of the top connects water guide strip, evenly distributed has a plurality of well parting beads on the ice making face, and both ends are equipped with the side strake, well parting bead vertically cuts apart into even a plurality of little regions with the ice making face.

Preferably, the upper end of the ice making strip is provided with a boss, the lower end of the ice making strip is provided with a connecting groove, the refrigerant channel is arranged in the middle of the ice making strip, the outer surface of the refrigerant channel is provided with an ice making curved surface, an ice making plane extends up and down from the ice making curved surface, a weight-reducing heat-insulating cavity is arranged in the middle of the front ice making plane and the back ice making plane, the top end of the upper ice making plane is connected with the boss, the bottom end of the lower ice making plane is connected with the connecting groove, and the connecting groove can be connected with the boss in a buckling mode.

Preferably, the water guide strip comprises an upper cavity and a lower connecting groove, and the lower connecting groove can be connected with the boss in a buckling mode.

Preferably, the number of the ice making strips is 3.

Preferably, the middle division bar and the side bars have the same structure, and the cross section of the middle division bar and the side bars is of a V-shaped structure.

The utility model discloses a technological effect and advantage: the section of the ice block made by the device is similar to a letter C, and the ice shape is beautiful; the ice template and the evaporating pipe are integrally constructed, so that the heat exchange area is large, and the phenomenon of desoldering of the ice template and the evaporating pipe is fundamentally avoided. The evaporator with various models can be constructed by adopting the assembly, and the market requirement can be met.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a left side view of the present invention;

FIG. 3 is a cross-sectional view taken along A-A of FIG. 1;

fig. 4 is a schematic structural view of the ice making strip of the present invention;

fig. 5 is a schematic structural view of the water guide strip of the present invention;

FIG. 6 is a schematic view of the structure of the septum of the present invention;

fig. 7 is a schematic diagram of the present invention for producing C-shaped ice cubes.

In the figure: 1-ice making strip, 2-refrigerant channel, 3-inlet and outlet pipe, 4-elbow pipe, 5-ice making surface, 6-water guide strip, 7-middle parting strip, 8-side strip, 9-boss, 10-connecting groove, 11-ice making curved surface, 12-ice making plane, 13-upper cavity, 14-lower connecting groove and 15-C-shaped ice block.

Detailed Description

In order to make the technical means, the creative features, the objectives and the functions of the present invention easily understood and appreciated, the present invention will be further described with reference to the specific drawings, and in the description of the present invention, unless otherwise specified or limited, the terms "mounted," connected "and" connected "should be understood broadly, and for example, the terms" fixed connection, "detachable connection," integral connection, mechanical connection, and electrical connection may be used; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

Example 1

The C-shaped ice evaporator for the ice making machine shown in fig. 1-3 comprises ice making strips 1, wherein a refrigerant channel 2 is formed in the middle of each ice making strip 1, the refrigerant channel 2 is connected with an inlet and outlet pipe 3 through a pipeline, a plurality of ice making strips 1 are arranged in parallel up and down, the refrigerant channels 2 of the adjacent ice making strips 1 are connected through a bent pipe 4, the bent pipe 4 and the refrigerant channels 2 form a snake-shaped evaporation pipeline, the inlet and outlet pipes 3 are positioned at two ends of the snake-shaped evaporation pipeline, the upper and lower adjacent ice making strips 1 are connected through buckles to form an ice making surface 5, the uppermost ice making strip 1 is connected with a water guide strip 6 through buckles, a plurality of middle separation strips 7 are uniformly distributed on the ice making surface 5, side edge strips 8 are arranged at two ends of the ice making surface 5, and the middle separation strips 7 longitudinally divide the ice making surface 5 into a plurality of uniform small ice making areas.

Example 2

The C-shaped ice evaporator for the ice making machine shown in fig. 1-6 comprises ice making strips 1, wherein a refrigerant channel 2 is formed in the middle of each ice making strip 1, the refrigerant channel 2 is connected with an inlet and outlet pipe 3 through a pipeline, the ice making strips 1 are provided with 3, the ice making strips are arranged in parallel up and down, the refrigerant channels 2 of the adjacent ice making strips 1 are connected through a bent pipe 4, the bent pipe 4 and the refrigerant channels 2 form a snake-shaped evaporation pipeline, the inlet and outlet pipes 3 are positioned at two ends of the snake-shaped evaporation pipeline, the upper and lower adjacent ice making strips 1 are connected through buckles to form an ice making surface 5, the uppermost ice making strip 1 is connected with a water guide strip 6 through buckles, a plurality of middle separation strips 7 are uniformly distributed on the ice making surface 5, side edge strips 8 are arranged at two ends of the ice making surface 5, and the middle separation strips 7 longitudinally divide the ice making surface 5 into a plurality of uniform small ice making areas.

Preferably, the upper end of the ice making strip 1 is provided with a boss 9, the lower end of the ice making strip is provided with a connecting groove 10, the refrigerant channel 2 is opened in the middle of the ice making strip 1, the outer surface of the refrigerant channel 2 is provided with an ice making curved surface 11, the ice making curved surface 11 extends up and down to form an ice making plane 12, a weight-reducing heat-insulating cavity 13 is arranged in the middle of the front ice making plane 12 and the back ice making plane 12, the top end of the upper ice making plane 12 is connected with the boss 9, the bottom end of the lower ice making plane 12 is connected with the connecting groove 10, and the connecting groove 10 can be connected with the boss 9 in a buckling manner.

Preferably, the water guiding strip 6 comprises an upper cavity 13 and a lower connecting groove 14, the lower connecting groove 14 can be in snap connection with the boss 9, and the water guiding strip 6 is used for installing a water diversion component of the ice maker.

Preferably, the middle division bar 7 and the side bars 8 have the same structure, and the cross section of the middle division bar is of a V-shaped structure.

The utility model discloses process flow and theory of operation do: according to production requirements, an appropriate number of ice making strips 1 are selected to form an ice making surface 5 with an appropriate area, the device is installed on an ice making machine, water is injected into the ice making surface 5, a refrigerant is introduced into a refrigerant channel 2, liquid of the refrigerant is evaporated, gasification and heat absorption are carried out to achieve a refrigeration effect, cold energy is transmitted to the water on the ice making surface 5 through the ice making strips, and as shown in figure 7, the ice is frozen to generate corresponding C-shaped ice blocks 15.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (5)

1. The utility model provides a C shape ice evaporimeter for ice machine, includes the ice-making strip, its characterized in that: the ice making device is characterized in that a refrigerant channel is formed in the middle of the ice making strips, the refrigerant channel is connected with an inlet pipe and an outlet pipe, the ice making strips are arranged in a plurality of parallel arrangement from top to bottom, the refrigerant channels of adjacent ice making strips are connected through a bent pipe, the bent pipe and the refrigerant channel form a snake-shaped evaporation pipeline, the inlet pipe and the outlet pipe are located at two ends of the snake-shaped evaporation pipeline, the ice making strips adjacent from top to bottom are connected through a buckle to form an ice making surface, the uppermost ice making strip is connected with a water guide strip in a buckling mode, a plurality of middle separation strips are uniformly distributed on the ice making surface, side edge strips are arranged at two ends of the ice making surface, and the ice making surface is longitudinally divided into a plurality of uniform small ice making areas through the middle separation strips.

2. The C-shaped ice evaporator for an ice maker according to claim 1, wherein: the ice making device is characterized in that a boss is arranged at the upper end of the ice making strip, a connecting groove is arranged at the lower end of the ice making strip, the refrigerant channel is arranged in the middle of the ice making strip, an ice making curved surface is arranged on the outer surface of the refrigerant channel, an ice making plane extends up and down from the ice making curved surface, a weight-reducing heat-insulating cavity is arranged in the middle of the front ice making plane and the back ice making plane, the top end of the upper ice making plane is connected with the boss, the bottom end of the lower ice making plane is connected with the connecting groove, and the connecting groove can be connected with the boss in a buckling mode.

3. The C-shaped ice evaporator for an ice maker according to claim 2, wherein: the water guide strip comprises an upper cavity and a lower connecting groove, and the lower connecting groove can be connected with the boss in a buckling mode.

4. The C-shaped ice evaporator for an ice maker according to claim 1, wherein: the number of the ice making strips is 3.

5. The C-shaped ice evaporator for an ice maker according to claim 1, wherein: the middle division bar and the side bars have the same structure, and the cross section of the middle division bar and the side bars is of a V-shaped structure.

Images